Graco 3A2526J, E-Flo® DC Motor Instruction
Instructions-Parts E-Flo® DC Motor 3A2526J EN Electric drive for low to medium volume paint circulation pumps. For professional use only. Important Safety Instructions Read all warnings and instructions in this manual. Save these instructions. See page 3 for model part numbers and approvals information. PROVEN QUALITY. LEADING TECHNOLOGY. Contents Models............................................................... Basic Models ............................................... Basic Models with Region-Specific Approvals....................................... Advanced Models ........................................ Advanced Models with Region-Specific Approvals....................................... 3 3 4 5 6 Warnings ........................................................... 7 Installation.......................................................... 10 Fill With Oil Before Using Equipment ............. 10 Power Supply Requirements......................... 10 Connect the Power Supply ........................... 11 Grounding ................................................... 12 Intrinsically Safe Installation Requirements for Advanced Motors....................... 12 Operation ........................................................... 13 Startup ........................................................ 13 Shutdown .................................................... 13 Pressure Relief Procedure............................ 13 Advanced Motor Operation ........................... 13 Basic Motor Operation.................................. 14 Maintenance ...................................................... 16 Preventive Maintenance Schedule ................ 16 Change the Oil............................................. 16 Check Oil Level ........................................... 16 Bearing Pre-Load......................................... 16 Error Code Troubleshooting ................................ 17 Repair................................................................ 19 Replace Output Seal Cartridge ..................... 19 Parts.................................................................. 20 Basic Motor Assembly .................................. 20 Advanced Motor Assembly ........................... 22 Notes ................................................................ 24 2 Repair Kits, Related Manuals, and Accessories .......................................... 25 Control Board Replacement Kits 24U934, 24U936, 24U935, 24U937 ..................... 26 Overview ..................................................... 26 Tools Required ............................................ 26 Replacement Instructions ............................. 26 Encoder Replacement Kit 24U938 ....................... 29 Overview ..................................................... 29 Tools Required ............................................ 29 Replacement Instructions ............................. 29 Position Sensor Replacement Kit 16U705 ............ 32 Overview ..................................................... 32 Tools Required ............................................ 32 Replacement Instructions ............................. 32 Advanced Power Board Replacement Kit 24U939 ................................................ 34 Tools Required ............................................ 34 Replacement Instructions ............................. 34 Prepare Motor.............................................. 34 Disconnect Power Wires............................... 34 Remove Control Module Bracket................... 34 Remove Electronics Cover ........................... 35 Disconnect Power Barrier Board ................... 35 Install New Power Barrier Board ................... 36 Reinstall Electronics Cover ........................... 36 Reinstall Wiring Box Cover ........................... 36 Attach Control Module Bracket...................... 36 Power Unit................................................... 36 Reattach Pump Lower .................................. 36 Appendix A - System Control Drawing 24N637 ................................................ 37 Mounting Hole Pattern ........................................ 42 Technical Data ................................................... 43 3A2526J Models Models Basic Models Motor Part No. Series Horsepower Maximum Force, lbf (N) EM0011 C 1 1400 (6227) EM0021 C 2 2800 (12455) 0359 II 2 G Ex db IIA T6 0°C≤Ta≤40°C FM12ATEX0067X IECEx FMG 12.0028X For Class I, Div. 1, Group D T6. Class 1, Zone 1, AEx db IIA T6 0°C≤Ta≤40°C Ex d IIA T6 Gb 0°C≤Ta≤40°C Figure 1 Basic Motor Identification Label List of Standards • IEC 60079–0: 2011 (Ed. 6) • CSA C22.2 No. 0.4:2004 (R2009) • IEC 60079–1: 2014 (Ed. 7) • CSA C22.2 No. 0.5:82 (R2008) • EN 60079–0: 2012 • CSA C22.2 No. 30:M86 (R2007) • EN 60079–1: 2014 (Ed. 7) • CAN/CSA-E60079–0:2011 • ANSI/ISA 60079–0: 2009 • CAN/CSA-E60079–1:2011 • ANSI/ISA 60079–1: 2009 • CAN/CSA C22.2 No. 1010.1:2004 • FM 3615:2006 Specific Conditions of Use: 1. Consult the manufacturer if dimensional information on the flameproof joint is necessary. 3A2526J 2. Consult the manufacturer for genuine replacement fasteners. M8 x 30 socket-head cap screws of Class 12.9 steel or better with a minimum yield strength of 1100 MPa (160,000 psi) are acceptable alternatives. 3 Models Region--Specific Approvals Basic Models with Region Motor Part No. Series Horsepower Maximum Force, lbf (N) EM0013 C 1 1400 (6227) EM0023 C 2 2800 (12455) 0359 II 2 G Ex d IIA T6 0°C≤Ta≤40°C FM12ATEX0067X IECEx FMG 12.0028X Figure 2 Basic Motor with Region-Specific Approvals Identification Label List of Standards • IEC 60079–0: 2011 (Ed. 6) • EN 60079–0: 2012 • IEC 60079–1: 2014 (Ed. 7) • EN 60079–1: 2014 (Ed. 7) Specific Conditions of Use: 1. Consult the manufacturer if dimensional information on the flameproof joint is necessary. 4 2. Consult the manufacturer for genuine replacement fasteners. M8 x 30 socket-head cap screws of Class 12.9 steel or better with a minimum yield strength of 1100 MPa (160,000 psi) are acceptable alternatives. 3A2526J Models Advanced Models Motor Part No. Series Horsepower Maximum Force, lbf (N) EM0012 C 1 1400 (6227) EM0015 C 1 1400 (6227) EM0022 C 2 2800 (12455) EM0025 C 2 2800 (12455) 0359 II 2 (1) G Ex db [ia] IIA T6 0°C≤Ta≤40°C FM12ATEX0067X IECEx FMG 12.0028X For Class I, Div. 1, Group D T6. Class 1, Zone 1, AEx db [ia] IIA T6 0°C≤Ta≤40°C Ex db [ia] IIA T6 0°C≤Ta≤40°C Figure 3 Advanced Motor Identification Label List of Standards • • • • • • • • • • • IEC 60079–0: 2011 (Ed. 6) IEC 60079–1: 2014 (Ed. 7) IEC 60079–11: 2011 (Ed. 6) EN 60079–0: 2012 EN 60079–1: 2014 (Ed. 7) EN 60079–11: 2012 FM 3600:2011 FM 3610:2010 FM 3615:2006 FM 3810:2005 CSA C22.2 No. 0.4:2004 (R2009) • CSA C22.2 No. 0.5:82 (R2008) • CSA C22.2 No. 30:M86 (R2007) • CSA C22.2 No. 157–92 (R2006) • CAN/CSA-E60079–0:2011 • CAN/CSA-E60079–1:2011 • CAN/CSA C22.2 No. 1010.1:2004 • CAN/CSA-E60079–11:2011 • ANSI/ISA 60079–0:2009 • ANSI/ISA 60079–1:2009 • ANSI/ISA 60079–11:2011 Specific Conditions of Use: 1. Consult the manufacturer if dimensional information on the flameproof joint is necessary. 3A2526J 2. Consult the manufacturer for genuine replacement fasteners. M8 x 30 socket-head cap screws of Class 12.9 steel or better with a minimum yield strength of 1100 MPa (160,000 psi) are acceptable alternatives. 5 Models Region--Specific Approvals Advanced Models with Region Motor Part No. Series Horsepower Maximum Force, lbf (N) EM0014 C 1 1400 (6227) EM0016 C 1 1400 (6227) EM0024 C 2 2800 (12455) EM0026 C 2 2800 (12455) 0359 II 2 (1) G Ex d [ia] IIA T6 0°C≤Ta≤40°C FM12ATEX0067X IECEx FMG 12.0028X Figure 4 Advanced Motor with Region-Specific Approvals Identification Label List of Standards • IEC 60079–0: 2011 (Ed. 6) • EN 60079–0: 2012 • IEC 60079–1: 2014 (Ed. 7) • EN 60079–1: 2014 (Ed. 7) • IEC 60079–11: 2011 (Ed. 6) • EN 60079–11: 2012 Specific Conditions of Use: 1. Consult the manufacturer if dimensional information on the flameproof joint is necessary. 