Hyponic - Akron Gear
Transcription
Hyponic - Akron Gear
Hyponic ® Hypoid Right Angle Gearmotor and Reducer Catalog 12.001.50.002 Hyponic ® Hypoid Right Angle Gearmotors and Reducers Sumitomo’s patented Hyponics are high-performance reducers and gearmotors that feature all-steel hypoid gearing. Proven Performance in a Full Range of Ratios Over one million Hyponic drives in service worldwide. Ratios from 5:1 to 1440:1 available. 100 Extremely Quiet Operation Smooth, silent operation is a benefit of hypoid gearing. Offset design and all-steel gearing transmit more torque than other designs. Maintenance Free: Extraordinary Reliability Trouble-free grease lubrication, no oil level to maintain, no oil changes. Efficiency (%) Patented Compact Design: More Torque Delivered 90 Hyponic 80 70 60 50 Worm Gears 5 25 50 75 100 150 200 250 Reduction Ratio Universal Housing Design Minimizes Spares Modular housing design accommodates hollow output shaft, solid output shaft, flange mounted and foot mounted designs. Adaptable Integral motorized, C-face adaptor and free input shaft styles enable users to optimize their selections. Two-Year Warranty Outstanding Efficiency Saves Money Efficiencies far higher than worm gearing. Highly efficient across all ratios. No cooling fans are required, ever. Hyponic hypoid gearing demonstrates efficiencies of 85-90% within the range of 10 to 240:1. Not limited by operational hours or duty cycle. We keep things moving. Hyponic Table of Contents Page Page Nomenclature.............................................................2 Technical Information ...........................................D-1 Basic Information and Recommendations ....................................................4 Shaft Dimensions............................................D-2 Hyponic Gearmotors..............................................A-1 Actual Reduction Ratio ...................................D-4 Product Range ................................................A-2 Allowable Overhung Load...............................D-5 Standard Specifications ..................................A-4 Moment of Inertia............................................D-6 Gearmotor Selection Flowchart and Procedure ............................................A-5 Construction and Nameplate ..........................D-7 AGMA Load Classifications ............................A-7 Motor Thermal Ratings ...................................A-9 Hollow Shaft Type Selection Tables 3-Phase Motor ..........................................A-10 Single-phase Motor ..................................A-17 Inverter Duty .............................................A-19 Hollow Shaft Type Dimensions 3-Phase Motor ..........................................A-22 Single-phase Motor ..................................A-27 Inverter Duty .............................................A-29 Hyponic Speed Reducers......................................B-1 Product Range, Standard Specifications and Recommended Service Factors ..........B-2 Shaft Rotation .................................................D-3 Output Shaft Safety Cover Dimensions ..........D-8 Torque Arm.....................................................D-8 Mounting .......................................................D-10 Lubrication ....................................................D-12 Paint and Rust Proofing Specifications.........D-12 Motor Information Conduit Box Mounting Direction ..............D-14 Motor Cover Mounting Specifications.......D-14 Conduit Box Dimensions ..........................D-15 Standard Motor Characteristics................D-16 Assembly Drawings..................................D-18 Motor Thermal Ratings.............................D-19 Brakemotor Characteristics ......................D-20 AGMA Load Classifications ............................B-3 Standard Wiring Connection ....................D-22 Reducer Selection Flowchart and Procedure ............................................B-4 Assembly of Brakemotors ........................D-23 Reducer Selection Tables Standards Motor Protection ...........................................D-26 1450 RPM...................................................B-8 International Standards and Corresponding Sumitomo Standards................................D-27 1165 RPM.................................................B-10 EC Directives and CE Marking .....................D-29 980 RPM...................................................B-12 Precautions for Inverter Driving ....................D-31 870 RPM...................................................B-14 Constant Torque Operation of General Purpose Motors ........................................D-32 1750 RPM...................................................B-6 720 RPM...................................................B-16 580 RPM...................................................B-18 50 RPM.....................................................B-20 Reducer Dimensions Frame Size 1120~1520Y..........................B-22 Frame Size 1230~1531Y..........................B-23 Hyponic Gearmotor and Reducer Options.............................................................C-1 Plug-in Solid Output Shaft ..............................C-2 Plug-in Solid Output Shaft, Foot Mounted .............................................C-3 Output Flange .................................................C-4 General Engineering Information Basic Power Transmission Formulas ...........D-34 Formula Derivations......................................D-36 Common Conversion Factors .......................D-37 Nomenclature & Mounting Positions The complete Hyponic ® is specified by the use of 14 references. 1 2 3 4 5 R N Y M S 6 7 8 05 1 2 2 0 9 10 11 12 13 14 A AV Y1 B 38 Ratio Frame size Brake Gearmotor HP (1750 rpm) Optional Specification suffix (as required) Motor Specification Special feature Input connection Mounting style Output shaft orientation Hyponic product code AGMA class (gearmotor only) Shaft specification O/P shaft direction (shafted model only) TABLE 1 HYPONIC PRODUCT CODE PREFIX TYPE R Hypoid Gear TABLE 7 MODEL SIZE Frame Size TABLE 2 OUTPUT SHAFT ORIENTATION PREFIX TYPE Universal Direction (Maintenance Free) N 361 1120 461 1220 56 1320 60 1420 63 1520 64 1230 1330 1430 TABLE 3 MOUNTING STYLE 1530 PREFIX TYPE Y Shaft Mount (Hollow Shaft) F Flange (Solid Shaft) H Foot (Solid Shaft) 1531 TABLE 8 OUTPUT SHAFT DIRECTION (Shafted Model Only) TABLE 4 INPUT CONNECTION PREFIX INPUT CONNECTION REDUCER W/MOTOR M Integral Motor J JM C-Face Adaptor L Projects to Left Side R Projects to Right Side T Projects to Both Left/Right Sides WHEN VIEWED FROM MOTOR END TABLE 9 SHAFT SPECIFICATIONS SUFFIX TABLE 5 MODIFICATION OUTPUT SHAFT SYMBOL PREFIX HOLLOW Y S Special INPUT SOLID SHAFT Key (Inch) Inch Inch Key (Metric) Metric Metric Standard TABLE 6 GEARMOTOR HP (APPLIES ONLY TO 1750 RPM) 2 CAPACITY SYMBOL HP (kW) CAPACITY SYMBOL HP (kW) 01 1/8 (0.1) 1H 02 1/4 (0.2) 03 1/3 (0.25) 05 TABLE 10 AGMA CLASS (Integral Motor Type Only) SUFFIX CLASS A I 1 1/2 (1.1) B II 2 2 (1.5) C III 3 3 (2.2) 1/2 (0.4) 5 5 (3.7) 08 3/4 (0.55) 8 7 1/2 (5.5) 1 1 (0.75) Hyponic TABLE 14 STANDARD NOMINAL REDUCTION RATIOS TABLE 11 MOTOR SPECIFICATIONS STANDARD RATIOS SUFFIX SPECIFICATION AV AF Motor (ADJ Frequency) 5 20 60 200 SG Single Phase Motor 7 25 80 240 750 Three Phase Motor 10 30 100 300 900 12 40 120 360 1200 15 50 150 480 1440 TABLE 12 OPTIONAL SPECIFICATIONS SUFFIX (as required) SUFFIX SPECIFICATION HOLLOW BORE OPTIONS Extended Flange (for motor clearance) F1 Left (Viewed from motor end) 560 NOMENCLATURE EXAMPLES: RNYJ – 1220Y – 5 R – Hyponic N – Universal Mount Y – Shaft Mount (Hollow Shaft) J – C-Face Input 1220 – Model Size Y – Inch 5 – Ratio RNFM05 – 1220L YA – J1 – 20 G1 Right (Viewed from motor end) SOLID SHAFT OPTIONS R – Hyponic N – Universal Mount F – Flange Mount (Solid Shaft) M – Integral Motor 05 – 1/2 HP 1220 – Model Size L – Left O/P Shaft Direction YA – Y: Inch, A: AGMA Class I J1 – Bolt-on Feet, Bottom 20 – Ratio When ordering, the following information should be included: X1 Plug-in Shaft Plug-in Shaft with Bolt-on Feet – Motor Specification (230/460 VAC 60 Hz is supplied, unless otherwise specified) – NEMA frame size for C-face adaptor Optional conduit box positions must be specified, otherwise the standard position is supplied. J1 Bottom S1 Opposite from Motor M1 Top Plug-in Shaft with Extended Flange (for motor clearance) P1 Left (Viewed from motor end) Q1 Right (Viewed from motor end) TABLE 13 BRAKE (Gearmotor Only) SUFFIX SPECIFICATION B With Brake No Brake Hyponic 3 Basic Information & Recommendations General Service Factors Selection of the Hyponic® speed reducer should be based on actual horsepower and torque requirements at the output shaft. Contrary to conventional gear reducers, the Hyponic® speed reducer has very high efficiencies over a wide range of reduction ratios. Proper selection frequently permits the use of reduced input power requirements without sacrificing torque at the output shaft. In general, gear drives are rated for a specific application by the use of Service Factors. Each application has its own conditions and operating requirements. There are three load classifications: uniform, moderate shock and heavy shock. These are further classified into duration of service per day and the prime mover. (See Table 15 below and Load Classification tables on pages A-7 ~ A-8 for Gearmotors and page B-3 for Reducers.) Drive Ratings Time of operation, frequency, and severity of shock must be determined in order to select the proper Hyponic® reducer for a specific application. To assist in the selection process, AGMA has defined standard Service Factors. Standard Hyponic® speed reducers are designed and built for long, maintenance-free, 10-hour daily service under conditions of uniform loads (equivalent to AGMA service factor 1.0). When your application involves more severe conditions, catalog ratings must be divided by the proper S.F., or the actual load must be multiplied by this factor. The Hyponic® reducer has higher overload capacity than conventional speed reducers as a result of the tooth shape, greater number of teeth in contact, and the high material quality of the components. Table 15 Recommended Reducer Service Factors LOAD CLASSIFICATIONS PRIME MOVER ELECTRIC MOTOR UNIFORM MODERATE SHOCK HEAVY SHOCK AGMA AGMA AGMA Occasional 1/2 hr. per day *0.50 *0.80 1.25 Intermittent 3 hrs. per day *0.80 1.00 1.50 Up to 10 hrs. per day 1.00 1.25 1.75 24 hours per day 1.25 1.50 2.00 DURATION OF SERVICE *Maximum momentary or starting load must not exceed 250% of gear reducer rating (rating meaning service factor of 1.0). Time specified for occasional and intermittent service refers to total operating time per day. Excessive Overloads Hyponic Speed Reducers provide 250% momentary intermittent shock load capacity and are warranted for 2 years from date of shipment. Refer to our standard terms and conditions for our complete warranty. ® Selection for Applications Involving Shock Loading For applications involving frequent start-stop, braking or reversing, or quick starting of load having large inertia, consult factory for model selection or recommended modifications. Allowable Radial and Thrust Loads The loads imposed on the slow speed shaft vary with the method of connecting the shaft to the driven machine. Frequently, in addition to torsional forces, radial and thrust loads are applied to the slow speed shaft at the same time. For 4 example, coupling connections normally involve torsional forces only. However, when power is transmitted through spur gears, belts, pulleys or chains, both torsional and radial forces may be applied to the slow speed shaft. When driving through helical or bevel gears, all three conditions (torsional, radial and thrust load) may be referred to the reducer shaft. The slow speed shaft and bearings must have sufficient strength to withstand these loads, and it is, therefore, necessary to determine the allowable limits for each condition. Load Centering The radial load capacities are calculated with the load concentrated at the midpoint of the slow speed shaft extension. Radial load capacities decrease if the center of the load is moved farther from the reducer and the values obtained from the charts must be adjusted accordingly. Hyponic Shaft Connections Warranty Pulley, sprocket or sheave connection – Mount any of the above as close to the unit housing as possible, never beyond the midpoint of the shaft projection, to avoid undue bearing load and shaft deflection. Never overtighten belts or chains. Careful and accurate installation is essential for best results and for troublefree operation. Before installing, the shafts should be checked to make sure that they are parallel and level. Perfect alignment after mounting can be checked with a string or straight edge held against the sides of the sprocket or pulley base. Sumitomo warrants that its Hyponic ® Speed Reducers will deliver their continuous catalog ratings provided they are properly installed, maintained and operated within the limits of speed, torque or other load conditions under which they were sold. Sumitomo further states that Hyponic ® Speed Reducers are warranted to be free from defects in material or workmanship for a period of two years from the date of shipment. Sumitomo assumes no liability beyond product repair or replacement under this limited warranty. Couplings should be properly aligned to the limits specified by the manufacturer. On coupled speed reducers coupling alignment should be checked prior to initial startup. For construction purposes, be sure to obtain certified dimension sheets or drawings. Although we take every precaution to include accurate data in our catalog, we cannot guarantee such accuracy. If performance guarantees are required, they should be obtained in writing from the factory. Full consideration will be given to such requests when complete details are given of the proposed installation. Shaft Rotation The direction of shaft rotation on Hyponic ® speed reducers varies according to frame size and ratio. Please refer to the Technical Information section for specific data on the shaft rotation for various models. Input Speeds In general terms, the standard input speeds of single reduction units are 1750 and 1165 RPM. When non-standard input speeds are used, the horsepower and torque ratings will also vary. Thermal Capacity The Hyponic ® speed reducer’s smooth, almost frictionless operation all but eliminates the conventional limitations due to heat. In all sizes, Hyponic ® speed reducers have thermal ratings that exceed their mechanical capacity. Installation Be sure to install and operate Hyponic ® speed reducers in compliance with applicable local and national safety codes. Appropriate guards for rotating shafts should be used and are available from local stocks. Dimensions All dimensions in this catalog are for reference purposes only. Consult factory for certified dimensions. Hyponic 5 Notes 6 Hyponic Gearmotors A Gearmotors Hollow Shaft Type Hyponic A-1 Gearmotors Product Range Table A-1 Hollow Shaft Type Nominal Ratio (:1) Output RPM (1750 RPM Input) 1/8 HP [1] 1/4 HP [1] 1/3 HP 7 250 10 175 12 146 15 117 20 87.5 25 70 30 58.3 40 43.8 50 35 60 29.2 Frame Size: 1120, Bore: Ø0.75˝ Frame Size: 1120, Bore Ø0.75˝ Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1120, Bore: Ø0.75˝ Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1420, Bore: Ø1.375˝ Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1420, Bore: Ø1.375˝ Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1420, Bore: Ø1.375˝ Frame Size: 1420, Bore: Ø1.375˝ Frame Size: 1520, Bore: Ø1.50˝ 1-1/2 HP Frame Size: 1420, Bore Ø1.375˝ Frame Size: 1520, Bore: Ø1.50˝ 2 HP [1] Frame Size: 1420, Bore: Ø1.375˝ Frame Size: 1520, Bore: Ø1.50˝ Frame Size: 1520, Bore: Ø1.50˝ Frame Size: 1531, Bore: Ø1.50˝ Frame Size: 1520, Bore: Ø1.50˝ Frame Size: 1531, Bore: Ø1.50˝ 1/2 HP [1] 3/4 HP 3-Phase 5 350 1 HP [1] Product Range Gearmotors 3 HP 5 HP 7-1/2 HP 1/8 HP Single-Phase Inverter Duty Frame Size 63, Bore: Ø2.00˝ Frame Size 63, Bore: Ø2.00˝ Frame Size: 1120, Bore: Ø0.75˝ Frame Size: 1220, Bore: Ø1.00˝ 1/4 HP Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1320, Bore: Ø1.25˝ 1/2 HP Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1420, Bore: Ø1.375˝ 1/8 HP Frame Size: 1120, Bore: Ø0.75˝ Frame Size: 1220, Bore: Ø1.00˝ 1/4 HP Frame Size: 1220, Bore: Ø1.00˝ Frame Size: 1320, Bore: Ø0.125˝ 1/2 HP Frame Size: 1320, Bore: Ø1.25˝ Frame Size: 1420, Bore: Ø1.375˝ 1 HP Frame Size: 1420, Bore: Ø1.375˝ Frame Size: 1520, Bore; Ø1.50˝ 2 HP Frame Size: 1520, Bore; Ø1.50˝ Frame Size: 1531, Bore Ø1.50˝ 3 HP 5 HP Frame Size: 63, Bore: Ø2.00˝ Frame Size: 64, Bore: Ø2.00˝ Notes: [1] Those selections shaded in blue offer an increased service factor. Please refer to the gearmotor selection tables for specific unit service factor details. [2] These reduction ratios are not available from stock. They must be ordered from Japan. [3] This frame size is torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque limiting device to protect the unit and/or the driven machine. A-2 Hyponic Gearmotors 80 21.9 100 17.5 120 14.6 150 11.7 200 8.75 240 7.29 300[2] 5.83 360[2] 4.86 Frame Size: 1230, Bore: Ø1.00˝ [3] 480[2] 3.65 560[2] 3.13 750[2] 2.33 900[2] 1.94 1200[2] 1.46 1440[2] 1.222 Frame Size: 361, Bore: Ø1.25˝ [3] Frame Size: 1330, Bore: Ø1.25˝ Frame Size: 1330, Bore: Ø1.25˝ [3] Frame Size: 461, Bore: Ø1.375˝ [3] Frame Size: 1430, Bore: Ø1.375˝ Frame Size: 1430, Bore: Ø1.375˝ Frame Size: 56, Bore: Ø1.50˝ [3] Frame Size: 1430, Bore: Ø1.375˝ [3] Frame Size: 56, Bore: Ø1.50˝ [3] Frame Size: 1530, Bore: Ø1.50˝ Frame Size: 1530, Bore: Ø1.50˝ [3] Frame Size: 56, Bore: Ø1.50˝ [3] Frame Size: 1530, Bore: Ø1.50˝ [3] Frame Size: 1531, Bore: Ø1.50˝ Frame Size: 60, Bore: Ø2.00˝ Frame Size: 60, Bore: Ø2.00˝ Gearmotors Frame Size: 60, Bore: Ø2.00˝ Product Range Frame Size: 1531, Bore: Ø1.50˝ Frame Size: 1531, Bore: Ø1.50˝ Frame Size: 60, Bore: Ø2.00˝ Frame Size: 1330, Bore: Ø1.25˝ Frame Size: 1430, Bore: Ø1.375˝ Frame Size: 1530, Bore: Ø1.50˝ Frame Size: 1330, Bore: Ø1.25˝ Frame Size: 1430, Bore: Ø1.375˝ Frame Size: 1530, Bore: Ø1.50˝ Frame Size: 1531, Bore: Ø1.50˝ Frame Size: 60, Bore: Ø2.00˝ Frame Size: 60, Bore: Ø2.00˝ Hyponic A-3 Gearmotors Standard Specifications Table A-2 Item 3-Phase Motor Single-Phase Standard Specifications Gearmotors Invertor Duty Reducer Standard Specification Capacity Range 1/8 HP - 7.5 HP, 4-pole 1/8 HP - 7.5 HP, 4-pole FB Brake Enclosure Totally Enclosed Fan Cooled (1/8 HP Totally Enclosed Non Ventilated) Totally Enclosed Fan Cooled (1/8 HP Totally Enclosed Non Ventilated) Power Supply 230/460V, 60 Hz 575V, 60 Hz 230/460V, 60 Hz 575V, 60 Hz Insulation 1/8 HP - 1/2 HP: Class E 3/4 HP - 7.5 HP: Class B 1/8 HP - 1/2 HP: Class E, Brake: Class B 3/4 HP - 7.5 HP: Class B, Brake: Class B Time Rating Continuous Continuous Capacity Range 1/8 HP - 1/2 HP, 4-pole 1/8 HP - 1/2 HP, 4-pole Enclosure Totally Enclosed Fan Cooled Totally Enclosed Fan Cooled Power Supply 115/230V, 60 Hz 115/230V, 60 Hz Insulation Class B Class B, Brake: Class B Time Rating Continuous Continuous Starting Method Capacitor-Starting, Capacitor-Run Capacitor-Starting, Capacitor-Run Capacity Range 1/8 HP - 5 HP, 4-pole 1/8 HP - 5 HP, 4-pole FB Brake Enclosure Totally Enclosed Fan Cooled Totally Enclosed Fan Cooled Power Supply 230/460V, 60 Hz 230/460V, 60 Hz Insulation Class B Class B, Brake: Class B Time Rating Continuous (6-60 Hz Constant Torque) Continuous (6-60 Hz Constant Torque) Lubrication Grease Lubricated. Filled with special high-grade grease prior to shipment from factory. Reduction Combination of Hypoid gear and Involute gear. Material Installation Temperature Ambient Conditions Casing: Aluminum Alloy, Gear: Chrome-Molybdenum steel Indoor (free from water) 14 to 104°F Humidity 85% maximum - no condensation Altitude 3280 feet Atmosphere Installation Angle Standard Specification with Built-In Brake Free from corrosive gas, explosive gas, or steam. Area to be well ventilated. No Limitation Mounting Direction of Terminal Box Mounting direction of terminal box may be changed in 90˚ increments. A mounting direction other than standard must be changed by the factory and specified when an order is placed. Refer to Fig. A-1 for mounting direction and lead wire opening direction. The direction cannot be changed after shipment. Fig. A-1 3-phase (Standard motors and motors for inverters) Up Left Right Standard The directions indicated in Fig. A-1 are viewed from opposite side of fan cover. Arrow indicates lead wire opening direction. Please consult factory for brakemotor, plug-in shaft, bolt-on flange and bolt-on feet models. A-4 Hyponic Gearmotors Gearmotor Selection Flowchart DETERMINE TYPE OF DRIVEN MACHINE CHECK HOURS OF OPERATION CHOOSE A LOAD CLASSIFICATION See Load Classification Tables, Pages A-7~8 SPECIFY MOTOR HORSEPOWER & SPEED See Gearmotor Selection Tables, Pages A-10~21 Gearmotors Selection Flowchart DETERMINE INPUT AND OUTPUT SPEEDS MAKE A PRELIMINARY SELECTION DIRECT CONNECT OUTPUT YES NO YES DETERMINE OVERHUNG LOAD OHL< OHL IN TABLES SELECT MOUNTING STYLE NO CHECK OPERATING ENVIRONMENT LARGER UNIT OR DECREASE OHL FINALIZE REQUIRED OPTIONS Hyponic See Standard Specifications, Page A-4 A-5 Gearmotors Gearmotor Selection Procedure The following information is required to properly select a Hyponic ® Gearmotor: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Application – Type of Driven Machine Hours of Operation per Day Motor Power and Speed Desired Output Speed Mounting Position and Style Environmental Conditions Required Options Electrical Specifications Overhung or Thrust Loads Shaft Dimensions – Inch or Metric Example: Belt Conveyor – Uniformly Fed 8 Hours of Operation per Day 3 HP Motor, 1750 RPM 120 RPM Horizontal Shaft Mounted Inside Industrial Plant Motor Brake 460 Volts, 60 Hertz, 3 phase None – Hollow Shaft Output 1-1/2˝ Head Shaft Review the Basic Information and Recommendations on page 4, then proceed to Selection Example 1. Selection Procedure Gearmotors Selection Example 1 Step 1 Using the information above, choose a Load Classification from the AGMA Load Classification Tables (pages A-7~8). Table A-4 identifies service classes based on applications and hours of operation. For Conveyors – Uniformly Loaded or Fed, Belt, Up to 10 hours per day, the recommended minimum is Class I. Step 2 Go to the Gearmotor Selection Tables (pages A-10~21) for the correct input power and find the ratio providing the output speed closest to the desired output speed. The closest speed to 120 RPM is 117 RPM. Match the Class to the minimum obtained in Step 1 and make a selection. The selection is 3-1520Y-15. Step 3 Are there any overhung or thrust loads present? If not, then proceed to Step 4. Otherwise, any overhung or thrust loads must be checked against the capability of the selection. To check overhung load use this formula: Overhung = 126,000 x HP x Cf x Lf x Fs Load (OHL) DxN HP: Transmitted or Motor HP Cf: Load Connection Factor Lf: Load Location Factor D: Pitch Diameter (in) N: Shaft RPM Fs: Shock factor The specific values for the overhung load factors, as well as a method to evaluate thrust loads, are listed on page D-5 contained in the Technical Information Section. Step 4 Go to page 2. Select the desired mounting position and housing style from the nomenclature pages. The horizontal, shaft mounted Hyponic Gearmotor designation is RNYM. The unit nomenclature for a shaft-mounted unit is RNYM31520YA-15. Step 5 Check environmental conditions against the Standard Specifications on page A-4. Since this application is located inside an industrial plant, no environmental modifications are required. Step 6 Specify desired options: 460V motor, 460-volt brake, 1-1/2” hollow bore, and a torque arm. A-6 Hyponic Gearmotors AGMA Load Classifications Class I For steady loads not exceeding normal motor rating, 8 to 10 hours a day. Moderate shock loads where service is intermittent (AGMA equivalent Service Factor: 1.0). Class II For steady loads not exceeding normal motor rating and 24 hours a day service. Moderate shock loads for 8 hours a day (AGMA equivalent Service Factor: 1.4). Class III For moderate shock loads for 24 hours a day. Heavy shock loads for 8 hours a day (AGMA equivalent Service Factor: 2.0). [1] Table A-3 Load Classification Listed By Industry [2] Brewing & Distilling Bottling Machinery Brew Kettles, Cont. Duty Can Filling Machines Cookers–Cont. Duty Mash Tubs–Cont. Duty Scale Hoppers– Frequent Starts Clay Working Industry Brick Press Briquette Machines Clay Working Machinery Pug Mills I II – I – – II II II II II II III III III III II II II II Distilling (See Brewing) Dredges Cable Reels Conveyors Cutter Head Drives Jig Drives Maneuvering Winches Pumps Screen Drives Stackers Utility Winches Food Industry Beet Slicers Bottlings, Can Filling Mach. Cereal Cookers Dough Mixers Meat Grinders II II III III II II III II II – II III III – II III II – II II I I II II II II II II Application Up to 10 Hr. per day 24 Hr. per day Application Lumber Industry Oil Well Pumping Barkers– Paraffin Filter Press Spindle Feed II III Rotary Kilns Barkers– Paper Mills Main Drive III III Agitators (Mixers) Refer to Factory Carriage Drive Barker–Auxiliaries– Conveyors Hyd. Burner II III Barker, Mechanical Main or Heavy Duty II III Barking Drum Main Log III III Beater & Pulper Re-Saw Bleacher Merry-Go-Round II III Calenders Slab III III Calenders–Super Transfer II III Converting Mach.