F420-D1 series
Transcription
F420-D1 series
HYDRAULIC FILTRATION F420-D1 series In line high pressure filters Technical Information Housing Pressure: Max working 420 bar (6000 psi) (acc. to NFPA T 3.10.5.1) Burst 1260 bar (18300 psi) (acc. to NFPA T 3.10.5.1) Connection Ports: 1/2”÷1 1/2” BSP (other thread options on request) 3/4”÷1 1/2” SAE J518-6000 Materials: Head: Bowl: Seal: cast iron extruded steel Buna-N (FKM on request) By-pass: No by-pass or 6 bar (90 psi) setting Element Filter Media: Microglass fiber 4,5 – 7 – 12 – 18 - 27 µm(c) (acc. to ISO 16889) Cellulose 10 - 25 µm(c) (acc. to ISO 16889) Differential collapse pressure: 21 bar (300 psi) or 210 bar (3000 psi) (acc. to ISO 2941) Common Filtrec elements are tested also according to ISO 2942 and ISO 23181 Working temperature: -25°C +120°C (-13°F +248°F) Fluid compatibility (acc. to ISO 2943): Full with HH-HL-HM-HV (acc. to ISO 6743/4). For use with other fluid applications please contact Filtrec Customer Service (info@filtrec.it). w w w. f i l t r e c . c o m F420-D1 series Ordering information MEDIA 000 G03 G06 G10 G15 G25 *C10 *C25 no element microglass fiber ß4,5 µm ( ) >1000 microglass fiber ß7 µm ( ) >1000 microglass fiber ß12 µm ( ) >1000 microglass fiber ß18 µm ( ) >1000 microglass fiber ß27 µm ( ) >1000 cellulose ß10 µm ( ) >2 cellulose ß20 µm ( ) >2 C C C C C C C * Only for Dp 21 bar (300 psi) Filter assembly F420-D1 Filter element D-1 NOMINAL SIZE MEDIA ELEMENT COLLAPSE SEALS CONNECTION BY-PASS INDICATOR PORT OPTION INDICATOR 30 G10 A V B5 D T Z30 30 G10 A V * A *B ELEMENT COLLAPSE 21 bar / 300 psi 210 bar / 3000 psi recommended with no by-pass option. SEALS B V NBR FKM CONNECTION B3 B4 B5 B6 B7 H4M H5M H6M H7M 1/2” BSP 3/4” BSP 1” BSP 1 1/4” BSP 1 1/2” BSP 3/4” SAE J518-6000 - flange 1” SAE J518-6000 - flange 1 1/4” SAE J518-6000 - flange 1 1/2” SAE J518-6000 - flange For different thread options please check availability with Filtrec Customer Service. BY-PASS 0 D no by-pass 6 bar / 90 psi T INDICATOR PORT OPTION indicator port, plugged INDICATOR F420-D1 series TO BE USED WITH NO BY-PASS OPTION ONLY 2 000 Z30 Z31 Z32 Z33 no indicator differential visual 5 bar/ 70 psi differential electrical visual 5 bar/ 70 psi differential visual 8 bar/ 120 psi differential electrical visual 8 bar/ 120 psi Overall dimensions Identification label Identification label Indicator port L1 Indicator port H2 A A A H1 H1 H2 A B1 B1 L1 D1 R R FOR F420-D143 ONLY 30 D1 D2 F420-D11x = 105 B2 Ø F x Depth F420-D14x = 140 B2 Ø F x Depth B3 F420-D12x = 105 F420-D1-1x Indicator port Indicator port Nominal size CODE F420-D110 F420-D111 F420-D112 F420-D120 F420-D121 F420-D124 F420-D140 F420-D141 F420-D142 F420-D143 A 1/2" BSP 3/4” BSP 3/4" BSP - flange 1" BSP - flange 1" BSP 1"1/4 BSP - flange 1"1/2 BSP - flange B1 27 27 27 39 39 39 47 47 47 47 B2 46 46 46 57 57 57 76 76 76 76 B3 37 37 37 64 64 64 64 D1 D2 70 70 70 78,5 78,5 78,5 108 108 108 108 120 F M8x15 M8x15 M8x15 M10x18 M10x18 M10x18 M12x22 M12x22 M12x22 M12x22 H1 183 210 303 222 333 268 262 355 475 568 H2 103 113 145 L1 100 100 100 110 110 110 140 140 140 140 R 130 130 130 130 130 130 140 140 140 140 WEIGHT 4,1Kg 4,4 Kg 5,4 Kg 6,7 Kg 8,4 Kg 7,4 Kg 13,2 Kg 15,5 Kg 18,4 Kg 22,8 Kg For alternative version, types and dimensions, see page 8 