6 2. Consult the manufacturer for genuine replacement fasteners. M8 x 30 socket-head cap screws of Class 12.9 steel or better with a minimum yield strength of 1100 MPa (160,000 psi) are acceptable alternatives. 3A2526J 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 symbols refer to procedure-specific risks. When these symbols appear in the body of this manual or on warning labels, refer back to these Warnings. Product-specific hazard symbols and warnings not covered in this section may appear throughout the body of this manual where applicable. 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. • Do not plug or unplug power cords, or turn power or light switches on or off when flammable fumes are present. • Ground all equipment in the work area. See Grounding instructions. • Use only grounded hoses. • Hold gun firmly to side of grounded pail when triggering into pail. Do not use pail liners unless they are antistatic or conductive. • Stop operation immediately if static sparking occurs or you feel a shock, Do not use equipment until you identify and correct the problem. • Keep a working fire extinguisher in the work area. Static charge may build up on plastic parts during cleaning and could discharge and ignite flammable vapors. To help prevent fire and explosion: • Clean plastic parts only in well ventilated area. • Do not clean with a dry cloth. • Do not operate electrostatic guns in equipment work area. SPECIAL CONDITIONS FOR SAFE USE • To prevent the risk of electrostatic sparking, the equipment’s non-metallic parts should be cleaned only with a damp cloth. • The aluminum housing may spark upon impact or contact with moving parts, which may cause fire or explosion. Take precautions to avoid such impact or contact. • All flameproof joints are critical to the integrity of the motor as approved for hazardous locations and are not repairable if damaged. Damaged parts must be replaced only with genuine Graco parts with no substitutions. 3A2526J 7 Warnings WARNING ELECTRIC SHOCK HAZARD This equipment must be grounded. Improper grounding, setup, or usage of the system can cause electric shock. • Turn off and disconnect power at main switch before disconnecting any cables and before servicing or installing equipment. • Connect only to grounded power source. • All electrical wiring must be done by a qualified electrician and comply with all local codes and regulations. INTRINSIC SAFETY Intrinsically safe equipment that is installed improperly or connected to non-intrinsically safe equipment will create a hazardous condition and can cause fire, explosion, or electric shock. Follow local regulations and the following safety requirements. • Be sure your installation complies with national, state, and local codes for the installation of electrical apparatus in a Class I, Group D, Division 1 Hazardous Location, including all of the local safety fire codes, NFPA 33, NEC 500 and 516, and OSHA 1910.107. • Equipment that comes in contact with the equipment’s intrinsically safe terminals must meet the entity parameter requirements specified in Control Drawing 24N637. See Intrinsically Safe Installation Requirements for Advanced Motors, page 12. This includes safety barriers, DC voltage meters, ohmmeters, cables, and connections. Remove the unit from the hazardous area when troubleshooting. • Do not install any equipment approved only for a non-hazardous location in a hazardous area, as defined in Article 500 of the National Electrical Code (USA) or your local electrical code. See the ID label for the intrinsic safety rating for your equipment. • Ground the motor. Use a 12 gauge minimum ground wire, connected to a true earth ground. See Grounding, page 12. • Do not operate the motor with any cover removed. • Do not substitute system components, as this may impair intrinsic safety. BURN HAZARD Equipment surfaces and fluid that’s heated can become very hot during operation. To avoid severe burns: • Do not touch hot fluid or equipment. MOVING PARTS HAZARD Moving parts can pinch, cut or amputate fingers and other body parts. • Keep clear of moving parts. • Do not operate equipment with protective guards or covers removed. • Pressurized equipment can start without warning. Before checking, moving, or servicing equipment, follow the Pressure Relief Procedure and disconnect all power sources. 8 3A2526J Warnings WARNING PRESSURIZED EQUIPMENT HAZARD Fluid from the equipment, leaks, or ruptured components can splash in the eyes or on skin and cause serious injury. • Follow the Pressure Relief Procedure when you stop spraying/dispensing and before cleaning, checking, or servicing equipment. • Tighten all fluid connections before operating the equipment. • Check hoses, tubes, and couplings daily. Replace worn or damaged parts immediately. TOXIC FLUID OR FUMES Toxic fluids or fumes can cause serious injury or death if splashed in the eyes or on skin, inhaled, or swallowed. • Read MSDSs to know the specific hazards of the fluids you are using. • Store hazardous fluid in approved containers, and dispose of it according to applicable guidelines. PERSONAL PROTECTIVE EQUIPMENT Wear appropriate protective equipment when in the work area to help prevent serious injury, including eye injury, hearing loss, inhalation of toxic fumes, and burns. This equipment includes but is not limited to: • Protective eyewear, and hearing protection. • Respirators, protective clothing, and gloves as recommended by the fluid and solvent manufacturer. EQUIPMENT MISUSE HAZARD Misuse can cause death or serious injury. • Do not operate the unit when fatigued or under the influence of drugs or alcohol. • Do not exceed the maximum working pressure or temperature rating of the lowest rated system component. See Technical Data in all equipment manuals. • Use fluids and solvents that are compatible with equipment wetted parts. See Technical Data in all equipment manuals. Read fluid and solvent manufacturer’s warnings. For complete information about your material, request MSDS from distributor or retailer. • Do not leave the work area while equipment is energized or under pressure. • Turn off all equipment and follow the Pressure Relief Procedure when equipment is not in use. • Check equipment daily. Repair or replace worn or damaged parts immediately with genuine manufacturer’s replacement parts only. • Do not alter or modify equipment. Alterations or modifications may void agency approvals and create safety hazards. • Make sure all equipment is rated and approved for the environment in which you are using it. • Use equipment only for its intended purpose. Call your distributor for information. • Route hoses and cables away from traffic areas, sharp edges, moving parts, and hot surfaces. • Do not kink or over bend hoses or use hoses to pull equipment. • Keep children and animals away from work area. • Comply with all applicable safety regulations. 