– Chains–Floor II III Except Cutters– Chains–Green II III Platers Cut-Off Saws–Chain II III Conveyors Cut-Off Saws–Drag II III Couch Debarking Drums III III Cutters, Platers Feeds–Edger II III Cylinders Feeds–Gang III III Dryers Feeds–Trimmer II III Felt Stretchers Log Deck III III Felt Whippers Log Hauls–Incline, Jordans Well Type III III Log Haul Log Turning Devices III III Presses Planer Feed II III Pulp Machine Reels Planer Tilting Hoists II III Stock Chests Rolls–Live–Off Suction Rolls Bearing–Roll Cases III III Washers & Sorting Table II III Thickeners Tipple Hoist II III Winders Transfers–Chain II III Transfers–Craneway II III Rubber Industry Tray Drives II III Mixer Rubber Calender Rubber Mill Oil Industry (2 or more) Chillers II II Sheeter Class Up to 24 10 Hr. Hr. per per day day Refer to Factory II II II II II II – – – – – – – III III III II II II II – – – – _ – – – – – – – – – II II II III II II II III II III II II II II – – II II III II III II II II II II Class Application Tire Building Machines Tire, Tube Press Openers Tubers & Stainers Sewage Disposal Aerators Bar Screens Chemical Feeders Collectors Dewatering Screens Grit Collectors Scum Breakers Slow or Rapid Mixers Sludge Collectors Thickeners Vacuum Filters Up to 10 Hr. per day 24 Hr. per day Refer to Factory Gearmotors Refer to Factory II II Refer to Factory I I I II I II II I II II II II II II II II II II II II Textile Industry Batchers II II Calenders II II Card Machines II II Cloth Finishing Machines (Calenders, Dryers, Pads, Tenters, Washers) II II Dry Cans II II Dyeing Machinery II II Knitting Machinery Refer to Factory Looms, Mangles, Nappers II II Refer to Factory Range Drives Soapers, Spinners II II Tenter Frames II II Winders II II Yarn Preparatory Machinery (Cards, Spinners, Slashers) II II Notes: [1] For applications involving frequent start-stop, braking or reversing, or quick starting of a large inertia load, consult the factory for model selection on recommended modifications. [2] Load classification listed by application shown on next page. Hyponic A-7 AGMA Application Class 24 Hr. per day Load Classifications Class Up to 10 Hr. per day Gearmotors AGMA Load Classifications Table A-4 Load Classification Listed By Application Application Agitators Pure Liquids Liquids and Solids Liquids – Variable Density Semi-liquids – Variable Density Blowers Centrifugal Lobe Vane Load Classifications AGMA Gearmotors 24 Hr. per day I II II II II II II II I II I II II II Brewing and Distilling Bottling Machinery Brew Kettles – Continuous Duty Cookers – Continuous Duty Mash Tubs – Continuous Duty Scale Hopper Frequent Starts – II – II II II Can Filling Machines I II Cane Knives II II Car Dumpers III – I II – II Car Pullers – Intermittent Duty I – Clarifiers I II Classifiers Clay Working Machinery Brick Press Briquette Machine Clay Working Machinery Pug Mill Compressors Centrifugal Lobe Reciprocating Multi-Cylinder Single Cylinder II II III III III III II II II II I II II II II III II III Conveyors – Uniformly Loaded or Fed Apron Assembly Belt Bucket Chain Flight Oven Screw Conveyors – Heavy Duty Not Uniformly Fed Apron Assembly Belt Bucket Chain Flight Live Roll (Package) Oven Reciprocating Screw Shaker I I I I I I I I II II II II II II II II II II II II II II I II III II III II II II II II II II II III II III Cranes and Hoists Main Hoists Heavy Duty Medium Duty Reversing Skip Hoists Trolley Drive Bridge Drive III III II II II II II III III II II II II II Crushers Ore Stone III III III III Dredges Cable Reels Conveyors Cutter Head Drives II II III – II III A-8 Class Class Class Up to 10 Hr. per day Application Jig Drives Maneuvering Winches Pumps Screen Drive Stackers Utility Winches Elevators Bucket – Uniform Load Bucket – Heavy Load Bucket – Continous Centrifugal Discharge Escalators Freight Gravity Discharge Man Lifts Passenger Service – Hand Lift Fans Centrifugal Cooling Towers Induced Draft Forced Draft Induced Draft Large (Mine, etc.) Large Industrial Light (Small Diameter) Up to 10 Hr. per day III II II III II II 24 Hr. per day III – II III II – I II II II I II I II I II I II I II Refer to Factory III – II II II II Refer to Factory II II II II II II I II Feeders Apron Belt Disc Reciprocating Screw II II I III II II II II III II Food Industry Beet Slicer Cereal Cooker Dough Mixer Meat Grinders II I II II II II II II Generators – (Not Welding) I II III III Hammer Mills Laundry Washers Reversing II II Laundry Tumblers II II Line Shafts Heavy Shock Load Moderate Shock Load Uniform Load Lumber Industry Barkers – Spindle Feed Barkers – Main Drive Carriage Drive Conveyors – Burner Conveyors – Main or Heavy Duty Conveyors – Main Log Conveyors – Merry-Go-Round Conveyors – Slab Conveyors – Transfer Conveyors – Waste Chains – Floor Chains – Green Cut-Off Saws – Chain Cut-Off Saws – Drag Debarking Drums Feeds – Edger Feeds – Gang Feeds – Trimmer Log Deck Log Hauls – Incline Well Type Log Turning Devices Planer Feed Planer Tilting Hoists Rolls – Live – Off Brg. – Roll Cases Sorting Table Tipple Hoist Transfers – Chain Transfers – Craneway III III II I II II Refer to Factory Refer to Factory Refer to Factory II III II III III III II III II II II II II II III II III II III III III III II III III III III III III III III III III III II II III III III III III II II II II III III III III III Application Tray Drives Veneer Lathe Drives Machine Tools Bending Roll Notching Press – Belt Driven Plate Planer Punch Press – Gear Driven Tapping Machines Other Machine Tools Main Drives Auxiliary Drives Metal Mills Bridle Roll Drives Draw Bench – Carriage Draw Bench – Main Drive Forming Machines Pinch Dryer & Scrubber Rolls, Reversing Slitters Table Conveyors Non-Reversing Reversing Winding Reels – Strip Wire Drawing & Flattening Machine Wire Winding Machine Mills, Rotary Type Ball Cement Kilns Dryers & Coolers Kilns Pebble Rod Tumbling Barrels Mixers Concrete Mixers, Continuous Concrete Mixers, Intermittent Constant Density Variable Density Oil Industry Chillers Oil Well Pumping Paraffin Filter Press Rotary Kilns Paper Mills Aerators Agitators (Mixers) Barker Auxiliaries, Hydraulic Barker, Mechanical Barking Drum Beater & Pulper Bleacher Calenders Calenders – Super Converting Machines, except Cutters, Platers Conveyors Conveyors, Log Couch Cutters, Platers Cylinders Dryers Felt Stretcher Felt Whipper Jordans Presses Pulp Machines, Reel Stock Chests Suction Roll Washers and Thickeners Winders Printing Presses Up to 10 Hr. per day Class 24 Hr. per day II III Refer to Factory II II Refer to Factory III III III III III III II I II II III III III III III III III III Refer to Factory II II II – – III III III II II III II III III II II III III III II II III III III II II I I II – II II II II Refer to Factory II II II II Application Pullers Barge Haul Pumps Centrifugal Proportioning Reciprocating Single Acting 3 or more Cylinders Double Acting 2 or more Cylinders Single Acting 1 or 2 Cylinders Double Acting Single Cylinder Rotary – Gear Type – Lobe, Vane Rubber Industry Mixer Rubber Calender Rubber Mill (2 or more) Sheeter Tire Building Machines Tire & Tube Press Openers Tubers & Strainers Sewage Disposal Equipment Aerators Bar Screens Chemical Feeders Collectors, Circuline or Straightline Dewatering Screens Grit Collectors Scum Breakers Slow or Rapid Mixers Sludge Collectors Thickeners Vacuum Filters Screens Air Washing Rotary – Stone or Gravel Traveling Water Intake Slab Pushers Steering Gear Stokers – – – – – – – III III III II II II II – – – – – – – – – – – – – – II II III II III II II II III II II II II II – – II II Textile Industry Batchers Calenders Card Machines Cloth Finishing Machines (Washers, Pads, Tenters) (Dryers, Calenders, etc.) Dry Cans Dryers Dyeing Machinery Knitting Machines (Looms, etc.) Looms Mangles Nappers Pads Range Drives Slashers Soapers Spinners Teneter Frames Washers Winders (Other than Batchers) Yarn Preparatory Machines (Cards, Spinners, Slashers, etc.) I II Windlass Refer to Factory II II Up to 10 Hr. per day 24 Hr. per day III III I II II II II II II II Refer to Factory Refer to Factory I II I II III III II II II II II II Refer to Factory Refer to Factory II II Refer to Factory I II I II I II I II II I II II II II II II II II II II I II II II I II II II I II II II II II II II II II II II II II II II II II Refer to Factory II II II II II II II II Refer to Factory II II II II II II II II II II II II II II II II Hyponic Gearmotors Motor Thermal Ratings Table A-5 Motor Thermal Rating (C x Z) [1] Motor Moment of Inertia (lb-in2) Allowable C x Z Motor Power HP (kW) (35%ED)[2] Standard With Brake 1/8 (0.1) 3200 3000 2000 1200 1.13 1.20 35% - 50% ED[2] 50% - 80% ED[2] 80% - 100% ED[2] 1/4 (0.2) 2200 2800 2800 2500 1.71 1.88 1/3 (0.25) 2200 2800 2800 2500 1.71 1.88 1/2 (0.4) 1800 2200 1500 1500 2.22 2.33 3/4 (0.55) 1800 2200 1500 1500 3.45 3.80 1 (0.75) 1400 1400 800 500 4.10 4.45 1.5 (1.1) 1400 1400 800 500 6.33 7.11 2 (1.5) 1200 1200 500 400 7.28 8.04 3 (2.2) 1000 900 400 200 11.4 12.8 5 (3.7) 800 800 800 700 29.0 32.8 7.5 (5.5) 300 300 200 150 39.1 42.9 Gearmotors Motor Thermal Ratings The calculated C x Z value (steps 1 - 3 outlined below) should be less than the allowable value listed in Table A-5. (1) Obtain the C value. C= IM + IL IM = Moment of inertia of motor. IM IL = Total moment of inertia of load as seen from the motor. (2) Obtain the Z value (number of starts per hour). (a) Assume that one operating period consists of “on time” ta (sec), “off time” tb (sec) and the motor is started nr (times/cycle). Zr = 3600nr ta + tb (times/hr) (b) When inching, ni (times/cycle) is included in 1 cycle (ta+tb), the number of inching times per hour, Zi, is then included in the number of starts. Zr = 3600ni ta + tb (times/hr) (c) Calculate Z by adding Zr to Zi. Z = Zr + 1 Zi = 2 3600 1 • (nr+ ni) (times/hr) ta + tb 2 (3) Calculate C multiplied by Z. Use the value of C obtained in step (1) and Z from step (2). (4) Obtain the duty cycle %ED and check with Table A-5. %ED = ta ta +tb x 100 ta = on-time tb = off-time Notes: [1] Please consult the factory for inverter duty and single-phase motors. [2] %ED = Duty Cycle Hyponic A-9 Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM 1/8 HP (0.1 kW) Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio III III III 130 140 165 01 01 01 1120YC 1120YC 1120YC 5 7 10 2.14 III 175 01 1120YC 12 62 57.2 82 76.5 103 95.7 2.14 2.14 2.14 III III III 185 210 220 01 01 01 1120YC 1120YC 1120YC 15 20 25 58.3 115 123 2.14 III 230 01 1120YC 30 43.8 153 165 35.0 191 205 29.2 229 247 21.9 306 329 17.5 383 411 14.6 459 493 Output Torque in•lbs 350 250 175 11 19.1 29 26.8 41 38.3 2.14 2.14 2.14 146 49 45.9 117 87.5 70.0 Gearmotors Selection Tables Service Factor AGMA SF Class[1] Output Speed RPM 1.07 I 250 01 1120YA 40 2.14 III 350 01 1220YC 40 1.07 I 275 01 1120YA 50 2.14 III 375 01 1220YC 50 1.07 I 285 01 1120YA 60 2.14 III 385 01 1220YC 60 1.07 I 395 01 1230YA 80 2.14 III 660 01 1330YC 80 1.07 I 395 01 1230YA 100 2.14 III 680 01 1330YC 100 1.07 I 405 01 1230YA 120 2.14 III 695 01 1330YC 120 1.07 I 405 01 1230YA 150 2.14 III 695 01 1330YC 150 1.07 I 405 01 1230YA 200 2.14 III 695 01 1330YC 200 11.7 572 617 8.75 765 822 7.29 868 868 919 982 0.94 * 405 01 1230Y 240 1.88 II 695 01 1330YB 240 1149 1159 1378 1390 1726 1726 1726 1726 1.00 1.00 0.94 I I * 695 695 695 01 01 01 361YA 361YA 361Y 300 360 480 0.81 * 695 01 361Y 560 1726 1726 1726 1726 1726 1726 1726 1726 0.60 0.50 * * 695 695 01 01 361Y 361Y 750 900 0.38 0.31 * * 695 695 01 01 361Y 361Y 1200 1440 5.83 4.86 3.65 3.13 2.33 1.94 1.46 1.22 Dimension Page A-22 A-23 A-25 Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque-limiting device to protect the unit and/or the driven machine. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. A-10 Hyponic Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM, cont. 1/4 HP (0.2 kW) Output Torque in•lbs 350 41 38.3 250 53.6 58 175 76.5 82 146 91.7 98 117 114 123 87.5 153 165 70.0 191 205 58.3 230 247 43.8 306 329 35.0 383 411 29.2 459 493 21.9 612 658 17.5 765 822 14.6 917 982 11.7 1145 1230 8.75 1531 1646 7.29 1726 1726 1837 1974 Service Factor AGMA SF Class[1] Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio 1.07 I 130 02 1120YA 5 2.14 III 185 02 1220YC 5 1.07 I 140 02 1120YA 7 2.14 III 210 02 1220YC 7 1.07 I 165 02 1120YA 10 2.14 III 230 02 1220YC 10 1.07 I 175 02 1120YA 12 2.14 III 240 02 1220YC 12 1.07 I 185 02 1120YA 15 2.14 III 265 02 1220YC 15 1.07 I 210 02 1120YA 20 2.14 III 295 02 1220YC 20 1.07 I 220 02 1120YA 25 2.14 III 305 02 1220YC 25 1.07 I 230 02 1120YA 30 2.14 III 330 02 1220YC 30 1.07 I 350 02 1220YA 40 2.16 III 570 02 1320YC 40 1.07 I 375 02 1220YA 50 2.16 III 615 02 1320YC 50 1.07 I 385 02 1220YA 60 2.16 III 635 02 1320YC 60 1.07 I 660 02 1330YA 80 2.14 III 960 02 1430YC 80 1.07 I 680 02 1330YA 100 2.14 III 980 02 1430YC 100 1.07 I 695 02 1330YA 120 2.14 III 980 02 1430YC 120 1.07 I 695 02 1330YA 150 2.14 III 980 02 1430YC 150 1.07 I 695 02 1330YA 200 2.14 III 980 02 1430YC 200 0.94 * 695 02 1330Y 240 1.88 II 980 02 1430YB 240 1.00 1.00 0.94 I I * 980 980 980 02 02 02 461YA 461YA 461Y 300 360 480 3.13 2297 2319 2756 2788 3452 3452 3452 3452 0.81 * 980 02 461Y 560 2.33 1.94 1.46 1.22 3452 3452 3452 3452 3452 3452 3452 3452 0.60 0.50 0.38 0.31 * * * * 980 980 980 980 02 02 02 02 461Y 461Y 461Y 461Y 750 900 1200 1440 5.83 4.86 3.65 Dimension Page A-22 Gearmotors Selection Tables Output Speed RPM A-23 A-25 Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque-limiting device to protect the unit and/or the driven machine. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. Hyponic A-11 Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM 1/3 HP (0.25 kW) Output Speed RPM Selection Tables Gearmotors Output Torque in•lbs Service Factor AGMA SF Class[1] Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio 350 250 175 146 117 51.0 71.4 102 122 153 1.60 1.60 1.60 1.60 1.60 II II II II II 185 210 230 240 265 03 03 03 03 03 1220YB 1220YB 1220YB 1220YB 1220YB 5 7 10 12 15 87.5 70.0 58.3 43.8 35.0 29.2 204 255 306 408 510 612 1.60 1.60 1.60 1.62 1.62 1.62 II II II II II II 295 305 330 570 615 635 03 03 03 03 03 03 1220YB 1220YB 1220YB 1320YB 1320YB 1320YB 20 25 30 40 50 60 21.9 17.5 14.6 11.7 8.75 7.29 815 1020 1223 1526 2041 2450 1.60 1.60 1.60 1.60 1.60 1.40 II II II II II II 960 980 980 980 980 980 03 03 03 03 03 03 1430YB 1430YB 1430YB 1430YB 1430YB 1430YB 80 100 120 150 200 240 5.83 4.86 3.65 2903 3479 4647 1.60 1.54 1.16 II I I 1400 1400 1400 03 03 03 56YB 56YA 56YA 300 360 480 3.13 2.33 1.94 1.46 1.22 5417 6479 6479 6479 6479 1.19 0.85 0.70 0.53 0.44 I * * * * 1400 1400 1400 1400 1400 03 03 03 03 03 56YA 56Y 56Y 56Y 56Y 560 750 900 1200 1440 Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio Dimension Page A-22 A-23 A-26 1/2 HP (0.4 kW) Output Speed RPM Output Torque in•lbs 350 76.5 250 107 175 153 146 183 117 229 87.5 306 70.0 383 58.3 459 Service Factor AGMA SF Class[1] 1.07 I 185 05 1220YA 5 2.14 III 305 05 1320YC 5 1.07 I 210 05 1220YA 7 2.14 III 350 05 1320YC 7 1.07 I 230 05 1220YA 10 2.14 III 385 05 1320YC 10 1.07 I 240 05 1220YA 12 2.14 III 405 05 1320YC 12 1.07 I 265 05 1220YA 15 2.14 III 440 05 1320YC 15 1.07 I 295 05 1220YA 20 2.14 III 485 05 1320YC 20 1.07 I 305 05 1220YA 25 2.14 III 505 05 1320YC 25 1.07 I 330 05 1220YA 30 2.14 III 525 05 1320YC 30 Dimension Page A-22 Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque-limiting device to protect the unit and/or the driven machine. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. A-12 Hyponic Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM, cont. 1/2 HP (0.4 kW) con’t. Output Torque in•lbs 43.8 612 35.0 765 29.2 917 21.9 1223 17.5 1531 14.6 1835 11.7 2289 8.75 3061 Service Factor AGMA SF Class[1] Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio 1.08 I 570 05 1320YA 40 2.14 III 855 05 1420YC 40 1.08 I 615 05 1320YA 50 2.14 III 900 05 1420YC 50 1.08 I 635 05 1320YA 60 2.14 III 935 05 1420YC 60 1.07 I 960 05 1430YA 80 2.14 III 1375 05 1530YC 80 1.07 I 980 05 1430YA 100 2.14 III 1400 05 1530YC 100 1.07 I 980 05 1430YA 120 2.14 III 1400 05 1530YC 120 1.07 I 980 05 1430YA 150 2.14 III 1400 05 1530YC 150 1.07 I 980 05 1430YA 200 1.53 II 1400 05 1530YB 200 3452 0.94 * 980 05 1430Y 240 3674 1.76 II 1400 05 1530YB 240 5.83 4.86 3.65 4594 5567 6479 1.00 1.01 0.88 I I * 1400 1400 1400 05 05 05 56YA 56YA 56Y 300 360 480 3.13 6479 0.76 * 1400 05 56Y 560 2.33 1.94 1.46 1.22 6479 6479 6479 6479 0.56 0.47 0.35 0.30 * * * * 1400 1400 1400 1400 05 05 05 05 56Y 56Y 56Y 56Y 750 900 1200 1440 7.29 Dimension Page A-22 A-23 A-26 Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque-limiting device to protect the unit and/or the driven machine. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. Hyponic Gearmotors Selection Tables Output Speed RPM A-13 Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio II II II 305 350 385 08 08 08 1320YB 1320YB 1320YB 5 7 10 1.43 II 405 08 1320YB 12 343 459 574 1.43 1.43 1.43 II II II 440 485 505 08 08 08 1320YB 1320YB 1320YB 15 20 25 58.3 689 1.43 II 525 08 1320YB 30 43.8 35 29.2 917 1148 1376 1.43 1.43 1.43 II II II 855 900 935 08 08 08 1420YB 1420YB 1420YB 40 50 60 A-22 A-22 A-22 Gearmotors 21.9 1835 1.43 II 1375 08 1530YB 80 A-23 Selection Tables 3/4 HP (0.55 kW) Service Factor AGMA SF Class[1] 17.5 14.6 11.7 2296 2752 3434 1.43 1.43 1.43 II II II 1400 1400 1400 08 08 08 1530YB 1530YB 1530YB 100 120 150 8.75 4592 1.41 II 1400 08 1530YB 200 7.29 5.83 4.86 3.65 5511 6381 6479 6479 1.17 0.93 0.78 0.59 I * * * 1400 1400 1400 1400 08 08 08 08 1530YA 56Y 56Y 56Y 240 300 360 480 A-23 A-26 A-26 A-26 Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio Dimension Page Output Speed RPM Output Torque in•lbs 350 250 175 115 161 230 1.43 1.43 1.43 146 275 117 87.5 70 Dimension Page A-22 A-23 1 HP (0.75 kW) Output Speed RPM Output Torque in•lbs 350 153 250 214 175 306 146 367 117 458 87.5 612 70.0 765 Service Factor AGMA Class[1] SF 1.07 I 305 1 1320YA 5 2.07 III 460 1 1420YC 5 1.07 I 350 1 1320YA 7 2.07 III 515 1 1420YC 7 1.07 I 385 1 1320YA 10 2.07 III 580 1 1420YC 10 1.07 I 405 1 1320YA 12 2.07 III 615 1 1420YC 12 1.07 I 440 1 1320YA 15 2.07 III 660 1 1420YC 15 1.07 I 485 1 1320YA 20 2.07 III 715 1 1420YC 20 1.07 2.07 I III 505 760 1 1 1320YA 1420YC 25 25 A-22 Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque-limiting device to protect the unit and/or the driven machine. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. A-14 Hyponic Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM, cont. 1 HP (0.75 kW) con’t. Output Torque in•lbs 58.3 919 43.8 1223 35.0 1531 29.2 1835 21.9 2446 17.5 14.6 11.7 Service Factor AGMA SF Class[1] Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio 1.07 I 525 1 1320YA 30 2.07 III 805 1 1420YC 30 1.07 I 855 1 1420YA 40 2.07 III 1245 1 1520YC 40 1.07 I 900 1 1420YA 50 2.07 III 1310 1 1520YC 50 1.07 I 935 1 1420YA 60 2.07 III 1355 1 1520YC 60 Dimension Page A-22 1.07 I 1375 1 1530YA 80 2.07 III 1375 1 1531YC 80 3061 3669 4579 1.07 1.07 1.07 I I I 1400 1400 1400 1 1 1 1530YA 1530YA 1530YA 100 120 150 8.75 6122 1.06 I 1400 1 1530YA 200 7.29 5.83 4.86 3.65 7349 6479 6479 6479 0.88 0.71 0.59 0.44 * * * * 1400 1400 1400 1400 1 1 1 1 1530Y 56Y 56Y 56Y 240 300 360 480 A-23 A-26 A-26 A-26 Hollow Bore Overhung Load[2] lbs HP Symbol Selection Frame Size Nominal Ratio Dimension Page Gearmotors A-23 1.5 HP (1.1 kW) Service Factor AGMA SF Class[1] Output Speed RPM Output Torque in•lbs 350 250 230 321 1.38 1.38 I I 460 515 1H 1H 1420YA 1420YA 5 7 175 459 1.38 I 580 1H 1420YA 10 146 117 550 687 1.38 1.38 I I 615 660 1H 1H 1420YA 1420YA 12 15 87.5 918 1.38 I 715 1H 1420YA 20 70.0 58.3 1148 1378 1.38 1.38 I I 760 805 1H 1H 1420YA 1420YA 25 30 43.8 1835 1.38 I 1245 1H 1520YA 40 35.0 29.2 2296 2752 1.38 1.38 I I 1310 1355 1H 1H 1520YA 1520YA 50 60 A-22 A-22 21.9 3669 1.38 I 1375 1H 1531YA 80 A-23 17.5 14.6 4592 5504 2.00 2.00 III III 2205 2205 1H 1H 60YC 60YC 100 120 A-24 A-22 Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a torque-limiting device to protect the unit and/or the driven machine. