Manual - Welcome to Emerson Process Management Documentation
Transcription
Manual - Welcome to Emerson Process Management Documentation
Instruction Manual CI-53011/53012 Mar., 2007 Series 53011 & 53012 8-Inch - One & Two Pen Pressure Chart Recorders Models 53011-10B & 53012-10B www.EmersonProcess.com/Bristol IMPORTANT! READ INSTRUCTIONS BEFORE STARTING! Be sure that these instructions are carefully read and understood before any operation is attempted. Improper use of this device in some applications may result in damage or injury. The user is urged to keep this book filed in a convenient location for future reference. These instructions may not cover all details or variations in equipment or cover every possible situation to be met in connection with installation, operation or maintenance. Should problems arise that are not covered sufficiently in the text, the purchaser is advised to contact Bristol for further information. EQUIPMENT APPLICATION WARNING The customer should note that a failure of this instrument or system, for whatever reason, may leave an operating process without protection. Depending upon the application, this could result in possible damage to property or injury to persons. It is suggested that the purchaser review the need for additional backup equipment or provide alternate means of protection such as alarm devices, output limiting, failsafe valves, relief valves, emergency shutoffs, emergency switches, etc. If additional in-formation is required, the purchaser is advised to contact Bristol . RETURNED EQUIPMENT WARNING When returning any equipment to Bristol for repairs or evaluation, please note the following: The party sending such materials is responsible to ensure that the materials returned to Bristol are clean to safe levels, as such levels are defined and/or determined by applicable federal, state and/or local law regulations or codes. Such party agrees to indemnify Bristol and save Bristol harmless from any liability or damage which Bristol may incur or suffer due to such party's failure to so act. ELECTRICAL GROUNDING Metal enclosures and exposed metal parts of electrical instruments must be grounded in accordance with OSHA rules and regulations pertaining to "Design Safety Standards for Electrical Systems," 29 CFR, Part 1910, Subpart S, dated: April 16, 1981 (OSHA rulings are in agreement with the National Electrical Code). The grounding requirement is also applicable to mechanical or pneumatic instruments that include electrically-operated devices such as lights, switches, relays, alarms, or chart drives. EQUIPMENT DAMAGE FROM ELECTROSTATIC DISCHARGE VOLTAGE This product contains sensitive electronic components that can be damaged by exposure to an electrostatic discharge (ESD) voltage. Depending on the magnitude and duration of the ESD, this can result in erratic operation or complete failure of the equipment. Read supplemental document S14006 at the back of this manual for proper care and handling of ESD-sensitive components. Bristol 1100 Buckingham Street, Watertown, CT 06795 Telephone (860) 945-2200 WARRANTY A. Bristol warrants that goods described herein and manufactured by Bristol are free from defects in material and workmanship for one year from the date of shipment unless otherwise agreed to by Bristol in writing. B. Bristol warrants that goods repaired by it pursuant to the warranty are free from defects in material and workmanship for a period to the end of the original warranty or ninety (90) days from the date of delivery of repaired goods, whichever is longer. C. Warranties on goods sold by, but not manufactured by Bristol, are expressly limited to the terms of the warranties given by the manufacturer of such goods. D. All warranties are terminated in the event that the goods or systems or any part thereof are (i) misused, abused or otherwise damaged, (ii) repaired, altered or modified without Bristol's consent, (iii) not installed, maintained and operated in strict compliance with instructions furnished by Bristol, or (iv) worn, injured or damaged from abnormal or abusive use in service time. E. THESE WARRANTIES ARE EXPRESSLY IN LIEU OF ALL OTHER WARRANTIES EXPRESS OR IMPLIED (INCLUDING WITHOUT LIMITATION WARRANTIES AS TO MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE), AND NO WARRANTIES, EXPRESS OR IMPLIED, NOR ANY REPRESENTATIONS, PROMISES, OR STATEMENTS HAVE BEEN MADE BY BRISTOL UNLESS ENDORSED HEREIN IN WRITING. FURTHER, THERE ARE NO WARRANTIES WHICH EXTEND BEYOND THE DESCRIPTION OF THE FACE HEREOF. F. No agent of Bristol is authorized to assume any liability for it or to make any written or oral warranties beyond those set forth herein. REMEDIES A. Buyer's sole remedy for breach of any warranty is limited exclusively to repair or replacement without cost to Buyer of any goods or parts found by Seller to be defective if Buyer notifies Bristol in writing of the alleged defect within ten (10) days of discovery of the alleged defect and within the warranty period stated above, and if the Buyer returns such goods to Bristol's Watertown office, unless Bristol's Watertown office designates a different location, transportation prepaid, within thirty (30) days of the sending of such notification and which upon examination by Bristol proves to be defective in material and workmanship. Bristol is not responsible for any costs of removal, dismantling or reinstallation of allegedly defective or defective goods. If a Buyer does not wish to ship the product back to Bristol, the Buyer can arrange to have a Bristol service person come to the site. The Service person's transportation time and expenses will be for the account of the Buyer. However, labor for warranty work during normal working hours is not chargeable. B. Under no circumstances will Bristol be liable for incidental or consequential damages resulting from breach of any agreement relating to items included in this quotation, from use of the information herein or from the purchase or use by Buyer, its em-ployees or other parties of goods sold under said agreement. How to return material for Repair or Exchange Before a product can be returned to Bristol for repair, upgrade, exchange, or to verify proper operation, form (GBU 13.01) must be completed in order to obtain a RA (Return Authorization) number and thus ensure an optimal lead time. Completing the form is very important since the information permits the Bristol Repair Dept. to effectively and efficiently process the repair order. You can easily obtain a RA number by: A. FAX Completing the form (GBU 13.01) and faxing it to (860) 945-3875. A Bristol Repair Dept. representative will return call (or other requested method) with a RA number. B. E-MAIL Accessing the form (GBU 13.01) via the Bristol Web site (www.bristolbabcock.com) and sending it via E-Mail to brepair@bristolbabcock.com. A Bristol Repair Dept. representative will return E-Mail (or other requested method) with a RA number. C. Mail Mail the form (GBU 13.01) to Bristol Inc. Repair Dept. 1100 Buckingham Street Watertown, CT 06795 A Bristol Repair Dept. representative will return call (or other requested method) with a RA number. D. Phone Calling the Bristol Repair Department at (860) 945-2442. A Bristol Repair Department representative will record a RA number on the form and complete Part I, then send the form to the Customer via fax (or other requested method) for Customer completion of Parts II & III. A copy of the completed Repair Authorization Form with issued RA number should be included with the product being returned. This will allow us to quickly track, repair, and return your product to you. Bristol Repair Authorization Form (off-line completion) (Providing this information will permit Bristol to effectively and efficiently process your return. Completion is required to receive optimal lead time. Lack of information may result in increased lead times.) Date___________________ RA #___________________SH Standard Repair Practice is as follows: Variations to this is practice may be requested in the “Special Requests” section. • Evaluate / Test / Verify Discrepancy • Repair / Replace / etc. in accordance with this form • Return to Customer Part I Line No.____________ Please be aware of the Non warranty standard charge: • There is a $100 minimum evaluation charge, which is applied to the repair if applicable (√ in “returned” B,C, or D of part III below) Please complete the following information for single unit or multiple unit returns Address No. (office use only) Address No. (office use only) Bill to : Ship to: Purchase Order: Contact Name:____________________________________ Phone: Fax: Part II E-Mail: Please complete Parts II & III for each unit returned Model No./Part No. Description Range/Calibration S/N Reason for return: 1. Failure Upgrade Verify Operation Other Describe the conditions of the failure (Frequency/Intermittent, Physical Damage, Environmental Conditions, Communication, CPU watchdog, etc.) (Attach a separate sheet if necessary) 2. Comm. interface used: 3. What is the Firmware revision? _____________________ Standalone RS-485 Ethernet Other:______________ Modem (PLM (2W or 4W) or SNW) What is the Software & version? Part III If checking “replaced” for any question below, check an alternate option if replacement is not available A. If product is within the warranty time period but is excluded due to Bristol’s warranty clause, would you like the product: repaired returned replaced scrapped? B. If product were found to exceed the warranty period, would you like the product: repaired returned replaced scrapped? C. If product is deemed not repairable would you like your product: returned replaced scrapped? D. If Bristol is unable to verify the discrepancy, would you like the product: returned replaced *see below? * Continue investigating by contacting the customer to learn more about the problem experienced? The person to contact that has the most knowledge of the problem is: ______________________________ phone_____________________ If we are unable to contact this person the backup person is: _________________________ phone_____________________ Special Requests: ____________________________________________________________________________________ ____________________________________________________________________________________________________ Ship prepaid to: Bristol Inc., Repair Dept., 1100 Buckingham Street, Watertown, CT 06795 Phone: 860-945-2442 Fax: 860-945-2220 Form GBU 13.01 Rev. C 04/27/06 Bristol Training GET THE MOST FROM YOUR BRISTOL BABCOCK INSTRUMENT OR SYSTEM • Avoid Delays and problems in getting your system on-line • Minimize installation, start-up and maintenance costs. • Make the most effective use of our hardware and software. • Know your system. As you know, a well-trained staff is essential to your operation. Bristol Inc. offers a full schedule of classes conducted by full-time, professional instructors. Classes are offered throughout the year at three locations: Houston, Orlando and our Watertown, CT headquarters. By participating in our training, your personnel can learn how to install, calibrate, configure, program and maintain any and all Bristol products and realize the full potential of your system. For information or to enroll in any class, contact our training department in Watertown at (860) 945-2343. For Houston classes, you can also contact our Houston office, at (713) 6856200. A Few Words About Bristol Inc. For over 100 years, Bristol® has been providing innovative solutions for the measurement and control industry. Our product lines range from simple analog chart recorders, to sophisticated digital remote process controllers and flow computers, all the way to turnkey SCADA systems. Over the years, we have become a leading supplier to the electronic gas measurement, water purification, and wastewater treatment industries. On off-shore oil platforms, on natural gas pipelines, and maybe even at your local water company, there are Bristol Inc. instruments, controllers, and systems running year-in and year-out to provide accurate and timely data to our customers. Getting Additional Information In addition to the information contained in this manual, you may receive additional assistance in using this product from the following sources: Help Files / Release Notes Many Bristol software products incorporate help screens. In addition, the software typically includes a ‘read me’ release notes file detailing new features in the product, as well as other information which was available too late for inclusion in the manual. Contacting Bristol Inc. Directly Bristol's world headquarters is located at 1100 Buckingham Street, Watertown, Connecticut 06795, U.S.A. Our main phone numbers are: (860) 945-2200 (860) 945-2213 (FAX) Regular office hours are Monday through Friday, 8:00AM to 4:30PM Eastern Time, excluding holidays and scheduled factory shutdowns. During other hours, callers may leave messages using Bristol's voice mail system. Telephone Support - Technical Questions During regular business hours, Bristol's Application Support Group can provide telephone support for your technical questions. For technical questions about TeleFlow products call (860) 945-8604. For technical questions about ControlWave call (860) 945-2394 or (860) 945-2286. For technical questions regarding Bristol’s OpenEnterprise product, call (860) 945-3865 or e-mail: scada@bristolbabcock.com For technical questions regarding ACCOL products, OpenBSI Utilities, UOI and all other software except for ControlWave and OpenEnterprise products, call (860) 945-2286. For technical questions about Network 3000 hardware, call (860) 945-2502. You can e-mail the Application Support Group at: bsupport@bristolbabcock.com The Application Support Group maintains an area on our web site for software updates and technical information. Go to: www.bristolbabcock.com/services/techsupport/ For assistance in interfacing Bristol hardware to radios, contact Bristol’s Communication Technology Group in Orlando, FL at (407) 629-9463 or (407) 629-9464. You can e-mail the Communication Technology Group at: orlandoRFgroup@bristolbabcock.com Telephone Support - Non-Technical Questions, Product Orders, etc. Questions of a non-technical nature (product orders, literature requests, price and delivery information, etc.) should be directed to the nearest sales office (listed on the rear cover of this manual) or to your Bristol-authorized sales representative. Please call the main Bristol Inc. number (860-945-2200) if you are unsure which office covers your particular area. Visit our Site on the World Wide Web For general information about Bristol Inc. and its products, please visit our site on the World Wide Web at: www.bristolbabcock.com Training Courses Bristol’s Training Department offers a wide variety of courses in Bristol hardware and software at our Watertown, Connecticut headquarters, and at selected Bristol regional offices, throughout the year. Contact our Training Department at (860) 945-2343 for course information, enrollment, pricing, and scheduling. 