3A2526J 9 Installation Installation Power Supply Requirements Installation of this equipment involves potentially hazardous procedures. Only trained and qualified personnel who have read and who understand the information in this manual should install this equipment. NOTE: To install an advanced motor, also see Intrinsically Safe Installation Requirements for Advanced Motors, page 12. Fill With Oil Before Using Equipment Before using the equipment, open the fill cap (P) and add Graco Part No. 16W645 ISO 220 silicone-free synthetic gear oil. Check the oil level in the sight glass (K). Fill until the oil level is near the halfway point of the sight glass. The oil capacity is approximately 1.5 quarts (1.4 liters). Do not overfill. NOTE: Two 1 quart (0.95 liter) bottles of oil are supplied with the equipment. Improper wiring may cause electric shock or other serious injury if work is not performed properly. Have a qualified electrician perform any electrical work. Be sure your installation complies with all National, State and Local safety and fire codes. See Table 1 for power supply requirements. The system requires a dedicated circuit protected with a circuit breaker. Table 1 . Power Supply Specifications Model* Voltage Phase Hz kVA EM001x 100–130 /200–240 Vac 1 50/60 1.4 EM002x 200–240 Vac 1 50/60 2.9 * The last digit of the Model No. varies. See the Models tables on pages 3–6. Hazardous Area Cabling and Conduit Requirements Explosion Proof All electrical wiring in the hazardous area must be encased in Class I, Division I, Group D approved explosion-proof conduit. Follow all National, State, and Local electric codes. A conduit seal (D) is required within 18 in. (457 mm) of the motor for the US and Canada. All cables must be rated at 70°C. Figure 5 Sightglass and Oil Fill Cap Flame Proof (ATEX) Use appropriate conduit, connectors, and cable glands rated for ATEX II 2 G. Follow all National, State, and Local electric codes. All cable glands and cables must be rated at 70°C. 10 3A2526J Installation Connect the Power Supply Improper wiring may cause electric shock or other serious injury if work is not performed properly. Have a qualified electrician perform any electrical work. Be sure your installation complies with all National, State and Local safety and fire codes. 4. Bring the power wires into the electrical compartment through the 3/4–14 npt(f) inlet port. Connect the wires to the terminals, as shown. Torque the terminal nuts to 25 in-lb (2.8 N•m) maximum. Do not over-torque. 5. Close the electrical compartment. Torque the cover screws (J) to 15 ft-lb (20.3 N•m). 1. Ensure that the fused safety switch (B) is shut off and locked out. Figure 7 Connect the Power Wires Notes for Fig. 7 Figure 6 Locked Out Fused Safety Switch 2. Install a start/stop control (C) in the electrical supply line (A), within easy reach of the equipment. The start/stop control must be approved for use in hazardous locations. 3. Open the electrical compartment (S) on the motor. 3A2526J 1 2 3 Tighten all terminal nuts to 25 in-lb (2.8 N•m) over--torque. maximum. Do not over Tighten cover screws to 15 ft-lb (20.3 N•m). A conduit seal (D) is required within 18 in. (457 mm) of the motor for the US and Canada. 11 Installation Grounding This equipment must be grounded to reduce the risk of static sparking and electric shock. Electric or static sparking can cause fumes to ignite or explode. Improper grounding can cause electric shock. Grounding provides an escape wire for the electric current. NOTE: For advanced motors EM0012 and EM0022, all motors must be bonded to the same high integrity equipotential system. See Intrinsically Safe Installation Requirements for Advanced Motors, page 12. Loosen the ground screw and attach a ground wire (Y). Tighten the ground screw securely. Connect the other end of the ground wire to a true earth ground. Intrinsically Safe Installation Requirements for Advanced Motors Do not substitute or modify system components as this may impair intrinsic safety. For installation, maintenance, or operation instructions, read instruction manuals. Do not install equipment approved only for non-hazardous location in a hazardous location. See the identification label for the intrinsic safety rating for your model. See Appendix A - System Control Drawing 24N637, page 37, for installation requirements and entity parameters. Follow all installation instructions in your system manual. Figure 8 Ground Wire 12 3A2526J Operation Operation Startup Pressure Relief Procedure 1. Unlock the fused safety switch (B) and turn it on. See Connect the Power Supply, page 11 2. Press the start pushbutton (C). 3. Check that the power indicator (L) is lit (steady on). 4. See Advanced Motor Operation, page 13 or Basic Motor Operation, page 14 for further instructions. This equipment stays pressurized until pressure is manually relieved. To help prevent serious injury from splashing fluid and moving parts, follow the Pressure Relief Procedure when you stop spraying and before cleaning, checking, or servicing the equipment. 1. Disengage the start/stop control (C). See Connect the Power Supply, page 11 2. Shut off and lock out the fused safety switch (B). 3. Relieve all fluid pressure as explained in your separate E-Flo DC pump manual. Advanced Motor Operation Figure 9 Power Indicator The Advanced E-Flo DC motors require installation of the 24P822 Control Module Accessory Kit to provide the interface for users to enter selections and view information related to setup and operation. See the Control Module Accessory Kit manual for installation and operation information. NOTICE Shutdown Follow the Pressure Relief Procedure, page 13. To prevent damage to the softkey buttons, do not press the buttons with sharp objects such as pens, plastic cards, or fingernails. Figure 10 Control Module Accessory 3A2526J 13 Operation Basic Motor Operation The basic motor has three operating modes: Pressure Mode with Integrated Runaway Protection • Pressure Mode Protection In pressure mode with integrated runaway protection, the motor will adjust the speed to maintain a constant fluid pressure, but will shut down if it exceeds a user-set speed. • Flow Mode 1. Turn the Control Knob (N) fully counterclockwise to 0. • Pressure Mode with Integrated Runaway NOTE: Before changing from one mode to another, turn the Control Knob (N) fully counterclockwise to 0. Pressure Mode When in pressure mode, the motor will adjust the speed to maintain a constant fluid pressure. 1. Turn the Control Knob (N) fully counterclockwise to 0. 2. Pull the Mode Select switch (M) out to set. Turn the switch to Pressure to lock. . Push the switch in 2. Pull the Mode Select switch (M) out to set. In range, turn the switch to the the Runaway desired shutdown speed in cycles per minute (5, 10, 15, 20, or 25). Push the switch in to lock. 3. Pull the Control Knob (N) out to set. Turn the knob clockwise to increase the pressure, or counterclockwise to decrease the pressure. Push the knob in to lock. NOTE: The motor will shut down if the selected speed is exceeded for 5 cycles. To reset, turn the Control Knob (N) fully counterclockwise to 0, then turn to the desired pressure. 3. Pull the Control Knob (N) out to set. Turn the knob clockwise to increase the pressure, or counterclockwise to decrease the pressure. Push the knob in to lock. Figure 12 Pressure Mode with Integrated Runaway Protection Figure 11 Pressure Mode 14 3A2526J Operation Flow Mode When in flow mode, the motor will maintain a constant speed regardless of the fluid pressure, up to the pump’s maximum working pressure. See Technical Data, page 43. 1. Turn the Control Knob (N) fully counterclockwise to 0. 2. Pull the Mode Select switch (M) out to set. Turn the switch to Flow lock. . Push the switch in to 3. The amount of flow is determined by the cycle rate set with the Control Knob (N). The knob’s scale (0–10) corresponds to a cycle adjustment range of 0-30 cycles per minute. Turn the Control Knob (N) clockwise to increase the cycle rate (flow), or counterclockwise to decrease the cycle rate (flow). 