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. Hyponic A-15 Selection Tables Output Speed RPM Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM 2 HP (1.5 kW) Service Factor AGMA SF Class 1.04 I 1.48 II HP Symbol Selection Frame Size Nominal Ratio 2 2 1420YA 1520YB 5 5 515 745 2 2 1420YA 1520YB 7 7 I II 580 835 2 2 1420YA 1520YB 10 10 1.04 1.48 I II 615 890 2 2 1420YA 1520YB 12 12 916 1.04 1.48 I II 660 945 2 2 1420YA 1520YB 15 15 87.5 1224 1.04 1.48 I II 715 1035 2 2 1420YA 1520YB 20 20 70.0 1531 1.04 1.48 I II 760 1100 2 2 1420YA 1520YB 25 25 58.3 1838 1.04 1.48 I II 805 1155 2 2 1420YA 1520YB 30 30 43.8 2446 1.04 1.48 I II 1245 1245 2 2 1520YA 1531YB 40 40 A-22 A-23 35.0 3061 1.04 1.48 I II 1310 1310 2 2 1520YA 1531YB 50 50 A-22 A-23 29.2 3669 1.04 1.48 I II 1355 1355 2 2 1520YA 1531YB 60 60 A-22 A-23 21.9 4892 1.04 1.47 I II 1375 2170 2 2 1531YA 60YB 80 80 A-23 A-24 17.5 14.6 6122 7339 1.47 1.47 II II 2205 2205 2 2 60YB 60YB 100 120 A-24 A-24 Hollow Bore Overhung Load[1] lbs HP Symbol Selection Frame Size Nominal Ratio Dimension Page Output Speed RPM Output Torque in•lbs 350 306 250 429 1.04 1.48 I II 175 612 1.04 1.48 146 734 117 Selection Tables Gearmotors Hollow Bore Overhung Load[1] lbs 460 660 Dimension Page A-22 3 HP (2.2 kW) Service Factor AGMA SF Class Output Speed RPM Output Torque in•lbs 350 250 459 643 1.00 1.00 I I 660 745 3 3 1520YA 1520YA 5 7 175 918 1.00 I 835 3 1520YA 10 146 117 1101 1374 1.00 1.00 I I 890 945 3 3 1520YA 1520YA 12 15 87.5 1837 1.00 I 1035 3 1520YA 20 70.0 58.3 2296 2757 1.00 1.00 I I 1100 1155 3 3 1520YA 1520YA 25 30 A-22 A-22 43.8 3669 1.00 I 1245 3 1531YA 40 A-23 35.0 29.2 4592 5504 1.00 1.00 I I 1310 1355 3 3 1531YA 1531YA 50 60 A-23 A-23 21.9 7339 1.00 I 2170 3 60YA 80 A-24 17.5 14.6 9184 11008 1.00 1.00 I I 2205 2205 3 3 60YA 60YA 100 120 A-24 A-24 A-22 Note: [1] Overhung Load values are based at a distance of 0.78 inch from the collar. A-16 Hyponic Gearmotors Selection Tables – 60 Hz, 3-Phase, 1750 RPM, cont. 5 HP (3.7 kW) Service Factor AGMA SF Class Hollow Bore Overhung Load[1] lbs HP Symbol Selection Frame Size Nominal Ratio I I 1330 1420 5 5 63YA 63YA 10 12 1.00 I 1495 5 63YA 15 3061 3827 1.00 1.00 I I 1650 1740 5 5 63YA 63YA 20 25 58.3 4594 1.00 I 1815 5 63YA 30 43.8 35.0 6115 7653 1.00 1.00 I I 1905 1995 5 5 63YA 63YA 40 50 Hollow Bore Overhung Load[1] lbs HP Symbol Selection Frame Size Nominal Ratio Output Speed RPM Output Torque in•lbs 175 146 1531 1835 1.00 1.00 117 2289 87.5 70.0 Dimension Page A-24 7.5 HP (5.5 kW) Output Torque in•lbs 175 146 117 2296 2752 3434 1.00 1.00 1.00 I I I 1330 1420 1495 8 8 8 64YA 64YA 64YA 10 12 15 87.5 4592 1.00 I 1650 8 64YA 20 70.0 58.3 43.8 5740 6892 9173 1.00 1.00 1.00 I I I 1740 1815 1905 8 8 8 64YA 64YA 64YA 25 30 40 SF Dimension Page A-24 60 Hz, Single Phase, 1750 RPM 1/8 HP (0.1 kW) Service Factor AGMA SF Class Output Speed RPM Output Torque in•lbs 350 250 19.1 26.8 2.00 2.00 III III 175 38.3 2.00 III 146 117 45.9 57.2 2.00 2.00 III III 87.5 76.5 2.00 III 70.0 58.3 95.7 115 2.00 2.00 III III 43.8 153 2.00 III 35.0 29.2 191 229 2.00 2.00 III III 21.9 306 2.00 III 17.5 14.6 383 459 2.00 2.00 III III 11.7 572 2.00 8.75 7.29 765 919 1.74 1.45 Hollow Bore Overhung Load[1] lbs 1295 130 1405 140 1620 165 HP Symbol Selection Frame Suffix Size Nominal Ratio Dimension Page 01 01 1120YC 1120YC SG SG 5 7 01 1120YC SG 10 1730 175 1835 185 210 2055 01 01 1120YC 1120YC SG SG 12 15 01 1120YC SG 20 220 2160 230 2270 350 3460 01 01 1120YC 1120YC SG SG 25 30 01 1220YC SG 40 375 3680 385 3790 660 6480 01 01 1220YC 1220YC SG SG 50 60 A-27 A-27 01 1330YC SG 80 A-28 01 01 1330YC 1330YC SG SG 100 120 III 680 6700 695 6810 695 6810 01 1330YC SG 150 II II 695 6810 695 6810 01 01 1330YB 1330YB SG SG 200 240 A-27 A-28 Note: [1] Overhung Load values are based at a distance of 0.78 inch from the collar. Hyponic A-17 Gearmotors Selection Tables Service Factor AGMA Class Output Speed RPM Gearmotors Selection Tables – 60 Hz, Single Phase, 1750 RPM, cont. 1/4 HP (0.2 kW) Selection Tables Gearmotors Service Factor AGMA SF Class Output Speed RPM Output Torque in•lbs 350 250 38.3 53.6 2.00 2.00 III III 175 76.5 2.00 III 146 117 91.7 114 2.00 2.00 III III 87.5 153 2.00 III 70.0 58.3 191 230 2.00 2.00 III III 43.8 306 2.00 III 35.0 29.2 383 459 2.00 2.00 III III 21.9 612 2.00 III 17.5 14.6 765 917 2.00 2.00 III III 11.7 1145 2.00 8.75 7.29 1531 1837 1.74 1.45 Hollow Bore Overhung Load[1] lbs 1835 185 2055 210 2270 230 HP Symbol Selection Frame Suffix Size Nominal Ratio Dimension Page 02 02 1220YC 1220YC SG SG 5 7 02 1220YC SG 10 2380 240 2600 265 295 2910 02 02 1220YC 1220YC SG SG 12 15 02 1220YC SG 20 305 3020 330 3240 570 5620 02 02 1220YC 1220YC SG SG 25 30 02 1320YC SG 40 615 6060 635 6260 960 9415 02 02 1320YC 1320YC SG SG 50 60 A-27 A-27 02 1430YC SG 80 A-28 02 02 1430YC 1430YC SG SG 100 120 III 980 9610 980 9610 980 9610 02 1430YC SG 150 II II 980 9610 980 9610 02 02 1430YB 1430YB SG SG 200 240 Hollow Bore Overhung Load[1] lbs HP Symbol A-27 A-28 1/2 HP (0.4 kW) Service Factor AGMA SF Class Selection Frame Suffix Size Output Speed RPM Output Torque in•lbs 350 250 76.5 107 1.88 1.88 II II 305 350 05 05 1320YB 1320YB SG SG 5 7 175 153 1.88 II 385 05 1320YB SG 10 146 117 183 229 1.88 1.88 II II 405 440 05 05 1320YB 1320YB SG SG 12 15 87.5 306 1.88 II 485 05 1320YB SG 20 70.0 58.3 383 459 1.88 1.88 II II 505 525 05 05 1320YB 1320YB SG SG 25 30 43.8 612 1.88 II 855 05 1420YB SG 40 35.0 29.2 765 917 1.88 1.88 II II 900 935 05 05 1420YB 1420YB SG SG 50 60 A-27 A-27 21.9 1223 1.88 II 1375 05 1530YB SG 80 A-28 17.5 14.6 1531 1835 1.88 1.88 II II 1400 1400 05 05 1530YB 1530YB SG SG 100 120 11.7 2289 1.88 II 1400 05 1530YB SG 150 8.75 7.29 3061 3674 1.63 1.36 II I 1400 1400 05 05 1530YB 1530YA SG SG 200 240 Nominal Ratio Dimension Page A-27 A-28 Note: [1] Overhung Load values are based at a distance of 0.78 inch from the collar. A-18 Hyponic Gearmotors Selection Tables – Inverter Duty 1/8 HP (0.1 kW) Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio Selection Dimension Page 6 Hz 60 Hz 120 Hz[1] 36.0 25.7 18.0 360 257 180 720 514 360 18.6 26.1 37.2 2.00 2.00 2.00 III III III 130 140 165 01 01 01 1120YC 1120YC 1120YC AV AV AV 5 7 10 15.0 12.0 150 120 300 240 44.6 55.8 2.00 2.00 III III 175 185 01 01 1120YC 1120YC AV AV 12 15 9.0 90.0 180 74.4 2.00 III 210 01 1120YC AV 20 7.20 6.00 72.0 60.0 144 120 93.0 112 2.00 2.00 III III 220 230 01 01 1120YC 1120YC AV AV 25 30 4.50 45.0 90.0 149 2.00 III 350 01 1220YC AV 40 3.60 3.00 36.0 30.0 72.0 60.0 186 223 2.00 2.00 III III 375 385 01 01 1220YC 1220YC AV AV 50 60 A-29 A-29 2.25 22.5 45.0 298 2.00 III 660 01 1330YC AV 80 A-30 1.80 1.50 18.0 15.0 36.0 30.0 372 446 2.00 2.00 III III 680 695 01 01 1330YC 1330YC AV AV 100 120 1.20 12.0 24.0 558 2.00 III 695 01 1330YC AV 150 0.900 0.750 9.00 7.50 18.0 15.0 744 893 2.00 1.80 III II 695 695 01 01 1330YC 1330YB AV AV 200 240 A-29 A-30 1/4 HP (0.2 kW) Output Speed RPM 120 Hz[1] Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio Selection Dimension Page 6 Hz 60 Hz 36.0 25.7 18.0 360 257 180 720 514 360 37.2 52.1 74.4 2.00 2.00 2.00 III III III 185 210 230 02 02 02 1220YC 1220YC 1220YC AV AV AV 5 7 10 15.0 12.0 9.00 150 120 90.0 300 240 180 89.3 112 149 2.00 2.00 2.00 III III III 240 265 295 02 02 02 1220YC 1220YC 1220YC AV AV AV 12 15 20 7.20 6.00 4.50 72.0 60.0 45.0 144 120 90.0 186 223 298 2.00 2.00 2.00 III III III 305 330 570 02 02 02 1220YC 1220YC 1320YC AV AV AV 25 30 40 3.60 3.00 2.25 36.0 30.0 22.5 72.0 60.0 45.0 372 446 595 2.00 2.00 2.00 III III III 615 638 960 02 02 02 1320YC 1320YC 1430YC AV AV AV 50 60 80 A-29 A-29 A-30 1.80 1.50 1.20 18.0 15.0 12.0 36.0 30.0 24.0 744 893 1116 2.00 2.00 2.00 III III III 980 980 980 02 02 02 1430YC 1430YC 1430YC AV AV AV 100 120 150 A-30 0.900 0.750 9.00 7.50 18.0 15.0 1488 1786 2.00 1.80 III II 980 980 02 02 1430YC 1430YB AV AV 200 240 A-29 Notes: [1] 3600 RPM (120 Hz) is the maximum allowable input speed. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. Hyponic A-19 Gearmotors Selection Tables Output Speed RPM Gearmotors Selection Tables – Inverter Duty, cont. 1/2 HP (0.4 kW) Output Speed RPM Selection Tables Gearmotors Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio Selection Dimension Page 6 Hz 60 Hz 120 Hz[1] 36.0 25.7 18.0 360 257 180 720 514 360 74.4 104 149 1.88 1.88 1.88 II II II 305 350 385 05 05 05 1320YB 1320YB 1320YB AV AV AV 5 7 10 15.0 12.0 9.00 150 120 90.0 300 240 180 179 223 298 1.88 1.88 1.88 II II II 405 440 485 05 05 05 1320YB 1320YB 1320YB AV AV AV 12 15 20 7.20 6.00 4.50 72.0 60.0 45.0 144 120 90.0 372 446 595 1.88 1.88 1.88 II II II 505 525 855 05 05 05 1320YB 1320YB 1420YB AV AV AV 25 30 40 3.60 3.00 2.25 36.0 30.0 22.5 72.0 60.0 45.0 744 893 1190 1.88 1.88 1.88 II II II 900 935 1375 05 05 05 1420YB 1420YB 1530YB AV AV AV 50 60 80 A-29 A-29 A-30 1.80 1.50 1.20 18.0 15.0 12.0 36.0 30.0 24.0 1488 1786 2232 1.88 1.88 1.88 II II II 1400 1400 1400 05 05 05 1530YB 1530YB 1530YB AV AV AV 100 120 150 A-30 0.900 0.750 9.00 7.50 18.0 15.0 2976 3571 1.88 1.88 II II 1400 1400 05 05 1530YB 1530YB AV AV 200 240 A-29 1 HP (0.75 kW) Output Speed RPM 120 Hz[1] Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio Selection Dimension Page 6 Hz 60 Hz 36.0 25.7 18.0 360 257 180 720 514 360 149 208 298 2.00 2.00 2.00 III III III 460 515 580 1 1 1 1420YC 1420YC 1420YC AV AV AV 5 7 10 15.0 12.0 9.00 150 120 90.0 300 240 180 357 446 595 2.00 2.00 2.00 III III III 615 660 715 1 1 1 1420YC 1420YC 1420YC AV AV AV 12 15 20 7.20 6.00 4.50 72.0 60.0 45.0 144 120 90.0 744 893 1190 2.00 2.00 2.00 III III III 760 805 1245 1 1 1 1420YC 1420YC 1520YC AV AV AV 25 30 40 3.60 3.00 2.25 36.0 30.0 22.5 72.0 60.0 45.0 1488 1786 2381 2.00 2.00 2.00 III III III 1310 1355 1375 1 1 1 1520YC 1520YC 1531YC AV AV AV 50 60 80 A-29 A-29 A-30 1.80 1.50 18.0 15.0 36.0 30.0 2976 3571 2.93 2.93 III III 2205 2205 1 1 60YC 60YC AV AV 100 120 A-31 A-29 Notes: [1] 3600 RPM (120 Hz) is the maximum allowable input speed. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. A-20 Hyponic Gearmotors Selection Tables – Inverter Duty, cont. 2 HP (1.5 kW) Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio Selection Dimension Page 6 Hz 60 Hz 120 Hz[1] 36.0 25.7 18.0 360 257 180 720 514 360 298 417 595 1.47 1.47 1.47 II II II 660 745 835 2 2 2 1520YB 1520YB 1520YB AV AV AV 5 7 10 15.0 12.0 9.00 150 120 90.0 300 240 180 714 893 1190 1.47 1.47 1.47 II II II 890 945 1035 2 2 2 1520YB 1520YB 1520YB AV AV AV 12 15 20 7.20 6.00 4.50 72.0 60.0 45.0 144 120 90.0 1488 1786 2381 1.47 1.47 1.47 II II II 1100 1155 1245 2 2 2 1520YB 1520YB 1531YB AV AV AV 25 30 40 A-29 A-29 A-30 3.60 3.00 2.25 36.0 30.0 22.5 72.0 60.0 45.0 2976 3571 4762 1.47 1.47 1.47 II II II 1310 1355 2170 2 2 2 1531YB 1531YB 60YB AV AV AV 50 60 80 A-30 A-30 A-31 1.80 1.50 18.0 15.0 36.0 30.0 5952 7143 1.47 1.47 II II 2205 2205 2 2 60YB 60YB AV AV 100 120 A-31 Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio A-29 3 HP (2.2 kW) Output Speed RPM Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Selection 6 Hz 60 Hz 120 Hz[1] 18.0 15.0 12.0 180 150 120 360 300 240 893 1071 1339 1.68 1.68 1.68 II II II 1330 1420 1495 3 3 3 63YB 63YB 63YB AV AV AV 10 12 15 9.00 7.20 6.00 90.0 72.0 60.0 180 144 120 1786 2232 2679 1.68 1.68 1.68 II II II 1650 1710 1815 3 3 3 63YB 63YB 63YB AV AV AV 20 25 30 4.50 3.60 45.0 36.0 90.0 72.0 3571 4464 1.68 1.68 II II 1905 1995 3 3 63YB 63YB AV AV 40 50 Dimension Page A-31 5 HP (3.7 kW) Output Speed RPM 120 Hz[1] Output Torque (60 Hz) in•lbs Service Factor (60 Hz) AGMA SF Class Hollow Bore Overhung Load[2] (60 Hz) lbs HP Symbol Frame Size Suffix Nominal Ratio Selection 6 Hz 60 Hz 18.0 15.0 12.0 9.00 180 150 120 90.0 360 300 240 180 1488 1786 2232 2976 1.49 1.49 1.49 1.49 II II II II 1330 1420 1495 1650 5 5 5 5 64YB 64YB 64YB 64YB AV AV AV AV 10 12 15 20 7.20 6.00 4.50 72.0 60.0 45.0 144 120 90.0 3720 4464 5952 1.49 1.49 1.49 II II II 1740 1815 1905 5 5 5 64YB 64YB 64YB AV AV AV 25 30 40 Dimension Page A-31 Notes: [1] 3600 RPM (120 Hz) is the maximum allowable input speed. [2] Overhung Load values are based at a distance of 0.78 inch from the collar. Hyponic A-21 Gearmotors Selection Tables Output Speed RPM Gearmotors Hollow Shaft Type, 3-Phase Motor RNYM01~3 – 1120/1220/1320/1420/1520Y (-B) F G C F L D D P N P A ZA L K B DIA B DIA A1 R J E MP DIA AB A 4X H DIA E K A2 X O S M DIA T DIA U DIA BORE Dimensions Gearmotors W A–A W V Inch Model RNYM01~02-1120Y RNYM01~05-1220Y RNYM02~1-1320Y RNYM05~2-1420Y RNYM1~3-1520Y A1 3.54 4.53 5.20 6.22 7.01 Model RNYM01~02-1120Y RNYM01~05-1220Y RNYM02~1-1320Y RNYM05~2-1420Y RNYM1~3-1520Y A2 3.46 4.45 5.12 6.10 6.89 U min 0.750 1.000 1.250 1.375 1.500 B min 2.046 3.070 3.345 3.739 4.329 B max 2.047 3.071 3.346 3.740 4.331 U max 0.751 1.001 1.252 1.377 1.502 D 1.30 1.46 1.81 2.32 2.68 E 1.65 2.24 2.44 2.95 3.15 F 0.31 0.35 0.35 0.39 0.39 G 2.60 2.91 3.62 4.65 5.35 H 0.26 0.35 0.43 0.55 0.55 Output Shaft Key 3/16X3/16 1/4X1/4 1/4X1/4 5/16X5/16 3/8X3/8 V 3.23 3.62 4.33 5.43 6.14 Model HP AB ZA RNYM01-1120Y(-B)-5~60 RNYM02-1120Y(-B)-5~30 RNYM01-1220Y(-B)-40~60 RNYM02-1220Y(-B)-5~60 RNYM03-1220Y(-B)-5~30 RNYM05-1220Y(-B)-5~30 RNYM02-1320Y(-B)-40~60 RNYM03-1320Y(-B)-40~60 RNYM05-1320Y(-B)-5~60 RNYM08-1320Y(-B)-5~30 RNYM1-1320Y(-B)-5~30 RNYM05-1420Y(-B)-40~60 RNYM08-1420Y(-B)-40~60 RNYM1-1420Y(-B)-5~60 RNYM1H-1420Y(-B)-5~30 RNYM2-1420Y(-B)-5~30 RNYM1-1520Y(-B)-40~60 RNYM1H-1520Y(-B)-40~60 RNYM2-1520Y(-B)-5~60 RNYM3-1520Y(-B)-5~30 1/8 1/4 1/8 1/4 1/3 1/2 1/4 1/3 1/2 3/4 1 1/2 3/4 1 1.5 2 1 1.5 2 3 5.04 5.04 5.04 5.04 5.04 5.04 5.04 5.04 5.04 5.43 5.43 5.04 5.43 5.43 5.63 5.63 5.43 5.63 5.63 5.91 3.41 3.41 3.66 3.66 3.86 3.86 4.45 4.65 4.65 4.88 J 1.97 2.60 2.91 3.46 3.70 K 1.26 1.57 1.81 2.24 2.76 M 0.77 1.02 1.27 1.40 1.52 L 1.57 1.93 2.28 2.76 3.31 O 0.63 0.87 0.87 1.02 1.18 N 3.23 3.78 4.69 5.75 7.01 S 0.039 0.046 0.056 0.056 0.056 Standard Motor C 10.55 12.20 11.46 13.11 13.90 13.90 14.21 15.00 15.00 16.65 16.65 16.22 18.66 18.66 19.84 19.84 19.61 21.02 21.02 21.77 MP 4.69 4.88 4.69 4.88 4.88 4.88 4.88 4.88 4.88 6.10 6.10 4.88 6.10 6.10 6.57 6.57 6.10 6.57 6.57 7.09 P 0.24 0.20 0.20 0.20 0.20 T 0.796 1.066 1.330 1.461 1.594 X 0.87 0.79 1.34 1.69 2.68 W 1.18 1.50 1.81 2.05 2.64 Brakemotor WT (LB) 13 15 15 19 21 21 22 24 24 29 33 33 37 40 46 49 57 64 68 75 C 11.93 13.46 12.83 14.37 15.16 15.16 15.47 16.26 16.26 18.35 18.35 17.48 20.35 20.35 22.28 22.28 21.30 23.46 23.46 24.25 MP 4.88 4.88 4.88 4.88 4.88 4.88 4.88 4.88 4.88 6.10 6.10 4.88 6.10 6.10 6.57 6.57 6.10 6.57 6.57 7.09 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. A-22 R 0.79 1.10 1.08 0.79 1.10 WT (LB) 17 19 19 22 24 24 24 29 29 35 37 35 42 44 55 57 62 73 77 86 Hyponic Gearmotors RNYM01~3 – 1230/1330/1430/1530/1531Y (-B) P D P D L B DIA C N L A J ZA K B DIA MP DIA R A J E AB I DIA F A 4X H DIA Q G E K F A O X M DIA S T DIA U DIA BORE W A-A V Inch Model RNYM01-1230Y RNYM01~02-1330Y RNYM02~05-1430Y RNYM05~1-1530Y RNYM1~3-1531Y A 5.00 5.98 7.01 8.39 8.39 Model RNYM01-1230Y RNYM01~02-1330Y RNYM02~05-1430Y RNYM05~1-1530Y RNYM1~3-1531Y B min 3.070 3.345 3.739 4.329 4.329 B max 3.071 3.346 3.740 4.331 4.331 U min 1.000 1.250 1.375 1.500 1.500 Model RNYM01-1230Y(-B)-80~240 RNYM01-1330Y(-B)-80~240 RNYM02-1330Y(-B)-80~240 RNYM02-1430Y(-B)-80~240 RNYM03-1430Y(-B)-80~240 RNYM05-1430Y(-B)-80~240 RNYM05-1530Y(-B)-80~240 RNYM08-1530Y(-B)-80~240 RNYM1-1530Y(-B)-80~240 RNYM1-1531Y(-B)-80 RNYM1H-1531Y(-B)-80 RNYM2-1531Y(-B)-40~80 RNYM3-1531Y(-B)-40~80 D 1.61 1.81 2.32 2.68 2.68 E 2.56 3.11 3.62 4.29 4.29 U max 1.001 1.252 1.377 1.502 1.502 F 0.35 0.35 0.39 0.39 0.39 G 3.23 3.62 4.65 5.35 5.35 H 0.35 0.43 0.55 0.71 0.71 I 0.55 0.69 0.79 - J 2.99 3.62 4.25 5.08 5.08 Output Shaft Key 1/4X1/4 1/4X1/4 5/16X5/16 3/8X3/8 3/8X3/8 V 3.94 4.33 5.43 6.14 6.14 HP AB ZA 1/8 1/8 1/4 1/4 1/3 1/2 1/2 3/4 1 1 1.5 2 3 5.04 5.04 5.04 5.04 5.04 5.04 5.04 5.43 5.43 5.43 5.63 5.63 5.91 3.78 3.78 4.45 4.65 4.65 4.88 K 1.57 1.85 2.13 2.52 2.52 L 2.01 2.36 2.76 3.31 3.31 M 1.02 1.27 1.40 1.52 1.52 O 0.87 0.87 1.02 1.18 1.18 N 3.74 4.25 5.12 6.18 6.18 P 0.20 0.20 0.20 0.20 0.20 S 0.046 0.056 0.056 0.056 0.056 Standard Motor C 11.50 12.36 14.02 15.12 15.91 15.91 17.20 19.61 19.61 19.61 20.79 20.79 21.57 MP 4.69 4.69 4.88 4.88 4.88 4.88 4.88 6.10 6.10 6.10 6.57 6.57 7.09 Q 4.13 - T 1.066 1.330 1.461 1.594 1.594 R 0.51 0.43 0.55 0.67 0.67 X 0.31 0.14 0.31 0.37 0.37 W 1.50 1.81 2.05 2.64 2.64 Brakemotor WT (LB) 17 20 22 33 35 35 51 53 55 57 64 66 75 C 12.87 13.74 15.28 16.38 17.17 17.17 18.46 21.30 21.30 21.30 23.23 23.23 24.06 MP 4.88 4.88 4.88 4.88 4.88 4.88 4.88 6.10 6.10 6.10 6.57 6.57 7.09 WT (LB) 20 22 24 35 37 37 53 57 62 62 73 75 86 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic A-23 Dimensions Gearmotors W Gearmotors Hollow Shaft Type, 3-Phase Motor RNYM1H~8 – 60/63/64Y (-B) D P C D P ZA LK B DIA B DIA MP DIA R A J E AB I DIA 4X H DIA F F G E J K L Q A O S M DIA Gearmotors Dimensions T DIA U DIA BORE W W V A-A Inch Model RNYM1H~3-60Y RNYM5-63Y RNYM8-64Y A 11.02 11.02 B min B max D 5.904 5.906 3.66 5.904 5.906 3.66 E 5.71 5.71 F 0.75 0.75 G 7.32 7.32 H 0.87 0.87 I 1.26 1.26 J 6.69 6.69 K 3.35 3.35 L 4.33 4.33 P 0.47 0.47 Q 6.46 6.46 R 1.06 1.06 11.02 5.904 5.71 0.75 7.32 0.87 1.26 6.69 3.35 4.33 0.47 6.46 1.06 Model U min 2.000 2.000 2.000 RNYM1H~3-60Y RNYM5-63Y RNYM8-64Y 5.906 3.66 U max 2.002 2.002 2.002 V 8.82 8.82 8.82 Model HP AB ZA RNYM1H-60Y(-B)-100~120 RNYM2-60Y(-B)-80~120 RNYM3-60Y(-B)-80~120 RNYM5-63Y(-B)-10~50 RNYM8-64Y(-B)-10~40 1.5 2 3 5 7.5 5.63 5.63 5.91 6.54 6.54 6.30 6.30 6.30 6.30 6.30 Output Shaft Key 1/2X1/2 1/2X1/2 1/2X1/2 M 2.02 2.02 2.02 Standard Motor C 23.35 23.35 24.57 26.65 28.39 MP 6.57 6.57 7.09 8.74 8.74 O 1.57 1.57 1.57 S 0.068 0.068 0.068 T 2.122 2.122 2.122 Brakemotor WT (LB) 187 187 198 225 243 C 25.79 25.79 27.05 29.49 31.22 MP 6.57 6.57 7.09 8.74 8.74 WT (LB) 198 198 214 247 262 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. A-24 W 3.35 3.35 3.35 Hyponic Gearmotors RNYM01~02 – 361/461Y (-B) C D D N P P L B DIA K MP DIA R B DIA AB A E J I DIA Q G F K 4X H DIA E L F O J A M DIA Gearmotors T DIA Dimensions S U DIA BORE W W V Inch Model RNYM01-361 RNYM02-461 A B min B max D E F G H I J K L N P Q R 5.98 7.01 3.345 3.346 3.739 3.740 1.81 2.32 3.11 3.62 0.35 0.39 3.62 4.65 0.43 0.55 0.69 0.79 3.62 4.25 1.85 2.13 2.36 2.76 4.13 4.76 0.20 0.20 3.19 4.13 1.18 1.06 Model RNYM01-361 RNYM02-461 U min U max V Output Shaft Key M O S T W 1.000 1.438 1.002 1.439 4.33 5.43 1/4X1/4 3/8X3/8 1.02 1.46 0.87 1.02 0.046 0.056 1.066 1.528 1.81 2.05 Model HP AB RNYM01-361(-B)-300~1440 RNYM02-461(-B)-300~1440 1/8 1/4 5.04 5.04 Standard Motor Brakemotor C MP WT (LB) C MP WT (LB) 13.86 17.01 4.69 4.88 25 32 15.24 18.27 4.88 4.88 29 35 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic A-25 Gearmotors Hollow Shaft Type, 3-Phase Motor RNYM03~1 – 56Y (-B) D D C P P N ZA L B DIA MP DIA K R B DIA A AB E J I DIA 4X H DIA Q F K J A O Gearmotors E L F G M DIA Dimensions S T DIA U DIA BORE W W A-A V Inch Model RNYM03~1-56Y A B min B max D E F G H I J K L N P Q R 8.39 4.329 4.331 2.76 4.29 0.39 5.51 0.71 1.02 5.08 2.52 3.31 5.69 0.20 4.80 1.89 Model RNYM03~1-56Y U min U max V Output Shaft Key M O S T W 1.688 1.689 6.30 3/8X3/8 1.71 1.18 0.068 1.792 2.64 Model HP AB ZA RNYM03-56Y(-B)-300~1440 RNYM05-56Y(-B)-300~1440 RNYM08-56Y(-B)-300~480 RNYM1-56Y(-B)-300~480 1/3 1/2 3/4 1 5.04 5.04 5.43 5.43 6.34 6.34 Standard Motor C 19.49 19.49 21.34 21.34 MP 4.88 4.88 5.83 5.83 Brakemotor WT (LB) 57 57 66 66 C 20.75 20.75 23.03 23.03 MP 4.88 4.88 5.83 5.83 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. A-26 WT (LB) 60 60 73 73 Hyponic Gearmotors Hollow Shaft Type, Single Phase Motor RNYM01~05 – 1120/1220/1320/1420Y – SG (-B) G F D C F L D P N P A ZA B DIA B DIA L K J E A1 MP DIA R A 4X H DIA K AB E A2 X O S M DIA Dimensions T DIA Gearmotors U DIA BORE W W V A-A Inch Model RNYM01-1120Y-SG RNYM01~02-1220Y-SG RNYM02~05-1320Y-SG RNYM05-1420Y-SG A1 3.54 4.53 5.20 6.22 Model RNYM01-1120Y-SG RNYM01~02-1220Y-SG RNYM02~05-1320Y-SG RNYM05-1420Y-SG A2 3.46 4.45 5.12 6.10 B min 2.046 3.070 3.345 3.739 U min 0.750 1.000 1.250 1.375 Model RNYM01-1120Y-SG(-B)-5~60 RNYM01-1220Y-SG(-B)-40~60 RNYM02-1220Y-SG(-B)-5~60 RNYM02-1320Y-SG(-B)-40~60 RNYM05-1320Y-SG(-B)-5~60 RNYM05-1420Y-SG(-B)-40~60 B max 2.047 3.071 3.346 3.740 U max 0.751 1.001 1.252 1.377 D 1.30 1.46 1.81 2.32 E 1.65 2.24 2.44 2.95 F 0.31 0.35 0.35 0.39 G 2.60 2.91 3.62 4.65 H 0.26 0.35 0.43 0.55 Output Shaft Key 3/16X3/16 1/4X1/4 1/4X1/4 5/16X5/16 V 3.23 3.62 4.33 5.43 HP AB ZB 1/8 1/8 1/4 1/4 1/2 1/2 4.72 4.72 4.72 4.72 5.12 5.12 3.37 3.66 J 1.97 2.60 2.91 3.46 K 1.26 1.57 1.81 2.24 M 0.77 1.02 1.27 1.40 L 1.57 1.93 2.28 2.76 O 0.63 0.87 0.87 1.02 N 3.23 3.78 4.69 5.75 S 0.039 0.046 0.056 0.056 Standard Motor C 12.80 13.70 14.49 15.55 16.65 18.66 MP 4.88 4.88 4.88 4.88 6.10 6.10 P 0.24 0.20 0.20 0.20 R 0.79 1.10 1.08 0.79 T 0.796 1.066 1.330 1.461 X 0.87 0.79 1.34 1.69 W 1.18 1.50 1.81 2.05 Brakemotor WT (LB) 18 19 22 26 35 42 C 13.46 14.37 15.16 16.26 18.35 20.35 MP 4.88 4.88 4.88 4.88 6.10 6.10 WT (LB) 21 24 26 31 40 46 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic A-27 Gearmotors Hollow Shaft Type, Single Phase Motor RNYM01~05 – 1230/1330/1430/1530Y – SG (-B) F D C F P G P D L ZA L B DIA A N K MP DIA B DIA R A E J AB A 4X H DIA E K S Gearmotors Dimensions X A O M DIA T DIA U DIA BORE W W A-A V Inch Model RNYM01-1330Y-SG RNYM02-1430Y-SG RNYM05-1530Y-SG Model RNYM01-1330Y-SG RNYM02-1430Y-SG RNYM05-1530Y-SG A 5.98 7.01 8.39 B min 3.345 3.739 4.329 B max D 3.346 1.81 3.740 2.32 4.331 2.68 U min 1.250 1.375 1.500 Model RNYM01-1330Y-SG(-B)-80~240 RNYM02-1430Y-SG(-B)-80~240 RNYM05-1530Y-SG(-B)-80~240 E 3.11 3.62 4.29 U max 1.252 1.377 1.502 F 0.35 0.39 0.39 G 3.62 4.65 5.35 H 0.43 0.55 0.71 I 0.69 0.79 - J 3.62 4.25 5.08 Output Shaft Key 1/4X1/4 5/16X5/16 3/8X3/8 V 4.33 5.43 6.14 HP AB ZA 1/8 1/4 1/2 4.72 4.72 5.12 3.78 K 1.85 2.13 2.52 L 2.36 2.76 3.31 M 1.27 1.40 1.52 N 4.25 5.12 6.18 O 0.87 1.02 1.18 P 0.20 0.20 0.20 Q 3.19 4.13 - S 0.056 0.056 0.056 Standard Motor T 1.330 1.461 1.594 X 0.14 0.31 0.37 W 1.81 2.05 2.64 Brakemotor C MP WT (LB) C MP WT (LB) 14.57 16.46 19.61 4.88 4.88 6.10 22 35 55 15.28 17.17 21.30 4.88 4.88 6.10 24 37 62 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. A-28 R 0.43 0.55 0.67 Hyponic Gearmotors Hollow Shaft Type, Inverter Duty RNYM01~2 – 1120/1220/1320/1420/1520Y – AV (-B) F G D C F L D N P P A ZA L K B DIA B DIA A1 R J E MP DIA K E X A2 S M DIA Gearmotors Dimensions O AB A 4X H DIA U DIA BORE T DIA W W A-A V Inch Model RNYM01-1120Y-AV RNYM01~02-1220Y-AV RNYM02~05-1320Y-AV RNYM05~1-1420Y-AV RNYM1~2-1520Y-AV A1 3.54 4.53 5.20 6.22 7.01 Model RNYM01-1120Y-AV RNYM01~02-1220Y-AV RNYM02~05-1320Y-AV RNYM05~1-1420Y-AV RNYM1~2-1520Y-AV A2 3.46 4.45 5.12 6.10 6.89 B min 2.046 3.070 3.345 3.739 4.329 U min 0.750 1.000 1.250 1.375 1.500 Model RNYM01-1120Y-AV(-B)-5~30 RNYM01-1220Y-AV(-B)-40~60 RNYM02-1220Y-AV(-B)-5~30 RNYM02-1320Y-AV(-B)-40~60 RNYM05-1320Y-AV(-B)-5~60 RNYM05-1420Y-AV(-B)-40~60 RNYM1-1420Y-AV(-B)-5~30 RNYM1-1520Y-AV(-B)-40~60 RNYM2-1520Y-AV(-B)-5~30 B max 2.047 3.071 3.346 3.740 4.331 U max 0.751 1.001 1.252 1.377 1.502 D 1.30 1.46 1.81 2.32 2.68 E 1.65 2.24 2.44 2.95 3.15 F 0.31 0.35 0.35 0.39 0.39 G 2.60 2.91 3.62 4.65 5.35 H 0.26 0.35 0.43 0.55 0.55 Output Shaft Key 3/16X3/16 1/4X1/4 1/4X1/4 5/16X5/16 3/8X3/8 V 3.23 3.62 4.33 5.43 6.14 HP AB ZA 1/8 1/8 1/4 1/4 1/2 1/2 1 1 2 5.04 5.04 5.04 5.04 5.43 5.43 5.63 5.63 5.91 3.37 3.66 3.86 3.58 3.78 J 1.97 2.60 2.91 3.46 3.70 K 1.26 1.57 1.81 2.24 2.76 M 0.77 1.02 1.27 1.40 1.52 L 1.57 1.93 2.28 2.76 3.31 O 0.63 0.87 0.87 1.02 1.18 N 3.23 3.78 4.69 5.75 7.01 S 0.039 0.046 0.056 0.056 0.056 Standard Motor C 12.20 13.11 13.90 15.00 16.65 18.66 19.84 21.02 21.77 MP 4.88 4.88 4.88 4.88 6.10 6.10 6.57 6.57 7.09 P 0.24 0.20 0.20 0.20 0.20 R 0.79 1.10 1.08 0.79 1.10 T 0.796 1.066 1.330 1.461 1.594 X 0.87 0.79 1.34 1.69 2.68 W 1.18 1.50 1.81 2.05 2.64 Brakemotor WT (LB) 15 19 21 24 33 40 49 68 75 C 13.46 14.37 15.16 16.26 18.35 20.35 22.28 23.46 24.25 MP 4.88 4.88 4.88 4.88 6.10 6.10 6.57 6.57 7.09 WT (LB) 19 22 24 29 37 44 57 77 86 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic A-29 Gearmotors Hollow Shaft Type, Inverter Duty RNYM01~2 – 1330/1430/1530/1531Y – AV (-B) P D D P L L B DIA B DIA A J C N ZA K MP DIA R A J E AB I DIA F E F A O Gearmotors Dimensions A K 4X H DIA Q G X M DIA S U DIA BORE T DIA W W V A-A Inch Model RNYM01-1330Y-AV RNYM02-1430Y-AV RNYM05-1530Y-AV RNYM1~2-1531Y-AV Model RNYM01-1330Y-AV RNYM02-1430Y-AV RNYM05-1530Y-AV RNYM1~2-1531Y-AV A 5.98 7.01 8.39 8.39 B min 3.345 3.739 4.329 4.329 B max 3.346 3.740 4.331 4.331 U min 1.250 1.375 1.500 1.500 Model RNYM01-1330Y-AV(-B)-80~240 RNYM02-1430Y-AV(-B)-80~240 RNYM05-1530Y-AV(-B)-80~240 RNYM1-1531Y-AV(-B)-80 RNYM2-1531Y-AV(-B)-40~60 D 1.81 2.32 2.68 2.68 U max 1.252 1.377 1.502 1.502 E 3.11 3.62 4.29 4.29 F 0.35 0.39 0.39 0.39 G 3.62 4.65 5.35 5.35 H 0.43 0.55 0.71 0.71 I 0.69 0.79 - J 3.62 4.25 5.08 5.08 Output Shaft Key 1/4X1/4 5/16X5/16 3/8X3/8 3/8X3/8 V 4.33 5.43 6.14 6.14 HP AB ZA 1/8 1/4 1/2 1 2 5.04 5.04 5.43 5.63 5.91 3.78 3.98 4.21 K 1.85 2.13 2.52 2.52 L 2.36 2.76 3.31 3.31 M 1.27 1.40 1.52 1.52 O 0.87 1.02 1.18 1.18 N 4.25 5.12 6.18 6.18 P 0.20 0.20 0.20 0.20 S 0.056 0.056 0.056 0.056 Standard Motor C 14.02 15.91 19.61 20.79 21.57 MP 4.88 4.88 6.10 6.57 7.09 Q 3.19 4.13 - T 1.330 1.461 1.594 1.594 X 0.14 0.31 0.37 0.37 W 1.81 2.05 2.64 2.64 Brakemotor WT (LB) 22 35 55 66 75 C 15.28 17.17 21.30 23.23 24.06 MP 4.88 4.88 6.10 6.57 7.09 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. A-30 R 0.43 0.55 0.67 0.67 WT (LB) 24 37 62 75 86 Hyponic Gearmotors RNYM2~5 – 60/63/64Y – AV (-B) D P C D P ZA L K B DIA B DIA MP DIA R A J E AB I DIA F K L 4X H DIA Q G F E J A O S M DIA Dimensions Gearmotors U DIA BORE T DIA W W V A-A Inch Model RNYM2-60Y-AV RNYM3-63Y-AV RNYM5-64Y-AV A B min B max 11.02 11.02 11.02 Model RNYM2-60Y-AV RNYM3-63Y-AV RNYM5-64Y-AV 5.904 5.904 5.904 5.906 5.906 5.906 D E F G H I J K L P Q R 3.66 3.66 3.66 5.71 5.71 5.71 0.75 0.75 0.75 7.32 7.32 7.32 0.87 0.87 0.87 1.26 1.26 1.26 6.69 6.69 6.69 3.35 3.35 3.35 4.33 4.33 4.33 0.47 0.47 0.47 6.46 6.46 6.46 1.06 1.06 1.06 U min U max V Output Shaft Key M O S T W 2.000 2.000 2.000 2.002 2.002 2.002 8.82 8.82 8.82 1/2X1/2 1/2X1/2 1/2X1/2 2.02 2.02 2.02 1.57 1.57 1.57 0.068 0.068 0.068 2.122 2.122 2.122 3.35 3.35 3.35 Model HP AB ZA RNYM2-60Y-AV(-B)- 80~120 RNYM3-63Y-AV(-B)- 10~50 RNYM5-64Y-AV(-B)- 10~40 2 3 5 5.91 6.54 6.54 6.30 6.30 6.30 Standard Motor C 24.57 26.65 28.39 MP 7.09 8.74 8.74 Brakemotor WT (LB) 198 225 243 C 27.05 29.49 31.22 MP 7.09 8.74 8.74 WT (LB) 214 245 262 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic A-31 Gearmotors Notes Gearmotors A-32 Hyponic Reducers B Speed Reducers Hollow Shaft Type Hyponic B-1 Reducers Product Range Table B-1 Reducer Product Range Frame Size 1120 1230 1220 1330 1320 1430 1420 1530 1520 1531 Nominal Ratio (:1) 5 ~ 60 80 ~ 240 5 ~ 60 80 ~ 240 5 ~ 60 80 ~ 240 5 ~ 60 80 ~ 240 5 ~ 60 40 ~ 80 Output Torque at 1750 RPM Input (in•lbs)[1] 41.1 ~ 246 328 ~ 867 82.1 ~ 493 657 ~ 1724 165 ~ 982 1314 ~ 3448 316 ~ 1970 2627 ~ 6470 452 ~ 3793 3612 ~ 5419 Stock Adaptor[2] 42C ~ 56C 42C ~ 56C 42C ~ 56C 42C ~ 56C 56C ~ 145TC 42C ~ 56C 56C ~ 145TC 56C ~ 145TC 56C ~ 184TC 56C ~ 184TC Table B-2 Standard Specifications Item Reducer Product Range Reducers Ambient Conditions Standard Specification Lubrication Grease Lubricated. Filled with special high-grade grease prior to shipment from factory. Reduction Combination of Hypoid gear and Involute gear. Material Casing: Aluminum Alloy, Gear: Chrome-Molybdenum steel Installation Indoor (free from water) Temperature 14 to 104°F Humidity 85% maximum - no condensation Altitude 3280 feet Atmosphere Free from corrosive gas, explosive gas, or steam. Area to be well ventilated. Installation Angle No Limitation Table B-3 Recommended Reducer Service Factors LOAD CLASSIFICATIONS PRIME MOVER ELECTRIC MOTOR UNIFORM MODERATE SHOCK HEAVY SHOCK AGMA AGMA AGMA Occasional 1/2 hr. per day 0.50[3] 0.80[3] 1.25 Intermittent 3 hrs. per day 0.80[3] 1.00 1.50 Up to 10 hrs. per day 1.00 1.25 1.75 24 hours per day 1.25 1.50 2.00 DURATION OF SERVICE Notes: [1] Please refer to the Reducer Selection Tables for additional input speeds and ratings. [2] Please consult the factory for availablity of motor adaptors not listed. [3] Maximum momentary or starting load must not exceed 250% of gear reducer rating (rating meaning service factor of 1.0). Time specified for occasional and intermittent service refers to total operating time per day. B-2 Hyponic Reducers AGMA Load Classifications Table B-4 Load Classification Listed by Application Agitators Pure liquids . