Repair - Parts H-VR 313540G EN Hydraulic Variable Ratio, Heated, Plural-Component Proportioner For spraying polyurethane foam and polyurea coatings. Not for use in explosive atmospheres. Important Safety Instructions Read all warnings and instructions in this manual. Save these instructions. See page 3 for model information, including maximum working pressure and approvals. U.S. Patent Pending Russian Patent No. 2359181 r_256886_313539_1 #ONFORMS TO !.3) 5, 3TD #ERTIFIED TO #!.
Contents Models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Supplied Manuals . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Related Manuals . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Warnings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Isocyanate Conditions . . . . . . . . . . . . . . . . . . . . . . 7 Material Self-ignition . . . . . . . . . . . . . . . . . . . . . . . . 7 Moisture Sensitivity of Isocyanates . . . . . . . . . . . .
Models Models H-VR SERIES Part, Series 256886 256887 * ◆ Full Load Peak Amps* Per Phase 71 41 Voltage (phase) System Watts† 230V (3) 26,600 400V (3) 26,600 Primary Heater Watts Max Flow Rate◆ lb/min (kg/min) Approximate Output per Hydraulic Cycle (A+B) Pressure gal. (liter) Ratio Maximum Fluid Working Pressure psi (MPa, bar) 15,300 15,300 30 (13.6) 30 (13.6) Variable Variable 3500 (24.1, 241) 3500 (24.
Supplied Manuals Supplied Manuals Related Manuals The following manuals are used with the Reactor™ HV-R Proportioner. Refer to these manuals for detailed equipment information. The following manuals are for accessories used with the Reactor™. Order Part 15M334 for a compact disk of Reactor manuals.
Warnings Warnings The following warnings are for the setup, use, grounding, maintenance, and repair of this equipment. The exclamation point symbol alerts you to a general warning and the hazard symbol refers to procedure-specific risk. Refer back to these warnings. Additional, product-specific warnings may be found throughout the body of this manual where applicable. WARNING ELECTRIC SHOCK HAZARD This equipment must be grounded. Improper grounding, setup, or usage of the system can cause electric shock.
Warnings WARNING FIRE AND EXPLOSION HAZARD Flammable fumes, such as solvent and paint fumes, in work area can ignite or explode. To help prevent fire and explosion: • Use equipment only in well ventilated area. • Eliminate all ignition sources; such as pilot lights, cigarettes, portable electric lamps, and plastic drop cloths (potential static arc). • Keep work area free of debris, including solvent, rags and gasoline.
Isocyanate Conditions Isocyanate Conditions Spraying materials containing isocyanates creates potentially harmful mists, vapors, and atomized particulates. Read material manufacturer’s warnings and material MSDS to know specific hazards and precautions related to isocyanates. Prevent inhalation of isocyanate mists, vapors, and atomized particulates by providing sufficient ventilation in the work area.
Keep Components A and B Separate Keep Components A and B Separate NOTICE To prevent cross-contamination of the equipment’s wetted parts, never interchange component A (isocyanate) and component B (resin) parts. Foam Resins with 245 fa Blowing Agents Some foam blowing agents will froth at temperatures above 90°F (33°C) when not under pressure, especially if agitated. To reduce frothing, minimize preheating in a circulation system.
Temperature Control Diagnostic Codes Temperature Control Diagnostic Codes Temperature control diagnostic codes appear on temperature display. These alarms turn off heat. E99 clears automatically when communication is regained. Codes E03 through E06 can be cleared by pressing turn main power OFF . For other codes, then ON to clear.
Temperature Control Diagnostic Codes 4. Remove connector B from temperature control module, and check continuity of overtemperature switches A and B, thermocouples A and B, or FTS by measuring resistance across the pins on the plug end; see TABLE 1. NOTE: Before doing the following checks, note which zone (A, B, FTS, or all) has high fluid temperature.
Temperature Control Diagnostic Codes E04: Fluid Temperature Sensor (FTS) or thermocouple disconnected E05: Circuit board overheated NOTE: Each module has an on-board temperature sensor. Heat is turned off if module temperature exceeds 185°F (85°C) within the heater module. 1. Check temperature sensor connections to long green connector (B) on temperature control module, page 34. Unplug and re-plug sensor wires. 1. Check that fan above electrical cabinet is operating. 2.