3A2526J Figure 13 Flow Mode 15 Maintenance Maintenance Preventive Maintenance Schedule Check Oil Level The operating conditions of your particular system determine how often maintenance is required. Establish a preventive maintenance schedule by recording when and what kind of maintenance is needed, and then determine a regular schedule for checking your system. Check the oil level in the sight glass (K). The oil level should be near the halfway point of the sight glass when the unit is not running. If low, open the fill cap (P) and add Graco Part No. 16W645 ISO 220 silicone-free synthetic gear oil as required. The oil capacity is approximately 1.5 quarts (1.4 liters). Do not overfill. Change the Oil NOTE: Change the oil after a break-in period of 200,000–300,000 cycles. After the break-in period, change the oil once a year. Order two Part No. 16W645 ISO 220 silicone-free synthetic gear oil. 1. Place a minimum 2 quart (1.9 liter) container under the oil drain port. Remove the oil drain plug (25). Allow all oil to drain from the motor. 2. Reinstall the oil drain plug (25). Torque to 25–30 ft-lb (34–40 N•m). 3. Open the fill cap (P) and add Graco Part No. 16W645 ISO 220 silicone-free synthetic gear oil. Check the oil level in the sight glass (K). Fill until the oil level is near the halfway point of the sight glass. The oil capacity is approximately 1.5 quarts (1.4 liters). Do not overfill. Figure 15 Sightglass and Oil Fill Cap 4. Reinstall the fill cap. Pre--Load Bearing Pre The bearing pre-loads (R) are factory set and are not user adjustable. Do not adjust the bearing pre-loads. Figure 14 Oil Drain Plug 16 3A2526J Error Code Troubleshooting Error Code Troubleshooting NOTE: In the error codes listed below, an “X” means the code is associated with the display only. Error codes can take three forms: • Alarm : alerts you to the alarm cause and shuts down the pump. NOTE: In the error codes listed below, a “?” in the code is a placeholder for the unit number where the event occurred. : alerts you to the problem, but pump • Deviation may continue to run past the set limits until the system’s absolute limits are reached. NOTE: The blink code is displayed using the power indicator on the motor. The blink code given below indicates the sequence. For example, blink code 1–2 indicates 1 blink, then 2 blinks; the sequence then repeats. • Advisory: information only. Pump will continue to operate. NOTE: On Advanced motors, flow (K codes) and pressure (P codes) can be designated as alarms or deviations. See Setup Screen 4 in the Control Module Manual. NOTE: A blink code of 9 is not an error code, but softkey an indicator of which pump is active ( has been pushed, see Run Screen 1 in the Control Module Manual). Applicable Motor Blink Code Display Code Alarm or Deviation Advanced 1–2 K1D? Alarm Flow is below minimum limit. Advanced None K2D? Deviation Flow is below minimum limit. Basic and Advanced 1 K4D? Alarm Flow exceeds maximum target; also indicates pump runaway condition exists. Advanced None K3D? Deviation Flow exceeds maximum target; also indicates pump runaway condition exists. Advanced 1–3 P1I? Alarm Pressure is below minimum limit. Advanced None P2I? Deviation Pressure is below minimum limit. Advanced 1–4 P4I? Alarm Pressure exceeds maximum target. Advanced None P3I? Deviation Pressure exceeds maximum target. Basic and Advanced 2 V1I? Alarm Brown out; voltage supplied to motor is too low. Basic and Advanced 3 V4I? Alarm Voltage supplied to motor is too high. Advanced 2–3 CAD? Alarm Unit detects a loss of CAN communication. This alarm is only logged. No flashing alarm appears on the display, but the blink code does occur. Advanced None CAC? Alarm Display detects a loss of CAN communication. Flashing alarm appears on the display, and the blink code occurs. Description CONTINUED ON THE NEXT PAGE. 3A2526J 17 Error Code Troubleshooting Applicable Motor Blink Code Display Code Alarm or Deviation Description Advanced 2–4 CAG? Alarm Display detects a loss of modbus communication when control access is set to modbus. Basic and Advanced 4 WXD? Alarm An internal control board hardware failure is detected. Advanced 1–5 WSD? Alarm Invalid lower size; occurs if the unit is operated before setting up the lower size. Basic and Advanced 5 T3D? Deviation Over temperature. Advanced None P5DX Deviation More than one pump is assigned to a transducer. The assignment for that transducer is automatically cleared under this condition. User must reassign. Advanced None P6CA or P6CB Deviation For units without closed loop pressure control: Transducer (A or B) is enabled but not detected. Advanced 1–6 P6D? Alarm Advanced None MND? Advisory Maintenance counter is enabled and countdown reached zero (0). Basic 6 None Alarm The Mode Select knob is set between Pressure For units with closed loop pressure control: Transducer is enabled but not detected. and Flow mode. 18 . Set knob to the desired Basic and Advanced 2–6 V1M? Alarm AC power is lost. Basic and Advanced 3–5 T2D? Alarm Internal thermistor disconnected. Basic and Advanced 3–4 WNC? Alarm Software versions do not match. Basic and Advanced 3–6 CCN? Alarm Circuit board communication failure. Basic and Advanced 4–5 WMC? Alarm Internal software error. Basic and Advanced 9 None None A blink code of 9 is not an error code, but an indicator of which pump is active (see NOTE above). 3A2526J Repair Repair Replace Output Seal Cartridge 4. Drain the oil from the motor. See Change the Oil, page 16. 5. Reinstall the oil drain plug. Torque to 25–30 ft-lb (34–40 N•m). 6. Unscrew the output cartridge (19) from the motor. See Parts, page 20. 1. Stop the pump at the bottom of its stroke. Shut off and lock out power to the motor. 7. Install the new output cartridge. Torque to 70–80 ft-lb (95–108 N•m). 2. Follow the Pressure Relief Procedure, page 13. 8. Fill with oil. See Change the Oil, page 16. 3. Disconnect the lower from the motor, as explained in your separate E-Flo DC pump manual. 9. Reconnect the lower to the motor. 3A2526J 10. Turn on power and resume operation. 19 Parts Parts Basic Motor Assembly EM0011, Series C, 1 Horsepower Motor EM0013, Series C, 1 Horsepower Motor, with Region-Specific Approvals EM0021, Series C, 2 Horsepower Motor EM0023, Series C, 2 Horsepower Motor, with Region-Specific Approvals 20 3A2526J Parts EM0011, Series C, 1 Horsepower Motor EM0013, Series C, 1 Horsepower Motor, with Region-Specific Approvals EM0021, Series C, 2 Horsepower Motor EM0023, Series C, 2 Horsepower Motor, with Region-Specific Approvals Ref 1 3 Part ——— 9 13 14 19 15F931 15H525 24E315 24K341 24 ——— 116343 25 27 15H432 ——— 33▲ 16M130 Description HOUSING, motor SCREW, ground; M5 x 0.8 RING, lift CAP, oil fill SIGHT GLASS CARTRIDGE, output seal SCREW, cap, socket head; M8 x 1.25; 30 mm PLUG, oil drain COVER, electrical compartment LABEL, warning (EM0011 and EM0021) Ref Part 16W360 1 1 1 34▲ 36 196548 16U113 1 38 16W645 43 ——— Qty 1 3 4 1 1 Qty 1 1 2 2 4 1 ▲ Replacement Danger and Warning labels, tags, and cards are available at no cost. 3A2526J Description LABEL, warning (EM0013 and EM0023) LABEL, warning KIT, knob; kit includes replacement parts for one knob OIL, gear, synthetic; ISO 220 silicone-free; 1 quart (0.95 liter); not shown WASHER, lock, spring; no. 8 Items marked — — — are not available separately. 