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Liquids and solids . . . . . . . . . . . . . . . . . . . . . . . M Variable-density liquids . . . . . . . . . . . . . . . . . . M Blowers Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Lobe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Vane . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Brewing and Distilling Bottling machinery . . . . . . . . . . . . . . . . . . . . . . U Brew kettles, cont. duty . . . . . . . . . . . . . . . . . . . U Cookers, cont. duty . . . . . . . . . . . . . . . . . . . . . . U Mash tubs, cont. duty . . . . . . . . . . . . . . . . . . . . U Scale hopper, frequent starts . . . . . . . . . . . . . . M Can Filling Machines . . . . . . . . . . . . . . . . . . . . . . . . U Cane Knives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Car Dumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Car Pullers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Clarifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Classifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Clay Working Machinery Brick press . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Briquette machine . . . . . . . . . . . . . . . . . . . . . . . H Clay working machinery . . . . . . . . . . . . . . . . . . M Pug mill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Compressors Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Lobe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Reciprocating, multi-cylinder . . . . . . . . . . . . . . M Reciprocating, single-cylinder . . . . . . . . . . . . . . H Conveyors — Uniformly Loaded or Fed Apron . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Belt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Bucket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Flight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Oven . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Conveyors — Heavy Duty, Not Uniformly Fed Apron . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Belt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Bucket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Flight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Live roll oven . . . . . . . . . . . . . . . . . . . . . . . . . . M Reciprocating . . . . . . . . . . . . . . . . . . . . . . . . . . H Screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Shaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Cranes (Except for Dry Dock Cranes) Main hoists . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Bridge travel . . . . . . . . . . . . . . . . . . . . . . . . . . . S Trolley travel . . . . . . . . . . . . . . . . . . . . . . . . . . . S Crusher Ore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Stone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Sugar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Dredges Cable reels . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Conveyors . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Cutter head drives . . . . . . . . . . . . . . . . . . . . . . H Jig drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Maneuvering winches . . . . . . . . . . . . . . . . . . . M Pumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Screen drive . . . . . . . . . . . . . . . . . . . . . . . . . . . H Stackers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Utility winches . . . . . . . . . . . . . . . . . . . . . . . . . M Dry Dock Cranes . . . . . . . . . . . . . . . . . . . . . . . . . . . S Elevators Bucket, uniform load . . . . . . . . . . . . . . . . . . . . . U Bucket, heavy load . . . . . . . . . . . . . . . . . . . . . . M Bucket, cont. . . . . . . . . . . . . . . . . . . . . . . . . . . . U Centrifugal discharge . . . . . . . . . . . . . . . . . . . . U Escalators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Freight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Gravity discharge . . . . . . . . . . . . . . . . . . . . . . . U Man lifts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S Passenger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S Extruders (Plastics) Blow molders . . . . . . . . . . . . . . . . . . . . . . . . . . M Coating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Film . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Pipe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Pre-plasticizers . . . . . . . . . . . . . . . . . . . . . . . . . M Rods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Tubing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Fans Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Cooling towers . . . . . . . . . . . . . . . . . . . . . . . . . S Forced draft . . . . . . . . . . . . . . . . . . . . . . . . . . . S Induced draft . . . . . . . . . . . . . . . . . . . . . . . . . . M Large (mine, etc.) . . . . . . . . . . . . . . . . . . . . . . . M TYPE OF APPLICATION TYPE OF LOAD Large (industrial) . . . . . . . . . . . . . . . . . . . . . . . M Light (small diameter) . . . . . . . . . . . . . . . . . . . . U Feeders Apron . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Belt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Disc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Reciprocating . . . . . . . . . . . . . . . . . . . . . . . . . . H Screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Food Industry Beet slicer . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Cereal cooker . . . . . . . . . . . . . . . . . . . . . . . . . . U Dough mixer . . . . . . . . . . . . . . . . . . . . . . . . . . . M Meat grinders . . . . . . . . . . . . . . . . . . . . . . . . . . M Generators (Not Welding) . . . . . . . . . . . . . . . . . . . . U Hammer Mills . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Hoists Heavy duty . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Medium duty . . . . . . . . . . . . . . . . . . . . . . . . . . . M Skip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Laundry Washers — Reversing . . . . . . . . . . . . . . . M Laundry Tumblers . . . . . . . . . . . . . . . . . . . . . . . . . . M Line Shaft Drive processing equipment . . . . . . . . . . . . . . . M Light . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Other line shafts . . . . . . . . . . . . . . . . . . . . . . . . U Lumber Industry Barkers — hydraulic and mechanical . . . . . . . . S Burner conveyor . . . . . . . . . . . . . . . . . . . . . . . . M Chain Saw and Drag Saw . . . . . . . . . . . . . . . . . . . . H Chain transfer . . . . . . . . . . . . . . . . . . . . . . . . . . H Craneway transfer . . . . . . . . . . . . . . . . . . . . . . H De-barking drum . . . . . . . . . . . . . . . . . . . . . . . . H Edger feed . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Gang feed . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Geen chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Live rolls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Log haul-lockline . . . . . . . . . . . . . . . . . . . . . . . . H Log turning device . . . . . . . . . . . . . . . . . . . . . . H Main log conveyor . . . . . . . . . . . . . . . . . . . . . . H Off bearing rolls . . . . . . . . . . . . . . . . . . . . . . . . M Planer feed chains . . . . . . . . . . . . . . . . . . . . . . M Planer floor chains . . . . . . . . . . . . . . . . . . . . . . M Planer tilting hoist . . . . . . . . . . . . . . . . . . . . . . . M Re-saw merry-go-round conveyor . . . . . . . . . . M Roll cases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Slab conveyor . . . . . . . . . . . . . . . . . . . . . . . . . . H Small waste-conveyor-belt . . . . . . . . . . . . . . . . U Small waste-conveyor-chain . . . . . . . . . . . . . . M Sorting table . . . . . . . . . . . . . . . . . . . . . . . . . . . M Tipple hoist conveyor . . . . . . . . . . . . . . . . . . . . M Tipple hoist drive . . . . . . . . . . . . . . . . . . . . . . . M Transfer conveyors . . . . . . . . . . . . . . . . . . . . . M Transfer rolls . . . . . . . . . . . . . . . . . . . . . . . . . . M Tray drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Trimmer feed . . . . . . . . . . . . . . . . . . . . . . . . . . M Waste conveyor . . . . . . . . . . . . . . . . . . . . . . . . M Machine Tools Bending roll . . . . . . . . . . . . . . . . . . . . . . . . . . . M Notching press, belt driven . . . . . . . . . . . . . . . . S Plate planer . . . . . . . . . . . . . . . . . . . . . . . . . . . H Punch press, gear driven . . . . . . . . . . . . . . . . . H Tapping machine . . . . . . . . . . . . . . . . . . . . . . . H Other machine tools Main drives . . . . . . . . . . . . . . . . . . . . . . . . M Auxiliary drives . . . . . . . . . . . . . . . . . . . . . . U Metal Mills Draw bench carriage and main drive . . . . . . . . M Forming machines . . . . . . . . . . . . . . . . . . . . . . H Pinch, dryer and scrubber rolls, reversing . . . . S Slitters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Table conveyors, nonreversing Group drives . . . . . . . . . . . . . . . . . . . . . . . M Individual drives . . . . . . . . . . . . . . . . . . . . . H Table conveyors, reversing . . . . . . . . . . . . . . . . S Wire drawing and flattening machine . . . . . . . . M Wire winding machine . . . . . . . . . . . . . . . . . . . M Mills, Rotary Type Ball . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Cement kilns . . . . . . . . . . . . . . . . . . . . . . . . . . M Dryers and coolers . . . . . . . . . . . . . . . . . . . . . . M Kilns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Pebble . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Rod, plain and wedge bar . . . . . . . . . . . . . . . . M Tumbling barrels . . . . . . . . . . . . . . . . . . . . . . . . H Mixers Concrete mixers, cont. . . . . . . . . . . . . . . . . . . . M Concrete mixers, intermittent . . . . . . . . . . . . . . M Constant density . . . . . . . . . . . . . . . . . . . . . . . . U Variable density . . . . . . . . . . . . . . . . . . . . . . . . M Oil Industry Chillers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Oil well pumps . . . . . . . . . . . . . . . . . . . . . . . . . S Paraffin filter press . . . . . . . . . . . . . . . . . . . . . . M Rotary kilns . . . . . . . . . . . . . . . . . . . . . . . . . . . M TYPE OF APPLICATION TYPE OF LOAD Paper Mills Agitators (mixers) . . . . . . . . . . . . . . . . . . . . . . . M Barker, hydraulic . . . . . . . . . . . . . . . . . . . . . . . M Barker, mechnical . . . . . . . . . . . . . . . . . . . . . . M Barking drum . . . . . . . . . . . . . . . . . . . . . . . . . . H Beater and pulper . . . . . . . . . . . . . . . . . . . . . . . M Bleacher . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Calenders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Calenders, super . . . . . . . . . . . . . . . . . . . . . . . H Converting machine (except cutters, platers) . . M Conveyors . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Couch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Cutters, platers . . . . . . . . . . . . . . . . . . . . . . . . . H Cylinders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Dryers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Felt stretcher . . . . . . . . . . . . . . . . . . . . . . . . . . M Felt whipper . . . . . . . . . . . . . . . . . . . . . . . . . . . H Jordans . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Log haul . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Presses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Pulp machine reel . . . . . . . . . . . . . . . . . . . . . . M Stock chest . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Suction roll . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Washers and thickeners . . . . . . . . . . . . . . . . . . M Winders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Printing Presses . . . . . . . . . . . . . . . . . . . . . . . . . . . S Pullers, Barge Haul . . . . . . . . . . . . . . . . . . . . . . . . . H Pumps Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Proportioning . . . . . . . . . . . . . . . . . . . . . . . . . . M Reciprocating Single acting, 3 or more cylinders . . . . . . . M Double acting, 2 or more cylinders . . . . . . M Rotary-gear type . . . . . . . . . . . . . . . . . . . . . . . . U Rubber and Plastics Industries Crackers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Laboratory equipment . . . . . . . . . . . . . . . . . . . M Mixing mills . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Refiners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Rubber calenders . . . . . . . . . . . . . . . . . . . . . . . M Rubber mill (2 on line) . . . . . . . . . . . . . . . . . . . M Rubber mill (3 on line) . . . . . . . . . . . . . . . . . . . U Sheeter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Tire building machines . . . . . . . . . . . . . . . . . . . S Tire and tube press openers . . . . . . . . . . . . . . . S Tubers and strainers . . . . . . . . . . . . . . . . . . . . M Warming mills . . . . . . . . . . . . . . . . . . . . . . . . . . M Sand Muller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Screens Air washing . . . . . . . . . . . . . . . . . . . . . . . . . . . . U Rotary, stone or gravel . . . . . . . . . . . . . . . . . . . M Traveling water intake . . . . . . . . . . . . . . . . . . . U Sewage Disposal Equipment Bar screens . . . . . . . . . . . . . . . . . . . . . . . . . . . U Chemical fenders . . . . . . . . . . . . . . . . . . . . . . . U Collectors, circuline or straightline . . . . . . . . . . U Dewatering screens . . . . . . . . . . . . . . . . . . . . . M Grit collectors . . . . . . . . . . . . . . . . . . . . . . . . . . U Scum breakers . . . . . . . . . . . . . . . . . . . . . . . . . M Slow or rapid mixers . . . . . . . . . . . . . . . . . . . . . M Sludge collectors . . . . . . . . . . . . . . . . . . . . . . . U Thickeners . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Vacuum filters . . . . . . . . . . . . . . . . . . . . . . . . . M Slab Pushers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Steering Gear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S Stokers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .U Sugar Industry Cane knives . . . . . . . . . . . . . . . . . . . . . . . . . . . M Crushers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Mills . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H Textile Industry Batchers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Calenders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Dry cans . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Dryers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Dyeing machinery . . . . . . . . . . . . . . . . . . . . . . M Knitting machines . . . . . . . . . . . . . . . . . . . . . . . S Looms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Mangles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Nappers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Pads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Range drives . . . . . . . . . . . . . . . . . . . . . . . . . . . S Slashers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Soapers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Spinners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Tenter frames . . . . . . . . . . . . . . . . . . . . . . . . . . M Washers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Winders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M Windlass . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S U = Uniform Load M = Moderate Shock H = Heavy Shock S = Contact Sumitomo B-3 Reducers AGMA TYPE OF LOAD Load Classifications TYPE OF APPLICATION Reducers Reducer Selection Flowchart DETERMINE TYPE OF DRIVEN MACHINE CHECK HOURS OF OPERATION See Load Classification Table, Page B-3 See Service Factor Table, Page B-2 CHOOSE A LOAD CLASSIFICATION CALCULATE SELECTION HORSEPOWER DETERMINE INPUT AND OUTPUT SPEEDS See Reducer Selection Tables, Pages B-6 ~ B-21 MAKE A PRELIMINARY SELECTION Selection Flowchart Reducers DIRECT CONNECT OUTPUT YES NO YES DETERMINE OVERHUNG LOAD OHL< OHL IN TABLES SELECT MOUNTING STYLE NO LARGER UNIT OR DECREASE OHL CHECK OPERATING ENVIRONMENT See Standard Specifications, Page B-2 FINALIZE REQUIRED OPTIONS B-4 Hyponic Reducers Reducer Selection Procedure The following information is required to properly select a Hyponic® Reducer 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Application – Type of Driven Machine Hours of Operation per Day Motor Power and Speed Desired Output Speed Mounting Position and Style Environmental Conditions Required Options Electrical Specifications Overhung or Thrust Loads Shaft Dimensions – Inch or Metric Example: Belt Conveyor – Uniformly Fed 10 Hours of Operation per Day 2 HP Motor, 1750 RPM 145TC 37 RPM Horizontal, Foot Mounted Inside Industrial Plant C Face Adapter 460 Volts, 60 Hertz, 3 phase None – Direct Coupled Output Inch Shafting Review the Basic Information and Recommendations on pages 4 and 5, then proceed to Selection Example 1. Selection Example 1 Step 1 Using the information above, choose a Load Classification in the Application Table (page B-3): Conveyors – Uniformly Loaded or Fed = U. Determine the service factor from the Service Factor Table (page B-2): Electric motor prime mover, operating 10 hours per day, with uniform loading = 1.00 service factor. Step 2 Multiply either the motor horsepower or demand horsepower by the service factor: 2 motor horsepower X 1.00 service factor = 2.0 selection horsepower Are there any overhung or thrust loads? For shaft mounted or direct connected units, proceed to Step 4. Otherwise, any overhung or thrust loads must be checked against the capability of the selection. To check overhung load use this formula: Overhung = 126,000 x HP x Cf x Lf x Fs Load (OHL) DxN HP: Transmitted or Motor HP Cf: Load Connection Factor Lf: Load Location Factor D: Pitch Diameter (in) N: Shaft RPM Fs: Shock factor The specific values for the overhung load factors, as well as a method to evaluate thrust loads, are listed on page D-5 in the Technical Information Section. Step 4 Select the desired mounting position and housing style from the nomenclature on page 2. The shaft mounted designation is RNY. The unit nomenclature is RNYJ-1520Y- 50. Step 5 Check environmental conditions against the Standard Specifications on page B-2: inside industrial plant. No environmental modifications required. Step 6 Specify desired specifications and options: 145TC motor adapter, 1-1/2” hollow bore. Hyponic B-5 Reducers Selection Procedure Step 3 Go to the Reducer Selection Table (pages B-6 ~ 21)for the correct input speed. Find the ratio providing the output speed closest to the desired speed. At 1750 RPM, the closest speed to 37 RPM is 35 RPM. The ratio for this speed is 50:1. Go down the column to a selection equal to or next closest to the selection horsepower of 2 HP. The 2.07 HP rating for frame size 1520, having a ratio of 50:1, exceeds 2 HP. Reducers Reducer Selection Tables 1750 RPM Input Speed Frame Size 1120 1230 Output RPM Nominal Ratio 350 5 250 7 175 10 146 12 117 15 87.5 20 70 25 58.3 30 43.8 40 Input HP 0.268 0.268 0.268 0.268 0.268 0.268 0.268 0.268 0.134 Output Torque in•lbs 41.1 57.5 82.1 98.5 123 164 205 246 164 Hollow Bore OHL lbs 132 143 165 176 187 210 220 232 254 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1220 1330 — — — — — — — — — Input HP 0.536 0.536 0.536 0.536 0.536 0.536 0.536 0.536 0.268 Output Torque in•lbs 82.1 115 164 197 246 328 411 493 328 Hollow Bore OHL lbs 187 210 232 243 265 297 308 330 353 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 1.07 1.07 1.07 1.07 1.07 1.07 1.07 1.07 0.54 Output Torque in•lbs 165 230 329 395 493 658 822 982 658 Hollow Bore OHL lbs 308 353 387 407 441 486 508 528 573 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 2.07 2.07 2.07 2.07 2.07 2.07 2.07 2.07 1.07 Output Torque in•lbs 316 443 632 759 948 1264 1580 1897 1314 Hollow Bore OHL lbs 463 517 584 618 661 717 760 805 859 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 1531 B-6 — — — — — — — — — Input HP 3.00 3.00 3.00 3.00 3.00 3.00 3.00 3.00 2.07 Output Torque in•lbs 459 643 918 1101 1374 1837 2296 2757 2529 Hollow Bore OHL lbs 660 745 835 890 945 1035 1100 1155 1245 Input HP — — — — — — — — 3.00 Output Torque in•lbs — — — — — — — — 3669 Hollow Bore OHL lbs — — — — — — — — 1245 Hyponic Reducers 1750 RPM Input Speed (con’t.) 35.0 50 29.2 60 21.9 80 17.5 100 14.6 120 11.7 150 8.75 200 7.29 240 Output RPM Nominal Ratio 0.134 0.134 — — — — — — 205 246 — — — — — — Output Torque in•lbs 277 285 — — — — — — Hollow Bore OHL lbs — — 0.134 0.134 0.134 0.134 0.134 0.118 — — 328 411 493 616 821 867 Output Torque in•lbs — — 398 398 407 407 407 407 Hollow Bore OHL lbs 0.268 0.268 — — — — — — Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP Input HP Input HP 411 493 — — — — — — Output Torque in•lbs 375 387 — — — — — — Hollow Bore OHL lbs — — 0.268 0.268 0.268 0.268 0.268 0.235 Input HP — — 657 821 985 1232 1642 1724 Output Torque in•lbs — — 398 398 407 407 407 407 Hollow Bore OHL lbs 0.54 0.54 — — — — — — Input HP 982 — — — — — — Output Torque in•lbs 638 — — — — — — Hollow Bore OHL lbs — — 0.536 0.536 0.536 0.536 0.536 0.469 Input HP — — 1314 1642 1970 2463 3284 3448 Output Torque in•lbs — — 960 980 980 980 980 980 Hollow Bore OHL lbs 1.07 1.07 — — — — — — Input HP 1642 1970 — — — — — — Output Torque in•lbs 904 937 — — — — — — Hollow Bore OHL lbs — — 1.07 1.07 1.07 1.07 1.06 0.880 Input HP — — 2627 3284 3941 4926 6470 6463 Output Torque in•lbs — — 1378 1401 1401 1401 1401 1401 2.07 2.07 — — — — — — Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Selection Tables 822 618 Hollow Bore OHL lbs Input HP 3161 3793 — — — — — — Output Torque in•lbs 1311 1356 — — — — — — Hollow Bore OHL lbs 3.00 3.00 2.07 — — — — — Input HP 4592 5504 5057 — — — — — Output Torque in•lbs 1310 1355 1378 — — — — — Hollow Bore OHL lbs Hyponic Frame Size B-7 Reducers Reducer Selection Tables 1450 RPM Input Speed Frame Size 1120 1230 Output RPM Nominal Ratio 290 5 207 7 145 10 121 12 96.7 15 72.5 20 58.0 25 48.3 30 36.3 40 Input HP 0.268 0.268 0.268 0.268 0.268 0.268 0.268 0.268 0.134 Output Torque in•lbs 49.5 69.4 99.1 119 149 198 248 297 198 Hollow Bore OHL lbs 143 154 176 187 198 221 232 243 265 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1220 1330 — — — — — — — — — Input HP 0.536 0.536 0.536 0.536 0.536 0.536 0.536 0.536 0.268 Output Torque in•lbs 99.1 139 198 238 297 396 495 595 396 Hollow Bore OHL lbs 198 221 243 254 277 308 330 342 364 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 1.07 1.07 1.07 1.07 1.07 