8 INCH – ONE-PEN & TWO-PEN PRESSURE CHART RECORDERS SERIES 53000 INSTRUCTION MANUAL CI-53011/53012 TABLE OF CONTENTS SECTION TITLE PAGE # Section 1 - INTRODUCTION 1.1 1.2 1.3 1.4 1.5 PRODUCT DESCRIPTION ........................................................................................... 1-1 GENERAL FEATURES ................................................................................................. 1-1 MEASURING SYSTEMS............................................................................................... 1-4 SPECIFICATIONS DATA PLATE................................................................................ 1-4 MODEL IDENTIFICATION.......................................................................................... 1-4 Section 2 - INSTALLATION 2.1 2.2 2.3 2.3.1 2.3.2 2.3.3 2.3.4 2.4 2.5 2.6 2.6.1 2.6.2 2.6.3 2.7 2.8 UNPACKING THE RECORDER .................................................................................. 2-1 SELECTING A LOCATION .......................................................................................... 2-1 INSTALLING THE RECORDER .................................................................................. 2-1 Wall (Surface) Mounting................................................................................................ 2-1 Panel (Flush) Mounting ................................................................................................. 2-1 Rear Pipe Mount............................................................................................................. 2-6 Portable (Table Top) Cases ............................................................................................ 2-6 REVERSIBLE CONNECTING PLATES...................................................................... 2-6 IDENTIFYING THE PORT CONNECTIONS ............................................................. 2-7 PERFORMING ELECTRICAL WIRING...................................................................... 2-8 Electrical Conduit........................................................................................................... 2-8 AC Power Connections ................................................................................................... 2-8 Alarm and Pump Control Connections .........................................................................2-9 SETTING UP THE MEASURING SYSTEM ...............................................................2-9 REFERENCE DIMENSIONS FOR GENERAL PURPOSE CASES .......................... 2-9 Section 3A - OPERATION OF CHART DRIVES 3A.1 3A.2 3A.3 3A.3.1 3A.3.2 3A.3.3 3A.4 3A.5 3A.6 3A.6.1 3A.6.2 3A.6.3 GENERAL INFORMATION....................................................................................... 3A-1 INSTALLING THE CHART ....................................................................................... 3A-2 OPERATING CHART DRIVES.................................................................................. 3A-2 Single-Speed, Spring-Wound Drives .......................................................................... 3A-2 Dual-Speed, Spring Wound Drives............................................................................. 3A-3 Battery Powered Chart Drives ................................................................................... 3A-5 REMOVAL OF CHART PLATE ................................................................................. 3A-5 SETTING THE TIME INDEX .................................................................................... 3A-6 CHART DRIVE MAINTENANCE NOTES ............................................................... 3A-6 Spring-Wound Types ................................................................................................... 3A-6 Battery Type (1.5 Vdc) ................................................................................................ 3A-6 Electric Types (120Vac - 60Hz)................................................................................... 3A-6 CI-53011/53012 Page 0-1 Table Of Contents 8 INCH – ONE-PEN & TWO-PEN PRESSURE CHART RECORDERS SERIES 53000 INSTRUCTION MANUAL CI-53011/53012 TABLE OF CONTENTS SECTION TITLE PAGE # Section 3B - OPERATION OF PEN SYSTEMS 3B.1 3B.2 3B.2.1 3B.2.2 3B.2.3 3B.3 TYPES OF PEN SYSTEMS ......................................................................... 3B-1 FIBER TIP PEN CARTRIDGES.................................................................. 3B-1 Conversion from Fountain Pen to Fiber Tip Cartridge............................... 3B-1 Excessive Ink Consumption ......................................................................... 3B-1 Replacing Cartridges.................................................................................... 3B-1 REMOVAL OF PEN ARM ........................................................................... 3B-2 Section 4 - CALIBRATION 4.1 4.1.1 4.1.2 4.1.3 4.2 4.2.1 4.2.2 4.3 4.3.1 4.3.2 4.3.3 4.4 GENERAL NOTES......................................................................................................... 4-1 Calibration Equipment................................................................................................... 4-1 Linkage Configurations.................................................................................................. 4-1 Accessing Calibration Adjustments............................................................................... 4-2 PRELIMINARY CALIBRATION CHECKS.................................................................. 4-2 Calibration Check Points ............................................................................................... 4-3 Test Procedure ................................................................................................................ 4-3 DESCRIPTION OF CALIBRATION ADJUSTMENTS ............................................... 4-3 Zero Adjustments............................................................................................................ 4-3 Span Adjustment ............................................................................................................ 4-3 Linearity Adjustment ..................................................................................................... 4-3 CALIBRATION PROCEDURE...................................................................................... 4-4 Section 5 - SPECIFICATIONS 5.1 5.2 5.3 GENERAL SPECIFICATIONS...................................................................... 5-1 PRESSURE MEASURING SYSTEMS .......................................................... 5-2 OPTIONAL ELECTRIC ALARMS................................................................. 5-2 Section 6 - PARTS LIST 6.1 6.2 BASIC RECORDER ASSEMBLIES .............................................................. 6-1 RECORDER CASE COVERS (DOORS) ........................................................ 6-9 APPENDICES Pressure Measuring System ...................................................................................................Appendix GA Electric Alarm Units................................................................................................................ Appendix YB Pump Control Units................................................................................................................. Appendix YC MATERIAL SAFETY DATA SHEETS ....................................................................................Appendix ZZ CI-53011/53012 Page 0-2 Table Of Contents Section 1 INTRODUCTION 1.1 PRODUCT DESCRIPTION Series 53011 and 53012 Recorders record measured pressure on a circular paper chart. Series 53011 and 53012 recorders utilize 8-inch (20.32 cm) diameter charts. Recorders are offered in 1 or 2 pen models. Typical models are shown in Figures 1-1, 1-2 and 1-3. The measuring system provided for each pen, will be as specified in the sales order. Recorders are furnished in general-purpose indoor cases. These cases may be specified for wall, panel or pipe mounting applications, or as portables for general tabletop use. The appropriate accessory kit is included for the purchaser's installation. 1.2 GENERAL FEATURES Bristol Babcock recorders are provided with an assortment of features and options that can meet the needs of many user applications. The basic offerings are as follows: • Cases Recorders are furnished in general purpose, indoor cases with an epoxy grey finish. • Back or Bottom Connections A reversible connection plate allows the user to select back or bottom positioning for sensor and electrical conduit connections where applicable. • Pens Recorders are furnished with disposable fiber-tip pens. • Chart Drives Spring-Wound, 120Vac or battery operated chart drives are offered with these recorders. • Positive Lock Chart Hub The chart drive assembly contains an easy-set hub clip to provide positive center locking of the chart paper. • Large Viewing Area A large window provides full chart visibility with the door closed. • Fine Zero Adj. An accessible screwdriver adjustment provides fine zero corrections for minor calibration offset. CI-53011/53012 Introduction / 1-1 Figure 1-1 - Series 53011 Single Pen Recorder Figure 1-2 - Portable One-Pen Recorder (Door & Chart Plate Removed) Showing Capsular Measuring Element & Battery Chart Drive 1-2 / Introduction CI-53011/53012 Figure 1-3 - Wall Mounted Two-Pen Recorder (Door & Chart Plate Removed) Showing Helical Measuring Elements & Battery Chart Drive CI-53011/53012 Introduction / 1-3 • Power Switch Positioned at the front of the recorder, this option provides on/off switching for an electrical chart drive. • Back or Bottom Connections A reversible connection plate allows the user to select back or bottom positioning for pressure connections. • Electric Alarm Option Pressure Recorders with electric alarm units provide alarm contacts to activate an external device such as a lamp, buzzer, bell, or horn. Units may be specified with Hi-Lo (High & Low) contacts. Alarm setpoints are adjustable over the full instrument range. 1.3 MEASURING SYSTEMS Several types of measuring systems (inputs) are offered for recorders. A listing follows: • Pneumatic Receiver These models accept a 3-15 psi signal from an external pressure transducer. A capsular element functions as the input sensor. • Pressure Element These models perform pressure measurements using either helical or capsular measuring elements. Elements are offered in various materials for the user's application. • Combination Models Multi-pen recorders are offered in specific models that combine pressure measurements. See Table 1-A for available single pen types and Table 1-B for dual pen types. 1.4 SPECIFICATIONS DATA PLATE A data plate is affixed to the inside of the recorder door. The plate provides the model and serial numbers, and the measurement range of each pen. Other pertinent data may also be included. Always refer to this plate when requesting information from Bristol Babcock. 1.5 MODEL IDENTIFICATION The model number identifies the type of case, number of pens, and the measurement application. Table 1-A provides a breakdown of the single pen model types. Table 1-B provides breakdowns of the dual pen model types. 1-4 / Introduction CI-53011/53012 TABLE 1-A - BREAKDOWN OF 8” SINGLE PEN PRESSURE CHART RECORDER MODEL TABLE: MODEL NUMBER: 123456789-A-BCDE-F-G-H-J-K-L-M-N-P 53011-10B- A = CHART READING A 1 DIRECT (CTR-EDGE) 2 REVERSE (EDGE-CTR) B C D E = ELEMENT TYPE & MATERIAL (see TABLES 1-D1 through 1-D4) BCDE 1XXX 2XXX 3XXX 4XXX HELICAL - NI SPAN C HELICAL - STAINLESS STEEL CAPSULAR - NI SPAN C CAPSULAR - STAINLESS STEEL F = RANGE PROTECTION F 0 1 WITHOUT WITH G = CHART DRIVE GHJ 1 XX 2 3 1 2 3 4 2 3 6 2 3 7 2 3 9 3 0 0 SPRING (see TABLE 1-C) ELECTRIC (24Hr. - 120Vac, 60Hz) ELECTRIC (7-Day - 120Vac, 60Hz) ELECTRIC (16-Day - 120Vac, 60Hz) ELECTRIC (30-Day - 120Vac, 60Hz) ELECTRIC (32-Day - 120Vac, 60Hz) BATTERY (MULTISPEED) K = ALARM L = PUMP CONTROL KL 0 0 WITHOUT uses Plug P/N 282664-00-9 1 0 WITHOUT 0 1 SINGLE PUMP CONTROL N = MOUNTING (* = any selection - # = 0 or 1) KLMN 0 0 * 1 WALL # # * 1 WALL 0 0 * 2 FLUSH # # * 2 FLUSH 0 0 1 3 PIPE # # 1 3 PIPE 0 0 2 4 PORTABLE # # 2 4 PORTABLE M = ELEMENT CONNECTION M 1 BOTTOM 2 BACK P = WINDOW P 1 2 3 4 SHATTERPROOF GLASS (NOT SEALED) SEALED SHATTERPROOF GLASS METAL (NOT SEALED) SEALED METAL K 0 NONE 1 HIGH & LOW LEVEL Note: Base Model Number for Pneumatic Receiver is 53011-10B-*-4256-1-*-*-*-*-*-*. Note: Range protection required if Min. Range Pressure is greater than 5% of Max. Range. Note: Alarm & Pump Control Options are not available with an Element Selection of 3201, 3202, 3203, 3204, 3205 or 4251. CI-53011/53012 Introduction / 1-5 TABLE 1-B - BREAKDOWN OF 8” DUAL PEN PRESSURE CHART RECORDER MODEL TABLE: MODEL NUMBER: 123456789-A-BCDE-F-G-H-J-K-L-M-N-P 53012-10B- A = CHART READING A 1 DIRECT (CTR-EDGE) 2 REVERSE (EDGE-CTR) R = ELEMENT CONNECTION R 1 2 BCDE = ELEMENT TYPE & MAT. (Pen No. 1) GHJK = ELEMENT TYPE & MAT. (Pen No. 2) (see TABLES 1-D1 through 1-D4) BCDE GHJK 1 X X X HELICAL - NI SPAN C 2 X X X HELICAL - STAINLESS STEEL 3 X X X CAPSULAR - NI SPAN C 4 X X X CAPSULAR - STAINLESS STEEL F = RANGE PROTECTION (Pen No. 1) L = RANGE PROTECTION (Pen No. 2) F L 0 1 WITHOUT WITH M N P = CHART DRIVE MNP 1 XX 2 3 1 2 3 4 2 3 6 2 3 7 2 3 9 3 0 0 SPRING (see TABLE 1-C) ELECTRIC (24Hr. - 120Vac, 60Hz) ELECTRIC (7-Day - 120Vac, 60Hz) ELECTRIC (16-Day - 120Vac, 60Hz) ELECTRIC (30-Day - 120Vac, 60Hz) ELECTRIC (32-Day - 120Vac, 60Hz) BATTERY (MULTI-SPEED) RT * 1 * 2 1 3 2 4 BOTTOM BACK R T = MOUNTING (* = any selection) WALL FLUSH PIPE PORTABLE U = WINDOW U 1 SHATTERPROOF GLASS (NOT SEALED) 2 SEALED SHATTERPROOF GLASS 3 METAL (NOT SEALED) 4 SEALED METAL Note: Base Model Number for Pneumatic Receiver is 53012-10B-*-4256-1-4256-1*-*-*. Note: Range protection required if Min. Range Pressure is greater than 5% of Max. Range. TABLE 1-C - SPRING CHART DRIVE OPTIONS MODEL TABLE GHJ MNP 103 104 105 106 107 108 110 111 112 114 115 117 118 1-6 / Introduction SPRING DRIVE 1 Hour - 3 Hour 2 Hour - 8 Hour 24 Hour - 3 Day 24 Hour - 7 Day 24 Hour - 8 Day 48 Hour - 7 Day 12 Hour 24 Hour 48 Hour 7 Day 8 Day 30 Day 31 Day CI-53011/53012 TABLE 1-D1 - HELICAL ELEMENT (NI Span C) - SELECTION OPTIONS MODEL TABLE ABCDE AGHJK 11101 21102 11103 21104 11105 21106 11107 21108 11109 21110 11111 21112 11113 21114 11115 21116 11117 21118 11119 21120 11121 21122 11123 21124 11125 