21 Parts Advanced Motor Assembly EM0012, Series C, 1 Horsepower Motor EM0014, Series C, 1 Horsepower Motor, with Region-Specific Approvals EM0015, Series C, 1 Horsepower Motor EM0016, Series C, 1 Horsepower Motor, with Region-Specific Approvals EM0022, Series C, 2 Horsepower Motor EM0024, Series C, 2 Horsepower Motor, with Region-Specific Approvals EM0025, Series C, 2 Horsepower Motor EM0026, Series C, 2 Horsepower Motor, with Region-Specific Approvals 22 3A2526J Parts EM0012, Series C, 1 Horsepower Motor EM0014, Series C, 1 Horsepower Motor, with Region-Specific Approvals EM0015, Series C, 1 Horsepower Motor EM0016, Series C, 1 Horsepower Motor, with Region-Specific Approvals EM0022, Series C, 2 Horsepower Motor EM0024, Series C, 2 Horsepower Motor, with Region-Specific Approvals EM0025, Series C, 2 Horsepower Motor EM0026, Series C, 2 Horsepower Motor, with Region-Specific Approvals Ref 1 3 Part ——— 9 13 14 19 15F931 15H525 24E315 24K341 24 ——— 25 27 15H432 ——— 116343 Description HOUSING, motor SCREW, ground; M5 x 0.8 RING, lift CAP, oil fill SIGHT GLASS CARTRIDGE, output seal SCREW, cap, socket head; M8 x 1.25; 30 mm PLUG, oil drain COVER, electrical compartment Qty 1 Part 16M130 3 1 1 1 1 16W360 34▲ 38 196548 16W645 43 ——— 4 1 1 ▲ Replacement Danger and Warning labels, tags, and cards are available at no cost. 3A2526J Ref 33▲ Description LABEL, warning (EM0012, EM0022, and EM0025) LABEL, warning (EM0014, EM0024, and EM0026) LABEL, warning Qty 1 1 1 OIL, gear, synthetic; 2 ISO 220 silicone-free; 1 quart (0.95 liter); not shown 4 WASHER, lock, spring; no. 8 Items marked — — — are not available separately. 23 Notes Notes 24 3A2526J Repair Kits, Related Manuals, and Accessories Repair Kits, Related Manuals, and Accessories Motor Part No. Description Kits Kit Description All motors in this manual. E-Flo DC Motors 24K341 Output Seal Cartridge (19); see Parts, page 20. 24P816 Shaft Collector Kit; see manual 406998. 255143 Wall Bracket; see manual 312148. 16W645 ISO 220 Silicone-Free Synthetic Gear Oil; 1 quart (0.95 liter); order 2 16U705 Position Sensor; see Position Sensor Replacement, page 32. 24U938 Encoder; see Encoder Replacement, page 29 108675 Wiring Post 16U113 Knob Kit (36); see Parts, page 20. Includes replacement parts for one knob. 24U934 Electric 1HP Control Board; see Control Board Replacement, page 26 24U936 Electric 2HP Control Board; see Control Board Replacement, page 26 24P822 Control Module, for Advanced Motors; see manual 3A2527. 16P911 CAN Cable, 3 ft (1 m) 16P912 CAN Cable, 25 ft (8 m) 24P979 Pneumatic Control for Back Pressure Regulator; see manual 332142. 24R050 Pressure Transducer Kit 16U729 Start/Stop Switch. Allows pump to be shut off while maintaining power to the control module. 24U935 Electric 1HP Control Board see Control Board Replacement, page 26 24U937 Electric 2HP Control Board see Control Board Replacement, page 26 24U939 Powerboard 288203 For 3000 and 4000 cc 4–Ball Lowers 288204 For Dura-Flo 1800 and 2400 Lowers 288205 For Dura-Flo 600, 750, 900, and 1200 Lowers 288206 For Dura-Flo 1000 Lowers 288207 For Xtreme 145, 180, 220, 250, and 290 Lowers 288209 For 750, 1000, 1500, and 2000 cc 4–Ball Lowers with Enclosed or Open Wet Cup 288860 For Xtreme 85 and 115 Lowers 17K525 For 750, 1000, 1500, and 2000 cc Sealed 4–Ball Lowers Models EM00X1, EM00X3 E-Flo DC Basic Motors Models EM0012, E-Flo DC Advanced Motors EM0014, EM0015, EM0016, EM0022, EM0024, EM0025, and EM0026 All motors in this manual. 3A2526J Connection kits, to mount an E-Flo DC Motor to an existing pump lower. Kits include tie rods, tie rod nuts, adapter, and coupler. 25 Control Board Replacement Kits 24U934, 24U936, 24U935, 24U937 Control Board Replacement Kits 24U934, 24U936, 24U935, 24U937 Overview Prepare Motor The main control board assembly manages the operation of the E-Flo DC. It is permanently attached to the electronics cover. 1. Remove power from the motor. Follow appropriate lock-out/tag-out procedures. 2. Follow the Pressure Relief Procedure, page 13. 3. Decouple the pump lower from the motor per the appropriate pump manual. Tools Required • 6 mm Hex Wrench Disconnect Power Wires • Phillips Screwdriver (#1) 1. See Remove the 4 bolts that hold on the wiring box cover using a 6mm hex wrench. Place bolts in a safe location. • Torque Wrench (15 ft-lb, 20 Nm) 2. Disconnect wires from post and ground screw inside of cover. Replacement Instructions 3. Remove power cable and/or conduit from electronics cover. To avoid electric shock, turn off equipment power and shut off power at main circuit breaker before installing. NOTICE To avoid damage to the control board wear grounding strap (Part No. 112190) and ground appropriately. 26 Figure 16 Wiring Box Cover 3A2526J Control Board Replacement Kits 24U934, 24U936, 24U935, 24U937 Remove Electronics Cover NOTICE To avoid equipment damage, carefully support the cover when removing the last bolt. Hold the cover horizontally and take care that the wires are not pulled tight. Reset Dip Switch To calibrate the unit a dip switch on the control board must be toggled. There are two dip switches located on the upper control board. Reset either dip switch by toggling it to the opposite state. This signals the control board that a replacement part has been installed. The next time the unit is powered it will proceed with an auto-calibration sequence. NOTE: If you are performing more than one repair procedure the dip switch only needs to be toggled into the opposite state one time. 1. Remove the 12 bolts that hold on the electronics cover using a 6mm hex wrench. Place bolts in a safe location. 2. Support the cover after the bolts are removed to prevent putting excess strain on the wires inside the E-Flo DC. Figure 18 Dip Switch Reinstall Electronics Cover Figure 17 Electronics Cover Disconnect Control Board NOTE: The control board is inside the electronics cover. To replace the control board the entire electronics cover must be replaced. Be sure that no wires are pinched between the electronics cover and the motor housing. Pinched wires may damage the control board and will impair explosion-proof safety. 1. Reinstall electronics cover onto center housing. 1. To disconnect the control board unplug the position sensor, encoder, temperature sensor, and motor from the control board. 2. Install the 12 bolts using a 6 mm hex wrench. 2. Remove wires from clip inside housing. 3. Torque the bolts to 15 ft-lb (20 Nm). NOTE: Ensure the lock washers are still in place. 3. Remove any tie straps that may be present. 4. Set the electronics cover/control board aside. For advanced models see Disconnect Power Barrier Board, page 35. Install New Control Board 1. Plug the position sensor, encoder, temperature sensor, and motor into the new control board. 2. Secure loose wires into the clip inside the housing. For advanced models see Install New Power Barrier Board, page 36. 3A2526J Reinstall Wiring Box Cover 1. Connect wires from inside of wiring box. Refer to torque instructions listed on placard inside of the wiring box. Connect power cable and/or conduit to the electronics cover. 2. Reinstall cover onto wiring box. 3. Install the 4 bolts using a 6 mm hex wrench. NOTE: Ensure the lock washers are still in place. 4. Torque the bolts to 15 ft-lb (20 Nm). 27 Control Board Replacement Kits 24U934, 24U936, 24U935, 24U937 Power Unit Reattach Pump Lower 1. Apply power to the unit to start the auto-calibration process. 1. Jog the output shaft on the pump lower and reconnect the coupling nut. 2. The motor output shaft will run up and down over the course of several minutes. 2. Torque to the proper level per the appropriate pump manual. 3. Midway through the auto-calibration process the motor output shaft will pause as it moves to the next step. 4. Ensure the auto-calibration process is complete before continuing. 28 3A2526J Encoder Replacement Kit 24U938 Encoder Replacement Kit 24U938 Overview Remove Electronics Cover The encoder is used by the E-Flo DC for two purposes. First, the encoder tells the control board where the motor is in its mechanical rotation and uses that information to properly control the motor torque. Second, it controls stroke length by allowing the control board to count the number of complete motor rotations. Tools Required • 6 mm Hex Wrench • .050 in Hex Wrench • Phillips Screwdriver (#1) • Torque Wrench (15 ft-lb, 20 Nm) • Blue (medium) thread locking compound NOTICE To avoid equipment damage, carefully support the cover when removing the last bolt. Hold the cover horizontally and take care that the wires are not pulled tight. 