Motor Control Diagnostic Codes Motor Control Diagnostic Codes Motor control diagnostic codes E21 through E27 appear on pressure display. Code There are two types of motor control codes: alarms and warnings. Alarms take priority over warnings. 99 Code Name Loss of communication Alarm (A) or Corrective Warning (W) Action page 15 A Alarms E21: No component A transducer Alarms turn off Reactor. Turn main power OFF 1.
Motor Control Diagnostic Codes E24: Pressure imbalance NOTE: Upon initial start-up this diagnostic code will not cause an alarm for 2 minutes. NOTE: If the pressure difference between components A and B exceeds 500 psi (3.5 MPa, 35 bar), an E24 will occur. This default value is adjustable; see the operation manual. The digital display always shows the higher of the two pressures. As soon as the higher analog pressure drops below the lower analog pressure, the display changes to the new higher reading.
Motor Control Diagnostic Codes b. a. Reverse connections at J3 and J8 on the motor control board. • b. Run the unit until pressure is 1000-1500 psi (7-10.5 MPa, 70-105 bar). c. If the problem stays on the same side as before, replace the motor control board. If the problem appears to move to the other side, replace the transducer. If the gauge readings are not very close: 1. Secure bleed lines in grounded waste containers, or route back to respective component A or B supply drum.
Motor Control Diagnostic Codes the motor thermal switch or the wire harness is bad. Check wiring, measure thermal switch continuity at motor, and replace failed part. 3. Unplug motor from J9 on motor control board. Install jumper across pins 1 and 2 on board. If error still occurs, replace motor control board. 4. If the E27 error is still occurring, the problem is with the motor control board.
Troubleshooting Troubleshooting Reactor Electronics 2. Turn main power OFF . 3. Allow equipment to cool. Before performing any troubleshooting procedures: 1. Relieve pressure, page 27. PROBLEM Try the recommended solutions in the order given for each problem, to avoid unnecessary repairs. Also, determine that all circuit breakers, switches, and controls are properly set and wiring is correct before assuming there is a problem. CAUSE SOLUTION Plug in power cord. No power.
Troubleshooting PROBLEM Hose display reads OA at startup. Display does not respond properly to button pushes. CAUSE FTS disconnected or not installed. Verify proper installation of FTS (see H-VR Operation manual 313539), or adjust FTS to desired current setting. Poor display connection. Check cable connections, page 42. Replace damaged cable. Display cable damaged or corroded. Clean connections; replace cable if is damaged. Ribbon cable on display circuit board Connect cable (page 42) or replace.
Troubleshooting Primary Heaters (A and B) 2. Turn main power OFF . 3. Allow equipment to cool. Try the recommended solutions in the order given for each problem, to avoid unnecessary repairs. Also, determine that all circuit breakers, switches, and controls are properly set and wiring is correct before assuming there is a problem. Before performing any troubleshooting procedures: 1. Relieve pressure, page 27. PROBLEM CAUSE SOLUTION Heat turned off. Press Primary heater(s) does not heat.
Troubleshooting Hose Heat System 2. Turn main power OFF . 3. Allow equipment to cool. Problems Before performing any troubleshooting procedures: Try the recommended solutions in the order given for each problem, to avoid unnecessary repairs. Also, determine that all circuit breakers, switches, and controls are properly set and wiring is correct before assuming there is a problem. 1. Relieve pressure, page 27. PROBLEM Hose heats but heats slower than usual or it does not reach temperature.
Troubleshooting PROBLEM CAUSE Faulty thermocouple connections. Verify that all FTS connections are snug and that pins of connectors are clean. Examine connection of thermocouples to long green plug on heater control board. Unplug and re-plug thermocouple wires, cleaning off any debris. Unplug and re-plug long green connector. FTS not installed correctly. FTS should be installed close to end of hose in same environment as gun. Verify FTS installation, page 39. FTS failed or is not contacting correctly.