21126 MIN SPAN MAX SPAN MIN RANGE MAX RANGE UNITS 200.0 200.1 225.1 225.1 350.1 350.1 525.1 525.1 525.1 525.1 750.1 750.1 1001 1001 1501 1501 2501 2501 4001 4001 6001 6001 8001 8001 10000 10000 225 225 350 350 525 525 750 750 750 750 1000 1000 1500 1500 2500 2500 4000 4000 6000 6000 8000 8000 10000 10000 15000 15000 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 350 350 525 525 750 750 1000 1000 1200 1200 1500 1500 2000 2000 3350 3350 6000 6000 10000 10000 11000 11000 12000 12000 15000 15000 PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI TABLE 1-D2 - HELICAL ELEMENT (Stainless Steel) - SELECTION OPTIONS MODEL TABLE ABCDE AGHJK 12151 22152 12153 22154 12155 22156 12157 22158 12159 22160 12161 22162 12163 22164 12165 CI-53011/53012 MIN SPAN MAX SPAN MIN RANGE MAX RANGE UNITS 50.0 50.0 75.1 75.11 100.1 100.1 150.1 150.1 225.1 225.1 350.1 350.1 525.1 525.1 525.1 75 75 100 100 150 150 225 225 350 350 525 525 750 750 750 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 75 75 100 100 150 150 225 225 350 350 525 525 750 750 1000 PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI Introduction / 1-7 TABLE 1-D2 - HELICAL ELEMENT (Stainless Steel) - SELECTION OPTIONS (Continued) MODEL TABLE ABCDE AGHJK 22166 12167 22168 12169 22170 12171 22172 12173 22174 12175 22176 12177 22178 12179 22180 MIN SPAN MAX SPAN MIN RANGE MAX RANGE UNITS 525.1 750.1 750.1 1001 1001 1501 1501 2501 2501 4001 4001 6001 6001 8001 8001 750 1000 1000 1500 1500 2500 2500 4000 4000 6000 6000 8000 8000 10000 10000 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 1000 1500 1500 2000 2000 3000 3000 4500 4500 6500 6500 8000 8000 10000 10000 PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI TABLE 1-D3 - CAPSULAR ELEMENT (NI Span C) - SELECTION OPTIONS MODEL TABLE ABCDE AGHJK *3201 *3202 *3203 *3204 *3205 *3206 *3207 *3208 *3209 *3210 *3211 *3212 *3213 *3214 *3215 *3216 *3217 *3218 *3219 (* = 1 or 2) 1-8 / Introduction MIN SPAN MAX SPAN MIN RANGE MAX RANGE UNITS 4.0 5.1 8.1 11.1 17.1 26.1 47.1 80.1 90.1 5 10 17 50 24 65 32 90 46 100 5.0 8.0 11.0 17.0 26.0 47 80.0 90.0 182 15 30 50 100 65 130 90 175 120 200 -10 -12 -30 -30 -40 -40 -175 -200 -328 -14.7 -5 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 -14.7 10 12 30 40 60 80 175 200 328 30 30 100 100 130 130 175 175 210 210 IN H2O IN H2O IN H2O IN H2O IN H2O IN H2O IN H2O IN H2O IN H2O PSI PSI PSI PSI PSI PSI PSI PSI PSI PSI CI-53011/53012 TABLE 1-D4 - CAPSULAR ELEMENT (Stainless Steel) - SELECTION OPTIONS MODEL TABLE ABCDE AGHJK *4251 *4252 *4253 *4254 *4255 *4256 *4257 *4258 (* = 1 or 2) CI-53011/53012 MIN SPAN MAX SPAN MIN RANGE MAX RANGE UNITS 8.0 19.1 51.1 105.1 149.1 275.1 19.0 24.1 19.0 51.0 105.0 149.0 275.0 527 24.0 40.0 -20 -51 -130 -200 -375 -407 -9.5 -12.0 20 51 130 200 375 554 30 40 IN H2O IN H2O IN H2O IN H2O IN H2O IN H2O PSI PSI Introduction / 1-9 BLANK PAGE Section 2 INSTALLATION 2.1 UNPACKING THE RECORDER When unpacking the recorder, be careful not to damage any associated thermal capillary systems if so equipped. Remove all protective cushioning material, cardboard guards, and shipping tape. Check the accessory mounting kit (if included) for completeness. Instruments may be shipped with pens or pointers secured in a fixed position. If so, remove any tape, elastics or packing material as required. Do not apply excessive force to linkages or mechanisms while unpacking as they can be thrown out of calibration or permanently damaged. 2.2 SELECTING A LOCATION When choosing a site for the instrument, select one that is convenient to both the process and operator. Avoid areas where dirt, dust, and corrosive fumes are excessive and also areas where vibration is encountered. Make sure that operating temperature limits given for certain models in are within specifications. If ambient conditions are out of this range, excessive errors and poor performance will result. Prolonged exposure to extreme environmental conditions may eventually cause instrument failure. 2.3 INSTALLING THE RECORDER Before installation is attempted, make sure that the selected area provides sufficient clearance for the door to swing open. There should also be enough clearance for any back or bottom connections to enter the instrument. Since some measuring systems are position sensitive, the instrument must be installed so that it is reasonably level on both its horizontal and depth axis (x and z). This will ensure that it operates in its factory-calibrated position. 2.3.1 Wall (Surface) Mounting For this type of installation the instrument is fastened to a wall or flat surface using the three, reversible mounting brackets contained in the accessory kit. The brackets are mounted at the rear of the recorder as shown in Figure 2-1. Drill starting holes for each bracket at the required distances. Insert lag bolts or screws through the bracket holes and tighten each until the case is secure. 2.3.2 Panel (Flush) Mounting Provide a proper size cutout as required. Install the instrument in the opening using the reversible mounting brackets and tension bolts as shown in Figure 2-2. Tighten each tension bolt until the instrument is rigid and self-supporting. Secure the bolt locking nuts to maintain the tension setting. CI-53011/53012 Installation / 2-1 Figure 2-1 - Wall (Surface) Mounted Unit 2-2 / Installation CI-53011/53012 Figure 2-2 - Panel (Flush) Mounted Unit CI-53011/53012 Installation / 2-3 Figure 2-3 - Rear Pipe Mounted Unit 2-4 / Installation CI-53011/53012 Figure 2-4 - Portable (Table Top) CI-53011/53012 Installation / 2-5 2.3.3 Rear Pipe Mount This mount attaches to a two-inch pipe as shown in Figure 2-3. Two locking screws are used to secure the instrument at the desired height. The pipe may be cemented into the ground, welded or clamped to a bracket, beam, pipe, etc., or pedestal mounted. 2.3.4 Portable (Table Top) Cases When portable recorders are used for tabletop applications, no installation is required other than leveling. The leveling feet are shown in Figure 2-4. 2.4 REVERSIBLE CONNECTION PLATES Recorders contain a connection plate that provides a maximum of four connection ports. This plate is adaptable for either bottom or back-fed connections. It is used in conjunction with a solid plate that occupies the unused opening. For bottom connections, the plates are positioned as shown in Figure 2-5. For back connections, the connection plate and the solid plate positions are transposed using the same hardware. Figure 2-5 - Reversible Connection Plate 2-6 / Installation CI-53011/53012 2.5 IDENTIFYING THE PORT CONNECTIONS Numbers embossed on the plate (1 to 4) (rear or bottom) identify the four ports associated with the Universal Connection Plate. These ports are typically assigned for pressure connections or as a feed through for capillary tubing associated with pressurized thermal systems. On models with electrical chart drives or alarms, one of the four ports will be assigned for the line cord or electrical conduit. Each port assigned for a measured variable (pressure or temperature) is marked by a colored dot. These dots correspond to pens marked by the same colored dots. The number and range of each pen is listed on the specifications data plate affixed to the instrument door. Figure 2-6 - Standard Assignments for Pressure & Temperature Recorders CI-53011/53012 Installation / 2-7 The standard factory assignments for 1 to 2-pen recorders is shown in Figure 2-6. Note that on 1 and 2-pen models, a specific port is designated for use with electrical conduit. Some special attachments may utilize vacant ports for applications such as case purging. In these instances an appropriate label will be attached to identify the function. Under some circumstances, the purchaser may specify port assignments that do not conorm with the schemes shown in Figure 2-6. The installer should carefully check the specifications data plate and pen color codes before making any connections. 2.6 PERFORMING ELECTRICAL WIRING Whenever electrical options are furnished with an instrument, the wiring terminals will be contained inside the recorder case behind the chart plate. To remove the chart plate, refer to Section 3A. Labels affixed to the terminals provide identification for AC power connections and options. 2.6.1 Electrical Conduit The port or opening assigned to bring in electrical wiring is identified in Figure 2-6. If the recorder plugs into a regular power outlet, this opening should contain a rubber or plastic grommet to protect the wire. If the recorder connects to a metal-encased conduit, a screw-in conduit clamp (not furnished) should be installed in the opening to secure the conduit. 2.6.2 AC Power Connections Instruments may be furnished for 120Vac, 50 or 60 Hz operation. Make sure that the voltage listed on the specifications data plate conforms with the local power source. Using the wrong supply voltage can result in instrument burnout. WARNING No wiring should be attempted while the unit is powered and operating. If any rewiring is required, the equipment power source, as well as power sources for external options such as alarms, must be turned off to prevent electrical shock. On basic recorders with electronic chart drives, AC power connections are made directly to the drive terminals. These terminals may be identified by L1 andL2 labels or by respective black and white leads of the motor. The connections are made as shown in Figure 2-7. The green grounding screw inside the case provides a direct connection to the instrument housing. It is essential that this screw be connected to an approved earth ground to provide maximum safety for users. WARNING Instruments equipped with an Electrical Alarm Unit must be properly grounded to protect users from electrical shock and 2-8 / Installation CI-53011/53012 possible fatal injury. Grounding should be performed in accordance with the National Electrical Code, ANSI/ISA standard S82.01, S82.02 and S82.03 and local regulations. If the recorder is wired for an AC power outlet, a three-prong plug must be used. The greencoded prong of the plug must be wired to the green grounding screw of the recorder. If the AC wiring is brought in through a metal power conduit, the green grounding screw of the recorder must be wired to an approved ground. Figure 2-7 - Connections for Recorders with Electric Chart Drive and No Other Electrical Options 2.6.3 Alarm and Pump Control Connections When a recorder is specified with an Electric Alarm Unit or Pump Control Unit, the connections shown in Figure 2-7 do not apply. The AC power connections are made to a separate terminal block that includes terminals for alarm contacts. To identify these connections, refer to either Appendix YB - Electric Alarm Units or Appendix YC – Pump Control Units. 2.7 SETTING UP THE MEASURING SYSTEM Each measuring system is unique and requires different setup strategies. The installation and operating techniques for each type are referenced as follows: • Pressure Models (Gauges) & 3-15 psi Pneumatic Receiver Models See Appendix GA - Pressure Measuring Systems for installation and application details. 2.8 REFERENCE DIMENSIONS FOR GENERAL PURPOSE CASES Pressure Recorders in this series are furnished in a general-purpose indoor case as follows: CI-53011/53012 Installation / 2-9 Physical size: 14-3/4" height, 10-3/4" width, and 5-3/4" depth. Application: Panel, wall, pipe, or pedestal type mountings. Reference Mounting Dimensions: See Figures 2-8 and 2-9. Figure 2-8 - Overall Dimensions for Universally Mounted Recorders 2-10 / Installation CI-53011/53012 Figure 2-9 - Overall Dimensions for Portable Recorders CI-53011/53012 Installation / 2-11 BLANK PAGE Section 3A OPERATION OF CHART DRIVES 3A.1 GENERAL INFORMATION Series 53011 to 53012 Round Chart Recorders utilize a gear-reduction motor to drive the center hub. Rotation of the chart is in a counterclockwise direction when viewed from the front of the instrument. Recorders may be specified with standard or optional chart drive arrangements. The standard chart drive is either spring-wound (single or dual speed) or battery operated (multi-speed). Although single-speed drives are standard, some spring-wound types have dual-speed capabilities while the battery operated chart drive offers 11 selectable speeds and an OFF position. The dual-speed types include a gear lever for changing speeds. The type of drive furnished with a recorder is listed on the specifications data plate. Figure 3A-1 - Operating Components CI-53011/53012 Operation of Chart Drives / 3A-1 3A.2 INSTALLING THE CHART The circular paper chart (8-inch diameter) is held against the chart plate as shown in Figure 3A-1. The installation procedure is provided as follows: 1. Open the recorder door to gain access to the interior. The door latch lifts up to release the latch. 2. Release the pen lifter rod from the upper guide slot holder and move it downward to raise the pen/s from the chart. CAUTION Never force a pen arm toward either side of its resting position because some arms may be coupled to measuring devices with little or no give. Damage to the pen arm or linkage may result if the strain is excessive. 3. Slide the chart hub clip shown in Figure 3A-1 toward its rounded end and flip it upwards to unlock it. 4. Lift the old chart from the bottom to clear the hub and remove it from the recorder. 5. Insert the new chart beneath the pens while maneuvering its center hole over the hub. Position the chart so that the upper part is under the guide slot and the left part is under the time index. 6. Rotate the chart by hand until the desired starting time on the chart is indicated by the time index. NOTE On multi-pen recorders the time index corresponds to the arc traced by the #1 pen. The other pens will trace slightly different arcs because of their longer lengths. Flip the chart hub clip down and slide it horizontally to lock the chart into position. 7. Push the pen lifter rod upward to lower the pens on the chart. Place the pen lifter back in its holder (upper guide slot). The chart installation procedure is complete. 3A.3 OPERATING CHART DRIVES Four types of chart drives offered for recorders. The operation of each type is discussed below. 