Instructions - Parts Pro Xp Auto Waterborne Air Spray Gun 333012B EN Automatic Electrostatic Air spray gun for use when electrostatically spraying conductive waterborne fluids that meet at least one of the following conditions for non-flammability: • Material does not sustain burning in accordance with the Standard Test Method for Sustained Burning of Liquid Mixtures, ASTM D4206. • Materials which cannot be ignited, in any mixture with air, by an energy source of less than 500 mJ.
Table of Contents List of Approved Models . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Related Manuals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Warnings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 How the Electrostatic Air Spray Gun Works . . . . . . . . . 7 Operating the Spray Function . . . . . . . . . . . . . . . . . . . .
List of Approved Models List of Approved Models Part No. LA1M18 LA1T18 1.5mm Standard Nozzle Model ✔ ✔ ✔ kV 60 60 Part No. 24X287 24W597 24W598 Smart Model ✔ Bottom Manifold Rear Manifold ✔ ✔ Description WB 100 Isolation Enclosure 25’ Shielded Waterborne Fluid Hose 50’ Shielded Waterborne Fluid Hose FM approved for use with fluids that meet the following condition: • 0.
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.
Warnings WARNING WARNING FIRE AND EXPLOSION HAZARD Combustible dust in work area can ignite or explode. To help prevent fire and explosion: • Use only fluids that meet the following flammability requirements: • Material does not sustain burning in accordance with the Standard Test Method for Sustained Burning of Liquid Mixtures, ASTM D4206. • Materials which cannot be ignited, in any mixture with air, by an energy source of less than 500 mJ.
Warnings WARNING WARNING TOXIC FLUID OR FUMES HAZARD 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.
Introduction Introduction How the Electrostatic Air Spray Gun Works The automatic electrostatic air spray gun operates very similar to a traditional air spray gun. The atomization and fan air are emitted from the air cap. The atomization air breaks up the fluid stream and controls the droplet size. The fan air controls the shape and width of the spray pattern. The fan and atomization air can be adjusted independently. Operating the Spray Function Applying a minimum of 60 psi (0.42 MPa, 4.
Introduction Spraying Waterborne Fluids Electrostatically This electrostatic air spray gun is designed to spray only waterborne fluids which meet at least one of the following flammability requirements: FM, FMc Approved: • Material does not sustain burning in accordance with the Standard Test Method for Sustained Burning of Liquid Mixtures, ASTM D4206. CE-EN 50059 Compliant: • Materials which cannot be ignited, in any mixture with air, by an energy source of less than 500 mJ.
Introduction System Overview Typical Waterborne System Installation FIGURE 1 shows a typical electrostatic waterborne air spray system. It is not an actual system design. For assistance in designing a system to suit your particular needs, contact your Graco distributor. B M A C D E U B L R K* X G BB W V* J* Y T Z F H AA FIG.
Introduction Gun Overview K 1 2 TA CYL A2 A1 EXH F A J D C H G B L FIG. 2 .
Installation Installation System Requirements Basic Guidelines When spraying waterborne fluids electrostatically: If a hose failure occurs where high voltage arcs through the inner tube, voltage will be discharged to ground through the conductive hose layer. When properly installed, the conductive hose layer is grounded through its connection to the grounded enclosure.
Installation Install the Air Line Accessories See FIGURE 3. 1. Install a bleed-type master air valve (L) on the main air line (W) to shut off all air to the gun. 2. Install an air line filter/water separator on the gun air line to ensure a dry, clean air supply to the gun. Dirt and moisture can ruin the appearance of your finished workpiece and can cause the gun to malfunction. 3.
Installation FIGURE 3 shows a typical electrostatic air spray system. It is not an actual system design. For assistance in designing a system to suit your particular needs, contact your Graco distributor. NOTE: The grounded turbine air hose (TA) must be electrically interlocked with the spray booth ventilation fans to prevent the power supply from operating without ventilating fans on.
Installation Install the Gun 1. Loosen the manifold’s two set screws (29) and slide the manifold (20) onto a 1/2 in. (13 mm) mounting rod. See FIGURE 4. 2. Position the gun and tighten the two set screws. NOTE: For added positioning reliability, insert a 1/8 in. (3 mm) locating pin into the slot (NN) in the bracket and through a hole in the rod. See the detail in FIGURE 4. NN 2.88 in. (73.
Installation Manifold Connections 1 2 TA A2 CYL A1 EXH FIG. 5 Manifold Connections A1 Atomization Air Inlet Fitting Connect a 5/16 in. (8 mm) OD tube between this fitting and the air supply. A2 Fan Air Inlet Fitting Connect a 5/16 in. (8 mm) OD tube between this fitting and the air supply. Cylinder Air Inlet Fitting CYL Connect a 5/32 in. (4 mm) OD tube between this fitting and the solenoid. For quicker response, use the shortest hose length possible.