F420-D1 series 3 Pressure drop diagrams The total Pressure Drop (Dp) value is obtained by adding the Dp values of filter housing and filter element at the given flow rate. This ideally should not exceed 1,0 bar (14,5 psi) and should never exceed 1/3 of the set value of the by-pass valve. Housing F420-D11... PRESSURE DROP THROUGH THE FILTER HOUSING The Pressure Drop through the filter housing is governed by the port, not the bowl length and the oil viscosity. Flow rate (gpm) 5 0 10 F420-D1-1x 3/4” 20 F420-D1 1x 1/2” 15 0.8 ∆p (psi) 1.2 10 0.4 0.0 5 0 40 20 60 80 100 120 0 Flow rate (l/min) Element D110-..-A Element D110-..-B Flow rate (gpm) Flow rate (gpm) 10 30 25 The Pressure Drop through the filter element is related both to the internal diameter of the filter element and to the filter media; this value is affected by the oil viscosity in a roughly proportional way: e.g. when the Dp value from the curve is 0,2 bar and a 46 cSt oil is used, the corresponding value is 0,31 (=0,2 x 46/30) bar. 5 20 1.6 PRESSURE DROP THROUGH THE CLEAN FILTER ELEMENT 0 15 2 15 5 0 30 20 10 15 G10 G15 20 30 2 2 G03 G03 G06 G06 25 G10 1.6 25 1.6 G15 20 G25 20 G25 C10 10 ∆p (psi) 15 0.8 15 0.8 10 ∆p (psi) 1.2 1.2 C25 0.4 0 20 40 60 80 120 100 0.0 0 5 0 20 40 Element D111-..-A 10 0 30 20 5 10 15 20 30 2 25 G10 15 G25 C25 20 40 60 80 10 0.4 5 120 100 0.0 0 5 0 20 15 10 15 20 30 G15 G25 15 G15 G25 10 120 10 0.4 5 C25 100 G10 0.8 C10 0.4 20 G06 1.2 ∆p (psi) 15 G10 80 G03 20 0.8 60 0 25 1.6 G06 40 5 25 1.2 20 120 100 2 G03 0 80 Flow rate (gpm) 0 30 20 2 1.6 60 Element D112-..-B Flow rate (gpm) 10 40 Flow rate (l/min) Element D112-..-A 5 15 0.8 Flow rate (l/min) 0 20 G15 G25 10 C10 0 G10 1.2 0.8 0.4 G06 20 G15 1.2 25 G03 1.6 ∆p (psi) G06 ∆p (psi) G03 1.6 0.0 0 Flow rate (gpm) 15 2 0.0 120 100 Element D111-..-B Flow rate (gpm) 5 80 Flow rate (l/min) Flow rate (l/min) 0 60 0.0 0 5 0 20 40 60 80 Flow rate (l/min) Flow rate (l/min) F420-D1 series 4 100 120 0 ∆p (psi) 0.0 0.4 5 Pressure drop diagrams Housing F420-D12/D13... PRESSURE DROP THROUGH THE FILTER HOUSING The Pressure Drop through the filter housing is governed by the port, not the bowl length and the oil viscosity. 0 5 10 15 0.8 ∆ p (psi) ∆ p (bar) 20 10 0.4 0.0 20 30 F420-D1-2x 1” F420-D1-3x 1” 0 0 40 20 40 60 80 Flow rate (l/min) 100 120 5 140 0 5 10 Flow rate (gpm) 15 20 30 40 2 G03 25 G06 25 1.6 G25 20 G10 ∆ p (bar) 15 G15 0.8 G06 20 G10 1.2 ∆ p (PSI) G03 1.6 1.2 G15 15 G25 0.8 ∆ p (psi) 2 ∆ p (bar) 40 Element D120-..-B Flow rate (gpm) 15 30 F420-D1-2x 3/4” F420-D1-3x 3/4” 1.2 Element D120-..-A 10 20 25 The Pressure Drop through the filter element is related both to the internal diameter of the filter element and to the filter media; this value is affected by the oil viscosity in a roughly proportional way: e.g. when the Dp value from the curve is 0,2 bar and a 46 cSt oil is used, the corresponding value is 0,31 (=0,2 x 46/30) bar. 5 15 1.6 PRESSURE DROP THROUGH THE CLEAN FILTER ELEMENT 0 Flow rate (gpm) 2 10 10 C10 0.4 0 20 40 60 80 Flow rate (l/min) 100 120 0.4 5 140 0.0 0 5 0 20 40 Element D121-..-A 0 5 10 Flow rate (gpm) 15 20 60 80 Flow rate (l/min) 100 120 140 Element D121-..