1.07 1.07 1.07 0.54 Output Torque in•lbs 198 277 396 476 595 793 991 1189 793 Hollow Bore OHL lbs 330 375 407 429 463 508 528 551 596 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 2.07 2.07 2.07 2.07 2.07 2.07 2.07 2.07 1.07 Output Torque in•lbs 381 534 763 916 1144 1526 1907 2289 1585 Hollow Bore OHL lbs 486 551 618 638 695 749 794 839 892 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 1531 B-8 — — — — — — — — — Input HP 2.95 2.95 2.95 2.95 2.95 2.95 2.95 2.95 2.07 Output Torque in•lbs 545 763 1090 1308 1635 2180 2725 3270 3052 Hollow Bore OHL lbs 706 794 881 926 991 1081 1146 1200 1290 Input HP — — — — — — — — 2.95 Output Torque in•lbs — — — — — — — — 4360 Hollow Bore OHL lbs — — — — — — — — 1290 Hyponic Reducers 1450 RPM Input Speed (con’t.) 29.0 50 24.2 60 18.1 80 14.5 100 12.1 120 9.67 150 7.25 200 6.04 240 Output RPM Nominal Ratio 0.134 0.134 — — — — — — Input HP 248 297 — — — — — — Output Torque in•lbs 285 297 — — — — — — Hollow Bore OHL lbs — — 0.134 0.134 0.134 0.134 0.117 0.098 — — 396 495 595 743 862 868 Output Torque in•lbs — — 398 407 407 407 407 407 Hollow Bore OHL lbs 0.268 0.268 — — — — — — Input HP Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP 595 — — — — — — Output Torque in•lbs 398 — — — — — — Hollow Bore OHL lbs — — 0.268 0.268 0.268 0.268 0.233 0.194 Input HP — — 793 991 1189 1486 1724 1724 Output Torque in•lbs Hollow Bore OHL lbs — — 661 695 695 695 695 695 0.536 0.536 — — — — — — Input HP 991 1189 — — — — — — Output Torque in•lbs 638 661 — — — — — — Hollow Bore OHL lbs — — 0.536 0.536 0.536 0.536 0.467 0.389 Input HP — — 1585 1982 2378 2973 3448 3448 Output Torque in•lbs — — 969 980 980 980 980 980 Hollow Bore OHL lbs 1.07 1.07 — — — — — — Input HP 1982 2378 — — — — — — Output Torque in•lbs 937 969 — — — — — — Hollow Bore OHL lbs — — 1.07 1.07 1.07 1.07 0.876 0.730 Input HP — — 3171 3964 4756 5945 6470 6468 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 2.07 2.07 — — — — — — Input HP 3815 4578 — — — — — — Output Torque in•lbs 1356 1401 — — — — — — Hollow Bore OHL lbs Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Selection Tables 495 387 Hollow Bore OHL lbs 2.95 2.95 2.07 — — — — — Input HP 5450 6540 6104 — — — — — Output Torque in•lbs 1356 1401 1401 — — — — — Hollow Bore OHL lbs Hyponic Frame Size B-9 Reducers Reducer Selection Tables 1165 RPM Input Speed Frame Size 1120 1230 Output RPM Nominal Ratio 233 5 166 7 117 10 97.1 12 77.7 15 58.3 20 46.6 25 38.8 30 29.1 40 Input HP 0.216 0.216 0.216 0.216 0.216 0.216 0.216 0.216 0.107 Output Torque in•lbs 49.6 69.5 99.3 119.1 148.9 198.6 248.2 297.8 197.3 Hollow Bore OHL lbs 143 165 187 198 210 232 243 265 285 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1220 1330 — — — — — — — — — Input HP 0.430 0.430 0.430 0.430 0.430 0.430 0.430 0.430 0.216 Output Torque in•lbs 99.0 138.6 197.9 237.5 296.9 395.9 494.9 593.8 397.1 Hollow Bore OHL lbs 210 232 265 277 297 330 342 364 387 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 0.862 0.862 0.862 0.862 0.862 0.862 0.862 0.862 0.430 Output Torque in•lbs 198 278 397 476 595 793 991 1190 792 Hollow Bore OHL lbs 364 398 441 463 497 528 562 596 638 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 1.66 1.66 1.66 1.66 1.66 1.66 1.66 1.66 0.862 Output Torque in•lbs 381 534 763 915 1144 1526 1907 2288 1586 Hollow Bore OHL lbs 528 596 661 695 749 805 850 881 937 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 1531 B-10 — — — — — — — — — Input HP 2.37 2.37 2.37 2.37 2.37 2.36 2.37 2.37 1.66 Output Torque in•lbs 546 764 1091 1310 1637 2183 2729 3274 3051 Hollow Bore OHL lbs 760 859 949 991 1059 1146 1223 1268 1356 Input HP — — — — — — — — 2.37 Output Torque in•lbs — — — — — — — — 4366 Hollow Bore OHL lbs — — — — — — — — 1356 Hyponic Reducers 1165 RPM Input Speed (con’t.) 23.3 50 19.4 60 14.6 80 11.7 100 9.71 120 7.77 150 5.83 200 4.85 240 Output RPM Nominal Ratio 0.107 0.107 — — — — — — Input HP 246.7 296.0 — — — — — — Output Torque in•lbs 297 297 — — — — — — Hollow Bore OHL lbs — — 0.107 0.107 0.107 0.107 0.094 0.079 — — 395 493 592 740 863 873 Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP Output Torque in•lbs — — 398 407 407 407 407 407 0.216 0.216 — — — — — — Input HP 496.4 595.7 — — — — — — Output Torque in•lbs 387 398 — — — — — — Hollow Bore OHL lbs — — 0.216 0.216 0.216 0.216 0.188 0.157 Input HP — — 794 993 1191 1489 1727 1732 Output Torque in•lbs Hollow Bore OHL lbs — 695 695 695 695 695 695 0.430 — — — — — — Input HP Hollow Bore OHL lbs 990 1188 — — — — — — Output Torque in•lbs 661 695 — — — — — — Hollow Bore OHL lbs — — 0.430 0.430 0.430 0.430 0.375 0.312 Input HP — — 1584 1979 2375 2969 3453 3448 Output Torque in•lbs — — 980 980 980 980 980 980 Hollow Bore OHL lbs 0.862 0.862 — — — — — — Input HP 1983 2379 — — — — — — Output Torque in•lbs 980 980 — — — — — — Hollow Bore OHL lbs — — 0.862 0.862 0.862 0.862 0.703 0.586 Input HP — — 3172 3965 4758 5948 6462 6467 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 1.66 1.66 — — — — — — Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Hollow Bore OHL lbs Input HP 3814 4577 — — — — — — Output Torque in•lbs 1401 1401 — — — — — — Hollow Bore OHL lbs 2.37 2.37 1.66 — — — — — Input HP 5457 6549 6102 — — — — — Output Torque in•lbs 1401 1401 1401 — — — — — Hollow Bore OHL lbs B-11 Selection Tables — 0.430 Hyponic Frame Size Reducers Reducer Selection Tables 980 RPM Input Speed Frame Size 1120 1230 Output RPM Nominal Ratio 196 5 140 7 98.0 10 81.7 12 65.3 15 49.0 20 39.2 25 32.7 30 24.5 40 Input HP 0.181 0.181 0.181 0.181 0.181 0.181 0.181 0.181 0.091 Output Torque in•lbs 49.5 69.3 99.0 118.8 148.4 197.9 247.4 296.9 199.4 Hollow Bore OHL lbs 154 176 198 210 221 243 265 277 297 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1220 1330 — — — — — — — — — Input HP 0.362 0.362 0.362 0.326 0.362 0.362 0.362 0.362 0.181 Output Torque in•lbs 99.0 138.5 197.9 237.5 296.9 395.8 494.8 593.8 395.8 Hollow Bore OHL lbs 221 243 277 285 319 342 364 375 398 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 0.725 0.725 0.725 0.725 0.725 0.725 0.725 0.725 0.362 Output Torque in•lbs 198 278 397 476 595 793 991 1190 792 Hollow Bore OHL lbs 375 407 463 486 517 551 596 627 661 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 1.40 1.40 1.40 1.40 1.40 1.40 1.40 1.40 0.725 Output Torque in•lbs 382 534 763 916 1145 1526 1908 2289 1586 Hollow Bore OHL lbs 562 618 695 728 771 839 881 915 969 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 1531 B-12 — — — — — — — — — Input HP 2.00 2.00 2.00 2.00 2.00 2.00 2.00 2.00 1.40 Output Torque in•lbs 546 765 1092 1311 1638 2184 2731 3277 3052 Hollow Bore OHL lbs 688 892 991 1059 1124 1191 1257 1322 1389 Input HP — — — — — — — — 2.00 Output Torque in•lbs — — — — — — — — 4369 Hollow Bore OHL lbs — — — — — — — — 1401 Hyponic Reducers 980 RPM Input Speed (con’t.) 19.6 50 16.3 60 12.3 80 9.80 100 8.17 120 6.53 150 4.90 200 4.08 240 Output RPM Nominal Ratio 0.091 0.091 — — — — — — Input HP 249.2 299.1 — — — — — — Output Torque in•lbs 297 297 — — — — — — Hollow Bore OHL lbs — — 0.091 0.091 0.091 0.091 0.079 0.066 — — 399 498 598 748 865 862 Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP Output Torque in•lbs — — 407 407 407 407 407 407 0.181 0.181 — — — — — — Input HP 494.8 593.8 — — — — — — Output Torque in•lbs 407 407 — — — — — — Hollow Bore OHL lbs — — 0.181 0.181 0.181 0.181 0.158 0.131 Input HP — — 792 990 1188 1484 1730 1724 Output Torque in•lbs Hollow Bore OHL lbs — 695 695 695 695 695 695 0.362 — — — — — — Input HP Hollow Bore OHL lbs 990 1188 — — — — — — Output Torque in•lbs 695 695 — — — — — — Hollow Bore OHL lbs — — 0.362 0.362 0.362 0.362 0.315 0.263 Input HP — — 1583 1979 2375 2969 3445 3448 Output Torque in•lbs — — 980 980 980 980 980 980 Hollow Bore OHL lbs 0.725 0.725 — — — — — — Input HP 1983 2379 — — — — — — Output Torque in•lbs 980 980 — — — — — — Hollow Bore OHL lbs — — 0.725 0.725 0.725 0.725 0.591 0.493 Input HP — — 3173 3966 4759 5949 6466 6474 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 1.40 1.40 — — — — — — Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Hollow Bore OHL lbs Input HP 3816 4579 — — — — — — Output Torque in•lbs 1401 1401 — — — — — — Hollow Bore OHL lbs 2.00 2.00 1.40 — — — — — Input HP 5461 6553 6105 — — — — — Output Torque in•lbs 1401 1401 1401 — — — — — Hollow Bore OHL lbs B-13 Selection Tables — 0.362 Hyponic Frame Size Reducers Reducer Selection Tables 870 RPM Input Speed Frame Size 1120 1230 Output RPM Nominal Ratio 174 5 124 7 87.0 10 72.5 12 58.0 15 43.5 20 34.8 25 29.0 30 21.8 40 Input HP 0.161 0.161 0.161 0.161 0.161 0.161 0.161 0.161 0.080 Output Torque in•lbs 49.5 69.4 99.1 118.9 148.6 198.2 247.7 297.3 198.2 Hollow Bore OHL lbs 165 187 210 221 232 254 277 285 297 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1220 1330 — — — — — — — — — Input HP 0.322 0.322 0.322 0.322 0.322 0.322 0.322 0.322 0.161 Output Torque in•lbs 99.1 138.7 198.2 237.8 297.3 396.4 495.4 594.5 396.4 Hollow Bore OHL lbs 232 254 285 308 330 353 375 387 407 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 0.644 0.644 0.644 0.644 0.644 0.644 0.644 0.644 0.322 Output Torque in•lbs 198 277 396 476 595 793 991 1189 793 Hollow Bore OHL lbs 387 429 486 508 528 573 618 638 672 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 1.24 1.24 1.24 1.24 1.24 1.24 1.24 1.24 0.644 Output Torque in•lbs 381 534 763 916 1144 1526 1907 2289 1585 Hollow Bore OHL lbs 584 638 717 749 794 859 904 937 980 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 1531 B-14 — — — — — — — — — Input HP 1.77 1.77 1.77 1.77 1.77 1.77 1.77 1.77 1.24 Output Torque in•lbs 545 763 1090 1308 1635 2180 2725 3270 3052 Hollow Bore OHL lbs 839 915 1036 1081 1146 1234 1302 1356 1401 Input HP — — — — — — — — 1.77 Output Torque in•lbs — — — — — — — — 4360 Hollow Bore OHL lbs — — — — — — — — 1401 Hyponic Reducers 870 RPM Input Speed (con’t.) 17.4 50 14.5 60 10.9 80 8.70 100 7.25 120 5.80 150 4.35 200 3.63 240 Output RPM Nominal Ratio 0.080 0.080 — — — — — — Input HP 247.7 297.3 — — — — — — Output Torque in•lbs 297 297 — — — — — — Hollow Bore OHL lbs — — 0.080 0.080 0.080 0.080 0.070 0.059 — — 396 495 595 743 859 872 Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP Output Torque in•lbs — — 407 407 407 407 407 407 0.161 0.161 — — — — — — Input HP 495.4 594.5 — — — — — — Output Torque in•lbs 407 407 — — — — — — Hollow Bore OHL lbs — — 0.161 0.161 0.161 0.161 0.139 0.117 Input HP — — 793 991 1189 1486 1718 1724 Output Torque in•lbs Hollow Bore OHL lbs — 695 695 695 695 695 695 0.322 — — — — — — Input HP Hollow Bore OHL lbs 991 1189 — — — — — — Output Torque in•lbs 695 695 — — — — — — Hollow Bore OHL lbs — — 0.322 0.322 0.322 0.322 0.280 0.233 Input HP — — 1585 1982 2378 2973 3452 3448 Output Torque in•lbs — — 980 980 980 980 980 980 Hollow Bore OHL lbs 0.644 0.644 — — — — — — Input HP 1982 2378 — — — — — — Output Torque in•lbs 980 980 — — — — — — Hollow Bore OHL lbs — — 0.644 0.644 0.644 0.644 0.526 0.437 Input HP — — 3171 3964 4756 5945 6474 6461 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 1.24 1.24 — — — — — — Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Hollow Bore OHL lbs Input HP 3815 4578 — — — — — — Output Torque in•lbs 1401 1401 — — — — — — Hollow Bore OHL lbs 1.77 1.77 1.24 — — — — — Input HP 5450 6540 6104 — — — — — Output Torque in•lbs 1401 1401 1401 — — — — — Hollow Bore OHL lbs B-15 Selection Tables — 0.322 Hyponic Frame Size Reducers Reducer Selection Tables 720 RPM Input Speed Frame Size 1120 1230 Output RPM Nominal Ratio 144 5 103 7 72.0 10 60.0 12 48.0 15 36.0 20 28.8 25 24.0 30 18.0 40 Input HP 0.133 0.133 0.133 0.133 0.133 0.133 0.133 0.133 0.067 Output Torque in•lbs 49.4 69.1 98.8 118.5 148.2 197.6 246.9 296.3 199.6 Hollow Bore OHL lbs 176 198 221 232 243 265 285 297 297 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1220 1330 — — — — — — — — — Input HP 0.267 0.267 0.267 0.267 0.267 0.267 0.267 0.267 0.133 Output Torque in•lbs 99.3 139.0 198.6 238.3 297.8 397.1 496.4 595.7 395.1 Hollow Bore OHL lbs 243 265 308 330 342 364 387 398 407 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 0.532 0.532 0.532 0.532 0.532 0.532 0.532 0.532 0.267 Output Torque in•lbs 198 277 396 475 594 792 990 1188 794 Hollow Bore OHL lbs 407 463 508 528 562 607 638 661 695 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 0.532 Output Torque in•lbs 382 534 763 916 1145 1527 1908 2290 1584 Hollow Bore OHL lbs 618 683 749 794 839 892 937 969 980 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 1531 B-16 — — — — — — — — — Input HP 1.46 1.46 1.46 1.46 1.46 1.46 1.46 1.46 1.03 Output Torque in•lbs 545 763 1090 1307 1634 2179 2724 3269 3053 Hollow Bore OHL lbs 881 969 1081 1146 1212 1302 1356 1401 1401 Input HP — — — — — — — — 1.46 Output Torque in•lbs — — — — — — — — 4358 Hollow Bore OHL lbs — — — — — — — — 1401 Hyponic Reducers 720 RPM Input Speed (con’t.) 14.4 50 12.0 60 9.00 80 7.20 100 6.00 120 4.80 150 3.60 200 3.00 240 Output RPM Nominal Ratio 0.067 0.067 — — — — — — Input HP 249.4 299.3 — — — — — — Output Torque in•lbs 297 297 — — — — — — Hollow Bore OHL lbs — — 0.067 0.067 0.067 0.067 0.058 0.048 — — 399 499 599 748 858 862 Output Torque in•lbs Hollow Bore OHL lbs Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP — 407 407 407 407 407 407 0.133 — — — — — — Input HP 493.9 592.7 — — — — — — Output Torque in•lbs 407 407 — — — — — — Hollow Bore OHL lbs — — 0.133 0.133 0.133 0.133 0.115 0.097 Input HP — — 790 988 1185 1482 1716 1724 Output Torque in•lbs Hollow Bore OHL lbs — — 695 695 695 695 695 695 0.267 0.267 — — — — — — Input HP 993 1191 — — — — — — Output Torque in•lbs 695 695 — — — — — — Hollow Bore OHL lbs — — 0.267 0.267 0.267 0.267 0.232 0.193 Input HP — — 1588 1986 2383 2978 3452 3448 Output Torque in•lbs — — 980 980 980 980 980 980 Hollow Bore OHL lbs 0.532 0.532 — — — — — — Input HP 1982 2377 — — — — — — Output Torque in•lbs 980 980 — — — — — — Hollow Bore OHL lbs — — 0.532 0.532 0.532 0.532 0.434 0.362 Input HP — — 3169 3961 4753 5942 6466 6466 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 1.03 1.03 — — — — — — Input HP 3816 4580 — — — — — — Output Torque in•lbs 1401 1401 — — — — — — Hollow Bore OHL lbs Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Hollow Bore OHL lbs 1.46 1.46 1.03 — — — — — Input HP 5448 6537 6106 — — — — — Output Torque in•lbs 1401 1401 1401 — — — — — Hollow Bore OHL lbs B-17 Selection Tables — 0.133 Hyponic Frame Size Reducers Reducer Selection Tables 580 RPM Input Speed Frame Size Output RPM Nominal Ratio Input HP 1120 1230 1430 Selection Tables Reducers 1530 1531 B-18 29.0 20 23.2 25 19.3 30 14.5 40 0.107 0.107 0.107 0.107 0.107 0.107 0.107 0.107 0.054 69 99 119 149 198 248 297 198 210 232 243 265 287 297 297 297 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — — — — — — — — — — 0.215 0.215 0.215 0.215 0.215 0.215 0.215 0.215 0.107 Output Torque in•lbs 99 139 198 238 297 396 495 595 396 Hollow Bore OHL lbs 265 287 330 342 364 387 398 407 407 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — — — — — — — — — — Input HP 0.429 0.429 0.429 0.429 0.429 0.429 0.429 0.429 0.215 Output Torque in•lbs 198 277 396 476 595 793 991 1189 793 Hollow Bore OHL lbs 441 486 528 562 596 627 661 695 695 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — — — — — — — — — — Input HP 0.826 0.826 0.826 0.826 0.826 0.826 0.826 0.826 0.429 Output Torque in•lbs 381 534 763 916 1144 1526 1907 2289 1585 Hollow Bore OHL lbs 661 728 794 839 881 937 969 980 980 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1520 38.7 15 50 Hollow Bore OHL lbs 1420 48.3 12 187 Hollow Bore OHL lbs 1320 58.0 10 Hollow Bore OHL lbs Input HP 1330 82.9 7 Output Torque in•lbs Hollow Bore OHL lbs 1220 116 5 — — — — — — — — — Input HP 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1.18 0.826 Output Torque in•lbs 545 763 1090 1308 1635 2180 2725 3270 3052 Hollow Bore OHL lbs 949 1048 1146 1200 1268 1344 1401 1401 1401 Input HP — — — — — — — — 1.18 Output Torque in•lbs — — — — — — — — 4360 Hollow Bore OHL lbs — — — — — — — — 1401 Hyponic Reducers 580 RPM Input Speed (con’t.) 11.6 50 9.67 60 7.25 80 5.80 100 4.83 120 3.87 150 2.90 200 2.42 240 Output RPM Nominal Ratio 0.054 0.054 — — — — — — Input HP 248 297 — — — — — — Output Torque in•lbs 297 297 — — — — — — Hollow Bore OHL lbs — — 0.054 0.054 0.054 0.054 0.047 0.039 — — 396 495 595 743 867 862 Output Torque in•lbs Hollow Bore OHL lbs Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP — 407 407 407 407 407 407 0.107 — — — — — — Input HP 495 595 — — — — — — Output Torque in•lbs 407 407 — — — — — — Hollow Bore OHL lbs — — 0.107 0.107 0.107 0.107 0.067 0.078 Input HP — — 793 991 1189 1486 1239 1724 Output Torque in•lbs Hollow Bore OHL lbs — — 695 695 695 695 695 695 0.215 0.215 — — — — — — Input HP 991 1189 — — — — — — Output Torque in•lbs 695 695 — — — — — — Hollow Bore OHL lbs — — 0.215 0.215 0.215 0.215 0.186 0.156 Input HP — — 1585 1982 2378 2973 3443 3448 Output Torque in•lbs — — 980 980 980 980 980 980 Hollow Bore OHL lbs 0.429 0.429 — — — — — — Input HP 1982 2378 — — — — — — Output Torque in•lbs 980 980 — — — — — — Hollow Bore OHL lbs — — 0.429 0.429 0.429 0.429 0.350 0.292 Input HP — — 3171 3964 4756 5945 6466 6480 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 0.826 0.826 — — — — — — Input HP 3815 4578 — — — — — — Output Torque in•lbs 1401 1401 — — — — — — Hollow Bore OHL lbs Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Hollow Bore OHL lbs 1.18 1.18 0.826 — — — — — Input HP 5450 6540 6104 — — — — — Output Torque in•lbs 1401 1401 1401 — — — — — Hollow Bore OHL lbs B-19 Selection Tables — 0.107 Hyponic Frame Size Reducers Reducer Selection Tables 50 RPM Input Speed Frame Size Output RPM 10.0 7.14 5.00 4.17 3.33 2.50 2.00 1.67 Nominal Ratio 5 7 10 12 15 20 25 30 40 0.009 0.009 0.009 0.009 0.009 0.009 0.009 0.009 0.004 Input HP 1120 1230 Output Torque in•lbs 50 70 101 121 151 201 251 302 172 Hollow Bore OHL lbs 298 298 298 298 298 298 297 297 297 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs — — — — — — — — — 0.018 0.018 0.018 0.018 0.018 0.018 0.018 0.018 0.009 Output Torque in•lbs 99 139 198 238 297 396 495 594 397 Hollow Bore OHL lbs 408 408 407 407 407 407 407 407 407 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Input HP 1220 1330 Hollow Bore OHL lbs 1320 1430 Selection Tables Reducers — — — — — — — — — Input HP 0.037 0.037 0.037 0.037 0.037 0.037 0.037 0.037 0.018 Output Torque in•lbs 198 277 396 476 595 793 991 1189 793 Hollow Bore OHL lbs 695 695 695 695 695 695 695 695 695 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs 1420 1530 — — — — — — — — — Input HP 0.07 0.07 0.07 0.07 0.07 0.07 0.07 0.07 0.04 Output Torque in•lbs 381 534 763 916 1144 1526 1907 2289 1586 Hollow Bore OHL lbs 980 980 980 980 980 980 980 980 980 Input HP — — — — — — — — — Output Torque in•lbs — — — — — — — — — Hollow Bore OHL lbs Input HP 1520 1531 B-20 1.25 — — — — — — — — — 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.07 0.07 Output Torque in•lbs 545 763 1090 1308 1635 2180 2725 2289 3052 Hollow Bore OHL lbs 1401 1401 1401 1401 1401 1401 1401 1401 1401 Input HP — — — — — — — — 0.07 Output Torque in•lbs — — — — — — — — 3161 Hollow Bore OHL lbs — — — — — — — — 1401 Hyponic Reducers 50 RPM Input Speed (con’t.) 1.00 50 0.833 60 0.625 80 0.500 100 0.417 120 0.333 150 0.250 200 0.208 240 Output RPM Nominal Ratio 0.004 0.004 — — — — — — Input HP 216 259 — — — — — — Output Torque in•lbs 297 297 — — — — — — Hollow Bore OHL lbs — — 0.005 0.005 0.005 0.005 0.004 0.003 — — 397 496 595 744 868 866 Output Torque in•lbs Hollow Bore OHL lbs Dimension Page 1120 B-22 1230 B-23 1220 B-22 1330 B-23 1320 B-22 1430 B-23 Input HP — 407 407 407 407 407 407 0.009 — — — — — — Input HP 495 595 — — — — — — Output Torque in•lbs 407 407 — — — — — — Hollow Bore OHL lbs — — 0.009 0.009 0.009 0.009 0.008 0.007 Input HP — — 793 991 1190 1487 1724 1724 Output Torque in•lbs Hollow Bore OHL lbs — — 695 695 695 695 695 695 0.018 0.018 — — — — — — Input HP 991 1189 — — — — — — Output Torque in•lbs 695 695 — — — — — — Hollow Bore OHL lbs — — 0.018 0.018 0.018 0.018 0.016 0.013 Input HP — — 1585 1981 2378 2972 3451 3452 Output Torque in•lbs — — 980 980 980 980 980 980 Hollow Bore OHL lbs 0.04 0.04 — — — — — — Input HP 1982 2378 — — — — — — Output Torque in•lbs 980 980 — — — — — — Hollow Bore OHL lbs — — 0.037 0.037 0.037 0.037 0.030 0.025 Input HP — — 3171 3964 4757 5946 6466 6466 Output Torque in•lbs — — 1401 1401 1401 1401 1401 1401 0.07 0.07 — — — — — — Reducers 1420 B-22 1530 B-23 1520 B-22 1531 B-23 Hollow Bore OHL lbs Input HP 3815 4578 — — — — — — Output Torque in•lbs 1401 1401 — — — — — — Hollow Bore OHL lbs 0.07 0.07 0.05 — — — — — Input HP 3951 4741 4368 — — — — — Output Torque in•lbs 1401 1401 1401 — — — — — Hollow Bore OHL lbs B-21 Selection Tables — 0.009 Hyponic Frame Size Reducers Hollow Shaft Type, C-Face RNYJ-1120/1220/1320/1420/1520Y CE XJ C D D L P Z BB A P B DIA B N ZA A 4X H DIA G F K S Dimensions (ADAPTER ONLY) U DIA BORE 4X BF DIA HOLE KEY XU W V B-B A-A Reducers C C-C X M DIA T DIA W AK B E A2 O BD MIN I.D. R J E F AJ XV L K B DIA C Inch Model RNYJ-1120Y RNYJ-1220Y RNYJ-1320Y RNYJ-1420Y RNYJ-1520Y A1 3.54 4.53 5.20 6.22 7.01 Model A2 3.46 4.45 5.12 6.10 6.89 B min 2.046 3.070 3.345 3.739 4.329 U min U max 0.750 0.751 1.000 1.001 1.250 1.252 1.375 1.377 1.500 1.502 RNYJ-1120Y RNYJ-1220Y RNYJ-1320Y RNYJ-1420Y RNYJ-1520Y B max 2.047 3.071 3.346 3.740 4.331 V 3.23 3.62 4.33 5.43 6.14 D 1.30 1.46 1.81 2.32 2.68 E 1.65 2.24 2.44 2.95 3.15 F 0.31 0.35 0.35 0.39 0.39 Output Shaft KEY M O 3/16X3/16 0.77 0.59 1/4X1/4 1.02 0.87 1/4X1/4 1.27 0.87 5/16X5/16 1.40 1.02 3/8X3/8 1.52 1.02 G 2.60 2.91 3.62 4.65 5.35 H 0.26 0.35 0.43 0.55 0.55 S 0.039 0.046 0.056 0.056 0.056 J 1.97 2.60 2.91 3.46 3.70 K 1.26 1.57 1.81 2.24 2.76 T 0.796 1.066 1.330 1.461 1.594 W 1.22 1.50 1.81 2.05 2.28 L 1.57 1.93 2.28 2.76 3.31 N 3.23 3.78 4.69 5.75 7.01 P 0.24 0.20 0.20 0.20 0.20 R 0.79 1.10 1.08 0.79 1.10 X 0.87 0.79 1.34 1.69 2.68 Input Shaft XU min XU max XV KEY 0.4996 0.5000 0.98 1/8X1/8X0.71 0.4996 0.5000 0.98 1/8X1/8X0.71 0.6246 0.6250 0.98 3/16X3/16X0.75 0.6246 0.6250 0.98 3/16X3/16X0.75 0.7495 0.7500 1.38 3/16X3/16X1.02 Model Ratio NEMA FRAME CE C XJ AK BD AJ BF Z BB MIN I.D. ZA WT (LB) RNYJ-1120Y RNYJ-1120Y RNYJ-1220Y RNYJ-1220Y RNYJ-1320Y RNYJ-1320Y RNYJ-1420Y RNYJ-1420Y RNYJ-1520Y RNYJ-1520Y 5~60 5~60 40~60 5~30 40~60 5~30 40~60 5~30 40~60 5~30 42C 48C 48C 56C 56C 143TC 143TC 143TC 143TC 184TC 10.72 11.09 12.39 12.80 14.52 14.52 15.93 16.29 19.20 19.94 8.94 8.94 10.24 10.24 11.89 11.89 13.31 13.66 16.57 16.57 1.78 2.16 2.16 2.56 2.63 2.63 2.63 2.63 2.63 3.37 3.0 3.0 3.0 4.5 4.5 4.5 4.5 4.5 4.5 8.5 4.33 4.33 4.33 6.69 6.69 6.69 6.69 6.69 6.69 8.98 3.75 3.75 3.75 5.87 5.87 5.87 5.87 5.87 5.87 7.25 0.28 0.28 0.28 0.43 0.43 0.43 0.43 0.43 0.43 0.55 0.47 0.47 0.47 0.47 0.47 0.47 0.47 0.47 0.47 0.47 0.22 2.44 2.44 2.44 3.15 4.21 4.21 4.21 4.21 4.21 5.43 4.53 4.53 4.53 4.53 5.12 5.12 12 13 16 17 29 29 36 36 67 71 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. B-22 Hyponic Reducers RNYJ-1230/1330/14301530/1531Y CE C P D D L P A XJ Z BB B N C AJ XV L K B DIA B DIA MIN I.D. J E I DIA Q G F K C E A 4X BF DIA HOLE C-C X (ADAPTER ONLY) M DIA T DIA KEY U DIA BORE XU W W AK B A 4X H DIA F O S ZA BD B-B V A-A Inch Model RNYJ-1230Y RNYJ-1330Y RNYJ-1430Y RNYJ-1530Y RNYJ-1531Y A B min 5.00 3.070 5.98 3.345 7.01 3.739 8.39 4.329 8.39 4.329 Model U min U max 1.000 1.001 1.250 1.252 1.375 1.377 1.500 1.502 1.500 1.502 RNYJ-1230Y RNYJ-1330Y RNYJ-1430Y RNYJ-1530Y RNYJ-1531Y Model B max 3.071 3.346 3.740 4.331 4.331 Ratio NEMA FRAME CE RNYJ-1230Y 80~240 42C 11.66 RNYJ-1330Y 80~240 48C 13.30 RNYJ-1430Y 80~120 56C 15.42 RNYJ-1430Y 150~240 56C 15.46 RNYJ-1530Y 80~120 143TC 16.92 RNYJ-1530Y 150~240 143TC 17.19 RNYJ-1531Y 80 143TC 17.90 RNYJ-1531Y 40~60 183TC 18.65 D 1.61 1.81 2.32 2.68 2.68 E 2.56 3.11 3.62 4.29 4.29 V 3.94 4.33 5.43 6.14 6.14 F 0.35 0.35 0.39 0.39 0.39 G 3.23 3.62 4.65 5.35 5.35 H 0.35 0.43 0.55 0.71 0.71 Output Shaft KEY M O 1/4X1/4 1.02 0.87 1/4X1/4 1.27 0.87 5/16X5/16 1.40 1.02 3/8X3/8 1.52 1.02 3/8X3/8 1.52 1.02 I 0.55 0.69 0.79 - J 2.99 3.62 4.25 5.08 5.08 S 0.046 0.056 0.056 0.056 0.056 K 1.57 1.85 2.13 2.52 2.52 L 2.01 2.36 2.76 3.31 3.31 T 1.066 1.330 1.461 1.594 1.594 W 1.50 1.81 2.05 2.28 2.28 N 3.74 4.25 5.12 