3A.3.1 Single-Speed, Spring-Wound Drives These drives contain a key winding shaft as shown in Figure 3A-2. To wind the drive, it is first necessary to remove the paper chart. An opening will be found in the chart plate that 3A-2 / Operation of Chart Drives CI-53011/53012 lines up with the shaft. Insert the key into this opening, over the square-end shaft, and wind the key in a clockwise direction. When wound, the motor operates continuously; there is no off position. Single-speed drives contain an adjustment to compensate for minor mechanical speed variations. On many models, this adjustment is accessible through an opening in the chart plate. On other models it may be necessary to remove the chart plate. The actual speed can be checked against a stopwatch by measuring the time required for a selected chart interval to pass by the time index. If the measured lapsed time does not coincide with the time period of the chart interval, insert a screwdriver into the screw slot and turn the adjustment to the left to reduce the speed, or to the right to increase it. Do not turn the adjustment more than one increment for each test. Figure 3A-2 - Single-Speed, Spring-Wound Chart Drive 3A.3.2 Dual-Speed, Spring Wound Drives Dual-speed drives, shown in Figure 3A-3, are hand wound in the same manner as described for single-speed drives. The drive operates immediately after winding. (Note that some earlier version drives were not self-starting. To start these versions, rotate the starter knob in the direction shown and release it. Repeat this procedure if necessary.) Select the desired speed by moving the speed shift lever in either direction. For some recorder models it will be necessary to remove the chart plate to access this lever. For other models this step is not required since an opening is provided in the chart plate to access the lever. CI-53011/53012 Operation of Chart Drives / 3A-3 Figure 3A-3 - Dual-Speed, Spring-Wound Chart Drive Figure 3A-4 - Battery Powered Chart Drive 3A-4 / Operation of Chart Drives CI-53011/53012 NOTE: The speed shift lever operates tightly and requires a firm movement to change speeds. The speed of the dual-speed drive may be tested in the same manner as described for single-speed drives. Note that setting the speed adj. screw for one speed automatically corrects the second speed. In general, it is recommended that calibration be performed at the drives lowest speed. However, if preferred, the user may calibrate the most frequently used speed. 3A.3.3 Battery Powered Chart Drives Battery drives use a single, 1.5 V, alkaline-type, C cell to provide power. The cell is contained in an compartment behind the pop-out cover shown in Figure 3A-4. The drive begins operating when the cell is installed; there is no power switch on the drive. The rotational speed of the battery drive is determined by a programmer module that plugs into a mating socket. The module furnished with a drive will correspond with the drive speed listed on the instrument data plate. Additional programmer chips may be stocked by the user to obtain a selection of several speeds. 3A.4 REMOVAL OF CHART PLATE The chart plate must be removed to gain access to the chart drive, wiring terminals, and other internal components. The removal procedure is described as follows: WARNING Dangerous voltages are present in recorder models equipped with electric chart drives (120 Vac) or with electrically powered options such as alarms. Remove all power from electric drives and electric options before performing maintenance procedures or service checks. 1. Unlatch the pen lifter from the upper guide slot and move it downward to raise the pen/s from the chart. 2. Remove the chart paper (if present) as previously described under the topic, INSTALLING THE CHART on page 3A-2. 3. Depress the spring clips on each side of the chart plate while simultaneously lifting the bottom of the plate outward. Once the chart plate is disengaged, release the clips. Maneuver the chart plate downward and outward to clear the chart hub and pens; carefully place the chart plate aside. 4. Perform interior service adjustments or checks as required. 5. When replacing the chart plate, slowly guide the upper part of the plate into the upper hook brackets while simultaneously pushing the lower part inward to engage the spring clips. The chart plate snaps into place when pushed inward. CI-53011/53012 Operation of Chart Drives / 3A-5 6. Replace the chart and lower the pens. Place the pen lifter back into its holder. 3A.5 SETTING THE TIME INDEX The time index shown in Figure 3A-1 must point to the arc traced by the pen. On multi-pen recorders, the time index must correspond with the arc of the #1 pen (shortest length pen arm). All other pen arcs on multi-pen models will offset from this point by a fixed amount. Users will encounter a screw-type and a snap-on type time index. To set the screw type, loosen the screw, position the index on the edge of the chart plate as required, and fingertighten the screw to secure the position. To set the snap-on type, pry it off the edge of the chart plate, align it with the proper pen, and press it back firmly into the plate edge. 3A.6 CHART DRIVE MAINTENANCE NOTES General maintenance and service checks are provided herein for the three types of chart drives. Refer to the appropriate procedure for your drive. 3A.6.1 Spring-Wound Types These motors are factory-lubricated and do not require routine maintenance other than external cleaning. If the drive fails to operate, factory repairs or replacement may be required. 3A.6.2 Battery Type (1.5 Vdc) These motors do not require routine maintenance other than replacing a worn out cell. If the drive does not turn, check that the cell output is 1.5 V under load. Also check the cell compartment for possible leakage and corrosion; clean compartment as required. Use only size C-size alkaline cells for replacements. 3A.6.3 Electric Types (120Vac - 60Hz) These motors do not require routine maintenance other than external cleaning. If the drive does not turn, check that unit is plugged-into a good 110/120Vac (60Hz) source. If the drive fails to operate, factory repairs or replacement may be required. 3A-6 / Operation of Chart Drives CI-53011/53012 Section 3B OPERATION OF PEN SYSTEMS 3B.1 TYPES OF PEN SYSTEMS Recorders are furnished with one or two fiber tip pens. The fiber tip pen is a factory-filled cartridge that is discarded when the ink supply is consumed. Fountain Pens are no longer provided with new units. 3B.2 FIBER TIP PEN CARTRIDGES Fiber Tip Pens (Figure 3B-1) provide the user with the convenience of disposable cartridges. Each cartridge has a capacity of approximately 700 feet (213 meters) of writing. A fresh supply of ink is obtained each time the cartridge is changed. The fiber tip pen provides uniform ink flow, high clarity and reliable writing. No cleaning or maintenance is required. 3B.2.1 Conversion from Fountain Pen to Fiber Tip Cartridge Fiber Tip Pen Cartridges can also be installed in older recorder models equipped with fountain pen assemblies. A holding clip furnished with the fiber tip pen is used to secure the cartridge. On certain older models the pen arm will not accommodate the cartridge due to a ridge running along the arm length. For these models, the arms must be re-mounted inward so that the ridge faces inside the recorder enclosure. 3B.2.2 Excessive Ink Consumption If it is found that the recorder is consuming an excessive amount of cartridges, the measurement application could be the problem. High ink consumption can sometimes be traced to a measured variable that generates continuous wide swings or one that oscillates or jitters. An untuned or poorly controlled process can cause continuous wide swings. Oscillation may indicate an oversensitive control valve that requires damping. 3B.2.3 Replacing Cartridges Fiber Tip Pen Cartridges are furnished in packages of six in the color specified by the purchaser. When replacing cartridges of multi-pen recorders, make sure that the ink color matches the color dot on the pen arm. The procedure for replacing cartridges is given below. A small, flat-edge tool such as a screwdriver may be required to pry off the holding clip. 1. Unpack a new Fiber Tip Pen Cartridge and carefully remove the cap covering the pen tip. Do not touch the pen tip. 2. Unlock the pen lifter from its holder and pull it downward to raise the pen/s from the chart. 3. Unsnap the holding clip shown in Figure 3B-1. Use a small screwdriver to pry out an outer edge of the clip. Discard the clip and the empty cartridge. CI-53011/53012 Operation of Pen System / 3B-1 Figure 3B-1 - Installation of Fiber Tip Pen Cartridge 4. Position the new cartridge on the arm. Fit the nib of the pen into the ‘V’ slot of the pen arm. 5. While holding the cartridge in place, position the new holding clip behind the pen arm and snap it in place. Make sure the outer end of the holding clip snaps over the outer ridges of the pen cartridge. 6. Raise the pen lifter and place it back into its holder. The pen should begin tracing on the chart. 3B.3 REMOVAL OF PEN ARM The flexible pen arm can be removed for service or replacement. This is accomplished by loosening the detachment screw on the pen mounting assembly (Figure 3B-2) and pulling the arm downward to free it from the mounting. Once the arm is removed, inspect it for dirt or film. If necessary, clean the arm using hot water and detergent. Rinse the arm thoroughly and dry. 3B-2 / Operation of Pen System CI-53011/53012 When reinstalling the pen arm, push it snugly against the shoulder head on the pen mounting. Make sure the notch in the arm fits into the shoulder head so that the travel arc of the pen is maintained. Tighten the detachment screw moderately to secure the arm position. Figure 3B-2 - Typical Pen Arm Assembly CI-53011/53012 Operation of Pen System / 3B-3 BLANK PAGE Section 4 CALIBRATION 4.1 GENERAL NOTES Bristol Babcock instruments employ a three-element linkage arrangement to transfer motion from the measuring element to the pen arm. The calibration of the instrument is determined by mechanical relationship that exists between the linkages and the driving and driven mechanisms. 4.1.1 Calibration Equipment In order to check calibration, it is necessary to supply precise input test levels equivalent to 0%, 50% and 100% of the instrument span. This will require an appropriate Pressure Regulator and Precision Test Gauge. Note: Accuracy of control and monitoring equipment should be five to ten times better than that given for the measuring system in Section 5 - SPECIFICATIONS of this manual. Typical accuracy of test equipment should be from ±0.1% to ±.01%. 4.1.2 Linkage Configurations Each recorder uses a three-element linkage whose mechanical placement varies with the type of model. The linkage may be arranged in two distinct configurations identified as H and N. These configurations are shown in Figures 4-1 and 4-2. The H-type linkage is used where output motion of the measuring element is in the same direction as the input motion applied to the pen. The measuring element moves the driving arm, connecting link, driven arm, and the pen arm. Depending on the positioning of components in the instrument, this linkage may appear in a horizontal, vertical or angular plane. Similarly, the roles of the driving and driven arms may be reversed in some models for design reasons. Regardless of the physical positioning of the linkage, the relationship and movement between each element remains the same. Figure 4-1- Typical H-Type Arrangement CI-53011/53012 Calibration / 4-1 The N-type shown in Figure 4-2 shows the same components identified for the H-type but in a slightly different configuration. Since the connecting link connects between the top of the driving arm and the bottom of driven arm, the transferred motion is reversed. The Ntype linkage is used in instruments where the output motion of the measuring element is opposite to that applied to the pen. The design arrangements for N-type linkages can vary in the same manner as described for H-type linkages Figure 4-2 - Typical N-Type Arrangement 4.1.3 Accessing Calibration Adjustments Figure 4-3 identifies the calibration adjustments associated with the measuring element, linkage, and pen arm. Since many of these adjustments are concealed behind the chart plate, it will be necessary for the reader to fabricate a rigid test chart with a cut-away section to permit accessibility. Proceed as follows: 1. Paste or glue an unused chart to a piece of thin, rigid cardboard. Do not allow any wrinkles to form. 2. When dry, cut the cardboard to conform with the circular shape of the chart. Then cut out approximately 150 degrees of chart area leaving the center hole intact. 3. Remove the chart plate from the recorder. 4. Place the test chart on the chart hub and rotate it to a starting point where the calibration adjustments are accessible and the pen has sufficient area to write. 5. Secure the chart position by locking the chart hub clip. Proceed with calibration as required. 4.2 PRELIMINARY CALIBRATION CHECKS The preliminary checks described herein will determine the need for instrument calibration. Under no circumstances should any adjustments be made until this procedure is complete. 4-2 / Calibration CI-53011/53012 4.2.1 Calibration Check Points The standard calibration check points are made at 0%, 50% and 100% of the instrument span. The check points for some typical instrument models are as follows: Type of Instrument Pressure Receiver Pressure Recorder Range 3-15 psi 50-500 psi 0% Check Point 3 50 50% Check Point 9 275 100% Check Point 15 500 Meas. Units psi psi 4.2.2 Test Procedure After the equipment has been set up, proceed as follows: 1. Apply a 0% test input to the recorder and compare the chart reading with that indicated by the test monitoring device. 2. Repeat this test with 50% and 100% test points. 3. If the recorder readings are within ±0.5% of the test input, no calibration is required. If not, proceed to Section 4.3 - DESCRIPTION OF CALIBRATION ADJUSTMENTS on this page and Section 4.4 - CALIBRATION PROCEDURE on page 4-4. 4.3 DESCRIPTION OF CALIBRATION ADJUSTMENTS The linkage provides adjustment of zero, span and linearity. The use of these adjustments are described as follows: 4.3.1 Zero Adjustments The zero adjustments are located on the driving arm as shown in Figure 4-3. The fine zero consists of a slotted screw adjustment, while the coarse zero consists of two locking screws that permit the driving arm to be repositioned on its shaft. A zero adjustment is performed when the percentage of error is consistent throughout the range. Zeroing moves the entire range up or down without having any significant effect on span or linearity. Zero adjustments will correct most calibration errors and are the simplest to make. 4.3.2 Span Adjustment This adjustment, which is located at the junction of the driving arm and connecting link, consists of a knurled wheel and two locking screws to secure the adjustment (Figure 4-3). This adjustment affects the upper limit of the range. It is only adjusted if a zero correction, cannot bring the upper limit within tolerance. Span adjustments tend to interact slightly with the zero. Each should be checked several times for optimum accuracy. 