-B 30 0 40 2 5 10 Flow rate (gpm) 15 20 30 40 2 G03 25 25 G03 1.6 1.6 G15 G25 C10 C25 0 20 40 60 80 Flow rate (l/min) 100 1.2 G06 0.8 G10 G15 G25 15 10 G10 0.4 ∆ p (bar) 15 G06 0.8 20 ∆ p (psi) ∆ p (bar) 20 1.2 0.0 0 120 140 10 0.4 5 0.0 0 ∆ p (psi) 0.0 C25 5 0 20 40 60 80 Flow rate (l/min) 100 120 140 0 F420-D1 series 5 Pressure drop diagrams Housing F420-D14/D15... PRESSURE DROP THROUGH THE FILTER HOUSING The Pressure Drop through the filter housing is governed by the port, not the bowl length and the oil viscosity. Flow rate (gpm) 0 10 20 30 40 50 60 70 0.0 0 90 180 270 360 5 450 0 Flow rate (l/min) Element D140-..-B Flow rate (gpm) 80 90 100 110 0 10 20 30 40 G03 50 60 70 80 90 100 110 G06 ∆ p (bar) C10 ∆ p (psi) 15 0.8 90 180 270 360 450 15 0.8 0.4 0.0 0 5 90 0 180 Flow rate (l/min) 20 30 40 50 60 70 360 450 0 Element D141-..-B Flow rate (gpm) 10 270 Flow rate (l/min) Element D141-..-A 0 20 1.2 10 5 0 G25 10 C25 0.4 G15 20 G25 1.2 25 G10 1.6 Flow rate (gpm) 80 90 100 110 0 2 10 20 30 40 50 60 70 80 90 100 110 2 G03 G03 25 1.6 20 90 180 270 360 450 0.0 0 5 0 90 180 30 40 50 60 70 360 450 0 Element D142-..-B Flow rate (gpm) 20 270 Flow rate (l/min) Element D142-..-A 10 10 0.4 5 Flow rate (l/min) 0 G25 ∆ p (psi) 15 G15 0.8 10 C25 0 G10 1.2 G25 C10 0.4 ∆ p (bar) 15 G10 0.8 20 ∆ p (psi) 1.2 G15 25 G06 1.6 G06 Flow rate (gpm) 80 90 100 110 0 2 10 20 30 40 50 60 70 80 90 100 110 2 G03 G03 25 25 1.6 1.6 20 G10 0 90 180 270 360 15 G10 0.8 G15 10 10 G25 G15 G25 C10 C25 0.4 G06 1.2 0.4 5 450 0.0 0 Flow rate (l/min) 5 0 90 180 270 Flow rate (l/min) F420-D1 series 6 360 450 0 ∆ p (psi) 15 G06 0.8 ∆ p (psi) 1.2 ∆ p (bar) 20 ∆ p (bar) ∆ p (psi) G10 G06 G15 ∆ p (bar) 10 F420-D1 4x 1” 1/2 F420-D1 5x 1” 1/2 25 0.0 ∆ p (psi) ∆ p (bar) 15 F420-D1 4x 1” F420-D1 5x 1” 0.8 0.4 1.6 ∆ p (bar) 20 2 G03 0.0 90 100 110 F420-D1 4x 1” 1/4 F420-D1 5x 1” 1/4 2 0.0 80 1.2 Flow rate (gpm) 30 70 25 Element D140-..-A 20 60 1.6 The Pressure Drop through the filter element is related both to the internal diameter of the filter element and to the filter media; this value is affected by the oil viscosity in a roughly proportional way: e.g. when the Dp value from the curve is 0,2 bar and a 46 cSt oil is used, the corresponding value is 0,31 (=0,2 x 46/30) bar. 10 50 2 PRESSURE DROP THROUGH THE CLEAN FILTER ELEMENT 0 40 Pressure drop diagrams Element D143-..-A Element D143-..-B Flow rate (gpm) 0 10 20 30 40 50 60 70 Flow rate (gpm) 80 0 90 100 110 2 10 20 30 40 50 60 70 80 90 100 110 2 G03 G03 25 25 1.6 1.6 G15 C10 C25 0 90 270 180 360 0.8 450 0.0 0 0 90 30 40 50 60 70 450 0 Flow rate (gpm) 80 90 100 110 0 2 10 20 30 40 50 60 70 80 90 100 110 2 G03 G06 G06 G10 25 G10 1.6 G25 15 0.0 C25 0 90 270 180 360 20 1.2 15 0.8 10 10 C10 0.4 ∆ p (psi) G25 0.8 ∆ p (bar) 20 G15 1.2 25 G15 0.4 5 450 ∆ p (psi) G03 1.6 ∆ p (bar) 5 Element D154-..-B Flow rate (gpm) 20 360 10 Flow rate (l/min) Element D154-..-A 10 270 180 Flow rate (l/min) 0 15 G10 G15 G25 0.4 5 G25 0.0 G06 10 G10 0.4 ∆ p (bar) 0.8 ∆ p (psi) ∆ p (bar) 15 G06 1.2 ∆ p (psi) 20 20 1.2 0.0 0 5 0 90 Flow rate (l/min) 180 270 360 450 0 Flow rate (l/min) By-pass F420-1... PRESSURE DROP THROUGH THE BY-PASS VALVE Flow rate (gpm) The by-pass valve is a safety device to prevent element collapse in case of differential pressure peaks due to flow peaks, cold start conditions or when the clogged element is not replaced in a timely manner. 