1. Remove the 12 bolts that hold on the electronics cover using a 6mm hex wrench. Place bolts in a safe location. 2. Support the cover after the bolts are removed to prevent putting excess strain on the wires inside the E-Flo DC. Replacement Instructions To avoid electric shock, turn off equipment power and shut off power at main circuit breaker before installing. NOTICE Figure 19 Electronics Cover Remove Motor Cover To avoid damage to the control board wear grounding strap (Part No. 112190) and ground appropriately. Prepare Motor 1. Remove power from the motor. Follow appropriate lock-out/tag-out procedures. 1. Remove the 4 bolts that hold on the motor cover using a 6mm hex wrench. Place bolts in a safe location. 2. Set motor cover aside. 2. Follow the Pressure Relief Procedure, page 13. 3. Decouple the pump lower from the motor per the appropriate pump manual. Figure 20 Motor Cover 3A2526J 29 Encoder Replacement Kit 24U938 Remove Encoder 2. Slide the new encoder onto the rotor shaft. 1. Unplug the encoder cable from the control board and the encoder and remove. 2. Loosen the 2 hub set screws (AA) using the included .050” hex wrench. 3. Remove the 2 mounting screws (AC) with a Phillips head screw driver. 4. Pull encoder off of rotor shaft. 3. Apply a small amount of blue (medium) thread locker to the 2 Phillips head mounting screws (AC) and secure encoder mounting flange (AB) to motor housing (AD). NOTE: This procedure only requires the removal of the 2 Phillips head mounting screws. All other bolts should remain in place. 4. Remove the 2 set screws (AA) from the encoder hub using the included .050” hex wrench. 5. Apply a small amount of blue (medium) thread locker to the set screws (AA) and screw back into the encoder. Tighten hand tight. 6. Plug encoder cable into the encoder and the control board. Figure 21 Encoder Figure 23 Encoder AA Set screws AB Encoder mounting flange AA Set screws AC Phillips head mounting screws AB Encoder mounting flange AD Motor housing AC Phillips head mounting screws AD Motor housing Install New Encoder 1. Place the encoder connector cable (AE) through the motor housing lower port (AF). NOTE: The encoder connector is the smaller of the two connections. Reset Dip Switch To calibrate the unit a dip switch on the control board must be toggled. There are two dip switches located on the upper control board. Reset either dip switch by toggling it to the opposite state. This signals the control board that a replacement part has been installed. The next time the unit is powered it will proceed with an auto-calibration sequence. NOTE: If you are performing more than one repair procedure the dip switch only needs to be toggled into the opposite state one time. Figure 22 Encoder Cable 30 AE Encoder connector cable AF Lower port of motor housing Figure 24 Dip Switch 3A2526J Encoder Replacement Kit 24U938 Reinstall Electronics Cover 3. Torque the bolts to 15 ft-lb (20 Nm). Power Unit Be sure that no wires are pinched between the electronics cover and the motor housing. Pinched wires may damage the control board and will impair explosion-proof safety. 1. Reinstall electronics cover onto center housing. 2. Install the 12 bolts using a 6 mm hex wrench. NOTE: Ensure the lock washers are still in place. 1. Apply power to the unit to start the auto-calibration process. 2. The motor output shaft will run up and down over the course of several minutes. 3. Midway through the auto-calibration process the motor output shaft will pause as it moves to the next step. 4. Ensure the auto-calibration process is complete before continuing. 3. Torque the bolts to 15 ft-lb (20 Nm). Reinstall Motor Cover Reattach Pump Lower 1. Jog the output shaft on the pump lower and reconnect the coupling nut. 2. Torque to the proper level per the appropriate pump manual. 1. Reinstall motor cover onto motor housing. 2. Install the 4 bolts that hold on the motor cover using a 6mm hex wrench. Ensure the lock washers are still in place. 3A2526J 31 Position Sensor Replacement Kit 16U705 Position Sensor Replacement Kit 16U705 Overview Remove Electronics Cover The position sensor is used by the E-Flo DC to determine where the motor is in the stroke. Tools Required • 6 mm Hex Wrenches • 13 mm Open-Ended Wrench • 6 mm Open-Ended Wrench NOTICE To avoid equipment damage, carefully support the cover when removing the last bolt. Hold the cover horizontally and take care that the wires are not pulled tight. • Phillips Screwdriver (#2) • Torque Wrench (15 ft-lb, 20 Nm) 1. Remove the 12 bolts that hold on the electronics cover using a 6mm hex wrench. Place bolts in a safe location. Replacement Instructions 2. Support the cover after the bolts are removed to prevent putting excess strain on the wires inside the E-Flo DC. To avoid electric shock, turn off equipment power and shut off power at main circuit breaker before installing. NOTICE To avoid damage to the control board wear grounding strap (Part No. 112190) and ground appropriately. Figure 25 Electronics Cover Remove Position Sensor 1. Unplug the position sensor from the control board. Prepare Motor 2. Unscrew the shield ground (AT) using a Phillips screwdriver. 1. Remove power from the motor. Follow appropriate lock-out/tag-out procedures. 3. Loosen the position sensor jam nut (AS) using a 13 mm wrench. 2. Follow the Pressure Relief Procedure, page 13. 4. Unscrew the position sensor (AR) from the center housing using a 6 mm open ended wrench. 3. Decouple the pump lower from the motor per the appropriate pump manual. 32 NOTE: Allow wires to rotate with position sensor to prevent twisting. 3A2526J Position Sensor Replacement Kit 16U705 Figure 26 Dip Switch Reinstall Electronics Cover Install New Position Sensor 1. Carefully screw the replacement position sensor into the center housing. NOTE: Be careful not to damage the wires. The wires will have to be rotated while the position sensor is installed to prevent them from being twisted. 2. Use the 6 mm wrench to complete the installation of the position sensor. Be careful not to use excessive torque. Stop once the position sensor bottoms out in the bore. Be sure that no wires are pinched between the electronics cover and the motor housing. Pinched wires may damage the control board and will impair explosion-proof safety. 1. Reinstall electronics cover onto center housing. 2. Install the 12 bolts using a 6 mm hex wrench. NOTE: Ensure the lock washers are still in place. 3. Torque the bolts to 15 ft-lb (20 Nm). NOTE: Do not over tighten the position sensor. Damage to the position sensor may result. 3. Tighten the jam nut on the position sensor finger tight. NOTE: Do NOT use a wrench to tighten the jam nut. Damage to the position sensor may result. Power Unit 1. Apply power to the unit to start the auto-calibration process. 4. Install shield ground wire using a Phillips screw driver. 2. The motor output shaft will run up and down over the course of several minutes. 5. Plug the position sensor into the control board. 3. Midway through the auto-calibration process the motor output shaft will pause as it moves to the next step. Reset Dip Switch 4. Ensure the auto-calibration process is complete before continuing. To calibrate the unit a dip switch on the control board must be toggled. There are two dip switches located on the upper control board. Reset either dip switch by toggling it to the opposite state. This signals the control board that a replacement part has been installed. The next time the unit is powered it will proceed with an auto-calibration sequence. Reattach Pump Lower NOTE: If you are performing more than one repair procedure the dip switch only needs to be toggled into the opposite state one time. 3A2526J 1. Jog the output shaft on the pump lower and reconnect the coupling nut. 2. Torque to the proper level per the appropriate pump manual. 