4.3.3 Linearity Adjustment The linearity adjustment consists of two locking screws on the connecting link that permit adjustment of the length of the link (Figure 4-3). This adjustment compensates for poor CI-53011/53012 Calibration / 4-3 linearity of the output curve such that crowding or spreading occurs at either half of the instrument range. Linearity errors produce unequal half outputs in either the 0-50% or 50100% half of the scale. Figure 4-3 - Pen Linkage Adjustments (H-Type) Linearity adjustments also interact with zero and span adjustments. It is the most difficult of the three adjustments to make and should not be attempted until it is absolutely certain that misadjustment of zero and span is not the cause. 4.4 CALIBRATION PROCEDURE The procedures for setting the zero, span and linearity adjustments are described in the following steps: 1. Check the recorder at the 0%, 50% and 100% test levels as described in Section 4.2 PRELIMINARY CALIBRATION CHECK. 2. If a consistent error occurs at all three test points, reset the test input back to the 0% level and adjust the fine zero screw (Figure 4-3) to correct the error. 3. Re-apply a 100% test input. If the error is eliminated, calibration is complete. If the error is still present, loosen the two span locking screws and set the span wheel to correct. Secure the span screws when adjustments are complete. 4. If necessary, alternately repeat steps 2 and 3 until span and zero are within tolerance. 5. To check linearity, apply test inputs of 20%, 40%, 60% and 80%. If crowding or spreading errors are observed, linearity calibration will be required. 4-4 / Calibration CI-53011/53012 6. Apply a 50% input and note the error difference displayed on the chart. Multiply the error difference by 2. 7. Loosen the linearity locking screws and adjust the connecting link to a length equivalent to the computed error (error difference x 2) in the opposite direction. For example, if a recorder having a 0-100 psi range reads 48 psi for a 50% input, the error difference is 50 - 48 psi = 2 psi. Therefore, the computed error difference is 2 x 2 = 4 psi. To provide an initial starting point, the linkage is adjusted to shift the error from 48 to 52 psi. This effectively increase the lower span half to 52 psi while reducing the upper span half to 48 psi, a condition that is totally opposite to the original error. 8. Once the linkage has been set to the new error value, secure the linearity locking screws and repeat steps 1 through 6. 9. If linearity crowding or spreading error persists at either end of the instrument range regardless of how often calibration is attempted, unlock the snap fitting on the connecting link and try using hole #2 on the driven arm (Figure 4-3). Use a small screwdriver to unlock and secure the snap fitting. 10. Be sure to recheck zero and span after each linearity adjustment. Calibration is complete when the readings at all check points are within tolerance. CI-53011/53012 Calibration / 4-5 BLANK PAGE Section 5 SPECIFICATIONS 5.1 GENERAL SPECIFICATIONS Types of Recorders Pressure - Single Pen Pressure - Dual Pens Enclosure Rectangular, die-cast aluminum case with gasketed aluminum door. Grey epoxy finish standard, black optional. General Dimensions Series 53000: 14-3/8"H x 10-3/4"W x 5-3/4"D (365 x 273 x 146 mm) Weight Series 53000: Approximately 15 lbs (6.8 kg) Case Connections Back or bottom connections are offered. Inking System Fiber tip, disposable cartridge Recording Charts Series 53000: 8" diameter (203 mm) Chart Drive Types Spring-wound, single-speed drive: 12 hours to 31 days Spring-wound, dual-speed drive: 96 minutes to 8 days Battery drive: Selectable Range: 60 Min., 96 Min., 12 Hr., 1 Day, 2 Day, 7 Day, 8 Day, 14 Day, 31 Day & 32 Day; drives powered by 1.5 V alkaline cell. Rated for Intrinsically Safe Class 1, Groups C & D hazardous locations. Ambient temperature range is -20 to +180 °F. CI-53011/53012 Specifications / 5-1 5.2 PRESSURE MEASURING SYSTEMS Pressure Elements Helical or capsular measuring elements offered in 316 stainless steel and Ni-Span C. Range Limits For helical elements, 0-50 to 0-15,000 psi - For capsular elements, 0.5 IN H2O to 0-200 psi Overrange Protection Depends on element material and range. Consult Bristol Babcock for details. Calibrated Accuracy ±0.5% 5.3 OPTIONAL ELECTRIC ALARMS Types Offered HIGH and LOW relay contacts for use with 120 Vac 50/60 Hz power Setpoint Range Fully adjustable over 0-100% range; separate adjustments for HI and LO alarms. Contact Rating Rated for 120 Vac resistive load at 5A maximum. 5-2 / Specifications CI-53011/53012 Section 6 PARTS LIST 6.1 BASIC RECORDER ASSEMBLIES This parts list itemizes and illustrates major assemblies. When ordering parts, be sure to include the part description and part number, as well as the model and serial number of the instrument. All parts are subject to design changes and material availability. Bristol may furnish equivalent substitutes when necessary. Table 6-1 - Model 53011-10B & 53012-10B Pressure Recorder Parts ID # 1 1 2 3 4 4 5 6 7 8 9 10 11 12 13 14 15 16 18 19 20 21 22 28 28 28 28 50 60 61 62 63 100 Part # 284703-00-1 284704-00-8 390547-00-8 396310-01-0 389306-11-8 273391-00-3 292694-00-8 282664-00-9 282655-00-7 282674-00-4 283998-00-8 267029-00-4 266541-00-3 266546-00-5 387979-01-8 239770-00-5 274986-00-0 210075-00-7 283725-00-1 375985-01-8 375305-01-7 375985-02-6 283727-00-4 382092-02-3 382092-05-8 297481-00-2 297481-03-7 286122-00-6 283733-00-4 284110-00-0 302809-00-7 235638-00-5 380267-02-0 CI-53011/53012 Description Single Pen Mounting Assembly Dual Pen Mounting Assembly Door Stop Door Hinge (2) Chart Drive (Battery) Multi-speed Chart Drive (Spring) Screw - 10-32 x ½ FHSC (2) Plug Customer Connection Cover Plate, Top Half - Customer Connection Mfg. Plate, Bottom Half - Customer Connection Mfg. Screw - 10-32 x 5/16 Fil Head Screw - 10-32 x ½ Fil Head Screw - 10-32 x 1 Fil. Head Chart Plate Assembly Screw - 6-40 x ¼ Fil Head Chart Hub Assembly 3/8” I.D. Flat Washer Pen Arm - 8” Recorder (Coded GA) Fiber Tip Pen (Red) Short Clip Assembly Fiber Tip Pen (Blue) Medium Pen Arm - 8” Recorder (Coded GB) Door Assembly - with Glass Window - Not Sealed Door Assembly - with Sealed Glass Window Door Assembly - with Blank Window - Not Sealed Door Assembly - with Sealed Blank Window Fixed Link Stop Bracket Lever Arm Link Assembly -Yielding Flat Conn. #10 Int. Tooth Lock Washer Machined Case - Panel Mount - Doesn’t Support Alarm Fig. 6 1 2 1 3 1 Not Shown 3 4 3 4, 6 4, 6 4 6 1 5 1 1 6 1, 2 1, 2 3 2 2 5, 8 5, 8 5, 9 5, 9 6 1 1 1 1 1 Parts List / 6-1 Figure 6-1 - Single Pen Panel Mounted Unit - Front View with Battery Motor Chart Drive, Range Protection, Helical Pressure Element & Bottom Connections 6-2 / Parts List CI-53011/53012 Table 6-1 - Model 53011-10B & 53012-10B Pressure Recorder Parts (Continued) ID # 100 100 100 100 100 100 100 100 101 102 103 104 105 106 107 108 110 111 112 113 114 115 116 117 118 119 120 121 122 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 Part # 380267-06-3 380267-07-1 380267-08-0 380267-09-8 380267-10-1 380267-11-0 380267-12-8 380267-13-6 271283-00-9 282638-00-8 379443-01-5 379445-01-8 284103-00-4 286804-00-0 243040-00-8 284344-00-1 374616-01-9 374962-01-4 292030-00-2 232193-00-2 290069-00-9 389650-00-3 372498-01-9 317383-01-9 283051-00-0 392798-01-8 373601-05-0 374602-08-5 392799-01-4 334521-00-9 266541-00-3 302144-00-5 286122-00-6 370965-01-9 370967-02-0 310183-02-2 287210-00-6 239770-00-5 331880-00-8 267029-00-4 287238-00-8 370964-02-0 272166-00-6 210075-00-7 287936-00-7 375478-06-0 284729-00-0 CI-53011/53012 Description Machined Case - Panel Mount - Supports Alarm Machined Case - Pole Mount - Doesn’t Support Alarm Machined Case - Pole Mount - Supports Alarm Machined Case - Portable - Doesn’t Support Alarm Machined Case - Portable - Supports Alarm Machined Case - Panel Mounted - Dual Pen Machined Case - Pole Mounted - Dual Pen Machined Case - Portable - Dual Pen Roller, ¼” I.D. Handle Roller Pin, #10-32 Chart Plate Bracket Spring Clip Bracket Pin Lifter Bracket Screw - 6-40 x 1/4 Fil Head #6 Int. Tooth Lock Washer 10-32 M/F Standoff Screw - 8-32 x 5/16 Hex Head Ground label Case Mounting Bracket (3) Screw - 1/4-20 x 1/2 Head Pen Lifter Set Screw - 1/4-20 x 1/4 Hex Socket Head (6) Pipe Mounting Bracket Screw - 5/16-18 x 5/8 FHCS (4) (for Pole & Portable) Black Handle Foot, Portable Chart Recorders (2) Cap Screw - 1/2-20 x 1 - Hex Socket Head (4) Screw - 10-32 x 1/2 Pan Head Foot Insert Electric Alarm/Pump Assembly Screw - 10-32 x 1/2 Fil. Head Shaft Support Bracket Post Link Assembly – Flat Connecting Micrometer Adjustment Arm Cable Assembly Socket DPDT Relay M/F Standoff Screw - 6-40 x 1/4 Fil. Head Terminal Mounting Bracket Screw - 10-32 x 5/16 Fil. Head (2) 6-Position Term. Block - 30A (Max.) Terminal Identification Plate Spacer Sleeve Flat Washer - 3/8” I.D. Screw - 10-32 x 1 - Self Tap. Pan Head Terminal Block Cover Hex Nut, 1/2” Standard Pipe Thread Fig. 6 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 7 7 4, 5 4 1 6, 7 7 7 6 6 6 6 6 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 6 Parts List / 6-3 Figure 6-2 - Dual Pen Panel Mounted Unit - Front View with Battery Motor Chart Drive, Range Protection, Dual Helical Pressure Elements & Bottom Connections 6-4 / Parts List CI-53011/53012 Figure 6-3 - Panel Mounted Unit - Side View with Battery Motor Chart Drive, Range Protection, Helical Pressure Element & Bottom Connections CI-53011/53012 Parts List / 6-5 Figure 6-4 - Panel Mounted Unit - Bottom View Customer Connection Plates on Bottom Figure 6-5 - Panel Mounted Unit - Front View - Door Closed 6-6 / Parts List CI-53011/53012 Figure 6-6 - Portable Unit with Customer Connection Plates on Bottom CI-53011/53012 Parts List / 6-7 Figure 6-7 - Pole Mount Unit with Optional Pump Control Unit/Electric Alarm Unit 6-8 / Parts List CI-53011/53012 6.2 RECORDER CASE COVERS (DOORS) There are four types of doors that can be provided with 8-Inch Pressure Recorders. Table 62 provides part identification s for doors with a glass window. Table 6-3 provides part identification for doors without glass. Table 6-2 - Case Cover with Shatterproof Glass Window (see Figure 6-8) 382092-02-3 - Eight Inch Cover Assembly with Glass Window (Not Sealed) 382092-05-8 - Eight Inch Cover Assembly with Glass Window (Sealed) ID # 1 2 3 4 5 6 7 8 9 Part # 396419-02-0 282608-00-1 284725-00-5 282663-00-2 282662-00-6 375304-01-0 390474-01-0 314184-00-7 374601-04-6 Description Door, 8” Housing, Machined Gasket - Series 53011/53012 Doors Gasket, 7/32” x 1/16” -Spring Cork Clip, 8-Inch Glass Fully Tempered Glass Hook Assembly Door Handle Cover latch Spring Screw, 6-32 x 1/4 Pan Head Figure 6-8 - Door with Shatterproof Glass CI-53011/53012 Parts List / 6-9 Table 6-3 - Case Cover with Blank Window (see Figure 6-9) 297481-00-2 - Eight Inch Cover Assembly with Blank Window (Not Sealed) 297481-03-7 - Eight Inch Cover Assembly with Blank Window (Sealed) ID # 1 2 3 4 5 6 7 8 9 10 Part # 396419-02-0 282608-00-1 284725-00-5 282663-00-2 286515-00-8 375304-01-0 286514-00-1 390474-01-0 314184-00-7 374601-04-6 Description Door, 8” Housing, Machined Gasket - Series 53011/53012 Doors Gasket, 7/32” x 1/16” -Spring Cork Clip, 8-Inch Glass Blank 8-Inch Cover Plate Hook Assembly Clip for Spare Chart on Cover Door Handle Cover latch Spring Screw, 6-32 x 1/4 Pan Head Figure 6-9 - Door with Blank Window 6-10 / Parts List CI-53011/53012 Issue: 03/07 G6000 - Appendix GA - PRESSURE MEASURING SYSTEM - Contents Page A. DESCRIPTION .........................................................................................GA-1 B. PRESSURE CONNECTIONS ..................................................................GA-4 C. BASIC MEASUREMENT OF AIR, GAS OR LIQUID ............................GA-5 D. MEASUREMENT OF CAUSTIC SUBSTANCES ...................................GA-6 E. MEASUREMENT OF VISCOUS OR SOLIDIFYING FLUIDS..............GA-8 F. MEASUREMENT OF STEAM OR HOT VAPORS .................................GA-9 G. VACUUM MEASUREMENTS ...............................................................GA-10 H. LIQUID LEVEL MEASUREMENTS ....................................................GA-11 I. LOW-RANGE PRESSURE MEASUREMENTS.....................................GA-14 J. MEASUREMENT AT TEMPERATURE EXTREMES ..........................GA-14 K. OVERRANGE & UNDERRANGE PROTECTION ...............................GA-14 L. ELEMENT CONSTRUCTION & ACCURACY .....................................GA-15 A. DESCRIPTION The pressure measuring system of an instrument will consist of a helical or capsular measuring element that either positions a pointer on a scale, or a pen on a chart. The helical type is essentially a hollow metal coil that winds or unwinds with changes in pressure, while the capsular type consists of a bellows assembly that expands or contracts with pres-sure changes. Helical elements are used to measure pressures ranges from 0-30 to 0-10000 psi. Capsular elements are used to measure more sensitive pressure ranges from 0-1 in./water to 0-200 psi. The actual range furnished will be found on the instrument data plate. Pressure elements may be constructed of 316 stainless steel, Ni-Span C or phosphor bronze materials to match the needs of the process application. The type of material furnished for elements will be as specified in the sales order. CI-53011/53012 GA-1 Pressure Measuring System G6000 Issue: 04/03 Figure 1 - Series 53011 Pressure Recorder with Helical Pressure Element Pressure Measuring System GA-2 CI-53011/53012 Issue: 04/03 G6000 Figure 2 - Series 53011 Pressure Recorder with Capsular Pressure Element CI-53011/53012 GA-3 Pressure Measuring System G6000 Issue: 04/03 B. PRESSURE CONNECTIONS The pressure connection consists of 1/2" NPT threaded opening in the case. The location of this connection is identified in the installation section of the manual. Note that instruments are shipped from the factory with a protective cap over the port. This cap should be removed once the instrument case is mounted. Piping Material and Size Plastic or copper tubing can be used for most general purpose applications. However, some installations may require tubing or pipe made of steel or special alloys. It is suggested that you review the application before making a choice. The response time of a pressure instrument to an actual change of pressure is a function of the diameter and length of the connecting line. For some applications involving very long runs, these delays may be sufficient to slow down measurements. In general, fast response will be obtained for distances up to 300 feet using 1/4 inch tubing (inside diameter). For distances up to 500 feet, the use of 3/8 inch is recommended. Unions & Shutoffs A union connection and shutoff valve may be