Troubleshooting Hydraulic Drive System 2. Turn main power OFF . 3. Allow equipment to cool. Problems Before performing any troubleshooting procedures: Try the recommended solutions in the order given for each problem, to avoid unnecessary repairs. Also, determine that all circuit breakers, switches, and controls are properly set and wiring is correct before assuming there is a problem. 1. Relieve pressure, page 27. PROBLEM Electric motor will not start or stops during operation.
Troubleshooting PROBLEM Hydraulic pump does not develop pressure. Low or zero pressure with screeching noise. CAUSE SOLUTION Pump is not primed or lost its prime. Check electric motor rotation. Both motor and hydraulic pump must rotate counterclockwise when viewed from shaft end. If rotation is incorrect, reverse leads L1 and L2. See Connect Electrical Cord in Reactor H-VR Operation manual 313539. Check dipstick to ensure that hydraulic reservoir is properly filled (see H-VR Operation manual 313539).
Troubleshooting Proportioning System 2. Turn main power OFF . 3. Allow equipment to cool. Before performing any troubleshooting procedures: 1. Relieve pressure, page 27. PROBLEM Proportioning pump does not hold pressure when stalled. Problems Try the recommended solutions in the order given for each problem, to avoid unnecessary repairs. Also, determine that all circuit breakers, switches, and controls are properly set and wiring is correct before assuming there is a problem.
Troubleshooting PROBLEM Pumps do not reverse direction or pumps do not move. Erratic pump movement. CAUSE SOLUTION Damaged reversing switch assembly. See Pumps Do Not Reverse Direction, page 26. Faulty directional valve. See Pumps Do Not Reverse Direction, page 26. Pump cavitation. Feed pump pressure is too low. Adjust pressure to maintain 100 psi (0.7 MPa, 7 bar) minimum. Fluid is too thick.
Troubleshooting Ratio Lock Handle A Pump Arm B Pump Arm Ratio Adjustment Wheel B (Resin) Proportioning Pump A (ISO) Proportioning Pump Change Over Box Hydraulic Cylinder Reversing Switches 3 2 1 1 2 3 Switch Disk r_256886_313540_4 FIG. 1. Pump Line when viewed from rear of machine Table 2.
Troubleshooting Pumps Do Not Reverse Direction • 1. For the proportioning pumps to reverse direction, the switch disk must contact the reversing switches. Ensure that the change over box is assembled correctly and that none of the components are damaged. See FIG. 1 (page 25) and Parts (page 58). Toggle reversing switches. Ensure that continuity between 1150-NC and 1160-T-COM, and between 1150-NC and 1170-B-COM is lost.
Repair Repair Repairing this equipment requires access to parts that may cause electric shock or other serious injury if work is not performed properly. Have a qualified electrician connect power and ground to main power switch terminals, see operation manual. Be sure to shut off all power to the equipment before repairing. Pressure Relief Procedure 4. Turn PRESSURE RELIEF/SPRAY valves (SA, SB) to PRESSURE RELIEF/CIRCULATION . Route fluid to waste containers or supply tanks. Ensure gauges drop to 0. 1.
Repair Flushing Proportioning Pumps Flush equipment only in a well-ventilated area. Do not spray flammable fluids. Do not turn on heaters while flushing with flammable solvents. • Flush out old fluid with new fluid, or flush out old fluid with a compatible solvent before introducing new fluid. • Use the lowest possible pressure when flushing. • All fluid components are compatible with common solvents. Use only moisture-free solvents.
Repair 6. Turn both PRESSURE RELIEF/SPRAY valves (SA, SB) to PRESSURE RELIEF/CIRCULATION . Route fluid to waste containers or supply tanks. Ensure gauges drop to 0. 8. Disconnect all fluid hoses connected to pumps. 9. Remove pump base pin (183) and top pin (255) on both pumps. See page 57. SB SA ti9879a 183 NOTE: Use a drop cloth or rags to protect Reactor H-VR and surrounding area from spills. 184 r_256886_313539_7 FIG. 4: Remove Pump Pins 7. Remove guard.
Repair Circuit Breaker Module 1. Turn main power OFF Table 3: Circuit Breakers, see FIG. 5 . Disconnect power Ref. Size Component 809 50A Hose/Transformer Secondary Side 811 40A Transformer Primary 812A 50A Heater A 812B 50A Heater B 813 20A Motor/Pumps supply. Turn circuit breakers on to test. 2. Relieve pressure, page 27. 3. Using an ohmmeter, check for continuity across circuit breaker (top to bottom). If no continuity, trip breaker, reset, and retest.