6.18 6.18 P 0.20 0.20 0.20 0.20 0.20 Q 2.87 3.19 4.13 - R 0.51 0.43 0.55 0.67 0.67 X 0.31 0.14 0.31 0.37 0.37 Input Shaft XU min XU max XV KEY 0.4996 0.500 0.98 1/8X1/8X0.71 0.4996 0.500 0.98 1/8X1/8X0.71 0.6246 0.625 0.98 3/16X3/16X0.75 0.6246 0.625 0.98 3/16X3/16X0.75 0.7495 0.750 1.38 3/16X3/16X1.02 C XJ AK BD AJ BF Z BB MIN I.D. ZA WT (LB) 9.88 11.14 12.80 12.83 14.29 14.57 15.28 15.28 1.78 2.16 2.63 2.63 2.63 2.63 2.63 3.37 3.0 3.0 4.5 4.5 4.5 4.5 4.5 8.5 4.33 4.33 6.69 6.69 6.69 6.69 6.69 8.98 3.75 3.75 5.87 5.87 5.87 5.87 5.87 7.25 0.28 0.28 0.43 0.43 0.43 0.43 0.43 0.55 0.47 0.47 0.47 0.47 0.47 0.47 0.47 0.47 0.22 2.44 2.44 4.21 4.21 4.21 4.21 4.21 5.43 4.53 4.53 4.53 4.53 5.12 5.12 16 20 38 38 51 51 63 66 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic B-23 Dimensions Reducers Reducers Notes Reducers B-24 Hyponic Options C Options Options Options Hyponic C-1 Options Plug-In Solid Output Shaft A plug-in output shaft converts the hollow output to a solid output reducer. Plug-in Solid Output Shaft, Casing Surface Mount With Safety Cover Dimensions (Inch) Options Options Output Shaft Model B min B max D P M W U min U max V F S Key RNFM-1120Y 2.046 2.0460 2.3622 2.047 1.30 0.12 2.20 0.79 0.7495 0.7500 1.10 1.97 #10-32 UNF x 0.47 3/16 x 3/16 RNFM-1220Y 3.3451 3.070 3.3465 3.071 1.46 0.12 2.24 1.26 0.9995 1.0000 1.42 2.50 5/16-18UNC x 0.47 1/4 x 1/4 RNFM-1320Y 3.6994 3.345 3.7008 3.346 1.81 0.12 2.64 2.83 1.2494 1.2500 1.65 2.80 5/16-18UNC x 0.63 1/4 x 1/4 RNFM-1420Y 4.1325 3.739 4.1339 3.740 2.32 0.12 3.03 1.65 1.3744 1.3750 2.28 3.58 5/16-18UNC x 0.63 5/16 x 5/16 RNFM-1520Y 4.7230 4.329 4.7244 4.331 2.68 0.12 3.54 1.65 1.7494 1.7500 3.23 4.72 3/8-16UNC x 0.71 3/8 x 3/8 RNFM-1230Y 3.3451 3.070 3.3465 3.071 1.65 0.12 2.24 1.26 0.9995 1.0000 1.42 2.50 5/16-18UNC x 0.47 1/4 x 1/4 RNFM-1330Y 3.6994 3.345 3.7008 3.346 1.81 0.12 2.64 2.83 1.2494 1.2500 1.65 2.80 5/16-18UNC x 0.63 1/4 x 1/4 RNFM-1430Y 4.1325 3.739 4.1339 3.740 2.32 0.12 3.03 1.65 1.3744 1.3750 2.28 3.58 5/16-18UNC x 0.63 5/16 x 5/16 RNFM-1530Y 4.7230 4.329 4.7244 4.331 2.68 0.12 3.54 1.65 1.7494 1.7500 3.23 4.72 3/8-16UNC x 0.71 3/8 x 3/8 RNFM-1531Y 4.7230 4.329 4.7244 4.331 2.68 0.12 3.54 1.65 1.7494 1.7500 3.23 4.72 3/8-16UNC x 0.71 3/8 x 3/8 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. C-2 Hyponic Options Plug-In Solid Output Shaft – Foot Mounted A bolt-on adaptor converts the solid output reducer to a foot mounted reducer Plug-in Solid Shaft, Bolt-on Foot Mount With Safety Cover Dimensions (Inch) D C V N KEY F M DIA U DIA S B A E G B P H J K 4X K DIA K Options Options Output Shaft Model A B C D E F G H J K M N U min U max V S Key RNHM-1120Y 4.72 0.39 3.27 2.09 3.54 1.57 0.39 1.18 2.76 0.39 2.20 1.57 0.7495 0.7500 1.10 #10-32UNF x 0.47 3/16 x 3/16 RNHM-1220Y 5.35 0.59 3.96 2.72 4.33 2.01 0.39 1.57 4.13 0.43 2.24 2.01 0.9995 1.0000 1.42 5/16-18UNC x 0.47 1/4 x 1/4 RNHM-1320Y 6.46 0.59 4.61 3.07 4.41 2.36 0.47 1.85 4.96 0.51 2.64 2.36 1.2494 1.2500 1.65 5/16-18UNC x 0.63 1/4 x 1/4 RNHM-1420Y 8.03 0.79 5.91 3.98 5.20 2.76 0.47 2.01 5.51 0.75 3.03 2.76 1.3744 1.3750 2.28 5/16-18UNC x 0.63 5/16 x 5/16 RNHM-1520Y 9.61 0.79 7.40 4.33 6.30 3.31 0.59 2.52 6.81 0.79 3.54 3.31 1.7494 1.7500 3.23 3/8-16UNC x 0.71 3/8 x 3/8 RNHM-1230Y 5.67 0.59 4.11 2.87 4.33 2.01 0.39 1.57 4.13 0.43 2.24 2.01 0.9995 1.0000 1.42 5/16-18UNC x 0.47 1/4 x 1/4 RNHM-1330Y 6.46 0.59 4.61 3.07 4.41 2.36 0.47 1.85 4.96 0.51 2.64 2.36 1.2494 1.2500 1.65 5/16-18UNC x 0.63 1/4 x 1/4 RNHM-1430Y 8.03 0.79 5.91 3.98 5.20 2.76 0.47 2.01 5.51 0.75 3.03 2.76 1.3744 1.3750 2.28 5/16-18UNC x 0.63 5/16 x 5/16 RNHM-1530Y 9.61 0.79 7.40 4.33 6.30 3.31 0.59 2.52 6.81 0.79 3.54 3.31 1.7494 1.7500 3.23 3/8-16UNC x 0.71 3/8 x 3/8 RNHM-1531Y 9.61 0.79 7.40 4.33 6.30 3.31 0.59 2.52 6.81 0.79 3.54 3.31 1.7494 1.7500 3.23 3/8-16UNC x 0.71 3/8 x 3/8 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. Hyponic C-3 Options Output Flange Flange adaptors provide additional motor clearance when the application requires a flush or face mount. Hollow Shaft, Bolt-on Flange Mount Plug-in Solid Shaft, Bolt-on Flange Mount With Safety Cover D F P W V Dimensions (Inch) KEY M DIA U DIA B DIA Options Options S Output Shaft Model B min B max D P M W U min U max V F S Key RNFM-1120Y 2.3610 2.3622 2.50 0.12 2.20 0.79 0.7495 0.7500 1.10 2.50 #10-32 UNF x 0.47 3/16 x 3/16 RNFM-1220Y 3.3451 3.3465 3.25 0.12 2.24 1.26 0.9995 1.0000 1.42 3.41 5/16-18UNC x 0.47 1/4 x 1/4 RNFM-1320Y 3.6994 3.7008 3.48 0.12 2.64 2.83 1.2494 1.2500 1.65 3.52 5/16-18UNC x 0.63 1/4 x 1/4 RNFM-1420Y 4.1325 4.1339 3.74 0.12 3.03 1.65 1.3744 1.3750 2.28 3.90 5/16-18UNC x 0.63 5/16 x 5/16 RNFM-1520Y 4.7230 4.7244 3.74 0.12 3.54 1.65 1.7494 1.7500 3.23 4.49 3/8-16UNC x 0.71 3/8 x 3/8 RNFM-1230Y 3.3451 3.3465 2.50 0.12 2.24 1.26 0.9995 1.0000 1.42 3.41 5/16-18UNC x 0.47 1/4 x 1/4 RNFM-1330Y 3.6994 3.7008 2.50 0.12 2.64 2.83 1.2494 1.2500 1.65 3.52 5/16-18UNC x 0.63 1/4 x 1/4 RNFM-1430Y 4.1325 4.1339 3.25 0.12 3.03 1.65 1.3744 1.3750 2.28 3.90 5/16-18UNC x 0.63 5/16 x 5/16 RNFM-1530Y 4.7230 4.7244 3.74 0.12 3.54 1.65 1.7494 1.7500 3.23 4.49 3/8-16UNC x 0.71 3/8 x 3/8 RNFM-1531Y 4.7230 4.7244 3.74 0.12 3.54 1.65 1.7494 1.7500 3.23 4.49 3/8-16UNC x 0.71 3/8 x 3/8 Dimensions shown are for reference only and are subject to change without notice, unless certified. Certified prints are available after receipt of an order; consult factory. C-4 Hyponic Technical Information D Technical Information Technical Information Hyponic D-1 Technical Information Shaft Dimensions Table D-1. Hollow Shaft Dimensions (In.) Table D-2. Hollow Shaft Optional Metric Bore Dimensions (In.) [1] Bore Size (In.) 1120 1220 1230 Frame Size 1320 1420 1330 1430 361 461 1520 1530 1531 56 60 63 64 Frame Size [1] Bore Size (inch) 1120 1220 1230 1320 1330 361 1420 1430 461 5/8 1520 1530 1531 56 60 63 64 20 3/4 25 13/16 30 7/8 35 15/16 38 1 40 1-1/8 45 1-3/16 50 1-1/4 55 1-5/16 1-3/8 1-7/16 [2] 1-1/2 1-5/8 Table D-3. Solid Shaft Dimensions (In.) Bore Size (inch) Frame Size [1] 1120 1220 1230 1320 1330 1420 1430 1520 1530 1531 1-11/16 5/8 1-3/4 3/4 1-7/8 1 1-15/16 1-1/4 2 Shaft Dimensions Technical Information 1-5/16 2-1/16 1-3/8 2-1/8 1-7/16 2-3/16 Notes: [1] Standard, Semi-standard. Contact factory for price and delivery. [2] Only for frame sizes 1430 and 461. [3] Standard shaft dimension for T-type. D-2 1-1/2 [3] 1-3/4 2 Hyponic Technical Information Shaft Rotation Table D-4. Shaft Rotation Direction Frame Size Reduction Ratio (:1) Frame Size Reduction Ratio (:1) 361 300, 360, 480, 560, 750, 900, 1200, 1440 361 — 461 300, 360, 480, 560, 750, 900, 1200, 1440 461 — 56 300, 360, 480, 560, 750, 900, 1200, 1440 56 — 60 — 60 80, 100, 120 63 10, 12, 15, 20, 25, 30 63 40, 50 64 10, 12, 15, 20, 25 64 30, 40 1120 5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60 1120 — 1220 5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60 1220 — 1230 — 1230 80, 100, 120, 150, 200, 240 1320 5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60 1320 — 1330 — 1330 80, 100, 120, 150, 200, 240 1420 5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60 1420 — 1430 — 1430 80, 100, 120, 150, 200, 240 1520 5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60 1520 — 1530 — 1530 80, 100, 120, 150, 200, 240 1531 — 1531 40, 50, 60, 80 Fig. D-1 Fig. D-2 CCW CW Technical Information Hyponic CW Shaft Rotation CW D-3 Technical Information Actual Reduction Ratio Table D-5. Actual Reduction Ratio Nominal Reduction Ratio (:1) Frame Size 5 7 10 12 15 20 25 30 40 50 60 80 100 1120 5.00 7.03 9.81 11.74 15.26 20.67 24.62 30.00 41.33 49.23 60.00 — — 1220 5.00 7.03 9.81 11.74 15.26 20.67 24.62 30.00 41.33 49.23 60.00 — — 1320 5.00 7.03 9.81 11.74 15.26 20.67 24.62 30.00 41.33 49.23 60.00 — — 1420 5.00 6.97 10.00 11.96 14.75 19.69 25.00 30.45 39.38 50.00 60.91 — — 1520 5.00 7.03 9.81 11.74 15.26 20.67 24.62 30.00 41.33 49.23 60.00 — — 1230 — — — — — — — — — — — 81.45 101.01 1330 — — — — — — — — — — — 81.94 102.27 1430 — — — — — — — — — — — 80.37 102.35 1530 — — — — — — — — — — — 79.63 101.32 1531 — — — — — — — — 39.20 49.88 57.60 77.42 — 60 — — — — — — — — — — — 80.50 102.94 63 — — 10.31 12.47 14.48 20.39 24.15 29.24 41.16 49.00 — — — 64 — — 10.34 12.40 14.57 20.88 24.33 29.40 40.25 — — — — Nominal Reduction Ratio (:1) Frame Size 120 150 200 240 300 360 480 560 750 900 1200 1440 1120 — — — — — — — — — — — — 1220 — — — — — — — — — — — — 1320 — — — — — — — — — — — — 1420 — — — — — — — — — — — — 1520 — — — — — — — — — — — — 1230 120.15 151.51 200.39 231.27 — — — — — — — — 1330 122.54 153.40 199.13 232.50 — — — — — — — — 1430 122.64 153.52 199.29 240.00 — — — — — — — — 1530 119.17 151.99 191.52 232.25 — — — — — — — — 1531 — — — — — — — — — — — — 60 119.00 — — — — — — — — — — — 63 — — — — — — — — — — — — 64 — — — — — — — — — — — — 361 — — — — 306.80 367.60 465.00 564.51 732.78 855.60 1239.00 1484.60 461 — — — — 307.05 367.91 480.00 564.97 733.37 883.20 1240.00 1485.80 56 — — — — 300.74 353.70 439.55 702.23 702.23 851.58 1149.11 1393.49 Reduction Ratio Technical Information D-4 Hyponic Technical Information Allowable Overhung Load Overhung Load Acting on the Slow Speed Shaft The existing overhung load acting on the output shaft must not exceed the allowable unit rating. The overhung load acting on the slow speed shaft may be calculated by using the following formula. Overhung Load = 126,000 x HP x Cf x Lf x Sf DxN where HP = Cf = Lf = Sf = D= N= Power Transmitted by Shaft (HP) Load Connection Factor Load Location Factor Shock Factor Pitch Diameter of Sprocket, etc. (in.) Shaft Speed (RPM) Table D-6. RNFM-Y1, RNHM-K1 Slow Speed Load Location Factor, Lf 1 3 ⁄4 1 1 1⁄4 11⁄2 L (inches) 13⁄4 2 21⁄4 21⁄2 23⁄4 1120 1.05 1.18 1.25 1.32 1.38 1.44 1.51 1.57 1.67 1.80 1220 1.13 1.19 1.25 1.32 1.38 1.44 1.51 1.57 1.64 1.70 1320 1.13 1.19 1.25 1.32 1.38 1.44 1.51 1.57 1.64 1.70 1420 1.13 1.19 1.25 1.30 1.30 1.34 1.41 1.47 1.54 1.60 1520 1.13 1.19 1.25 1.30 1.30 1.34 1.41 1.47 1.54 1.60 1230 1.13 1.19 1.25 1.32 1.38 1.44 1.51 1.57 1.64 1.70 1330 1.13 1.19 1.25 1.32 1.38 1.44 1.51 1.57 1.64 1.70 1430 1.13 1.19 1.25 1.30 1.30 1.34 1.41 1.47 1.54 1.60 1530, 1531 1.28 1.47 1.66 1.85 1.54 2.23 2.43 2.69 2.91 3.10 Unit Size ⁄2 L Pr Table D-7. RNFM-F1, -G1 Slow Speed Load Location Factor, Lf 3 ⁄4 1 1 1⁄4 11⁄2 L (inches) 13⁄4 2 21⁄4 21⁄2 23⁄4 1120 1.03 1.29 1.35 1.44 1.46 1.64 1.71 1.77 1.84 2.02 1220 1.05 1.48 1.55 1.62 1.38 1.74 1.81 1.87 1.94 2.06 1320 1.03 1.39 1.45 1.50 1.30 1.54 1.61 1.67 1.74 1.86 1420 1.00 1.20 1.25 1.32 1.38 1.44 1.50 1.50 1.54 1.66 1520 1.00 1.10 1.15 1.22 1.38 1.34 1.40 1.40 1.47 1.66 1230 1.03 1.19 1.25 1.32 1.38 1.44 1.51 1.57 1.64 1.76 1330 1.03 1.09 1.15 1.22 1.38 1.34 1.41 1.47 1.54 1.66 1430 1.00 1.10 1.15 1.22 1.38 1.34 1.40 1.40 1.44 1.56 1530, 1531 1.05 1.28 1.46 1.65 1.54 2.08 2.32 2.51 2.71 3.09 ⁄2 Table D-8. Load Connection Factor Type of Connection General Purpose Chain Machined Gear, Pinion or Synchronous Belts V-Belt Flat Belt Hyponic Factor 1.0 1.25 1.5 2.5 Fig. D-3 Technical Information Overhung Load 1 Unit Size Table D-9. Shock Factor, Sf Degree of Shock Factor Steady Loads 1.0 Moderate Shock 1.3 Heavy Shock 1.6 D-5 Technical Information Moment of Inertia Table D-10. Gearmotor Moment of Inertia Motor Type 3-Phase Single-Phase Inverter Duty Without Brake With Brake Without Brake With Brake Without Brake With Brake Motor Type 3-Phase Inverter Duty Without Brake With Brake Without Brake With Brake Units: pound•inch2 1/8 HP (0.1 kW) 1/4 HP (0.2 kW) Motor Power 1/3 HP (0.25 kW) 1/2 HP (0.4 kW) 3/4 HP (0.55 kW) 1 HP (0.75 kW) 1.13 1.20 1.71 1.88 1.71 1.88 1.71 1.88 2.22 2.32 2.22 2.32 2.22 2.32 — — — — 2.22 2.32 4.10 4.44 4.10 4.44 3.45 3.79 — — — — 4.10 4.44 — — 7.28 8.03 1.5 HP (1.1 kW) 2.0 HP (1.5 kW) 6.32 7.11 — — 7.28 8.03 11.4 12.7 Motor Power 3 HP (2.2 kW) 11.4 12.7 29.0 32.7 5 HP (3.7 kW) 7.5 HP (5.5 kW) 29.0 32.7 39.0 42.7 39.0 42.7 — — Table D-11. Reducer Moment of Inertia Unit Size 1120 1220 1320 1420 1520 1230 1330 1430 1530 1531 Unit Size Moment of Inertia Technical Information 1120 1220 1320 1420 1520 1230 1330 1430 1530 1531 D-6 Units: pound•inch2 Reduction Ratio 5 0.581 0.854 1.40 2.60 11.9 — — — — — 7 0.581 0.786 1.33 2.43 11.3 — — — — — 10 0.581 0.786 1.30 2.26 11.0 — — — — — 12 0.581 0.752 1.26 2.22 10.8 — — — — — 15 0.581 0.752 1.23 2.15 10.6 — — — — — 20 0.581 0.752 1.23 2.08 12.3 — — — — — 25 0.581 0.752 1.20 2.05 10.4 — — — — — 30 0.581 0.752 1.20 2.05 10.3 — — — — — 40 0.547 0.683 0.957 1.47 8.03 — — — — 4.54 Reduction Ratio 50 0.547 0.683 0.957 1.47 8.03 — — — — 4.54 60 0.547 0.683 0.957 1.44 8.03 — — — — 4.54 80 — — — — — 0.547 0.683 0.957 1.47 4.54 100 — — — — — 0.547 0.683 0.957 1.47 — 120 — — — — — 0.547 0.683 0.957 1.47 — 150 — — — — — 0.547 0.649 0.752 1.33 — 200 — — — — — 0.547 0.649 0.752 1.33 — 240 — — — — — 0.547 0.649 0.752 1.33 — Hyponic Technical Information Construction & Nameplate Construction Fig. D-4 Hollow Shaft Type Example (RNYM1-1530-120) Part No. Description 1 Casing (1) 2 Gear 3 Pinion shaft Part No. 4 Description Description Part No. Part No. Description Gear 7 Bearing 10 Output shaft 5 Pinion shaft 8 Bearing 11 Oil seal 6 Hypoid pinion shaft 9 Hypoid gear 12 Casing (2) Nameplate Fig. D-5 Construction & Nameplate Technical Information SM-HYPONIC CHESAPEAKE, VIRGINIA Gearmotor Model Input Power MODEL MOTOR H.P. CLASS AGMA Class Output Speed OUTPUT R.P.M. RATIO Reduction Ratio Manufacturing Serial No. SERIAL NO. DATE Date Manufactured Hyponic D-7 Technical Information Output Shaft Safety Cover Dimensions Co o C It may be mounted on either the left or right side. Made of plastic. A øE øE øB A øP.C.D øB t t D D Fig. D-6 Fig. D-7 Table D-12. Output Shaft Safety Cover Dimensions (Inch) 1120 1220,1230 1320,1330, 361 1420, 1430, 461 1520, 1530, 1531 56 60, 63, 64 M : Screw size Output Shaft End E 1.18 1.57 1.77 2.17 2.56 2.95 3.74 Safety Cover[1] Frame Size A 0.39 0.83 0.83 1.18 1.18 1.18 1.57 B 2.20 2.17 2.48 2.87 3.39 3.39 4.33 P : Thread pitch C 45° 5° 5° 5° 5° 5° 5° D R0.12 R0.20 R0.20 R0.20 R0.20 R0.20 R0.20 L : Thread length t 0.08 0.08 0.08 0.08 0.08 0.08 0.08 P.C.D. – 2.76 3.07 3.46 4.06 4.06 5.31 P.C.D : Mounting pitch N – 2 2 2 2 2 2 MxPXL (mm) –[2] M3x0.5x6 M3x0.5x6 M3x0.5x6 M3x0.5x6 M3x0.5x6 M3x0.5x6 Fig. D-6 D-7 N : Q'ty Torque Arm Follow the steps below to check torque arm strength, driven shaft strength and bearing life. Table D-13 Frame Size AG (in) 1230 0.1 1120, 1220, 1330, 361 0.15 1320, 1430, 461 0.2 Brg1 Driven shaft Brg2 m Y YR Sec. B G Fig. D-8 1420, 1520, 1530, 1531, 56 0.25 60, 63, 64 0.30 Torque arm Technical Information AG Shaft Safety Cover approximate values AR rotation rotation G R 1. Torque arm load : R= T+AG • G AR 2. Brg.1 load : B= m (R–G) – YR • R l 3. Brg.2 load : Bw = (R+M) (R–G) – YR • R l 4. Sec. B of driven shaft : M = YR • R – Y (R–G) 0<Y& m R T G R AG AR YR m R Y : Output torque (in•lb)[3] : Hyponic Drive gravity (lb) : Torque arm load (lb) : Distance between the center of driven shaft and center of gravity (in.) : Distance from driven shaft center to torque arm (in.) : Distance from the center of Hyponic Drive to torque arm whirl stop (in.) : Distance from the center of Hyponic Drive to Brg.2 (in.) : Distance between Brg.1 and Brg.2 (in.) : Distance between the center of Hyponic Drive and Sec. B (in.) Notes: [1] Safety cover is included with all Hollow bore Hyponics. [2] No screw is required for safety cover for Frame Size 1120. [3] Output torque is (+) on the shown rotation, and (-) on the opposite rotation. Dimensions are for reference only and subject to change without notice. D-8 Hyponic Technical Information Torque Arm Fig. D-9 Torque Arm Mountings and Designs 2 3 4 Torque arm must not interfere with the motor. b b øH AR b a a øD b 1120 1220 1230 1320 1331, 361 1420 1430, 461 1520 1530, 1531, 56 60, 63, 64 a Drawing examples Mounting examples 1 a ød ød øD øH AR Machine side Attach the torque arm to the casing on the machine side. Machine side Table. D-14. Recommended Dimensions of Torque Arm Design (Inch) Bore H 2.13 3.15 3.15 Stop Hole D 0.35 0.43 0.35 1320 1330, 361 1420 1430, 461 1520 1530, 1531, 56 60, 63, 64 4.72 5.12 5.51 6.30 5.91 7.87 11.02 3.43 3.43 3.82 3.82 4.41 4.41 5.98 0.55 0.43 0.71 0.55 0.87 0.71 0.87 Mounting Pitch a b 1.65 1.26 2.24 1.57 2.56 1.57 2.44 3.11 2.95 3.62 3.15 4.29 5.71 Mounting Hole d 0.28 0.35 0.35 1.81 1.85 2.24 2.13 2.76 2.52 3.35 0.43 0.43 0.55 0.55 0.55 0.71 0.87 Thickness Technical Information 0.13 0.18 0.24 Torque Arm 1120 1220 1230 Length AR 3.15 3.94 3.94 Frame size 0.18 0.35 0.24 0.35 0.35 0.35 0.47 Dimensions are for reference only and subject to change without notice. Hyponic D-9 Technical Information Mounting 1. Mounting the Shaft in the Hollow Bore 2. Securing the Shaft in the Hollow Bore a. After coating the shaft and the reducer hollow bore with molybdenum disulfide, insert the shaft into the bore. a. Refer to Fig. D-12 and Table for details on securing a staged shaft. b. A clearance fit is standard. A tight fit is recommended for severe applications. For tight-fit applications, tap the end of the hollow shaft with a rubber mallet to aid insertion into the bore. Using fixtures b – e shown in Fig. D-10 is also recommended for easy assembly. b. Refer to Fig. D-13 and Table for details on securing a straight shaft using a spacer. 3. Shaft Removal – Using fixtures i – k shown in Fig. D-11 is recommended for easy removal of the shaft. The shaft should be designed to allow use of these fixtures. Fig. D-10 Driven Shaft Mounting A2 e Fig. D-11 Driven Shaft Removal b A3 k A8 A7 i d A5 A6 j c A4 Fig. D-12 Secured by Staged Driven Shaft L4 x L5 DEEP A1 a L1 L3 f Fig. D-13 Secured by Spacer h øD L2 LF LG LH L a g Table D-15. Driven Shaft Mounting & Removal Detail (Inch) Bore Size Model a L LH LG LF L1 L2 L3 L4 L5 A1 3.23 3.62 3.94 4.33 5.43 6.14 6.30 8.82 2.64 2.76 3.07 3.46 4.41 5.12 5.28 7.24 2.01 2.13 2.44 2.52 3.39 3.86 4.02 5.47 1.22 1.50 1.50 1.81 2.05 2.28 2.28 3.35 2.36 2.36 2.68 2.80 3.66 4.09 4.25 6.26 0.16 0.28 0.28 0.28 0.39 0.39 0.39 0.47 1.37 1.98 1.98 2.10 2.32 3.49 3.49 3.53 #10-32UNF 5/16-18UNC 5/16-18UNC 5/16-18UNC 3/8-16UNC 1/2-13UNC 1/2-13UNC 5/8-11UNC 0.63 0.79 0.79 0.79 0.98 1.18 1.18 1.57 0.20 0.28 0.28 0.28 0.31 0.39 0.39 0.51 min. max. Mounting Technical Information Recommended Shaft Size øD 1120 0.750 1220 1.000 1230 1.000 1320,1330,361 1.250 1420,1430,461 1.375 1520,1530,1531 1.500 56 1.500 60,63,64 2.000 0.751 1.001 1.001 1.252 1.377 1.502 1.502 2.002 Recommended Component Size[1] b c d Thrust Nut Threaded Rod Bearing #10-32UNF 5/16-18UNC 5/16-18UNC 5/16-18UNC 3/8-16UNC 1/2-13UNC 1/2-13UNC 5/8-11UNC #10-32UNF x 5.91 5/16-18UNC x 5.91 5/16-18UNC x 5.91 5/16-18UNC x 5.91 3/8-16UNC x 9.45 1/2-13UNC 9.45 1/2-13UNC 9.45 5/8-11UNC x 11.81 51100 51100 51100 51100 51201 51202 51202 51204 Model Recommended Component Size[1] Model 1120 1220 1230 1320,1330,361 1420,1430,461 1520,1530,1531 56 60,63,64 e f A2 Bolt 0.59 0.51 0.51 0.51 0.59 0.55 0.55 1.02 #10-32UNF x 0.98 5/16-18UNC x 1.38 5/16-18UNC x 1.57 5/16-18UNC x 1.77 3/8-16UNC x 2.17 1/2-13UNC x 2.56 1/2-13UNC x 2.56 5/8-11UNC x 2.95 g Retaining Ring 0.75 1.00 1.00 1.25 1.38 1.50 1.50 2.00 h I O.D. x I.D. Bolt 0.75 x 0.28 5/16-18UNC x 4.72 1.00 x 0.39 1/2-13UNC x 4.72 1.00 x 0.39 1/2-13UNC x 4.72 1.25 x 0.67 5/8-16UNC x 5.91 1.37 x 0.75 5/8-16UNC x 7.87 1.50 x 1.02 3/4-10UNC x 7.87 1.50 x 1.02 3/4-10UNC x 7.87 2.17 x 0.98 1-8UNC x 9.45 j A3 0.16 028 0.28 0.51 0.51 0.63 0.63 0.75 A4 0.64 0.86 0.86 1.11 1.20 1.29 1.29 1.72 A5 0.75 1.00 1.00 1.25 1.37 1.50 1.50 2.00 -0.004 -0.012 -0.004 -0.012 -0.004 -0.012 -0.004 -0.012 -0.004 -0.012 -0.004 -0.012 -0.004 -0.012 -0.004 -0.012 k A6 A7 A8 4.762 6.35 6.35 6.35 7.938 9.525 9.525 12.7 5/16-18UNC 1/2-13UNC 1/2-13UNC 5/8-16UNC 5/8-16UNC 3/4-10UNC 3/4-10UNC 1-8UNC 2 2 2 3 5 5 5 5 Note: [1] Parts a – k are not supplied by Sumitomo Machinery Corporation of America. Dimensions are for reference only and subject to change without notice. D-10 Hyponic Technical Information 4. Securing the Hyponic Drive to Prevent Movement Away from the Machine Side (Figs. D-14~D-16). Collar Set screw Machine side Fig. D-14 Secured by a Spacer and a Snap Ring Machine side End plate Spacer Machine side Snap ring Fig. D-15 Secured by an End Plate Fig. D-16 Secured by a Set Screw and a Collar 5. Torque arm a. Attach the torque arm to Hyponic Drive casing on the machine side with hex socket head cap screws. (Refer to the table below for bolt sizes.) b. Leave some allowance in the section of torque arm so that excessive force will not be applied between Hyponic Drive and the driven shaft. Don't secure the torque arm with the torque arm bolt; otherwise, it may damage the bolt, torque arm, Hyponic Drive or the machine. c. For frequent start/stop operations, or repeated normal/reverse operations, use a rubber bushing between the torque arm and mounting bolt (or spacer) to absorb the shock. Spacer Machine side Flat washer Keep some allowance Special bolt (or pin) Bolt 1120,1230 M8 1330, 361 M10 1320, 1430, 461 M12 1420, 1530, 1531, 56 M16 1520, 60, 63, 64 M20 No allowance between the torque arm and the machine (Adjust the allowance according to the movement of the machine.) (Excessive force on the torque arm bolt, machine and Hyponic may cause damage.) Correct Incorrect Fig. D-17 Example of Torque Arm mounting Hyponic D-11 Technical Information Mounting Torque arm Frame size Technical Information Mounting cont. 6. Flange Mounting and Casing Bottom Mounting (optional) Handle with care in order not to apply excessive force to driven shaft or hollow shaft by twisting the Hyponic casing. Correct Bearing unit Hollow shaft type Hyponic Drive Fig. D-18 Flange Mounting Surface Incorrect Bearing unit Incorrect Bearing unit Hollow shaft type Hyponic Drive Hollow shaft type Hyponic Drive (Poor concentricity of the driven shaft and mounting flange) (Poor perpendicularity of the driven shaft center and mounting flange surface) (Excessive force on Hyponic and the bearing unit may cause damage on inner parts.) Lubrication Hyponic drives are filled with long-life grease and sealed, so replenishment is practically unnecessary, but overhaul in approximately 20,000 hours or three to five years of operation will provide longer service life. The durability of oil seals is subject to operating conditions. Under severe conditions, they may require changing in less than 20,000 hours or three years of operation. Overhaul of gearmotors must be performed at factory-authorized locations. Paint And Rust Proofing Specifications Lubication Paint & Rust Technical Information Table D-16. Paint Specifications Paint Classification Paint Color Standard Paint Name Speed Dry DTM Water Based Enamel Epoxy (Optional) Heavy-Duty Epoxy Blue Resin Type Water Based Acrylic Polymer Polymide Converted Epoxy FDA-USDA (Optional) Food and Beverage Industry Coating High Gloss White Modified Alkyd Blue Dry Time 1~11⁄2 hours 4~6 hours 4~7 hours Rust proofing treatment is applied to all completely assembled models prior to shipment. Table D-17. Rust Proofing Specifications Lubrication Type Rust-Proofing Period[1, 2] Storage Condition[2] Grease Oil 1 Year 6 Months Indoor environment that is relatively free of humidity, dust, extreme temperature fluctuation, corrosive gas, etc. Notes: [1] All oil-lubricated models for export receive rust-proofing treatment that is effective for 6~12 months. Please specify “Export Rust-Proofing” for all export models. [2] Please consult factory for storage longer than those listed in Table D-17 or in the event of adverse storage conditions. D-12 Hyponic Technical Information Motor • Conduit Box Specifications • Standard Motor Characteristics • Brakemotor Characteristics Motor Technical Information Hyponic D-13 Technical Information Conduit Box Mounting Direction Fig. D-19 Conduit Box Mounting Direction (3-Phase Standard and Inverter Duty Motors) The direction in which the conduit box is mounted may be changed in 90° increments. A mounting direction other than standard must be changed by the factory and specified when an order is placed. When ordering, refer to Fig. D-19 for lead wire opening direction and mounting direction. The direction cannot be changed after shipment. Up Left Right Standard The mounting directions indicated in Fig. D-19 are viewed from the opposite side of the fan cover. Arrows indicate lead wire opening direction. Please consult factory for brakemotor, plug-in shaft, bolt-on flange and bolt-on feet models. Motor Cover Mounting Specifications Fig. D-20 Motor End Clearance Refer to the dimension FA or FB in Figure D-20 when designing the mounting space into which the gearmotor is to fit. 1. Dimension FA: The space necessary to remove the fan cover or brake cover without removing the motor for the equipment. Note: It is not necessary to remove the gearmotor from the equipment when removing the fan or brake cover FA or FB 2. Dimension FB: The minimum space required for adequate ventilation Table D-18. Space Requirements (Inch) Motor Motor Technical Information Standard Motor 3 Phase Brake Motor FB Inverter Duty FA FB FA FB FA — — 1.9 0.8 2.0 — 2.5 0.8 1/4 x 4 1.9 0.8 1.9 0.8 2.5 0.8 2.5 0.8 1/3 x 4 1.9 0.8 1.9 0.8 2.5 0.8 2.5 0.8 1/2 x 4 1.9 0.8 2.0 0.8 2.5 0.8 3.7 0.8 3/4 x 4 2.0 0.8 2.1 0.8 3.7 0.8 4.6 0.8 1x4 2.0 0.8 2.1 0.8 3.7 0.8 4.6 0.8 1.5 x 4 2.1 0.8 2.2 0.8 4.6 0.8 5.2 0.8 2x4 2.1 0.8 2.2 0.8 4.6 0.8 5.2 0.8 3x4 2.2 0.8 2.4 0.8 5.2 0.8 5.2 0.8 5x4 2.4 0.8 2.4 0.8 5.2 0.8 5.2 0.8 7.5 x 4 2.4 0.8 3.0 1.0 5.2 0.8 6.7 1.0 HP x Pole FA 1/8 x 4 3 Phase Inverter Duty FB Dimensions are for reference only and subject to change without notice. D-14 Hyponic Technical Information Conduit Box Dimensions Fig. D-21 Global Conduit Box (UL Washdown) Fig. D-22 Indoor Duty Conduit Box (Option) Table D-19. Conduit Box Dimensions (Inch) HP Specification AB C D F G X E F63S F63M F71M 1/8 1/4 1/3 1/2 Global Conduit Box Washdown UL Washdown UL Indoor Non UL w/ Brake Non UL w/o Brake 5.04 5.00 5.20 3.50 3.35 5.91 5.16 5.67 4.37 4.37 4.92 3.94 4.80 3.94 3.35 2.48 2.20 2.64 2.09 2.09 3.43 2.95 3.03 2.28 2.28 1.40 (1/8 HP) 2.30 (1/4 ~ 1/2 HP) NPT 1/2 PF 1/2 N/A N/A N/A 3/4 1 Global Conduit Box Washdown UL Washdown UL Indoor Non UL w/ Brake Non UL w/o Brake 5.43 5.35 5.59 5.59 4.49 5.91 5.16 5.67 5.67 3.78 4.92 3.94 4.80 4.80 3.35 2.48 2.20 2.64 2.64 1.89 3.43 2.95 3.03 3.03 1.89 3.80 NPT 3/4 PF 3/4 N/A N/A N/A 1.5 2 Global Conduit Box Washdown UL Washdown UL Indoor Non UL w/ Brake Non UL w/o Brake 5.63 5.55 5.79 5.79 4.69 5.91 5.16 5.67 5.67 3.78 4.92 3.94 4.80 4.80 3.35 2.48 2.20 2.64 2.64 1.89 3.43 2.95 3.03 3.03 1.89 3.90 NPT 3/4 PF 3/4 N/A N/A N/A Global Conduit Box Washdown UL Washdown UL Indoor Non UL w/ Brake 5.91 5.83 6.06 6.06 5.91 5.16 5.67 5.67 4.92 3.94 4.80 4.80 2.48 2.20 2.64 2.64 3.43 2.95 3.03 3.03 Non UL w/o Brake 4.96 3.78 3.35 1.89 1.89 N/A 5 Global Conduit Box Washdown UL Washdown UL Indoor Non UL w/ Brake Non UL w/o Brake 6.54 7.20 6.69 6.69 5.79 5.91 6.02 5.67 5.67 4.41 4.92 3.94 4.80 4.80 3.94 2.48 2.56 2.64 2.64 2.09 3.43 3.46 3.03 3.03 2.32 5.00 NPT 3/4 PF 3/4 N/A N/A N/A 7.5 Global Conduit Box Washdown UL Washdown UL Indoor Non UL w/ Brake Non UL w/o Brake 6.54 7.20 6.69 6.69 5.79 5.91 6.02 5.67 5.67 4.41 4.92 3.94 4.80 4.80 3.94 2.48 2.56 2.64 2.64 2.09 3.43 3.46 3.03 3.03 2.32 5.00 NPT 1 PF 1 N/A N/A N/A F80S F80M F90S F90L F100L F112M F132S 3 4.10 NPT 3/4 PF 3/4 N/A N/A Dimensions are for reference only and subject to change without notice. Hyponic D-15 Technical Information Motor Frame Size Technical Information Standard Motor Characteristics Standard Motor Data Full Load ratings and amperage for Hyponic® gearmotors are listed in Tables D-20~D-22. These ratings are based on the motors’ design values. If additional information is required, please consult the factory. Table D-20. 