33 Advanced Power Board Replacement Kit 24U939 Advanced Power Board Replacement Kit 24U939 Tools Required Disconnect Power Wires • 6 mm Hex Wrenches 1. See Remove the 4 bolts that hold on the wiring box cover using a 6mm hex wrench. Place bolts in a safe location. • 1/4” Nut Driver • 5 mm Hex Wrench • Phillips Screwdriver (#2) • Torque Wrench (15 ft-lb, 20 Nm) 2. Disconnect wires from post and ground screw inside of cover. 3. Remove power cable and/or conduit from electronics cover. Replacement Instructions To avoid electric shock, turn off equipment power and shut off power at main circuit breaker before installing. NOTICE To avoid damage to the control board wear grounding strap (Part No. 112190) and ground appropriately. Prepare Motor 1. Remove power from the motor. Follow appropriate lock-out/tag-out procedures. 2. Follow the Pressure Relief Procedure, page 13. 3. Decouple the pump lower from the motor per the appropriate pump manual. 34 Figure 27 Wiring Box Cover Remove Control Module Bracket If the control module is bracket mounted to the electronics cover it must be removed prior to removing the electronics cover. 1. Unsnap the control module from the bracket and disconnect the cable from the electronics cover, set control module aside. 2. Remove control module bracket from the electronics cover, set bracket and hardware aside. 3A2526J Advanced Power Board Replacement Kit 24U939 Remove Electronics Cover 3. Remove any tie straps that are present. 4. Insert a small hex key into the lower left corner of the partition and pull out. NOTICE To avoid equipment damage, carefully support the cover when removing the last bolt. Hold the cover horizontally and take care that the wires are not pulled tight. 1. Remove the 12 bolts that hold on the electronics cover using a 6mm hex wrench. Place bolts in a safe location. 2. Support the cover after the bolts are removed to prevent putting excess strain on the wires inside the E-Flo DC. 5. Remove tie strap connecting the CAN bus wire to the power barrier board (AN). 6. Use 1/4” nut driver to remove the 4 stand offs (AM) from the corners of the power barrier board, set aside. 7. Use a 5mm hex wrench to remove the 2 socket headed cap screws (AP) from the power barrier board, set aside. Figure 28 Electronics Cover 8. Remove the power barrier board (AN) from the unit. Disconnect Power Barrier Board NOTICE The CAN bus on the power barrier board is connected to the control board through a partition inside the motor. To avoid equipment damage, hold electronics cover in place until the CAN bus cable is disconnected. Hold the cover horizontally and take care that the wires are not pulled tight. 1. Disconnect barrier board power cable from the control board. 2. Remove the 4 screws (AK) holding the partition (AL) and power cable bracket (AJ) in place, set aside. 3A2526J 35 Advanced Power Board Replacement Kit 24U939 Install New Power Barrier Board Attach Control Module Bracket 1. Insert the tie strap through the back of the power barrier board. 1. Connect the control module cable to the electronics cover. 2. Put new power barrier board in place and secure using reserved screws. Tighten standoffs hand tight. Torque socket head cap screws to 15 ft-lb (20 Nm). 2. Reattach the control module mounting bracket onto the electronics cover. 3. Snap the control module into place on the bracket. NOTE: Put all six screws in place before tightening. The standoffs should be tightened before the socket head cap screws. 3. Plug the CAN bus power into the power barrier board. Power Unit 4. Tighten the tie strap around the wires to secure them to the board. 1. Apply power to the unit to start the auto-calibration process. 5. Place partition back into place. Make certain the notch for the wires is on the lower left side of the partition and the wires are not being crushed. 2. The motor output shaft will run up and down over the course of several minutes. 6. Insert bottom screws into the partition and tighten. 3. Midway through the auto-calibration process the motor output shaft will pause as it moves to the next step. 7. Place power connect bracket into place and secure with two screws. 4. Ensure the auto-calibration process is complete before continuing. 8. Reconnect motor, temperature, reed switch, encoder, and barrier board power wires to the control board. Reinstall Electronics Cover Reattach Pump Lower 1. Jog the output shaft on the pump lower and reconnect the coupling nut. 2. Torque to the proper level per the appropriate pump manual. Be sure that no wires are pinched between the electronics cover and the motor housing. Pinched wires may damage the control board and will impair explosion-proof safety. 1. Reinstall electronics cover onto center housing. 2. Install the 12 bolts using a 6 mm hex wrench. NOTE: Ensure the lock washers are still in place. 3. Torque the bolts to 15 ft-lb (20 Nm). Reinstall Wiring Box Cover 1. Connect wires from inside of wiring box. Refer to torque instructions listed on placard inside of the wiring box. Connect power cable and/or conduit to the electronics cover. 2. Reinstall cover onto wiring box. 3. Install the 4 bolts using a 6 mm hex wrench. NOTE: Ensure the lock washers are still in place. 4. Torque the bolts to 15 ft-lb (20 Nm). 36 3A2526J Appendix A - System Control Drawing 24N637 Appendix A - System Control Drawing 24N637 NOTES FOR FIG. 16 AND 17: 1. The non-intrinsically safe terminals (power rail) must not be connected to any device which uses or generates more than Um = 250 Vrms or dc unless it has been determined that the voltage has been adequately isolated. 2. All motors must be bonded to the same high integrity equipotential system. 3. Do not remove any cover until power has been removed. 4. Installation should be in accordance with ANSI/ISA RP12.06.01, installation of intrinsically safe systems for hazardous (classified) locations, and the National Electrical Code (ANSI/NFPA 70). 5. Installation in Canada should be in accordance with the Canadian Electrical Code, CSA C22.1, Part 1, Appendix F. 6. Reserved for future use. 7. Between one and eight motors may be connected in series. The motors are connected with a CAN cable (16P911 or 16P912). The side of the cable with the red marking is connected to Port 1 of one motor and the unmarked side of the cable is connected to Port 2 of the next motor. 10. The output entity parameters given for Pins 1 and 4 in each of Ports 1 and 2 are the total current and power available to both pins added together. The current on Pin 1 and Pin 4 added together will not exceed the listed Io, and the power output from Pin 1 and Pin 4 added together will not exceed the listed Po. WARNING: Substitution of components may impair intrinsic safety. ADVERTISSEMENT: La substitution de composants peut compromettre la securite intrinseque. Table 2 . Calculation Procedures Zones Uo ≤ Ui Io ≤ Ii Po ≤ Pi Co ≥ Ci + Ccable Lo ≥ Li + Lcable Lo / Ro ≥ Li / Ri 8. The first motor in the series (the one with no CAN cable on Port 2) is installed with the power jumper 24N910 connected to Port 2 and Port 3. 9. The “last” motor in the series is connected to either an IS apparatus in the hazardous location or an associated IS apparatus in the non-hazardous location. The side of the CAN cable with the red marking is connected to Port 1 of the last motor and the unmarked side of the cable is connected to the IS or associated IS apparatus. 