Repair Electric Motor Installation 1. Place motor on unit. Removal 1. Turn main power OFF 2. Fasten motor with screws. . Disconnect power supply. 2. Relieve pressure, page 27. 3. Remove motor shroud. 3. Connect the wires, using wire nuts. Refer to the Reactor Electrical Diagram manual 312064 and the diagram inside the motor junction box cover. The motor must operate counterclockwise when looking at the output shaft. NOTE: 3-Phase Motors: motor must rotate counterclockwise when viewed from shaft end.
Repair Motor Control Board NOTE: Motor control board has one red LED (D11). Power must be on to check. See FIG. 6 for location. Function is: • • • • Startup: 1 blink for 60 Hz, 2 blinks for 50 Hz. Motor running: LED on. Motor not running: LED off. Diagnostic code (motor not running): LED blinks diagnostic code, pauses, then repeats (for example, E21=21 blinks, pause, 21 blinks).
Repair Motor Control J5 D11 ON 1 D19 D20 1 2 3 4 J3 (A) ti3178c-4 J8 (B) J9 ON J12 OFF SW2 J13 1 Apply 110009 thermal heatsink compound to mating surfaces. J18 J1 J14 J7 J4 ti7724a FIG. 6.
Repair Transducers diagnostic code follows; see E21: No component A transducer, page 12. 1. Turn main power OFF . Disconnect power supply. 5. If transducer fails test, thread cable through top of cabinet. Note path as cable must be replaced in same way. 6. Install o-ring (720) on new transducer (706), FIG. 7. 7. Install transducer in manifold. Mark end of cable with tape (red=transducer A, blue=transducer B). 2. Relieve pressure, page 27. 8. Route cable into cabinet and thread into bundle as before.
Repair Temperature Control Module Table 6: Temperature Control Module Connections Connector A H Description DATA (A) Data reporting PIN 12 11 10 HOSE T/C P; FTS (purple) HOSE T/C R; FTS (red) HOSE T/C S; FTS (silver (unshielded bare wire)) 9 HEATER T/C B, Y; Thermocouple (yellow) SENSOR (B) 8 HEATER T/C B, R; Thermocouple (red) 7 Not used 6 HEATER T/C A, Y; Thermocouple (yellow) 5 HEATER T/C A, R; Thermocouple (red) 4, 3 OVERTEMPERATURE B; Overtemperature switch B 2, 1 OVERTEMPERATURE A; Overtemperat
Repair Test SCR Circuit Replacing Temperature Control Assembly Modules 1. Test the SCR circuit in the on position: a. Make sure everything is connected, including the hose. b. Turn main power ON c. Adjust the hose heat setpoint above the ambient hose temperature. d. Turn on e. Hold down NOTICE Before handling assembly, put on a static conductive wrist strap to protect against static discharge which can damage assembly. Follow instructions provided with wrist strap. . heat zone by pressing 1.
Repair Primary Heaters 6. To remove heater element, first remove thermocouple (410) to avoid damage, see step 7, page 38. Heater Element 7. Remove heater element (407) from housing (401). Be careful not to spill any fluid left in housing. 8. Inspect element. It should be relatively smooth and shiny. If there is a crusted, burnt, ash-like material adhered to element or sheath shows pitting marks, replace element. 1. Turn main power OFF . Disconnect power supply. 9.
Repair 8. Replace thermocouple, FIG. 10. Thermocouple a. Remove protective tape from thermocouple tip (T). 1. Turn main power OFF . Disconnect power supply. b. Apply PTFE tape and thread sealant to male threads and tighten thermocouple housing (H) into adapter (405). c. Push in thermocouple (410) so tip (T) contacts heater element (407). 2. Relieve pressure, page 27. d. Holding thermocouple (T) against heater element, tighten ferrule nut (N) 1/4 turn past tight. 3. Wait for heaters to cool. 4.