230/460 V, Synchronous Speed 1800 RPM, 60 Hz, Continuous Duty, TEF Full Load Full Load Current (A) Starting Current (A) Torque (% of F.L.) Power Efficiency Factor Code [1] Starting Breakdown (Percent) (Percent) Letter Inertia WR2 HP Frame Size RPM Torque in•lbs 230V 460V 208V 230V 460V 1/8[2] F-63S 1730 4.50 0.7 0.35 0.65 2.8 1.4 326 329 64.0 59.5 K 1.11 1/4 F-63M 1730 9.06 1.1 0.6 1.1 5.2 2.6 300 293 69.8 65.2 K 1.71 1/3 F-63M 1710 12.3 1.3 0.65 1.3 5.2 2.6 232 232 70.8 72.0 G 1.71 1/2 F-71M 1740 18.3 2.1 1.1 2.0 9.8 4.9 295 280 71.9 65.1 J 2.22 3/4 F-80S 1730 27.4 2.5 1.2 2.5 12.3 6.2 266 245 76.9 73.0 H 3.45 1 F-80 1750 36.0 3.4 1.7 3.4 17.6 8.8 269 303 77.2 72.3 H 4.10 1.5 F-90S 1730 54.7 4.7 2.4 4.7 28.6 14.3 273 281 80.3 74.1 J 6.32 2 F-90L 1740 72.5 6.1 3.0 6.2 36.8 18.4 263 270 82.3 75.6 J 7.28 3 F-100L 1730 109 8.5 4.3 8.7 54.8 27.4 277 266 84.4 77.2 J 11.4 5 F-112M 1730 183 13.1 6.6 13.7 91.5 45.8 308 279 86.3 82.4 J 29.0 7.5 F-132S 1710 277 18.1 9.0 20.1 120 60 230 223 86.9 88.1 H 39.0 lb•in2 Table D-21. 575 Volt, Synchronous Speed, 1800 RPM, 60 Hz, Continuous Duty Motor Technical Information HP Frame Size 1/8[2] 1/4 1/3 1/2 3/4 1 1.5 2 3 5 7.5 F-63S F-63M F-63M F-71M F-80S F-80M F-90S F-90L F-100L F-112M F-132S Full RPM Torque in•lbs. Full Load Current (A) 575V Starting Current (A) 575V 1720 1720 1710 1700 1720 1680 1720 1720 1710 1730 1720 4.58 9.17 12.8 18.6 27.5 37.5 55.1 73.3 111 182 278 0.28 0.48 0.52 0.79 0.94 1.3 1.8 2.3 3.3 5.2 7.7 1.3 2.2 2.2 3.7 4.5 6.6 11.5 14.3 21.3 39.5 62 Torque (% of F.L.) Efficiency Starting Breakdown (Percent) 376 316 250 309 247 252 280 264 269 268 298 391 340 270 300 227 256 294 268 264 271 263 65.2 69.4 71.3 75.8 77.4 78.1 81.5 82.5 84.2 86.6 87.1 Power Factor 54.1 60.3 67.7 67.4 75.9 74.9 75.0 77.8 79.5 82.7 82.6 Code Letter[1] L K H H G H J H J J K Inertia WR2 in•lbs 1.11 1.71 1.71 2.22 3.27 4.10 6.49 7.26 11.4 28.9 39.0 Table D-22. Single Phase, 115/230V, Synchronous Speed, 1800 RPM, 60 Hz, TEFC Full Load Amp. Inertia WR2 115 V 230 V lb•in2 1/8 S-71S 3.4 1.7 5.13 1/4 S-71S 4.2 2.1 5.13 1/3 1750 S-71 6.5 3.2 7.69 1/2 S-71 7.1 3.5 7.69 Notes: [1] Code letter shown is for 230V or 460V operation. Consult the factory for other voltages. [2] No Fan 1/8 H.P., F-63S frame. HP D-16 RPM Frame Size Hyponic Technical Information Standard Wiring Diagrams Illustrated below are the wiring diagrams for our standard motors. For additional information, please refer to motor nameplate. Due to changes in design features, this diagram may not always agree with that on the motor. If different, the motor diagram found inside the conduit box cover is correct. A. Three Phase Motors Fig. D-23 Y-Connected (5 HP and smaller) Line 208/230V 60 Hz Line 460V 60 Hz Fig. D-24 Delta-Connected (7.5 HP) Line 208/230V 60 Hz Line 460V 60 Hz B. Single Phase Motors Fig. D-25 Line 115V Line 230V or 208V Motor Technical Information Hyponic D-17 Technical Information Assembly Drawings Assembly of Motors Fig. D-26 Frame Size F-63M thru F-160M Table D-23. Part Name Motor Technical Information 1 Bearing Cover[1] 13 Stationary Core 2 Bearing 14 Stator Frame 3 Bolt[1] 15 Stator Winding 4 Fan 16 Bolt 5 Fan Cover 17 Eye Bolt 6 End Bracket 18 Cyclo Flange Bracket 7 Bolt 19 Bearing 8 Bolt 20 Slinger/Oil Seal 9 Internal Fan 21 Motor Shaft 10 Hub 22 Conduit Box 11 Short Circuit Ring 23 Bearing Cover 12 Rotor Core 24 Bearing Sleeve [2] Notes: [1] Parts not included in F-63 through F-132S Motors. [2] No Fan 1/8 H.P., F-63S frame. D-18 Hyponic Technical Information Motor Thermal Ratings Table D-24. Motor Thermal Rating (C x Z) [1] Motor Moment of Inertia (lb-in2) Allowable C x Z Motor Power HP (35%ED)[2] Standard With Brake 1/8 3200 3000 2000 1200 1.13 1.20 1/4 2200 2800 2800 2500 1.71 1.88 1/3 2200 2800 2800 2500 1.71 1.88 1/2 1800 2200 1500 1500 2.22 2.33 3/4 1800 2200 1500 1500 3.45 3.80 1 1400 1400 800 500 4.10 4.45 1.5 1400 1400 800 500 6.33 7.11 2 1200 1200 500 400 7.28 8.04 3 1000 900 400 200 11.4 12.8 5 800 800 800 700 29.0 32.8 7.5 300 300 200 150 39.1 42.9 35% - 50% ED[2] 50% - 80% ED[2] 80% - 100% ED[2] The calculated C x Z value (steps 1 - 3 outlined below) should be less than the allowable value listed in Table D-24 1. Obtain the C value. C= IM + IL IM IM = Moment of inertia of motor. IL = Total moment of inertia of load as seen from the motor. 2. Obtain the Z value (number of starts per hour). (a) Assume that one operating period consists of “on time” ta (sec), “off time” tb (sec) and the motor is started nr (times/cycle). Zr = 3600nr (times/hr) ta + tb (b) When inching, ni (times/cycle) is included in 1 cycle (ta+tb), the number of inching times per hour, Zi, is then included in the number of starts. Technical Information (times/hr) Motor 3600ni Zr = ta + tb (c) Calculate Z by adding Zr to Zi. 3600 Z = Zr + 1 Zi = ta + tb 2 • (nr + 1 ni) (times/hr) 2 3. Calculate C multiplied by Z. Use the value of C obtained in step 1 and Z from step 2. 4. Obtain the duty cycle %ED and check with Table D-24. %ED = ta x 100 ta = on-time tb = off-time ta +tb Notes: [1] Please consult the factory for Inverter Duty and Single Phase motors. [2] %ED = Duty Cycle Hyponic D-19 Technical Information Brakemotor Characteristics Brakemotor Data The brakemotor on Hyponic® gearmotors operates with direct current supplied by a dual voltage rectifier mounted in the motor conduit box. When used for outdoor installations, our standard brakemotor must be protected by some type of cover. Such covers are available from the factory; please inquire when ordering. The standard brake input voltage is 208V OR 230V OR 460V at 60 Hz. Table D-25. Required Brake Torque [1] Condition % Motor Torque Typical Application [2] Machine Tool Cutter and Table Transfer Rapid Brake Action 100% Frequent Start/Stop 100% Conveyor Drive Rapid Braking and Fail Safe Over 150% Crane, Hoist Winch, Gate, Lifting Rapid Deceleration of High Inertia Over 150% Centrifuge Drive Textile Remarks Fast Brake Action or Quick Brake Relay May Be Required Wiring Connection for Fast Brake Action or Quick Brake Relay Table D-26. Brakemotor Characteristics Type HP Motor Technical Information Motor Frame Brake Model 1/8 F-63S 1/4 Brake Torque Standard Maximum Inertia WR 2 lb•in2 Brake Delay Time (sec) Normal Fast or Quick Braking Braking Action Action Coil Current (AC Amperage) 208V 230V 460V 0.015~0.02 0.06 0.06 0.04 0.15~0.2 0.015~0.02 0.1 0.1 0.06 1.88 0.15~0.2 0.015~0.02 0.1 0.1 0.06 3.0 2.31 0.1~0.15 0.01~0.015 0.1 0.1 0.06 5.5 7.7 3.79 0.2~0.3 0.01~0.02 0.1 0.1 0.1 FB-1B 5.5 7.7 4.44 0.2~0.3 0.01~0.02 0.1 0.1 0.1 F-90S FB-2B 11 14.0 7.11 0.2~0.3 0.01~0.02 0.3 0.3 0.2 2 F-90L FB-2B 11 14.0 8.03 0.2~0.3 0.01~0.02 0.3 0.3 0.2 3 F-100L FB-3B 16 21.0 12.7 0.3~0.4 0.01~0.02 0.4 0.4 0.2 5 F-112M FB-5B 27 36.0 32.7 0.4~0.5 0.01~0.02 0.4 0.5 0.3 7.5 F-132S FB-8B 41 53.0 42.7 0.3~0.4 0.01~0.02 0.4 0.5 0.3 ft•lbs ft•lbs FB-01A 0.7 1.0 1.20 0.15~0.2 F-63M FB-02A 1.5 2.0 1.88 1/3 F-63M FB-02A 1.5 2.9 1/2 F-71M FB-05A 3.0 3/4 F-80S FB-1B 1 F-80M 1.5 Notes: [1] If application requires larger or smaller brake torque than those listed, please advise the factory when ordering. [2] Quick brake relay may not be used with inverter applications. D-20 Hyponic Technical Information Standard Wiring Connection, Dual Voltage Models FB-01A thru FB-8B D-27 D-28 D-29 D-30 MC: MCB: OLR: VR: Electromagnetic Relay Magnetic Circuit Breaker Overload or Thermal Relay Varistor (protective device) [1] Table D-27. Varistor Specifications Operating Voltage Varistor Rated Voltage Varistor Voltage FB01A, 02A FB-05A FB-1B Rated Watt FB-2B, 3B FB-5B, 8B 200-230V AC260~300V 430~470V Over 0.2W Over 0.2W Over 0.4W Over 0.6W Over 0.6W 380-460V AC510V 820V Over 0.4W Over 0.4W Over 0.6W Over 1.5W Over 1.5W 575V AC604V 1000V Over 0.4W Over 0.6W Over 1.5W Note: [1] Refer to Table D-27 for Varistor Specifications. Hyponic D-21 Motor Technical Information Technical Information Standard Wiring Connection Quick Brake Relay Equipped Models Fig. D-31 Quick Brake Action, High Voltage (FB-2B, FB-3B, FB-5B, FB-8B) T1 Motor QB Relay T2 1 T3 2 3 Fig. D-32 Quick Brake Action, Low Voltage (FB-05A, FB-1B, FB-2B, FB-3B) Rectifier 4 1 2 3 Brake 4 M N T1 Motor QB Relay T2 1 T3 3 4 1 2 3 Brake 4 M N OLR OLR MC 2 Rectifier Furnished by Customer LINE 460V MC Furnished by Customer LINE 230V FB Brake (1/8 HP – 7.5 HP) with Inverter D-33 D-35 D-34 D-36 Motor Technical Information MC: Electromagnetic Relay MCB: Magnetic Circuit Breaker VR: Varistor (protective device) [1] Note: [1] Refer to Table D-27 for Varistor Specifications. D-22 Hyponic Technical Information Assembly of Brakemotors Types FB-01A, 02A, 05A, 1B, 2B, 3B, 5B, 8B Fig. D-37 Brakemotor a. 6 7 4 5 3 2 1 Table D-28a. Part No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Type FB-01A, -02A, -05A Description Stationary Core Spacer Brake Lining Restraining Bolt Hub C-type Retaining Ring Cover Fan (TEFC model only) Leaf Spring Brake Shoe Armature Pressure Spring Solenoid Coil Ball Bearing Motor Shaft Table D-28b. Type FB-1B thru 3B 8 9 10 11 12 13 14 Type FB-01A, 02A, 05A b. 15 Part No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Description Stationary Core Brake Release Support Shifting Pin Spacer GAP Adjusting Sleeve Brake Release Lever Restraining Bolt Brake Lining Leaf Spring Hub Retaining Ring Fan Cover Fan Set Screw Fan Fixed Plate Noise Shield Brake Shoe Armature Plate Pressure Spring Solenoid Coil Fan Side Motor Bearing Motor Shaft Technical Information Table D-28c. Type FB-5B thru 8B c. Type FB-5B thru 8B Hyponic Part No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Description Stationary Core Brake Release Support Stud Bolt GAP Adjusting Sleeve Shifting Pin Brake Release Lever Spring Washer Nut Brake Lining Hub Retaining Ring Fan Cover Fan Set Screw Fan Brake Shoe Armature Plate Pressure Spring Solenoid Coil Fan Side Motor Bearing Motor Shaft Bearing Cover Motor Type FB-1B thru 3B D-23 Technical Information Assembly of Brakemotors Rectifier Data Table D-29. Rectifier Data Brake Type Motor (HP x P) FB-01A 1/8 x 4 FB-02A 1/4 x 4 1/3 x 4 FB-05A 1/2 x 4 FB-2B 3/4 x 4 1x4 1.5 x 4 1x4 FB-3B 3x4 FB-5B 5x4 FB-8B 7.5 x 4 FB-1B Voltage (V) 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 190 ~ 230 380 ~ 460 Rectifier P.N. Single Voltage [1] Product I.D. Number 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 25FW - 4FB DX527WW-01 Note: [1] Dual Voltage P.N. 25FW-4FB is now standard for all FB brakes. The voltage range is 190 ~ 460V. Motor Technical Information D-24 Hyponic Technical Information Standards • Motor Protection • International Standards & Sumitomo Standards • EC Directives & CE Markings • Precautions for Inverter Driving • Constant Torque Operation of General Purpose Motors Standards Technical Information Hyponic D-25 Technical Information Motor Protection The first number (No. 1) denotes the level of motor protection against human or other foreign substances. The second number (No. 2) denotes the level of motor protection against water permeation. } Classified according to combination. Table D-31. Protection Method of Motors First Number (No. 1) 0 Non-Protected 0 Non-Protected 1 Semi-Protected 2 Protected 4 Totally Enclosed 5 Dust-Protected 6 Dust-Tight 2 Drip-Proof 3 Spray-Proof IP00 Second Number (No. 2)[1, 2, 3] 4 5 6 7 8 Splash-Proof Water-Jet-Proof Sea-Wave-Proof Immersion-Proof Submersible X X X X X X X IP24 X X X X IP44 IP45 X IP54 IP55 IP10 IP12 IP20 IP22 IP23 IP56 IP65 Table D-32. First Number Description Type Number Non-Protected 0 Semi-Protected 1 Protected 2 Totally Enclosed 4 Dust-Protected 5 Dust-Tight 6 Description Constructed without special protection against human contact and penetration of solid foreign objects. Constructed to prevent inadvertent contact with rotating and conductive parts inside the machine, by hand or other critical parts of the human body. Constructed to prevent penetration of solid foreign substances over 50 mm in diameter. Constructed to prevent contact with rotating and conductive parts inside the machine, by hand or other critical parts of the body. Constructed to prevent penetration by solid substances over 12 mm in diameter. Constructed to prevent contact with the rotating and conductive parts inside the machine by tools, electric wires, etc. with minimum width and thickness over 1 mm. Constructed to prevent penetration of solid foreign substances over 1 mm diameter. However, water drainage outlet and exhaust outlet may be of Number 2 construction. Constructed to prevent contact with rotating and conductive parts inside the machine by any form of objects. Constructed for protection against dust particle penetration, but will not interfere with normal operation, despite such penetration. Constructed to prevent contact with rotating and conductive parts inside the machine by any form of objects. Constructed to prevent ingress of dust particle penetration. Table D-33. Second Number Description Standards Technical Information Type Non-Protected Number 0 Drip-Proof 2 Spray-Proof 3 Splash-Proof Water-Jet Proof Sea-Wave Proof 4 5 6 Immersion-Proof 7 Submersible 8 Description Constructed without special protection against water permeation. Constructed to prevent harmful effect from dripping water falling from within 15° direction from vertical. Constructed to prevent harmful effect from dripping water falling from within 60° direction from vertical. Constructed to prevent harmful effect from dripping water falling from any direction. Constructed to prevent harmful spray from any direction. Constructed to prevent harmful effect from strong spray from any direction. Constructed for submersion into water of prescribed depth and time but not having any harmful effect in spite of water permeation. Constructed to assure normal operations under water. Example: IP – 5 4 Form of protection against water permeation: Splash-Proof Type Form of protection against bodily injury and solid foreign substance peneration: Dust-Proof Type ICE Standards abbreviation. Table C-26 Cooling Enclosure Construction Totally Enclosed, Non-Ventilated (TENV) Totally Enclosed, Fan-Cooled (TEFC) Notes [1] “X” denotes a protection combination that is difficult to produce. [2] IP44 and IP54 are standardly available from Sumitomo. [3] Please consult factory for IP45 and IP55 selections. D-26 JEC Standards JCN4 JC4 IEC Standard IC410 IC411 Hyponic Technical Information International Standards & Corresponding Sumitomo Standards UL Standards (Underwriters Laboratories) UL Standards, which are based on a series of scientific studies, research and experiments, are established for safety by a commercial testing institute in the U.S. to prevent fire, disaster and harm to human life. They are not regulated to comply with U.S. Federal Government standards, but they are regulated by some U.S. cities and states. Table D-35 Motor Non-explosion proof single-phase induction motor[1] Non-explosion proof 3-phase induction motor 3-phase induction motor with brake Power 1/8~1/2HPx4P 1/8~7.5HPx4P 1/8~7.5HPx4P Voltage 115V, C230V Frequency 60Hz Insulation Class A UL mark 208V, 230V, 460V, 575V 60Hz Class A (Class B, Class F) [3] Class F Indoor type[2] Ambient Conditions HP Differences from Sumitomo Machinery Corporation of America (SMA) standard models: • Numbered motor leads • Nameplate with UL mark • Large volume terminal box • UL recognized insulation system. P TYPE VOLTS Hz AMP RPM CODE SER. NO. FRAME INS. CLASS TIME RATING SERVICE FACTOR MAX AMB SUMITOMO ˚C MACHINERY CORP. OF AMERICA CHESAPEAKE, VIRGINIA Fig. D-42 UL nameplate Additional Remarks: • Manufacturing and repair work may be conducted only at an authorized facility. CSA Standards (Canadian Standards Association) CSA Standards are standards that have been established by a semi-governmental organization in Canada. Most areas in Canada require electronic products to be approved by CSA. Table D-36 Motor Single phase induction motor[1] 3-phase induction motor 3-phase induction motor with brake High efficiency 3-phase induction motor Power 1/8~1/2HPx4P 1/8~1HPx4P 1/8~1HPx4P 2~7.5HPx4P Voltage 115V, A230V High efficiency 3-phase induction motor with brake 2~7.5HPx4P 208V, 230V, 460V, 575V 60Hz Insulation Class B and Class F[3] Ambient conditions Indoor type[2] Differences from SMA standard models: • Numbered motor leads • Oversized frame for a high-efficiency motor • Nameplate with CSA mark • Large volume terminal box • CSA standard motor coil. Additional Remarks: • If the unit is to be exported to Canada, it should include a CSA approved motor. • Manufacturing and repair work may only be done at authorized facilities. • Inverter (AF) motors are excluded from UL approval. Sumitomo supplies CSA compliant AF motors (CSA mark is not fixed on the nameplates of CSA compliant products). Technical Information HP VOLTS Hz M.AMP RPM B.AMP B.TORQUE MANUF. No. Standards Frequency P TYPE FT-LB FRAME M / B INS. CLASS / TIME RATING SERVICE FACTOR MAX.AMB ˚C ENCLOSURE TE SM CYCLO OF CANADA, LTD TORONTO, MONTREAL, VANCOUVER Fig. D-43 CSA nameplate NRCan established the Energy Efficiency Act (EEACT) in 1992 and the Energy Efficiency Regulations (EER) in 1995. Additional regulations were applied to gearmotors imported on November 27, 1999 or later. The import of gearmotors that do not meet the efficiency standards has been banned. Notes: [1] Contact factory for manufacturers of single-phase motors or brakemotors. [2] The outdoor type is unavailable. [3] Contact the factory for manufacture of insulation types B or F. Hyponic D-27 Technical Information NEMA Standards (National Electrical Manufacturers Association) Established by a manufacturers’ association to provide manufacturer and consumer standards for most electrical products. Differences from Sumitomo Machinery Corporation of America standard models: • Numbered motor leads • Nameplate marked with NEMA design • NEMA standard motor coil. HP P TYPE VOLTS Hz M. AMP RPM CODE B. AMP SERIAL NO. Additional Remarks: • No approval is required to state NEMA compliance. • NEMA standards also apply to inverter motor (AF). SUMITOMO FRAME M B INS. CLASS TIME RATING SERVICE FACTOR MAX. AMB. B. TORQUE NEMA DESIGN ˚C FT LB MACHINERY CORP. OF AMERICA CHESAPEAKE, VIRGINIA Fig. D-44 NEMA nameplate Other Standards Table D-37. Application of International Standards (Example) Country/Standards JIS JEM JEC Japan• 000 International•IEC Standard output Applicable output frame size UK•BS : 4kW max. : 5.5kW min. Germany• VDE DIN : 4kW max. : 5.5kW min. – Motor mounting dimension of corresponding frame size [1] [1] [1] [1] Shaft end dimension [1] [1] [1] [1] Dimension tolerance of shaft end key and key groove [1] [1] [1] [1] – Insulation class Lead wire code : Sumitomo standards : Manufactured to special specification on customer’s request IEC–International Electrotechnical Commission. BS–British Standards. Standard direction of rotation Description on nameplate Characteristic testing method Standard voltage 200V • 220V 400V • 440V Standard frequency 50Hz • 60Hz 50Hz • 60Hz 415V 220V 380V 50Hz 50Hz Note: [1] Denotes dimension of standard flange-mount CYCLO DRIVE. Consult the factory for flange dimensions required for standards. Standards Technical Information D-28 Hyponic Technical Information EC Directives & CE Marking The CE mark is affixed to products that conform to EC directives in order to certify the quality and safety of products and ensure free distribution of products across borders within the region of the EU (European Union). EC Directives Applicable to Machine Products and Implementation Period Table D-38. Directives that Apply to Ordinary Machine Products EC directives Details Machinery Directive Machinery Directive Low Voltage Directive Low Voltage Directive EMC Directives Electromagnetic Compatibility Directive Electromagnetic Objects Details of directive Aggregates of parts, which are movable (Industrial machines, primarily) Essential matters related to safety of machines are stipulated. Machines that are electrically dangerous must meet the requirements for low voltage. Products driven by power of 50-1,000 VAC or 75-15,000 VDC All types of products that may cause jamming (electromagnetic radiation) or have their functions impeded by nearby radio waves Products not conforming to standards cannot be put on the market. EMI : Not to cause external electromagnetic interference EMS : To withstand external electromagnetic interference Table D-39. Transition Period and Time Limit for Enforcement of CE Marking for Major Directives Year 1990 1991 1992 Machinery Directive 89/392/EEC Original 91/368/EEC Revision I 93/44/EEC Revision II EMC Directives 89/336/EEC Original 92/31/EEC Revision I 1993 1994 1/1 1995 1996 1997 1998 1999 2000 2001 2002 2003 1/1 Transition Enforcement 1/1 1/1 Transition Low Voltage Directive 73/23/EEC Original 93/68/EEC Revision I Enforcement 1/1 1/1 Transition Technical Information Enforcement Standards EC Directive Measures to Take for EC Directives and CE Marking Related to Gearmotors Among EC directives, the machinery directive (issued in January 1995) concerning induction motors and low voltage directive (issued in January 1997) are applicable. The EMC directive (issued in January 1996) does not apply to induction motors. CE marking logo shown on nameplates Hyponic D-29 Technical Information EC Directives & CE Marking, cont. Standard Specifications for CE Marking Motors Input power : 0.1kW~4kW 230/400V 50Hz Dual voltage direct starting Y – 5.5kW or more 400V 50Hz Start Insulation : 0.1kW~0.4kW Class E Rated time : Continuous Characteristics : IEC34-1 Protection : IP54 (without brake), IP44 (with brake) Terminal box : (Material) 0.75kW or more Class B 5.5kW or less: Aluminum (PG16 boltsx2pcs) 7.5kW or more: cast iron (PG21 boltsx3pcs) (specification) Terminal plate (six terminals European style) with grounding terminal Conduit tube in European size ( PG bolts) different from Japanese standard of conduit tube PF bolts Insulation : Distances between insulated surfaces and spaces in accordance with IEC standards External dimensions : Same as standard except for the terminal box TEUV test report : Acquired for a representative model 0.75kWx4p, 230V/400V (Oct 1996) CE marking motors are manufactured in accordance with the model Declaration of Conformity : Declaration of Conformity is available when necessary for CE marking Fig. D-45 Example of Terminal Box – 5.5 kW or less Terminal plate (six terminals in European style) 59 49 56 97 81 50 Standards Technical Information Connection bar 16 16 30.5 2-PG16 Manufacturing Range of CE Marking Motors Table D-40. 