0 2.5 5 7.5 15 10 10 125 8 75 4 50 2 0 ∆p (psi) 100 6 25 0 10 20 30 40 50 0 60 Flow rate (l/min) By-pass F420-2... By-pass F420-4... Flow rate (gpm) 5 10 15 Flow rate (gpm) 20 30 40 10 0 13.5 26.5 40 53.5 66.5 125 125 8 8 100 100 75 4 ∆ p (bar) 6 ∆ p (psi) ∆ p (bar) 80 6 75 4 50 50 2 2 25 0 20 40 60 80 100 120 25 0 0 0 0 0 140 Flow rate (l/min) ∆ p (psi) 10 0 60 120 180 240 300 Flow rate (l/min) The above diagrams have been obtained at the FILTREC laboratory, according to the ISO 3968 specification, with mineral oil having 30 cSt viscosity and 0,86 Kg/dm3 density. In case of discrepancy, please check contamination level, viscosity and features of the oil in use and the sampling points of the differential pressure. F420-D1 series 7 Filter Elements The F420 series is usually equipped with filter elements according to a widely accepted (US based) industry standard, having the dimensions listed here below. Element A B C D110 D111 D112 D120 D121 D124 D140 D141 D142 D143 45 45 45 50 50 50 78 78 78 78 25,5 25,5 25,5 24,5 24,5 24,5 43,2 43,2 43,2 43,2 86 113 209 116 209 159 116 209 329 428 H2 Alternative version Element A B C Delta P diagram D130 D131 D150 D151 D152 D153 D154 53 53 78 78 78 78 78 27,5 27,5 40,5 40,5 40,5 40,5 40,5 120 230 116 235 375 520 140 see D120 see D121 see D140 see D141 see D142 see D143 see diagram F420-D1 series 8 H1 The F420 series can be optionally equipped with filter elements according to a different standard (European based), having the dimensions listed here below. Their performances are corresponding to the standard version as indicated in the table, where you can see also the different filter housing lengths if applicable. * Housing dimensions except *H1 see see see see see see see D120 D121 D140 D141 D142 D143 D141 *H1 H2 222 333 262 394 543 660 317 113 145 Clogging indicator The Pressure Drop (Dp) through the filter increases during the system operation due to the contaminant retained by the filter element. The filter element must be replaced when the indicator shows an alarm and before the Dp reaches the by-pass value setting. N.B. in cold start conditions a false alarm can be caused by higher oil viscosity due to low temperature; the indicator alarm must be considered at normal working temperature only. The differential clogging indicator registers the pressure upstream and downstream the filter element and activates a signal when the differential pressure reaches the set value: •in the VISUAL indicator the signal is given by a green sector switching into red. •in the ELECTRIC VISUAL indicator, further to the green to red visual indication, an electrical switch is activated. N.B. the set value of the clogging indicator must always be lower than the set value of the by-pass valve. DIFFERENTIAL VISUAL 39 SYMBOL 28,5 30 CODE Z30 Z32 O-RING M20x1,5 SETTING 5 bar (70 psi) 8 bar (120 psi) Visual indicator: • GREEN: clean element • RED: dirty element DIFFERENTIAL ELECTRIC VISUAL 71 SYMBOL 48 o CODE Z31 Z33 28,5 30 O-RING M20x1,5 SETTING 5 bar (70 psi) 8 bar (120 psi) • Visual indicator: -GREEN: clean element - RED: dirty element • Electric plug connection as per DIN 43650 • Protection: IP65 acc. to DIN 40050 • Max current: 5A resistive 1A inductive • Max voltage: 250V AC - 30V DC F420-D1 series 9 User Tips FIXING HOLES T OU