Repair Overtemperature Switch 1. Turn main power OFF 5. If hose fails test, retest at each length of hose, including whip hose, until failure is isolated. . Disconnect power Check FTS Cables supply. 1. Turn main power OFF 2. Relieve pressure, page 27. . Disconnect power supply. 2. Relieve pressure, page 27. 3. Disconnect FTS cable (F) at Reactor, FIG. 11. 3. Wait for heaters to cool. 4. Remove heater shroud. 5. Disconnect one leadwire from overtemperature switch (408), FIG. 10.
Repair Fluid Temperature Sensor (FTS) 4. If FTS fails any test, replace FTS. Test/Removal 5. Disconnect air hoses (C, L), and electrical connectors (D). 1. Turn main power OFF 6. Disconnect FTS from whip hose (W) and fluid hoses (A, B). . Disconnect power supply. 7. Remove ground wire (K) from ground screw on underside of FTS. 2. Relieve pressure, page 27. 8. Remove FTS probe (H) from component A (ISO) side of hose. 3. Remove tape and protective covering from FTS (21), FIG. 11.
Repair Transformer Primary Check 1. Turn main power OFF . 2. Locate the two smaller (10 AWG) wires coming out of transformer. Trace these wires back to contactor and circuit breaker (811). Use an ohmmeter to test for continuity between two wires; there should be continuity. 3. To verify transformer voltage, turn on hose zone. Measure voltage from 18CB-2 to POD-HOSE-P15-2; see Reactor Electrical Diagrams manual 312064. Model Secondary Voltage 310 ft. 90 Vac* 410 ft.
Repair Display Module Red Stop Button Temperature and Pressure Displays NOTICE Before handling board, put on a static conductive wrist strap to protect against static discharge which can damage board. Follow instructions provided with wrist strap. NOTICE Before handling board, put on a static conductive wrist strap to protect against static discharge which can damage board. Follow instructions provided with wrist strap. 1. Turn main power OFF . Disconnect power supply. 1. Turn main power OFF .
Repair 1 Apply medium strength thread sealant. G 511 511 503 502 504 510 507 1 506 512 20 1 501 508 505 ti2574a 506 Detail of Membrane Switches and Display Boards Temperature Display 1 502c Pressure Display 502a 502b 501c 1 501a R R 501b ti3172a FIG. 14.
Repair Inlet Fluid Strainer Screen 161c C The inlet strainer at each proportioning pump filters out solid matter that can plug the inlet check valves. Inspect the screens daily as part of the startup routine, and clean as required. A* D B Isocyanate can crystallize from moisture contamination or from freezing. If the chemicals used are clean and proper storage, transfer, and operating procedures are followed, there should be minimal contamination of the A-side screen. FIG. 15.
Repair 3. Place a pan under reservoir drain plug (110k) to catch oil. 135 5. Place a rag around base of oil filter (135) to prevent oil from spilling. Unscrew filter 1/4-3/4 turn to break air lock in filter. Wait five minutes to allow oil in filter to drain back into reservoir. Unscrew filter and remove. 6. Reinstall drain plug (110k). 7. Replace filter (135): a. Coat filter seal with fresh oil. b. Screw filter on snug, then an additional 1/4 turn. 8. Refill reservoir with approved hydraulic fluid.
Repair Table 9: Approved Anti-Wear (AW) Hydraulic Oils Supplier Name Citgo A/W ISO Grade 46 Amsoil AWI ISO Grade 46 (synthetic*) BP Oil International Energol® HLP-HM, ISO Grade 46 Carl Bechem GmbH Staroil HVI 46 Castrol Hyspin AWS 46 Chevron Rykon® AW, ISO 46 Exxon Humble Hydraulic H, ISO Grade 46 Mobil Mobil DTE 25, ISO Grade 46 Shell Shell Tellus, ISO Grade 46 Texaco Texaco AW Hydraulic, ISO Grade 46 * Note: Do not mix mineral-based and synthetic hydraulic oils.