3-phase Induction Motor 230/400V dual voltage 400V Input Power Symbol 01 012 018 02 03 04 05 08 1 1H 2 3 5 6 8 kWx4P (0.1) 0.12 0.18 (0.2) 0.25 0.37 (0.4) 0.55 0.75 1.1 1.5 2.2 (3.7) 4 5.5 Frame F63S F63M F71M F80S F80M F90S F90L F100L F112M F132S • Motors with kWs not shown in parentheses ( ) in the above table are standard in Europe, while motors with kWs shown in parentheses ( ) are used only in Japan and other countries. • European standard kW motors are recommended. Motors with kWs shown in parentheses ( ) are also available 3-Phase 100V/50Hz, 200V/60Hz, 220V/60Hz 3-Phase 400V/50Hz, 400V/60Hz, 440V/60Hz 3-Phase 380V/50Hz 3-Phase 415V/50Hz Contact the factory when motors with kW and voltage not listed in Table D-37 are required. D-30 Hyponic Technical Information Precautions for Inverter Driving 1. Constant Torque Operation Constant torque operation requires a special motor for the inverter. Consult factory when the operation frequency range is less than 6 Hz. The sensorless operation mode of the HF-320 inverter permits constant torque operation of general-purpose motors at 3.7 kW or less. 2. Operation in Frequency Range Exceeding the Base Frequency (60 Hz) Rated output operation will be carried out in the frequency range exceeding the base frequency. Therefore, the torque will decrease as the speed increases. Select an appropriate motor capacity according to the machine load characteristics. (See Fig. D-46.) The frequency exceeding 60 Hz is regarded as the base frequency. The output torque is lower than that at 60 Hz, which is the standard base frequency, also when V/f is set for constant torque operation. When such adjustment is made, insufficient torque may result at low frequency or during start-up. Do not change the base frequency figure for cases other than reduction load characteristics. 3. V/f Mode Operation of General-purpose Inverter In the case of multiple operation of motors or V/f operation with an inverter that has no sensorless function, it is necessary to adjust the boost value to compensate for the start-up torque and slow-speed torque. Standard values are usually set before shipment from the manufacturer but overcurrent may result depending on the load condition and acceleration/deceleration. In such a case, change values appropriately as follows : Fig. D-46 a. In the case of a small capacity motor and a small load, a large boost setting may cause overexcitation of a motor, leading to overcurrent. In that case, lower the boost to return to a normal value. b. In cases where a load is large and overcurrent during start-up and slow-speed operation easily causes tripping, increase the boost to lower the current value. Examine the motor capacity if no improvement is observed after boost adjustment. Output frequency (Hz) Base frequency Boost 4. Operation by Sensorless Vector Inverter Base voltage Output voltage (V) Some of the newest high-performance inverters are equipped with a sensorless vector operation function. Usually this function is valid only when a motor and an inverter are operated in one-to-one correspondence. The function does not apply to multiple operation or pole-change operation. Products to which the auto-tuning method is applied do not need adjustment as in the case of V/f operation due to automatic control of the motor characteristics. Vector operation is carried out on the basis of the motor data read by the inverter, and operation is controlled instantaneously in accordance with the load condition to continue optimal operation. When the wiring distance between the motor and inverter becomes long (20 m or more), compensation may be necessary according to the drop in the line impedance. Select sufficiently thick cables when the wiring distance is long. 5. Output Torque Characteristics of Motor Fig. D-47 Output Torque Torque curve 100 100 Output curve 80 AF motor 50 50 Technical Information When a general-purpose motor is driven by an inverter, the reduction torque operation characteristics shown below will appear. (%) Torque (%) (%) Continuous operation characteristics when a general-purpose motor is driven by an inverter 95~100 80~90 Standards Total output/torque characteristics curve when AF motor and SUMITOMO inverter are operated in combination 220V (440V) 200V (400V) General-purpose motor 40~60 35~45 20 0 6 60 120 Output frequency (Hz) 6 20~30 60 120 Output frequency (Hz) Note: Constant torque operation is possible from 1 Hz when an axial fan type is used. 6. Motor Temperature Rise When a general-purpose motor is combined with an inverter for variable-speed operation, the motor temperature rise may be slightly greater than if the motor is operated by a commercial power supply. Possible causes are shown below : Influence of output waveform…Unlike a commercial power supply, the output waveform of an inverter is not a complete sine wave but includes harmonics; therefore, motor damage will increase, raising the temperature slightly higher. Decrease in motor cooling effect during slow-speed operation…………………………A motor is cooled by its own fan. Therefore, when the motor speed is decreased by an inverter, the quantity of cooling air decreases, reducing the cooling effect. When a motor is to be operated at frequencies lower than the frequency of a commercial power supply, reduce the load torque to hold down the temperature rise or use a special motor designed for inverter operation. Hyponic D-31 Technical Information Constant Torque Operation of General-Purpose Motors Operation with the following characteristics is possible when the HF-320 series inverter is used for sensorless control in combination with general-purpose motors (3.7 kW or less). A combination with a standard frame size motor can be used for constant torque operation where an AF motor with a reducer of a larger frame size has conventionally been used. Notes: 1. To select the combination with Hyponic ®, examine the lubrication method and torque during slow speed operation and rated output operation. Specify that inverter operation is desired when placing an order. 2. Consult factory for 400V class model to select insulation necessary for inverter operation. 3. When a brakemotor is operated for an extended period at slow speed, the cooling effect of the fan will decrease and the brake temperature will rise substantially. Consult factory for details. 4. Consult factory for details when a general-purpose motor will be operated under V/F control. (Also consult factory when using the SF-320 series.) Table D-41 kW Motor frame size 0.1 F63S 0.2 F63M 0.4 F71M 0.75 F80M 1.5 F90L 2.2 F100L 3.7 F112M Insulation Frequency range Series of inverter 6~120Hz HF-320 Series Class E (Base frequency 60Hz) Class B Fig. D-48 HF-320 Output Torque Characteristics during Operation in Sensorless Mode Short time maximum torque Standards Technical Information 150 Continuous operation torque 100 150 80 50 40 50 40 6 20 40 60 120 Continuous operation torque 100 80 0 Short time maximum torque 200 Torque (%) Torque (%) 200 0 6 20 40 60 Frequency (Hz) 0.2~0.4kW • 120 Frequency (Hz) 0.75~3.7kW The combination-output torque presupposes that the rating is 100% when the motor frequency is 60 Hz. Use an AF motor when constant torque is required at power exceeding 7.5 HP. D-32 Hyponic Technical Information General Engineering Information • Basic Power Transmission Formulas • Derivations of Common Power Transmission Formulas • Conversion Factors Engineering Technical Information Hyponic D-33 Technical Information Power Transmission Formulas Basic Mechanics T=F•r Basic Torque Formula T = Torque (inch •pounds) F = Force (pounds) r = Radius (inches) Horsepower (when Torque and Speed is known) HP = Horsepower T•N T = Torque (inch •pounds) HP = 63025 N = Rotational Speed (RPM) Torque (when Horsepower and Speed is known) T = Torque (inch •pounds) HP•63025 HP = Horsepower T= N N = Rotational Speed (RPM) Speed (Rotary to Linear) V = Linear Velocity (ft/min) N = Rotational Speed (RPM) V = 0.262 • N • D D = Diameter (inch) N= TA = V 0.262 • D WK2 • ∆N 3696 • t Speed (Linear to Rotary) N = Rotational Speed (RPM) V = Linear Velocity (ft/min) D = Diameter (inch) Torque to Accelerate Inertia TA2 = Torque (inch •pounds) WK2 = Inertia (pound•inch2) ∆N = Speed Change (RPM) t = Time (seconds Conveyors Continuous Torque TC = Continuous Torque (in •lbs) W = Weight (pounds) = Incline Angle (degrees) TC = W(sinø + f cosø ) r f = Friction Coefficient r = Radius (inch) 2 = w • r2 WK L Load Inertia at Pulley WK2L = Load Inertia (lb•in2) W= Weight (pounds) r= Radius (inch) Total Inertia to Accelerate WK2T = Total Inertia (lb •in2) 2 2 2 2 2 2 WK L = Load Inertia (lb•in ) WK L = WK L +WK D +WK M WK2D = Drive Inertia (lb•in2) WK2M = Motor Inertia (lb•in2) Engineering Technical Information TM TM Motor Torque Required TM = Motor Torque (in •lb) TC = Continuous Torque (in •lb) TA = Acceleration Torque (in •lb) RR = Reduction Ratio e = Reducer Efficiency = TC + TA 1.5 • RR • e ≥ TC RR • e OHL =T • K r Friction Coefficient (f) Belt/Rollers = 0.025 Fabric/Steel = 0.27 Plastic/Steel = 0.35 Rubber/Steel = 0.50 Leather/Steel = 0.56 OHL K-Factors Chain = 1.0 Polychain = 1.25 Pinion Gear = 1.25 V - Velt = 1.5 Flat Belt = 2.5 Overhung Load OHL = Overhung Load (pounds) T= Torque (inch •pounds) K= OHL Factor r= Radius (inch) Solid Cylinder (Pulley) Inertia WK2 = Load Inertia (lb•in2) WK2 = 1 • w • r2 W= Weight (pounds) 2 r= Radius Hollow Cylinder Pulley Inertia WK2 = Inertia (pound•inch2) 2 2 W= Weight (pounds) w • (r1 + r 2) WK2 = r21 = Radius (inch) 2 r22 = Radius (inch) D-34 Hyponic Technical Information Electrical[1] Current (when Horsepower is known) I = Current (A) HP = Power (HP) HP • 746 I= E = Voltage (v) 1.73 • E • e • pf e = Efficiency pf = Power Factor kW = 1.73 • I • E • pf 1000 Current (when kilowatts are known) I = Current (A) kW = Power (kW) kW • 1000 I= E = Voltage (v) 1.73 • E • pf pf = Power Factor Kilowatts kW = Power (kW) I = Current (A) E = Voltage (v) pf = Power Factor Current (when kilowatts are known) HP = Power (HP) kW = Current (A) HP = 1.73 • I • E • e • pf E = Voltage (v) 746 e = Efficiency pf = Power Factor Current (when kilovolt-amperes are known) I = Current (A) I = Kva • 1000 Kva = Kilovolt-Amperes 1.73 • E E = Voltage (v) Reducer Effect (Cyclo, Gear, Belt, or Chain Drive) NM = NL • RR Speed N = Rotational Speed (RPM) RR = Reuction Ratio M = Motor L = Load WK 2 = Wk M 2 WK L 2 e • RR TM = TL e • RR Torque T = Torque (inch •pounds) e = Reducer Efficiency RR = Reduction Ratio L = Load Inertia WK2 = Inertia (pound•inch2) e = Reducer Efficiency RR = Reduction Ratio M = Motor L = Load COMMON RULES OF THUMB (APPROXIMATION): At 1750 RPM, a motor develops 36 inch•pounds of torque per horsepower under full motor load conditions. Technical Information Engineering At 1165 RPM, a motor develops 54 inch•pounds of torque per horsepower under full motor load conditions. At 575 volts, a 3-phase motor draws 1 amp per horsepower under full motor load condition. At 460 volts, 3-phase motor draws 1.25 amps per horsepower under full motor load condition. At 230 volts, a 3-phase motor draws 2.5 amps per horsepower under full motor load condition. Note: [1] All electrical formulas apply to Alternating Current, 3-phase motors only. Hyponic D-35 Technical Information Formula Derivations Velocity ØD = Wheel Diameter = 2 • R (ft, m) R = Wheel Radius (ft, m) N = Rotational Speed (RPM) π = 3.1416 V = π • 2 • R • N = 0.5236 • R • N (ft/min) 12 V = π • OD • N (m/s) 60 Torque R = Wheel Radius (in, m) F = Load (lbs, N) T = Torque = F • R (in•lbs, N•m) Power F = Loads (lbs, N) V = Velocity (ft/min, m/s) HP = F • V 33000 kW = F • V 1000 Power & Torque Engineering Technical Information English HP = F•V 33000 Metric kW = F•V 1000 2•π N 1000 • 60 • N • F • R ∞ substitute π • 2 • R • 60 for V = F • (0.5236 • R • N) ∞ substitute 0.5236 • R • N for V 33000 = = F•R•N 63025 = N•F•R 9550 = T • N ∞ substitute T for F • R 63025 T = HP • 63025 N Power & Torque D-36 = T • N ∞ substitute T for F • R 9550 T = kW • 9550 N FA = M • a V2-V1 = M• tA V2 V1 ∴a = tA FA = Acceleration Force (lbs, N) V = Velocity (ft/sec, m/sec) tA = Acceleration Time (sec) M = Mass (slug, kg) a = Acceleration (ft/sec2, m/sec2) Hyponic Technical Information Common Conversion Factors Length 1m 1 dm 1 cm 1mm 1 yd 1 ft 1 in. 1 mil = = = = = = = = = = = = = = = = m dm cm mm 1 0.1 0.01 0.001 0.9144 0.3048 25.4X10-3 25.4X10-6 10 1 0.1 0.01 9.144 3.048 0.2540 254X10-6 100 10 1 0.1 91.44 30.48 2.540 25.4X10-3 1000 100 10 1 914.4 304.8 25.40 25.4X10-3 yd ft in mil 1.094 0.1094 10.9X10-3 1.09X10-3 1 0.3333 27.8X10-3 27.8X10-6 3.281 0.3281 32.8X10-3 3.28X10-3 3 1 83.3X10-3 83.3X10-6 39.370 3.937 0.3937 39.4X10-3 36 12 1 1X10-3 39.4X103 3937 393.7 39.37 36X103 12X103 1000 1 1 mile (statute or British mile) = 1760 yd 1 n mile (nautical mile) = 6080 ft 1 km = 39370 in = 3281 ft = 1093.6 yd 1 fathom = 6 ft = 5280 ft = 1609.344 m = 1.853 km = 0.6214 mile = 0.5396 n mile = 1.8288 m Area 1 m2 1 dm2 1 cm2 1mm2 1 yd2 1 ft2 1 in2 1 CM 1 m2 1 dm2 1 cm2 1 mm2 1 yd2 1 ft2 1 in2 1 CM 1m 1 dm3 1 cm3 1 yd3 1 ft3 1 in3 1 gal (UK) 1 gal (US) 3 1 m3 1 dm3 1 cm3 1 yd3 1 ft3 1 in3 1 gal (UK) 1 gal (US) = = = = = = = = = = = = = = = = m3 dm3 cm3 1 1X10-3 1X10-6 0.765 28.3X10-3 16.4X10-6 4.55X10-3 3.79X10-3 1000 1 1X10-3 764.6 28.32 16.4X10-3 4.546 3.785 1X10 1000 1 765X103 28.3X103 16.39 4546 3785 yd3 in3 gal (UK) gal (US) 35.32 35.3X10-3 35.3X10-6 27 1 579X10-6 0.1605 0.1337 61.02X103 61.02 61X10-3 46.7X103 1728 1 277 231 220 0.22 0.22X10-3 168.2 6.229 3.6X10-3 1 0.8327 264.2 0.2642 0.26X10-3 202 7.481 4.3X10-3 1.201 1 1 bushel (UK) 1 bushel (US) 1 pint (UK) 1 liq. pt. (US) 1l = = = = = 8 gal (UK) 0.969 bu (UK) 1/8 gal (UK) 1/8 gal (US) 1.76 pt (UK) yd3 6 = = = = = 1.3079 1.3X10-3 1.3X10-6 1 37X10-3 21.4X10-6 5.95X10-3 4.95X10-3 64 pt (UK) = 36.371 35.24 l 0.5682 l 0.4732 l 2.113 liq. pt (US) Force and Weight = = = = = = = = = = = = = = = = 1 square mile 1 acre 1 km2 1 ha 1a m2 dm2 cm2 mm2 1 0.01 0.1X10-3 1X10-6 0.8361 92.9X10-3 0.645x10-3 – 100 1 0.01 0.1X10-3 83.61 9.290 64.5X10-3 – 10X103 100 1 0.01 8361 929.03 6.4516 5.07X10-6 1X106 10X103 100 1 836X103 92.9X103 645.16 0.507X10-3 1N 1 kp 1p 1 dyn 1 tonf (UK) 1 lbf 1 ozf yd2 ft2 in2 CM 1.196 12X10-3 0.12X10-3 1.2X10-6 1 0.1111 772X10-6 – 10.764 0.1076 1.08X10-3 10.8X10-6 9 1 6.94X10-3 5.45X10-9 1550 15.50 0.1550 1.55X10-3 1296 144 1 0.785X10-6 – – 197X103 1.97X103 – 183X10 6 1.27X106 1 1N 1 kP 1P 1 dyn 1 tonf (UK) 1 lbf 1 ozf = = = = = 640 acres 4840 yd2 0.386 mi2 100 a 100 m2 Hyponic = = = = = 2.590 km2 0.405 ha 100 ha 2.471 acres 119.6 yd 2 = = = = = 259 ha 4047 m2 10000 a 11959.6 yd 2 1076.4 ft2 = = = = = = = = = = = = = = 1 (long) ton (UK) 1 (short) ton (US) 1 stone 1 ton 1 cwt (UK) 1 cwt (US) 1t N kP P 1 9.807 9.81X10-3 1X10-5 9964 4.448 0.1020 1 1X10-3 1.02X10-6 1016 0.4536 28.4X10-3 102.0 1000 1 1.02X10-3 1.02X106 453.6 28.35 dyn tonf (UK) lbf ozf 1X105 981x103 980.7 1 996X106 445X103 27.8X103 100.4X10-6 0.984X10-3 0.984X10-6 1X10-9 1 446X10-6 27.9X10-6 0.2248 2.205 2.2X10-3 2.25X10-6 2240 1 62.5X10-3 3.597 35.27 35.3X10-3 36X10-6 35.8X103 16 1 = = = = = = = 160 stones 142.9 stones 14 lb 20 cwt 4 quarters 100 lb 1000 kg = 2240 lb = 2000 lb = 224 oz = 1.016 t = 0.907 t = 6.35 kg = 8 stones = 45.36 kg = 0.984 ton (UK) = 112 lb = 1.101 ton (US) D-37 Technical Information Engineering 1m 1 dm 1 cm 1 mm 1 yd 1 ft 1 in. 1 mil Volume Technical Information Common Conversion Factors Velocity Moment of Inertia and Other Flywheel Effects 1 km/h 1 m/min 1 m/s 1 mile/h 1 ft/min 1 ft/s 1 in/s = = = = = = = km/h m/min m/s 1 0.06 3.6 1.609 18.3X10-3 1.097 91X10-3 16.667 1 60 26.82 0.3048 18.288 1.524 0.2778 16.7X10-3 1 0.4470 5.08X10-3 0.3048 25.4X10-3 1 kgm (mr ) 1 kgfm2 (GD 2) 1 lbf•ft2 (Wr 2) 1 kpms2 1 ft•lbf•s2 2 1 kgm (mr ) 1 kgfm2 (GD 2) 1 lbf•ft2 (Wr 2) 1 kpms2 1 ft•lbf•s2 2 1 km/h 1 m/min 1 m/s 1 mile/h 1 ft/min 1 ft/s 1 in/s = = = = = = = mile/h ft/min ft/s in/s 0.6214 37.3X10-3 2.237 1 11.4X10 -3 0.6818 56.8X10-3 54.68 3.281 196.85 88 1 60 5 0.9113 54.7x10-3 3.281 1.467 16.7X10-3 1 83.3X10-3 10.936 0.656 39.37 17.6 0.2 12 1 1 Nm 1 cNm 1 kgfm 1 cpm 1 lbf•ft 1 lbf•in 1 ozf•in 1 Nm 1 cNm 1 kgfm 1 cpm 1 lbf•ft 1 lbf•in 1 ozf•in Engineering Technical Information = = = = = = = = = = = = = = Nm cNm kgfm 1 0.01 9.8067 98.1X10-6 1.356 0.1129 7.062X10-3 100 1 980.67 9.81X10-3 135.6 11.29 0.7062 0.10197 1.02X10-3 1 10X10-6 0.1383 11.5X10 -3 0.72X10-3 cpm lbf•ft lbf•in ozf•in 10.2X103 101.97 100X103 1 13.8X103 1152 72.01 0.73756 7.376X10-3 7.233 72.3X10-6 1 83.3X10 -3 5.21X10-3 8.8507 88.5X10-3 86.796 868X10-6 12 1 62.5X10-3 141.61 1.4161 1389 13.9X10-3 192 16 1 2 1 N/m 1 bar 1 kgf/m2 1 kgf/cm2 1 kgf/mm2 1 lbf/yd2 1 lbf/ft2 1 lbf/in2 1 tonf/in2 1 N/m2 1 bar 1 kgf/m2 1 kgf/cm2 1 kgf/mm2 1 lbf/yd2 1 lbf/ft2 1 lbf/in2 1 tonf/in2 = = = = = = = = = = = = = = = = = = Power 1 kW 1 PS 1 hp 1 kgfm/s 1 ft•lbf/s 1 kcal/s 1 Btu/s 1 kW 1 PS 1 hp 1 kgfm/s 1 ft•lbf/s 1 kcal/s 1 Btu/s D-38 = = = = = = = = = = = = = = kW PS hp 1 0.7355 0.7457 9.81X10-3 1.36X10-3 4.1868 1.055 1.360 1 1.014 13.33X10-3 1.84X10-3 5.692 1.435 1.341 0.9863 1 13.15X10-3 1.82X10-3 5.615 1.415 1 N/m 1 bar 1 kgf/m2 1 kgf/cm2 1 kgf/mm2 1 lbf/yd2 1 lbf/ft2 1 lbf/in2 1 tonf/in2 2 kgfm/s ft•lbf/s kcal/s Btu/s 102.0 75 76.04 1 0.1383 426.9 107.6 737.6 542.5 550 7.233 1 3088 778.2 0.2388 0.1757 0.1781 2.342X10-3 0.324X10-3 1 0.2520 0.9478 0.6971 0.7068 9.295X10-3 1.285X10-3 3.968 1 kgm2(mr 2) kgfm2 (GD 2) 1 0.25 42.1X10-3 9.807 1.356 4 1 0.1686 39.23 5.423 lbf•ft2 (Wr 2) kpms2 ft•lbf•s2 23.73 5.933 1 232.7 32.17 0.102 25.5X10-3 4.30X10-3 1 0.1383 0.7376 0.1844 31.1X10-3 7.233 1 N/m2 bar kgf/m2 1 1X105 9.81 98.1X103 9.81X106 5.32 47.88 6.89X103 15.4X103 1X10 1 98.1X10-6 0.981 98.1 53.2X10-6 479X10-6 68.9X10-3 154 0.102 10.2X103 1 10X103 1X106 0.543 4.882 703 1.58X106 kgf/cm2 kgf/mm2 lbf/yd2 10.2x10-6 1.02 0.1X10-3 1 100 54X10-6 0.488X10-3 70.3X10-3 157.5 0.102x10-6 10.2X10-3 1X10-6 0.01 1 0.54X10-6 4.88X10-6 0.703X10-3 1.575 0.188 18.8X103 1.843 18.4X103 1.84X106 1 9 1296 2.9X106 lbf/ft2 lbf/in2 tonf/in2 Pressure and Stress 2 Torque 2 = = = = = = = = = -5 20.88X10 2.088X103 0.2048 2.05X103 205X103 0.1111 1 144 0.323X106 -3 145X10 14.5 1.42X10-3 14.223 1.422X103 772X10 -6 6.94X10-3 1 2240 -6 64.75X10-9 6.475X10-3 0.64X10-6 6.4X10-3 0.6349 0.345X10-6 3.1X10-6 0.446X10-3 1 Hyponic We keep things moving. Bottling/Baking Water Treatment The same technology and know-how that have been accumulated through 50 years of CYCLO speed reducer and gearmotor experience have been employed in the development of the HYPONIC of which there are now over one million in service worldwide. Each of these Sumitomo Paramax speed reducers helps pump up to 13 million gallons a day at this state-of-the-art wastewater treatment facility in the City of Clearwater, Florida. This 350-ft. Oven Band Conveyor is driven by a 15-hp BEIER mechanical vs. drive with electric remote control. Material Handling This 35-ton capacity DC Trolley Hoist is designed for heavy-duty coil handling service. Both hoist and trolley drive systems incorporate Sumitomo PARAMAX reducers providing quiet, reliable operation. CYCLO mixer drives are a key component of this award-winning water treatment facility in Hillsborough County, Florida. Custom Designs This crane manufacturer utilizes both Paramax and CYCLO drives in the design of over 60 cranes a year for some of the largest steel mills, paper mills, shipyards, foundries, and power companies in the nation. The 13,000-ton roof on Seattle’s new Safeco Field can be retracted in less than 20 minutes in case of inclement weather. 96 Sumitomo CYCLO Bevel Buddybox gearmotors help move it. The Sumitomo gearmotors on eight travel truck assemblies turn 128 36˝ wheels. Steel Wood Products Sumitomo CYCLO drives are an integral part of this manufacturing plant which produces 150,000 board feet of unfinished strip and plank hardwood flooring each week. Once flooring is side-matched, it is inspected for defects. This conveyor, driven by Sumitomo CYCLO drives, carries defective material to the hammer mill. After molten steel is formed in the five-strand continuous caster at this steel mill, it is conveyed by Sumitomo CYCLO drives on the auto-torch conveyors where the steel is cut into billets. Worldwide Locations Headquarters & Manufacturing 4200 Holland Boulevard Chesapeake, VA 23323 Tel: 757-485-3355 • Fax: 757-487-3075 www.smcyclo.com E-mail: marketing@suminet.com U.S. Sales and Support Mexico Europe Mid-West Monterrey Sumitomo Machinery Corporation of America 175 West Lake Drive Glendale Heights, IL 60139 Tel: 630-752-0200 • Fax: 630-752-0208 SM-Cyclo de Mexico, S.A. de C.V. Calle “C” No. 506A Parque Industrial Almacentro Apodaca, N.L., Mexico 66600 Tel: 011-52-81-8369-3697/8 • Fax: 011-52-81-8369-3699 Austria Belgium France Germany Italy Netherlands Spain Sweden Switzerland West Sumitomo Machinery Corporation of America 2375 Railroad Street Corona, CA 92880-5411 Tel: 909-340-4100 • Fax: 909-340-4108 Southwest Sumitomo Machinery Corporation of America 1420 Halsey Way #130 Carrollton, TX 75007 Tel: 972-323-9600 • Fax: 972-323-9308 South America Brazil SM-Cyclo Redutores do Brasil Ltda. Av. Dr. Ulysses Guimarães, 3533 09990-080 Diadema São Paulo, Brazil Tel: 011-55-11-4071-4388 • Fax: 011-55-11-4071-2922 Chile Canada Toronto (East) SM-Cyclo of Canada, Ltd. 870 Equestrian Court Oakville, Ontario, Canada L6L 6L7 Tel: 905-469-1050 • Fax: 905-469-1055 British Columbia (West) SM-Cyclo of Canada, Ltd. 740 Chester Road, Annacis Island, Delta B.C., Canada V3M 6J1 Tel: 604-525-5403 • Fax: 604-525-0879 Montreal SM-Cyclo of Canada, Ltd. 226 Migneron Street St. Laurent, Quebec, Canada H4T 1Y7 Tel: 514-340-1300 • Fax: 514-340-1343 SM-Cyclo de Chile Ltda. Avenida Zanartu #1231 Comuna Nunoa - Santiago, Chile Tel: 011-562-237-2407 • Fax: 011-562-237-0225 Argentina SM-Cyclo de Argentina SA Manuel Montes de Oca 6719 B1601BMG, Munro Buenos Aires, Argentina Tel: 011-54-11-4697-6583 • Fax: 011-54-11-4697-3209 Asia China Hong Kong Indonesia Korea Malaysia Philippines Taiwan Thailand Other Locations Australia India New Zealand South Africa World Headquarters O 90 D 01 For Worldwide contact information: www.shi.co.jp/ptc CE R T IFI E Sumitomo Heavy Industries, Ltd. Power Transmission & Controls Group 5-9-11, KITA-Shinagawa, Shinagawa-Ku Tokyo 141-8686 Japan Tel: 011-813-5488-8363 • Fax: 011-813-5488-8365 IS Japan
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