installed at the pressure port of the instrument. These items will provide a convenient means to disconnect the instrument from the line for maintenance procedures without disrupting the pressure source. Examples of the use of these items are shown in Figures 4 through 9. Service Tees with Plug A tee connected in the pressure line allows the pressure source to be accessed for service or calibration checks. The tee includes a removable plug for bleeding the pressure line of air pockets and moisture. Figure 3 - Typical Pulsation Damper Pressure Measuring System GA-4 CI-53011/53012 Issue: 04/03 G6000 Needle Valves & Pulsation Dampers Some unregulated pressure sources may produce rapid fluctuations or oscillations on the line which result in erratic readings at the instrument. These fluctuations, if continued over a long period, accelerate mechanical wear of the measuring system and pivot points. For minor cases, installing a needle valve in the line close to the instrument will minimize the problem. In operation, the valve smooths out pulsations by restricting them through an adjustable orifice. A proper setting is determined by experimenting with different valve openings until steady readings are obtained. In cases where severe oscillation or transients are present on the line a needle valve may not prove adequate and a pulsation damper is recommended. This device contains an adjustable needle valve and piston arrangement to regulate the pressure. The piston, whose lateral movement is controlled by changes of input pressure, closes the valve on pressure peaks and opens it on pressure drops. As such, the output pressure remains relatively constant. The valve is adjusted in small increments until steady pressure readings are achieved. C. BASIC MEASUREMENT OF AIR, GAS OR LIQUID A basic installation that connects the instrument to a pressurized air, gas or liquid main is shown in Figure 4. The upper arrangement of this illustration employs a process valve, needle valve, bleed valve and a union connection. The lower arrangement deletes the needle valve and substitutes a pulsation damper. The use of these options was described in topic B. The application of Figure 4 is chiefly intended for measurement of non-caustic process substances that will not react with materials specified for the measuring element, fittings, and accessory devices. However, these installations can also be used with caustic substances providing that the measuring element and accessories are classified for such service. Since such materials can add significant cost to the installation, the more economic arrangements of topic D should be considered. NOTE All warranties for the instrument and accessories provided by Bristol Babcock are void if the conigurations of Figure 4 are used to measure caustic subtances with under-classified instrument materials. Air/Gas Installations This type of system should be bled at the time of installation and periodically during normal usage. Prior to bleeding, the process valve and needle valve (or pulsation damper) must be opened and the bleed valve closed. The bleed valve is then opened until moisture stops spitting out of the valve's discharge. Once pressure flow is uniform, the bleed valve is closed and the needle valve (or pulsation damper) is adjusted for normal operation. CI-53011/53012 GA-5 Pressure Measuring System G6000 Issue: 04/03 Figure 4 - Basic Pressure Measurement Application Liquid Installations A requirement of these installations is that the pressurized liquid come in direct contact with the instrument measuring element. In order for the instrument to provide accurate and stable readings, the liquid must be free of air bubbles or pockets. Therefore, the lines must be bled at the time of installation. Bleeding is performed in the same manner as described for air/gas systems except that the bleed valve is kept open until the valve's discharge stops spitting and the liquid flow is uniform. D. MEASUREMENT OF CAUSTIC SUBSTANCES If the materials used for the instrument measuring system and external accessories are under-classified for measurement of caustic substances, some form of physical isolation between the instrument and the process must be provided. This is achieved by using an isolation device whose material is rated for the measured medium. Pressure Measuring System GA-6 CI-53011/53012 Issue: 04/03 G6000 Figure 5 - Caustic Process Using Diaphragm Seal Figure 6 - Caustic Process using Force Balance Seal CI-53011/53012 GA-7 Pressure Measuring System G6000 Issue: 04/03 Diaphragm Seal This type of seal consists of a diaphragm that divides two chambers. In Figure 5, the left side is in contact with the process media, while the right side is in contact with a liquid sealant. Pressure variations occurring on the process side are transmitted by the flexible diaphragm to the sealant. The compression and release of the fluid produces a corresponding change of pressure is sensed by the measuring element of the instrument. Force Balance Seal An arrangement using a Force Balance Seal is shown in Figure 6. This system, generally used for pressure ranges from 0-12 in/H2O to 0-100 psi, requires an external air supply to operate the seal mechanism. Essentially, the Force Balance Seal obtains isolation through the use of a metallic diaphragm coupled to an air valve arrangement. Compressed air applied to the input of the instrument must pass through the air valve. Changes of process pressure cause the diaphragm to move left or right and transmit a lateral motion to the air valve. For an increase of process pressure the diaphragm causes the air valve to close so that less air is bled to the atmosphere and more is supplied to the instrument. For a decrease of process pressure, the air valve bleeds more air into the atmosphere so that less is available for the instrument. In this manner, the instrument's measuring element tracks pressure variations of the process. Also recommended for use with a Force Balance Seal is a differential pressure regulator. This device regulates pressure variations across the seal for improved stability and measurement accuracy. E. MEASUREMENT OF VISCOUS OR SOLIDIFYING FLUIDS Liquids that tend to thicken or solidify at ambient temperatures must be kept out of the measuring element to prevent damage. In the application of Figure 7, a purge system connected to the instrument input line is used to isolate the process media. A typical purge system employs a medium such as water or air that is forced into the input line under heavy pressure. The pressure applied to the medium is generally 2 to 3 times greater than the process pressure. In operation, the purging medium is forced into the junction of a process tee shown at the left of the bubbler valve. The resultant pressure cushion against the process medium offers resistance to the purge liquid and prevents mixing of fluids. However, if the process pressure falls near or below the purge pressure, the purge liquid will flow into the process line. Therefore, the bubbler valve must be adjusted so that little or no leakage occurs at the lowest pressure to be measured. Two precautions must be observed when using a bubbler-type purge system. First, the purging fluid must not produce any dangerous reaction when it combines with the process medium. Second, the process material and purging liquid must have a compatible chemical base so that there is no separation of the process medium. And finally, the purging medium flowing into the process must be kept adjusted to a minimum amount to prevent overdilution of the final product. Pressure Measuring System GA-8 CI-53011/53012 Issue: 04/03 G6000 Figure 7 - Viscous Process using Purge System F. MEASUREMENT OF STEAM OR HOT VAPORS When the process medium is steam or condensing vapors, certain precautions must be observed. In order to protect the instrument measuring system, the temperature of the medium at the input of the instrument must not exceed 150 ºF (65 ºC). This protection can be achieved as follows: Instrument Mounted Below Connection This configuration, shown at the top of Figure 8, is an arrangement whereby the instrument is automatically protected from high temperatures due to the formation of condensate in the pressure line. As long as the line is sloped downward as shown, the steam or vapors will condense to liquid and act as a sealant. The sealant functions as a temperature barrier and prevent steam from getting into the instrument. Instrument Mounted Above Connection When the instrument is above the level of the steam main, any accumulated condensate will flow back into the main by gravity. To prevent this, a coil-type trap is installed near the instrument as shown in the lower drawing of Figure 8. The trap maintains a limited amount of liquid in the coil to act as a barrier. For this type of system, the pressure line must CI-53011/53012 GA-9 Pressure Measuring System G6000 Issue: 04/03 initially be primed with water to protect the measuring element from overheating before condensate can form. Figure 8 - Steam Pressure Installation G. VACUUM MEASUREMENTS Pressure instruments with appropriate ranges (-30 to 0 in./Hg) can also be used for vacuum measurements. Figure 9 illustrates the techniques for above and below-main type installations. Although air is pulled out of the element and connection line during measurements, it might be assumed that the problem of isolation can be ignored. However, a major problem with Pressure Measuring System GA-10 CI-53011/53012 Issue: 04/03 G6000 vacuum instruments occurs when the vacuum is suddenly released. At that moment oil, grease, dirt or other undesirable substances in the line may be sucked into the measuring system. If allowed to build up, this matter can influence the accuracy and performance of instrument measurements. The use of seals and filters should be considered when dirty vacuum lines are encountered. Figure 9 - Vacuum Measurement Application H. LIQUID LEVEL MEASUREMENTS Pressure instruments may also be specified for liquid level measurement applications. For these situations, the measuring element measures the pressure head of a column of liquid contained in an open tank or vat. The pressure measurements are read on an instrument scale calibrated in units that correspond to the height of the tank. Instrument at Zero Line of Tank Figure 10-A shows an application where the tank has a 0-30 foot measuring range. If the instrument is installed so that the pressure element is at the 0% reference level of the tank, the instrument readings should correlate with the level of the liquid even though the connecting pipe is lower than the zero reference line. In theory, the connecting pipe could be any desired length and distance below the tank, however, this approach has some limitations. If a minor zero offset error is observed at the instrument, a correction can be made by using the Zero Adj. on the MV linkage. For more details, refer to the calibration section of this manual. CI-53011/53012 GA-11 Pressure Measuring System G6000 Issue: 04/03 Figure 10-A - Instrument at Zero Reference Level Figure 10-B - Instrument Below Zero Reference Line Pressure Measuring System GA-12 CI-53011/53012 Issue: 04/03 G6000 Instrument Below Zero Line of Tank Figure 10-B shows the instrument installed 3 feet below the 0% reference line of the tank. Because of the additional 3-foot head present in the connecting line, the instrument will show a +3 foot error for all readings. Although this error can be mentally calculated, it is more convenient to recalibrate the instrument for direct scale readings. Refer to the calibration section of this manual for details. Instrument Above Zero Line of Tank Figure 10-C shows the instrument installed 3 feet above the 0% reference line. This results in a -3 foot error for all readings. This error can be corrected by calibration adjustments. Refer to the calibration section of this manual for details. Figure 10-C - Instrument Above Zero Reference Line Specific Gravity Correction When an instrument intended for liquid level measurement applications leaves our factory, it will be calibrated for the value of SG (Specific Gravity) specified by the purchaser. However, if the type of liquid is changed, a SG error will be introduced into the readings. The amount of error can be calculated by the following formula: ±PSI = h (SG)/2.3097 Where: h= SG = ±PSI = Measurement span (difference between max. and min. height) Specific Gravity of liquid in tank corrected for temperature, if necessary. Change in pressure caused by change in SG error in height units. An SG error can be corrected by performing zero and span calibration of MV linkage as described in this manual. CI-53011/53012 GA-13 Pressure Measuring System G6000 Issue: 04/03 I. LOW-RANGE PRESSURE MEASUREMENTS Instruments with sensitive low-range pressure elements can be affected by changes in barometric pressure and room pressure. In general, these instruments should not be installed in rooms having exhaust or intake fans. Installations near air conditioners, forced air heater ducts, oscillating fans and breezy windows should also be avoided. Opening and closing the door of a tight room can also cause a momentary variation in the reading. J. MEASUREMENT AT TEMPERATURE EXTREMES When the temperature of the measured medium is above or below instrument specifications, modifications of the system will be required. A failure to do so may result in inaccurate readings or, in extreme cases, damage to the measuring system and the instrument. Observe the following suggestions before installing instruments in these environments. High Temperature Extremes The high temperature limits of an instrument are usually exceeded when the measured medium is steam or hot vapors. The techniques for correcting this situation involve the use of a liquid vapor barrier or a steam seal that isolates the medium from the instrument. More information on this application is given under topic F. Low Temperature Extremes Instruments mounted outdoors or in unheated areas may be subject to freezing conditions. To maintain proper operation, both the instrument and the pressure line must be protected from freezing. In moderately cold climates where evening temperatures fall below freezing for short periods, the case can be protected by installing it in an insulated enclosure. Sufficient protection can be achieved for the line by wrapping it with insulation. This method will provide reasonable protection from night time freezing provided that daytime temperatures average 45 °F or higher. Areas subject to prolonged freezing will require a weatherproof enclosure having an electrical heater-thermostat arrangement. This heater will maintain the interior of the housing