Parts Parts 42▲ 9 76 60 See page 53 84 38 44 60 30 99 4 52 60 67 44 107 20 37 77 See page 52 37 84 See page 52 100 See page 53 60 63 See page 50 60 52 See page 60 ti9831a 313540G 47
Parts 185, 186, 187 181 182 180 169 175 170 174 177 174 146 160 See page 49 169 172 168 171 173 177 161 See page 54 164 104 105 106 165 162 163 166 167 r_256886_313540_2 48 313540G
Parts Pump Assembly Overview See page 57 189 188 191 182 See page 57 190 198 199 See page 58 182 192 183, 184 193 194 195, 196, 197 r_256886_313540_4 313540G 49
Parts Detail of Cabinet Area 23 97 102 35 23 36 102 13 85 24 2 51 97 33 85 53 45 32 25, 147 See page 51 54▲ 10 TI9834a 50 313540G
Parts Left Side of Cabinet 40 5 55, 56 62 TI9835a 8 (Ref) 39 Right Side of Cabinet 26 31 103 (Ref) 29 68 27 6 40 8 TI9836a 313540G 51
Parts Detail, Fluid Manifold Area 15 78 7, see page 63 78 79 717 (Ref) 17 88 79 111 (Ref) 89 39 39 151 19 TI9838a Detail, Proportioner Area 111 (Ref) 93 94 343 57 See page 59 52 313540G
Parts 103 3 Detail, Electric Motor Area 153 82 90 47 57 48 96 111 (Ref) 118 (Ref) ti7709a Detail, Hydraulic Reservoir Area 111 (Ref) 122 119, 120 116 111 (Ref) 132 60 127 113 134 135 115 60 118 133 125 114 139 126 133 93 117 132 137 60 94 60 129 112 142, 143 150 146 See page 54 See page 50 114 111 1 (Ref) 92 60 TI9832b 313540G 53
Parts Ref. 161, Fluid Inlet Kit 161d 161b 161a 161c 161d r_256886_313540_7 Ref.
Parts Parts Ref.
Parts Ref.
Parts Sub Assemblies Pump Assembly 229 Pump Detail 225 218 222 (A Side Pump Shown) 223 228 226 227 214 215 222 184 211 279 222 213 184 224 225 225 212 255 184 217 184 5 216 220 273 3 254 see manual 313485 280 238 3 Apply blue Loctite and torque to 250 ft-lbs (337.5 N•m). 274 275 or 276 r_256886_313540_5 5 Apply blue Loctite and torque to 15 ft-lbs (20.3 N•m).
Parts Air Motor Detail 250 253 251 250 265 3 247 249 278 271 205 252 258 204 249 253 208 272 250 246 3 Apply blue Loctite and torque to 250 ft-lbs (337.5 N•m). Ref. 204 205 208 211 212 213✖ 214 215 216 217✖ 218 220 222 223 224 225 226 227 228 Part GC2041 GC2112 159239 GC0518 GC0527 229 238 GC0535 157191 241 246 247 249 GC1147 15X709 GC1132 GC2107 58 GC0419 GC0519 GC0521 GC0420 GC0520 GC1195 GC0524 GC0421 GC0526 GC0532 GC0536 GC0912 Description Qty. WASHER, flat, std; 1/2 in.
Parts Hydraulic Directional Valve Assembly 308 342 343 307 306 313 322 314 321 327 341 340 326 345 305 304 309 344 347 346 r_256886_313540_6 Proportioner Assembly Ref. 304 305 306 307 308 309 313 314 321 322 326 327 Part 106258 298040 113467 120299 C19986 247817 100214 108751 158683 100206 121312 295225 313540G Description O-RING MANIFOLD, hydraulic SCREW, socket head VALVE, directional, hydraulic SCREW, socket head BRACKET, mounting WASHER, lock SCREW, socket head ELBOW, 90 deg.
Parts 7.65 kW Single Zone Heater (Two Per Machine) Part 247813 401 413 410 411 408 405 403 406 404 1 414 404 409 413 407 r_247813_312063 415 1 Ref. 401 403 Part 404 405 406 407 408 409 15H304 15H306 120336 15B138 15B137 15B135 60 121309 Description HOUSING, heater ADAPTER, 3/4 SAE-ORB x 1/2 in. JIC PLUG ADAPTER, thermocouple O-RING; fluoroelastomer HEATER, immersion; 2550 W SWITCH, overtemperature MIXER, immersion heater Qty 1 2 3 1 1 3 1 3 Apply 110009 thermal heatsink compound.