3A2526J 37 38 ASSOCIATED IS APPARATUS EXPLOSION PROOF FLAME PROOF AC POWER NON-HAZARDOUS LOCATION IS APPARATUS 9 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 HAZARDOUS (CLASSIFIED) LOCATION 7 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 COMMUNICATION 1 2 POWER 3 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 POWER 3 8 24N910 IS POWER JUMPER COMMUNICATION 1 2 ADVANCED COMMUNICATION MOTOR EM0012/EM0022 HAZARDOUS LOCATION HIGH INTEGRITYGROUND Appendix A - System Control Drawing 24N637 Figure 29 System Control Drawing 24N637, Sheet 1 3A2526J Appendix A - System Control Drawing 24N637 Figure 30 System Control Drawing 24N637, Sheet 2 Table 3 . Port 3: Power Barrier Output Parameters Power Barrier Output Parameters Port 3: Male M12 5 Pin “A” Key 3A2526J Pin Units Voc Isc Pt La Ca Vmax mA mW μH μF 1 CAN Data Low 2 Power 17.9 646 2891 681 7.7 3 IS Ground Return — — — — — 4 CAN Data High 5 Shield — — Not Connected Not Connected — — — 39 Appendix A - System Control Drawing 24N637 Table 4 . Ports 1 and 2: CAN Data/Power In and Out Entity Parameters CAN Data High/Low Input Loads Port 2: Male M12 5 Pin “B” Key Port 1: Male M12 5 Pin “A” Key Pin Units Vmax Imax Pi Li Ci Vmax mA mW μH μF 1 CAN Data Low 2 VIN Power 17.9 725 2900 128 0 3 Signal Ground — — — — — 4 CAN Data High 5 Shield See Table 5 for Data based on the Number of Motors See Table 5 for Data based on the Number of Motors — — — — — CAN Data High/Low Output Barriers Port 2: Male M12 5 Pin “B” Key Port 1: Male M12 5 Pin “A” Key 40 Pin Units Voc Isc Pt La Ca Vmax mA mW μH μF 1 CAN Data Low 2 VIN Power 17.9 646 2891 681 7.7 3 Signal Ground — — — — — 4 CAN Data High 5 Shield See Table 5 for Data based on the Number of Motors See Table 5 for Data based on the Number of Motors — — — — — 3A2526J Appendix A - System Control Drawing 24N637 Table 5 . Ports 1 and 2, Pins 1 and 4: CAN Data High and Low (applies to all CAN data pins shorted together or to any individual pin; see Note 10 on page 26) CAN Data High/Low Input Loads Vmax Imax Pi Li Ci Vmax mA mW μH μF 1 6 700 900 67 0.2 2 6 700 900 67 0.4 3 6 700 900 67 0.6 4 6 700 900 67 0.8 5 6 700 900 67 1.0 6 6 700 900 67 1.2 7 6 700 900 67 1.4 8 6 700 900 67 1.6 Number of Motors Units CAN Data High/Low Output Barriers Voc Isc Pt La Ca Vmax mA mW mH μF 1 4.94 102 79 27.3 1000 2 4.94 179 158 8.88 1000 3 4.94 246 237 4.70 1000 4 4.94 305 316 3.06 1000 5 4.94 358 395 2.22 1000 6 4.94 407 474 1.72 1000 7 4.94 452 553 1.39 1000 8 4.94 494 632 1.17 1000 Number of Motors 3A2526J Units 41 Mounting Hole Pattern Mounting Hole Pattern A B C D 6.186 in. (157 mm) 6.186 in. (157 mm) Four 3/8–16 Mounting Holes Six 5/8–11 Tie Rod Holes: • 8 in. (203 mm) x 120° bolt circle OR • 5.9 in. (150 mm) x 120° bolt circle 42 3A2526J Technical Data Technical Data E-Flo DC Motors Input voltage/Power: Metric U.S. Models EM0011, EM0012, EM0013, EM0014, EM0015, and EM0016 100–130/ 200–240 VAC single phase, 50/60 Hz, 1.4 kVA Models EM0021, EM0022, EM0023, EM0024, EM0025, and EM0026 200–240 VAC, single phase, 50/60 Hz, 2.9 kVA Maximum potential fluid pressure: Models EM0011, EM0012, EM0013, EM0014, EM0015, and EM0016 218000/v (volume of lower in cc) = psi 1500/v (volume of lower in cc) = bar Models EM0021, EM0022, EM0023, EM0024, EM0025, and EM0026 436000/v (volume of lower in cc) = psi 3000/v (volume of lower in cc) = bar Maximum continuous cycle rate 20 cpm Maximum force: Models EM0011, EM0012, EM0013, EM0014, EM0015, and EM0016 1400 lbf 6227 N Models EM0021, EM0022, EM0023, EM0024, EM0025, and EM0026 2800 lbf 12455 N Power inlet port size Ambient temperature range 3/4–14 npt(f) 32–104°F Sound data Oil capacity Oil specification Weight 3A2526J 0–40°C Less than 70 dB(A) 1.5 quarts 1.4 liters Graco Part No. 16W645 ISO 220 silicone-free synthetic gear oil 99 lb 45 kg 43 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. This warranty applies only when the equipment is installed, operated and maintained in accordance with Graco’s written recommendations. This warranty does not cover, and Graco shall not be liable for general wear and tear, or any malfunction, damage or wear caused by faulty installation, misapplication, abrasion, corrosion, inadequate or improper maintenance, negligence, accident, tampering, or substitution of non-Graco component parts. Nor shall Graco be liable for malfunction, damage or wear caused by the incompatibility of Graco equipment with structures, accessories, equipment or materials not supplied by Graco, or the improper design, manufacture, installation, operation or maintenance of structures, accessories, equipment or materials not supplied by Graco. This warranty is conditioned upon the prepaid return of the equipment claimed to be defective to an authorized Graco distributor for verification of the claimed defect. If the claimed defect is verified, Graco will repair or replace free of charge any defective parts. The equipment will be returned to the original purchaser transportation prepaid. If inspection of the equipment does not disclose any defect in material or workmanship, repairs will be made at a reasonable charge, which charges may include the costs of parts, labor, and transportation. THIS WARRANTY IS EXCLUSIVE, AND IS IN LIEU OF ANY OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO WARRANTY OF MERCHANTABILITY OR WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE. Graco’s sole obligation and buyer’s sole remedy for any breach of warranty shall be as set forth above. The buyer agrees that no other remedy (including, but not limited to, incidental or consequential damages for lost profits, lost sales, injury to person or property, or any other incidental or consequential loss) shall be available. Any action for breach of warranty must be brought within two (2) years of the date of sale. GRACO MAKES NO WARRANTY, AND DISCLAIMS ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, IN CONNECTION WITH ACCESSORIES, EQUIPMENT, MATERIALS OR COMPONENTS SOLD BUT NOT MANUFACTURED BY GRACO. These items sold, but not manufactured by Graco (such as electric motors, switches, hose, etc.), are subject to the warranty, if any, of their manufacturer. Graco will provide purchaser with reasonable assistance in making any claim for breach of these warranties. In no event will Graco be liable for indirect, incidental, special or consequential damages resulting from Graco supplying equipment hereunder, or the furnishing, performance, or use of any products or other goods sold hereto, whether due to a breach of contract, breach of warranty, the negligence of Graco, or otherwise. FOR GRACO CANADA CUSTOMERS The Parties acknowledge that they have required that the present document, as well as all documents, notices and legal proceedings entered into, given or instituted pursuant hereto or relating directly or indirectly hereto, be drawn up in English. Les parties reconnaissent avoir convenu que la rédaction du présente document sera en Anglais, ainsi que tous documents, avis et procédures judiciaires exécutés, donnés ou intentés, à la suite de ou en rapport, directement ou indirectement, avec les procédures concernées. Graco Information For the latest information about Graco products, visit www.graco.com. For patent information, see www.graco.com/patents. To place an order, contact your Graco Distributor or call to identify the nearest distributor. Phone: 612-623-6921 or Toll Free: 1-800-328-0211 Fax: 612-378-3505 All written and visual data contained in this document reflects the latest product information available at the time of publication. Graco reserves the right to make changes at any time without notice. Original Instructions. This manual contains English, MM 3A2526 Graco Headquarters: Minneapolis International Offices: Belgium, China, Japan, Korea GRACO INC. AND SUBSIDIARIES • P.O. BOX 1441 • MINNEAPOLIS, MN 55440-1441 • USA Copyright 2012, Graco Inc. All Graco manufacturing locations are registered to ISO 9001. www.graco.com Revision J, July 2017
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
Download PDF
advertisement