within the specified operating range of the instrument. The use of electrical wraparound heater tape for the pressure line will also be required to keep the line from freezing. The heater tape should also be equipped with a thermostatic control to regulate the temperature. K. OVERRANGE & UNDERRANGE PROTECTION The pressure measuring systems used in our instruments are designed to handle a certain amount of pressure overload without damage. However, extreme overpressure or underpressure can permanently warp or damage this system. If you anticipate that over or under-ranging will occur, the use of relief valves are recommended to limit pressure excursions in one or both directions. These valves, which are adjustable, are installed in the pressure line at the input of the instrument. Pressure Measuring System GA-14 CI-53011/53012 Issue: 04/03 G6000 L. ELEMENT CONSTRUCTION & ACCURACY The accuracy of our pressure instruments is related to the construction material of the pressure element. Instruments with pressure elements made of Ni-Span C and 316 Stainless Steel are factory-calibrated to an accuracy of ±0.5% of span. Those instruments with pressure elements made of Monel-C tube (per NACE specification MR-01-75) are factorycalibrated to an accuracy of ±1.0% of span. The range and material of the element furnished for your application will be as specified in the sales order. WARNING The user should be certain that the pressure element range and material are suitable for the intended measurement application before placing the instrument in operation. A failure to check the element application could result in damage to equipment and property, and possible injury to persons. If the application is in question, the user is urged to contact Bristol Babcock for additional information. Bristol Babcock 1100 Buckingham St., Watertown CT 06795 CI-53011/53012 GA-15 Pressure Measuring System BLANK PAGE Issue: 03/07 Y19248 - Appendix YB - ELECTRIC ARARM UNITS - Contents Page GENERAL DESCRIPTION........................................................................... YB-1 Types of Scales ......................................................................................... YB-1 Theory of Operation................................................................................. YB-2 ALARM WIRING CONNECTIONS.............................................................. YB-2 High or Low Alarm Units ........................................................................ YB-3 High and Low Alarm Units ..................................................................... YB-3 AC Power Terminals................................................................................ YB-4 SETTING ALARMS....................................................................................... YB-4 Auxiliary-set Units .................................................................................. YB-4 Direct-set Units........................................................................................ YB-4 GENERAL INFORMATION Electric Alarm Units will actuate an external alarm circuit when the measured variable crosses an alarm setpoint. Units may be specified with high, low or high-low alarm circuits. Figure YB1- Hi-Lo Alarm Unit Types of Scales Two types of scales are used with alarm units: auxiliary-set and direct-set. The auxiliaryset type shown in Figure YB1 contains its own scale and adjustment knob/s for setting alarms. The direct-set type (no longer available as of 2/21/05) doesn’t have a scale or CI-53011/53012 YB-1 Electrical Alarm Units Y19248 Issue: 03/07 adjustment knobs; it uses the setpoint knob associated with the pen mounting mechanism of the recorder. Note: The terms auxiliary-set and direct-set are defined from the standpoint of the recorder. Except for the method of reading and setting the alarms, both types operate identically. Theory of Operation Alarm activation is achieved through a SPST magnetic reed switch contained inside the alarm unit. When the setpoint knob is adjusted to a desired trip point, the position of the switch is also changed relative to a magnetic assembly that is coupled to the pen arm. When the recorder is in a non-alarm state, the magnet is positioned away from the switch. During an alarm condition, the switch moves sufficiently close enough to the reed switch to pull in the contact. This causes the relay to energize and operate the external alarm circuit. The reed switch remains closed until the pen arm returns to the non-alarm zone. ALARM WIRING CONNECTIONS It is essential to perform all electrical wiring associated with alarm units in accordance with the National Electrical Code (ANSI/ISA standard S82.01, S82.02 and S82.03) and local authority. Figure YB2 - High or Low Alarm Circuit Electrical Alarm Units YB-2 CI-53011/53012 Issue: 03/07 Y19248 High or Low Alarm Units (No Longer Available) The high or low alarm units use similar hardware and differ only in the positioning of the setpoint adjustment knob and the manner in which the relay operates. Figure YB2 shows the internal and external wiring circuits. The SPDT relay contacts are brought out to the field wiring terminals which allows the user to select a normally-open (NO) or normallyclosed (NC) configuration depending on the action of the external alarm device. The NC contact is closed as shown when the relay is energized. High and Low Alarm Units These units, shown in Figure YB3, contain two reed switches and two relays to establish an alarm operating zone. When the pen (measured variable) is inside this zone, the high and low relay contacts will be open as shown. Should the pen go below the low setpoint, the low relay contact will close. Should the pen go above the high setpoint, the high relay contact will close. Figure YB3 - High and Low Alarm Circuit CI-53011/53012 YB-3 Electrical Alarm Units Y19248 Issue: 03/07 AC Power Terminals In Figures 2 and 3, terminals L1 and L2 are wired to a 120 Vac source to provide power for the relay coil/s. Note that these terminals also provide power for electric chart drives and other electrical options. Before making any connections, refer to the installation/wiring section of this manual for safety information on AC power circuits. SETTING ALARMS The location and use of the operating adjustments depend on whether the instrument employs auxiliary-set or direct-set units. Select the appropriate procedure below. Auxiliary-set Units The Hi and Lo setpoint adjustment knobs and the scale for these units are built into the assembly. The scale is graduated from 0% to 100% to correspond with a percentage of the instrument range. Turn the setpoint knob until the pointer indicates the desired alarm trip point. Direct-set Units (Note: As of 2/21/05 Direct-set Alarm Units are No Longer Available) The setpoint knob for these units is located on the pen mounting assembly. Turning this knob sets the alarm unit and also positions a setpointer arm on the chart scale. On recorders with high-low alarms, the green-coded knob and setpointer corresponds to the low alarm, while the red-coded knob and setpointer corresponds to the high alarm. Turn each setpoint knob until the pointer indicates the desired high and low setpoint values on the chart. The mechanical arrangement contained in the setpoint mechanism prevents the setpointers from crossing over onto each other’s domain. Bristol, Inc. 1100 Buckingham St., Watertown CT 06795 Electrical Alarm Units YB-4 CI-53011/53012 Issue: 03/07 Y19249 - Appendix YC - PUMP CONTROL UNITS - Contents Page DESCRIPTION .............................................................................................. YC-1 INTERNAL CIRCUITRY .............................................................................. YC-2 OPERATION.................................................................................................. YC-3 Units with Internal Setpoint Adjustments ............................................ YC-3 Units with External Setpoint Adjustments............................................ YC-4 TROUBLESHOOTING.................................................................................. YC-4 DESCRIPTION Pump Control Units, Figure YC1, are used in single or multiple pumping systems to maintain the level of a liquid in a tank. Each unit contains two independent setpoint adjustments for setting the desired pump operating range (turn on and turn off points). These units are factory-installed in recording and indicating instruments and receive input drive through the instrument linkage. They provide a SPDT relay contact output rated at 5 amperes, 115Vac for a pure resistive load. Figure YC1- Hi-Lo Alarm Unit Essentially, Pump Control Units employ two magnetic reed switches for the low and high pump contacts shown in Figure YC2. The pivot magnet, which is coupled to the pen or CI-53011/53012 YC-1 Pump Control Units Y19249 Issue: 03/07 indicating linkage, tracks the motion of the measured variable. When the low setpoint is crossed, the pivot magnet pole will rotate toward the left to close the low-end reed switch. This closed contact completes the instrument relay circuit, thereby causing it to energize and latch on. The relay’s contacts, in turn, actuate the external pump to begin the pumping cycle. Figure YC-2 - Switch and Magnet Assembly Once the proper pumping level is established, the magnet pole rotates toward the right to close the high reed switch contact. Once closed, this contact unlatches the relay. This condition prevails until the tank level drops below the low setpoint. At that moment, the relay will be latched on again and the pump will be turned on to repeat the pumping cycle. INTERNAL CIRCUITRY The internal circuitry of the pump control unit is shown in Figure YC3. The circuit is shown with the magnet closing the low reed switch circuit (measured variable below low setpoint). With this switch closed, the relay coil is energized. In this state, the pump N.C. contact is closed and the pump is operating. Also the latch N.C. contact is closed to keep the relay latched on. As the liquid level builds up in the tank, the magnet moves away from the “low” reed switch and the switches’ contact opens. The relay does not de-energize because the latch N.C. contact keeps its energizing circuit closed. Pump Control Units YC-2 CI-53011/53012 Issue: 03/07 Y19249 Once the tank reaches the proper level (measured variable crossing high setpoint), the high switch is closed to short out the relay coil. The relay then de-energizes and both the “latch” and “pump” contacts drop to their N/O/ positions. The external pump circuit is opened and the pumping stops. The “latch” contacts are also opened and they remain open until the measured variable again falls below the low setpoint. OPERATION Units with Internal Setpoint Adjustments The high and low setpoint adjustments and the setpoint scale on these types are all a complete assembly. The scale is graduated in increments from 0-100% which corresponds to the instrument range. To set it, turn the low (green) and high (red) setpoint knobs until they are at the desired values. Note that the pointers cannot be crossed over behind each other due to mechanical detents. Figure YC3 - High or Low Alarm Circuit CI-53011/53012 YC-3 Pump Control Units Y19249 Issue: 03/07 Units with External Setpoint Adjustments The setpoint knobs and setpoint pointer on these types are located on the instrument face rather than the Pump Control Unit, itself. They attach to the control unit through an added mechanical coupling arrangement. To set it, turn the low (green) and high (red) setpoint knobs until the setpointers are at the desired values. Note that the pointers cannot be crossed over behind each other due to mechanical detents. TROUBLESHOOTING If the unit fails to operate properly, proceed with the following checks: 1. Using an ac voltmeter, measure potential across instrument wiring terminals L1 and L2. If 120 Vac is not present, check supply source for blown fuses or opens. 2. Disconnect external pump circuitry from terminals N.O., C and N.C. Connect ohmmeter across terminals C and either N.O. or N.C. Move appropriate setpoint adjustments so that setpointer crosses pen arm and activates alarm. Repeat test with opposite contact and note if contact closures occur in both instances. If switch action is normal, problem may be in external pump circuitry. If not, proceed with the next step. 3. Pull out colored leads (pin connections) from Pump Control Unit to isolate it from the relay. Touch ohmmeter leads lightly to socket pins (rear of socket) to make continuity checks. CAUTION Do not push ohmmeter test probes into relay socket openings. The relay socket can be permanently damaged by forcing test probes through the opening. 4. Check switch continuity by turning setpoint adjustments as described in step 2. Continuity should be measured between gray & red and also gray & blue lead pairs (gray is common, red is high and blue is low). Use schematic of Figure YC3 as guide. 5. If no switch action was observed in step 4, problem may be in the Control Unit. Check for defective reed switch or magnet that may have shifted positions. If switching action of step 4 was normal, proceed with next step. 6. Plug colored leads back into sockets of Control Unit. Make sure relay is plugged securely in its socket. If relay is defective, test operation of pump circuitry with a replacement relay. 