Parts Display 511 502 511 503 504 507 510 506 512 20 (Ref) 508 501 ti2574a 505 506 502a 502c 502b 501c 501a 501b Ref. 501 501a 501b 501c 502 502a 502b 502c 503 504 Part Description 245978 DISPLAY, pressure; includes 501a-501c 246130 .BOARD, circuit 246478 .SWITCH, membrane 112324 .SCREW 245977 DISPLAY, temperature; includes 502a-502c 246130 .BOARD, circuit 246479 .SWITCH, membrane 112324 .SCREW 15B293 GASKET 15B292 COVER 313540G Qty. 1 1 1 4 1 1 1 4 1 1 Ref.
Parts Temperature Control 602 605 To B Heater Module 604 606 To A Heater Module 601 To Hose Heater Module 604 604 604 603 603 TI9843a 603 Ref. 601 602 603 604 605 606 62 Part 247772 247827 247828 115942 247801 247825 Description PANEL, module mounting HOUSING, control module HOUSING, heater module NUT, hex CABLE, communication KIT, cover, connector with screws Qty.
Parts Fluid Manifold 1 Torque to 355-395 in-lb (40.1-44.6 N•m). 2 Apply sealant (113500) to threads. 3 Valve must be closed with handle position as shown on drawing. ** Apply PTFE tape or thread sealant to tapered threads. 2 708 706 3 705 1 718 702 3 703 2 714 702a 702b 715 716 704 707 701 712 714 713 Ref. Part 701 247837 702† 247824 702a† 158674 702b† 247779 703 102814 704 162453 705 24K999 706 247788 707 247789 708† 112309 712 117556 713 117557 313540G 3 Description Qty.
Parts Circuit Breaker Modules A - 230V, 3 Phase Circuit Breaker Modules For wiring and cable connections, refer to electrical diagrams manual 312064, supplied. See page 65 for parts. 810 820 814 805 806 817 811 821 815 810 803, 804 802 808 816 187CB 178CB 172CB 197CB 801 170CR 238CR 168BR 813 818 812 809 807 819 822 B - 400V, 3 Phase Circuit Breaker Modules For wiring and cable connections, refer to electrical diagrams manual 312064, supplied. See page 65 for parts.
Parts Circuit Breaker Modules Parts List Breaker Modules A 230V, 3 phase B 400V, 3 phase RAIL, mounting 255028 255028 1 802 CLAMP, block, end 255045 255045 1 803 HOLDER, fuse terminal, block 255043 255043 2 804 FUSE 255023 255023 2 805 TERMINAL, block 255042 255042 4 807 BRIDGE, plug in, jumper 255044 255044 2 808 BLOCK, terminal ground 255046 255046 1 809 BREAKER, 1 pole, 50A 255026 255026 1 810 CONTACTOR, relay, 65A 255022 255022 2 811 BREAKER, 2 phase, 40A
Dimensions Dimensions Dimension A (height) B (width) C (depth) Dimension D (front and rear mounting holes) F (side mounting holes) G (mounting post inner diameter) in. (mm) 57.3 (1455.4) 37.9 (961.6) 33.0 (838.2) in. (mm) 32.5 (825.5) 30.4 (771.6) 0.44 (11.
Technical Data Technical Data Category Maximum Fluid Working Pressure Fluid Inlets Fluid Outlets Data 3500 psi (24.1 MPa, 241 bar) 3/4 npsm union in 1 in. npt(f) ball valve Component A (ISO): #8 (1/2 in.) JIC, with #5 (5/16 in.) JIC adapter Component B (RES): #10 (5/8 in.) JIC, with #6 (3/8 in.) JIC adapter Fluid Circulation Ports 1/4 npsm(m), with plastic tubing, 250 psi (1.75 MPa, 17.5 bar) maximum Maximum Fluid Temperature 190°F (88°C) Maximum Output (10 weight oil at 3.0 gpm (11.
Graco Standard Warranty Graco warrants all equipment referenced in this document which is manufactured by Graco and bearing its name to be free from defects in material and workmanship on the date of sale to the original purchaser for use. With the exception of any special, extended, or limited warranty published by Graco, Graco will, for a period of twelve months from the date of sale, repair or replace any part of the equipment determined by Graco to be defective.