IDENTIFICATION LABEL INDICATOR PORT: FILTER HEAD IN SEAL KIT Visual Electric Visual FILTER ELEMENT FILTER BOWL SPARE SEAL KIT PART NUMBER NBR FKM F420-D1-10 06.021.00090 06.021.00135 F420-D1-20/30 06.021.00131 06.021.00136 F420-D1-40/50 06.021.00095 06.021.00137 BOWL TIGHTENING TORQUE F420-D1-10 65 Nm F420-D1-20/30 75 Nm F420-D1-40/50 90 Nm INDICATOR TIGHTENING TORQUE Z30/Z31/Z37/Z38 90 Nm Installation Maintenance Make sure that the filter is connected in the correct IN-OUT flow direction (shown by an arrow on the filter head). The filter housing should be preferably mounted with the bowl downward; the filter head should be properly secured using the threaded fixing holes on the filter head; verify that no tension is present on the filter after mounting. Make sure that enough space is available for element replacement and that the clogging indicator is in a easily viewable position. If an electrical indicator is used, make sure that it is properly wired. Never run the system without a filter element fitted. We recommend the stocking of a spare FILTREC filter element for timely replacement when required. Before opening the filter housing, ensure that the system is switched off and there is no residual pressure in the filter. Unscrew the bowl by turning it anticlockwise. Remove the dirty filter element pulling it carefully; replace it with a FILTREC element, verifying the part number, particularly concerning the micron rating. When fitting the new element, open the plastic protection on the top and insert the element over the spigot in the filter head, then remove completely the plastic protection. Clean carefully the bowl; check the gaskets conditions and replace if necessary; when replacing the bowl’s gaskets ensure that the back-up ring is located below the O-ring and it is in the right verso (concave side up), lubricate the threads and screw by hand the bowl in the filter head by turning it clockwise. Tighten at the recommended torque. N.B. The used filter elements cannot be cleaned and re-used. Operation Make sure that the filter works within the conditions of pressure, temperature and fluid compatibility given in the first page of this data sheet. The filter element must be replaced as soon as the clogging indicator signals at working temperature (in cold start conditions, oil temperature lower than 30°C, a false alarm can be given due to oil viscosity). If no clogging indicator is mounted, make sure that the filter element is replaced according to the system manufacturer’s recommendations. PED Compliance F420-D1 filters conform to PED 97/23/CE norm, article 3 section 3, and so they can be used with fluids of group 2 ( liquids with steam pressure < 0,5 bar at the maximum allowable temperature, article 3, section 1.1(b) – sub-section II). WARNING Make sure that Personal Protective Equipment (PPE) is worn during installation and maintenance operation. Disposal of filter elements The used filter elements and the filter parts dirty of oil are classified as “Dangerous waste material”: they must be disposed according to the local laws by authorized Companies. F420-D1 series 10 CT08-rev.01-09/15 F420-D1 series w w w. f i l t r e c . c o m Technical information may change without notice
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