7. If new relay does not correct problem, check for broken or shorted connections at socket assembly. Replace socket if defective. Bristol, Inc. 1100 Buckingham St., Watertown CT 06795 Pump Control Units YC-4 CI-53011/53012 8-Inch Pressure Recorder Material Safety Data Sheets Material Safety Data Sheets are provided herein to comply with OSHA’s Hazard Communication Standard, 29 CFR 1910.1200. This standard must be consulted for specific requirements. Material Safety Data Sheets are provided in the order listed in Table ZZ-1 below. TABLE ZZ-1 - MSDS for Models 53011/53012 Instruction Manual CI-53011/53012 Manufacturer Graphic Controls Graphic Controls General Description Slow Dry Aqueous Recording Ink Non-Bleed Aqueous Recording Ink Bristol Part Number or Media Notes MSDS #1008 - See Table Z-2 below MSDS #1088 - See Table Z-2 below TABLE Z-2 - Recording Inks Bristol Part 382476-16-6 382476-07-7 382476-10-7 382476-17-4 382476-08-5 382476-11-5 382476-18-2 382476-12-3 382476-34-4 375985-01-8 375985-02-6 375985-03-4 375985-04-2 375985-05-0 03/08/07 GC Part # 30988912 30982683 30987864 30988870 30988920 31375291 31417499 30987849 31417481 30929890 30930245 30930252 30930278 30929908 Color Red Red Red Blue Blue Blue Green Green Black Red Blue Green Red Blue Description 1 Oz. (Squeeze Plastic Bottle 1 Pint (16 Oz.) (Plastic) 1 Quart (32 Oz.) (Plastic 1 Oz. (Squeeze Plastic Bottle 1 Pint (16 Oz.) (Plastic) 1 Quart (32 Oz.) (Plastic 1 Oz. (Squeeze Plastic Bottle 1 Quart (32 Oz.) (Plastic 1 Oz. (Squeeze Plastic Bottle Short Tip,#1 Pen Medium Tip,#2 Pen Long Tip, #3 Pen Medium Tip for 56912 Short Tip for 56912 Appendix ZZ - CI-53011/53012 MSDS # 1088 1008 1008 1008 1008 1008 1008 1008 1008 1088 1088 1088 1088 1088 MSDS BLANK PAGE Graphic Controls 400 Exchange St. Buffalo, NY 14204-1271 USA 716-853-7500 Fax: 716-849-6412 MATERIAL SAFETY DATA SHEET DATE PREPARED: 7/2/03 Page 1 of 2 =============================================================================== SECTION I: IDENTIFICATION AND EMERGENCY INFORMATION PRODUCT NAME: SLOW DRY AQUEOUS RECORDER INK MSDS: #1008 PHONE NUMBER: 716-853-7500 OR 1-800-669-4428 EMERGENCY CONTACT: For Emergency Use Only: CHEMTREC 1-800-424-9300, Int’l 703-527-3887 =============================================================================== SECTION II: COMPOSITION, INFORMATION ON INGREDIENTS INGREDIENT (CAS No.) Water soluble dyestuffs %RANGE PEL/TLV TOXICOLOGICAL DATA 1-5 None Est. Blue and Purple inks contain acid violet 49 (1694-09-3) an IARC 2B suspect carcinogen. Glycerine (56-81-5) 20-40 None Est. Water (7732-18-5) 55-79 None Est. =============================================================================== SECTION III: HEALTH HAZARDS Routes of Entry INHALATION: No SKIN ABSORPTION: Yes INGESTION: Yes EYES: Yes EFFECTS OF ACUTE EXPOSURE: Skin: May cause irritation and skin staining due to dye salts. Eyes: Contact may cause irritation. Inhalation: Inhalation of vapors may result in respiratory irritation. Ingestion: May result in gastric disturbance. HMIS: HEALTH 1, FLAMMABILITY 0, REACTIVITY 0 EFFECTS OF CHRONIC EXPOSURE: None expected based on employee history of exposure. =============================================================================== SECTION IV: FIRST AID PROCEDURES Eye Contact: Flush with water 15 minutes minimum. If irritation persists, get prompt medical attention. Skin Contact: Remove contaminated clothing and wash skin thoroughly with soap and water. Inhalation: Remove person to fresh air. Aid breathing if necessary and get medical attention. Inhalation is unlikely to be a route of entry. Ingestion: If swallowed, dilute with water. Get medical attention. =============================================================================== SECTION V: FIRE DATA & FIRE FIGHTING MEASURES FLAMMABLE LIMITS: LEL: Not Applicable UEL: Not Applicable FLASH POINT (Tag Closed cup): Not Flammable EXTINGUISHING MEDIA: Use media proper to primary cause of fire. UNUSUAL FIRE AND EXPLOSION HAZARDS: Firefighters should be equipped with self-contained breathing apparatus and turn-out gear. HAZARDOUS COMBUSTION PRODUCTS: Acrolein NFPA: HEALTH 1, FLAMMABILITY 0, REACTIVITY 0 =============================================================================== SECTION VI: ACCIDENTAL RELEASE MEASURES Personal Protective Equipment: Organic vapor respirator, if hot vapors are generated. Rubber gloves and goggles to avoid prolonged contact. Wipe up spills with towels or cloths. Remove stains with soapy water. =============================================================================== SECTION VII: HANDLING AND STORAGE Special Handling Procedures and Equipment: None Storage: No special requirements =============================================================================== SLOW DRY AQUEOUS RECORDER INK MSDS #1008 Page 2 of 2 =============================================================================== SECTION VIII: EXPOSURE CONTROLS, PERSONAL PROTECTION Engineering Controls: Mechanical (General) ventilation is satisfactory Personal Protective Equipment: Rubber gloves and goggles to avoid prolonged contact. =============================================================================== SECTION IX: PHYSICAL DATA BOILING POINT: 100-288°C SPECIFIC GRAVITY (H20=1): 1.075 - 1.105 VAPOR PRESSURE - Due to H20 only. SOLUBILITY IN WATER: Complete EVAPORATION RATE - Due to H20 only pH: 4.0 - 8.0 VAPOR DENSITY - Due to H20 only FREEZING POINT: - 26°C ODOR: Slight characteristic odor COLORS: Black, Red, Blue, Green, Yellow, Purple, Orange, or Brown Liquid. COEFF. OF WATER/OIL DISTRIBUTION - none established ================================================================================ SECTION X: STABILITY AND REACTIVITY DATA STABILITY: Stable REACTIVITY: None INCOMPATIBILITY (MATERIALS TO AVOID): None HAZARDOUS DECOMPOSITION PRODUCTS: Acrolein HAZARDOUS POLYMERIZATION: Will not occur ================================================================================ SECTION XI: TOXICOLOGICAL INFORMATION EXPOSURE LIMIT: None established. LD50: >5gm/kg (oral-rat); >2gm/kg (dermal rabbit) SKIN AND EYE IRRITANCY: Non-irritant (Rabbit Tests) SENSITIZATION, CARCINOGENICITY, REPRODUCTIVE TOXICITY, TERATOGENICITY, MUTAGENICITY: Not established. None expected based on employee history of exposure. SYNERGISTIC MATERIALS. None known ================================================================================ SECTION XII: ECOLOGICAL INFORMATION None available ================================================================================ SECTION XIII: DISPOSAL CONSIDERATIONS Waste disposal should be in accordance with existing Federal, State, and Local environmental control regulations. ================================================================================ SECTION XIV: TRANSPORTATION INFORMATION Not a hazardous material for DOT shipping. ================================================================================ SECTION XV: REGULATORY INFORMATION This product is regulated under the Hazard Communication Standard (29CFR 1910.1200). This information relates to the specific material designated and may not be valid for such material used in combination with any other materials or in any process. The information and recommendations contained herein are, to the best of Graphic Control’s knowledge and belief, accurate and reliable as of the date issued. Graphic Controls makes no warranty, either expressed or implied, with respect to the completeness or continuing accuracy of the information contained herein and disclaims all liability for reliance thereon. ================================================================================ SECTION XVI: ADDITIONAL INFORMATION Revision: 1 - Area code change 9/25/00 TPS 2 - Address Change – 10/30/01 Graphic Controls 400 Exchange St. Buffalo, NY 14204-1271 USA 716-853-7500 Fax: 716-849-6412 MATERIAL SAFETY DATA SHEET DATE PREPARED: 12/17/02 Page 1 of 2 =============================================================================== SECTION I: IDENTIFICATION AND EMERGENCY INFORMATION PRODUCT NAME: NON-BLEED AQUEOUS RECORDER INK MSDS: #1088 PHONE NUMBER: 716-853-7500 OR 1-800-669-4428 EMERGENCY CONTACT: For Emergency Use Only: CHEMTREC 1-800-424-9300, Int’l 703-527-3887 =============================================================================== SECTION II: COMPOSITION, INFORMATION ON INGREDIENTS INGREDIENT (CAS No.) Water soluble dyestuffs %RANGE PEL/TLV TOXICOLOGICAL DATA 1-5 None Est. Blue, and Purple inks contain acid violet 49 dye (1694-09-3) an IARC 2B suspect carcinogen. Glycerine (56-81-5) 30-50 None Est. Water (7732-18-5) 45-69 None Est. =============================================================================== SECTION III: HEALTH HAZARDS Routes of Entry INHALATION: No SKIN ABSORPTION: Yes INGESTION: Yes EYES: Yes EFFECTS OF ACUTE EXPOSURE: Skin: May cause irritation and skin staining due to dye salts. Eyes: Contact may cause irritation. Inhalation: Inhalation of vapors may result in respiratory irritation. Ingestion: May result in gastric disturbance. HMIS: HEALTH 1, FLAMMABILITY 0, REACTIVITY 0 EFFECTS OF CHRONIC EXPOSURE: None expected based on employee history of exposure. =============================================================================== SECTION IV: FIRST AID PROCEDURES Eye Contact: Flush with water 15 minutes minimum. If irritation persists, get prompt medical attention. Skin Contact: Remove contaminated clothing and wash skin thoroughly with soap and water. Inhalation: Remove person to fresh air. Aid breathing if necessary and get medical attention. Inhalation is unlikely to be a route of entry. Ingestion: If swallowed, dilute with water. Get medical attention. =============================================================================== SECTION V: FIRE DATA & FIRE FIGHTING MEASURES FLAMMABLE LIMITS: LEL: Not Applicable UEL: Not Applicable FLASH POINT (Tag Closed cup): Not Flammable EXTINGUISHING MEDIA: Use media proper to primary cause of fire. UNUSUAL FIRE AND EXPLOSION HAZARDS: Firefighters should be equipped with self-contained breathing apparatus and turn-out gear. HAZARDOUS COMBUSTION PRODUCTS: Acrolein NFPA: HEALTH 1, FLAMMABILITY 0, REACTIVITY 0 =============================================================================== SECTION VI: ACCIDENTAL RELEASE MEASURES Personal Protective Equipment: Organic vapor respirator, if hot vapors are generated. Rubber gloves and goggles to avoid prolonged contact. Wipe up spills with towels or cloths. Remove stains with soapy water. =============================================================================== SECTION VII: HANDLING AND STORAGE Special Handling Procedures and Equipment: None Storage: No special requirements ================================================================================== NON-BLEED AQUEOUS RECORDER INK MSDS #1088 Page 2 of 2 ================================================================================== SECTION VIII: EXPOSURE CONTROLS, PERSONAL PROTECTION Engineering Controls: Mechanical (General) ventilation is satisfactory Personal Protective Equipment: Rubber gloves and goggles to avoid prolonged contact. =============================================================================== SECTION IX: PHYSICAL DATA BOILING POINT: 100-288°C SPECIFIC GRAVITY (H20=1): 1.005 - 1.110 VAPOR PRESSURE - Due to H20 only. SOLUBILITY IN WATER: Complete EVAPORATION RATE - Due to H20 only pH: 3.0 - 6.0 VAPOR DENSITY - Due to H20 only FREEZING POINT: 0°C ODOR: Slight characteristic odor COLORS: Red, Blue, Green, Orange, or Purple Liquid COEFF. OF WATER/OIL DISTRIBUTION - none established ================================================================================ SECTION X: STABILITY AND REACTIVITY DATA STABILITY: Stable REACTIVITY: None INCOMPATIBILITY (MATERIALS TO AVOID): None HAZARDOUS DECOMPOSITION PRODUCTS: Acrolein HAZARDOUS POLYMERIZATION: Will not occur ================================================================================ SECTION XI: TOXICOLOGICAL INFORMATION EXPOSURE LIMIT: None established. LD50: >5gm/kg (oral-rat); >2gm/kg (dermal rabbit) SKIN AND EYE IRRITANCY: Non-irritant (Rabbit Tests) SENSITIZATION, CARCINOGENICITY, REPRODUCTIVE TOXICITY, TERATOGENICITY, MUTAGENICITY: Not established. None expected based on employee history of exposure. SYNERGISTIC MATERIALS. None known ================================================================================ SECTION XII: ECOLOGICAL INFORMATION None available ================================================================================ SECTION XIII: DISPOSAL CONSIDERATIONS Waste disposal should be in accordance with existing Federal, State, and Local environmental control regulations. ================================================================================ SECTION XIV: TRANSPORTATION INFORMATION Not a hazardous material for DOT shipping. ================================================================================ SECTION XV: REGULATORY INFORMATION This product is regulated under the Hazard Communication Standard (29CFR 1910.1200). This information relates to the specific material designated and may not be valid for such material used in combination with any other materials or in any process. The information and recommendations contained herein are, to the best of Graphic Control’s knowledge and belief, accurate and reliable as of the date issued. Graphic Controls makes no warranty, either expressed or implied, with respect to the completeness or continuing accuracy of the information contained herein and disclaims all liability for reliance thereon. ================================================================================ SECTION XVI: ADDITIONAL INFORMATION Revision: 1 - Changed area code form 609 to 856 BT 2/25/00 2 - Address Change – 10/30/01 BLANK PAGE Customer Instruction Manual CI-53011/53012 8 Inch - One & Two-Pen Pressure Chart Recorders Models 53011-10B & 53012-10B Mar., 2007 Emerson Process Management Bristol, Inc. 1100 Buckingham Street Watertown, CT 06795 Phone: +1 (860) 945-2262 Fax: +1 (860) 945-2525 www.EmersonProcess.com/Bristol Emerson Electric Canada, Ltd. Bristol Canada 6338 Viscount Rd. Mississauga, Ont. L4V 1H3 Canada Phone: 905-362-0880 Fax: 905-362-0882 www.EmersonProcess.com/Bristol Emerson Process Management BBI, S.A. de C.V. Homero No. 1343, 3er Piso Col. Morales Polanco 11540 Mexico, D.F. Mexico Phone: (52-55)-52-81-81-12 Fax: (52-55)-52-81-81-09 www.EmersonProcess.com/Bristol Emerson Process Management Bristol Babcock, Ltd. Blackpole Road Worcester, WR3 8YB United Kingdom Phone: +44 1905 856950 Fax: +44 1905 856969 www.EmersonProcess.com/Bristol Emerson Process Management Bristol, Inc. 22 Portofino Crescent, Grand Canals Bunbury, Western Australia 6230 Mail to: PO Box 1987 (zip 6231) Phone: +61 (8) 9725-2355 Fax: +61 (8) 8 9725-2955 www.EmersonProcess.com/Bristol The information in this document is subject to change without notice. Every effort has been made to supply complete and accurate information. However, Bristol, Inc. assumes no responsibility for any errors that may appear in this document. If you have comments or questions regarding this manual, please direct them to your local Bristol sales representative, or direct them to one of the addresses listed at left. Bristol, Inc. does not guarantee the accuracy, sufficiency or suitability of the software delivered herewith. The Customer shall inspect and test such software and other materials to his/her satisfaction before using them with important data. There are no warranties, expressed or implied, including those of merchantability and fitness for a particular purpose, concerning the software and other materials delivered herewith. The Emerson logo is a trade mark and service mark of Emerson Electric Co. Trademarks or copyrighted products mentioned in this document are for information only, and belong to their respective companies, or trademark holders. Copyright (c) 2007, Bristol, Inc., 1100 Buckingham St., Watertown, CT 06795. No part of this manual may be reproduced in any form without the express written permission of Bristol, Inc.