Installation Connect the Waterborne Fluid Hose NOTE: The Graco warranty is void if the spray gun is connected to a non-Graco voltage isolation system or if the gun is operated above 60 kV. Waterborne Fluid Hose comes fully assembled to these dimensions. A 5.75 in. (146 mm) B 1.5 in. (38 mm) J Always use a Graco Waterborne Fluid Hose between the voltage isolation system fluid outlet and the gun fluid inlet.
Installation b. Non-Graco Isolated Enclosure: Connect hose as instructed in the isolation system manual. For Shielded Hose Systems: Conductive hose layer (C) must be grounded through its connection to the isolation system’s grounded enclosure (L) or grounded fence. To maintain grounding continuity, the conductive hose layer (C) must be engaged in the ferrule when the strain relief nut is tightened. Failure to properly install the hose in the strain relief could result in an electric shock. 5.
Installation Fiber Optic Cable Connection (Operational on Smart models only) NOTE: Only use the supplied fiber optic cable. The fiber optic cable allows the gun to communicate with the Pro Xp Auto Control Module. For a 1 Gun System 1. Connect Port 1 of the gun 1 manifold to Port 1 of the Control Module. 2. Connect Port 2 of the gun 1 manifold to Port 2 of the Control Module. For a 2 Gun System 1. Connect Port 1 of the gun 2 manifold to Port 5 of the Control Module. FIG. 11 .
Installation Agitator Kit Accessory Fluid Regulator Kit Accessory To add an agitator to the Graco isolation system, order Part No. 245895. See Agitator Kit 245895, page 64, for the kit parts list. To add a fluid regulator to the Graco isolation system, order Part No. 245944. See Fluid Regulator Kit 245944, page 65 for the kit parts list. 1. Discharge the system voltage (see Fluid Voltage Discharge and Grounding Procedure, page 24). 1.
Installation NOTE: The cabinet air regulator and gauge (216, 217) will now operate the air piloted fluid regulator (504). The pump will now operate at the inlet air pressure. 507 Air compressors and hydraulic power supplies: ground the equipment according to the manufacturer's recommendations. • All air and fluid lines must be properly grounded. All electrical cables must be properly grounded.
Installation Megohmmeter Part No. 241079 is not approved for use in a hazardous area. To reduce the risk of sparking, do not use the Megohmmeter to check electrical grounding unless: 4. Measure the resistance between the turbine air inlet fitting (TA) and a true earth ground (N). If the resistance is greater than 100 ohms, check the tightness of the ground connections and be sure the turbine air hose ground wire is connected to a true earth ground.
Installation Install the Fabric Cover Check Fluid Viscosity See FIGURE 17. To check fluid viscosity you will need: 1. Install a fabric cover (XX) over the front of the gun and slide it back to cover the exposed tubing and hoses at the back of the manifold. • • 2. Route the exhaust tube (YY) outside the cover. This enables you to monitor the exhaust tube for the presence of any paint or solvent. See Check for Fluid Leakage on page 30. Strap down the exhaust tube to prevent it from moving around.
Operation Operation Operating Checklist Check the following list daily, before starting to operate the system, to help ensure you of safe, efficient operation. All operators are properly trained to safely operate an automatic electrostatic waterborne air spray system as instructed in this manual. All operators are trained in the Fluid Voltage Discharge and Grounding Procedure on page 24. All operators are trained in the Pressure Relief Procedure on page 24.
Operation Fluid Voltage Discharge and Grounding Procedure The fluid supply is charged with high voltage until the voltage is discharged. Contact with the charged components of the voltage isolation system or spray gun electrode will cause an electric shock.
Operation Fill the Fluid Supply 1. Follow the Fluid Voltage Discharge and Grounding Procedure, page 24. 2. Follow the Pressure Relief Procedure, page 24. 3. Open the isolated enclosure door. 4. Remove the pail cover from the pail, holding a rag over the suction tube strainer to prevent any fluid from dripping into the isolated enclosure. Place the cover and suction tube outside the enclosure. Operating the Spray Function Applying a minimum of 60 psi (0.41 MPa, 4.
Operation 3. Select and install the appropriate air cap for your application. NOTE: To select a different size fluid nozzle or air cap, see Parts on page 50. To install the fluid nozzle and air cap, see Air Cap/Nozzle Replacement on page 42. 4. Loosen the air cap retaining ring, and rotate the air cap for a vertical or horizontal spray pattern. See FIGURE 18. Tighten the retaining ring until the air cap is held firmly in place; you should not be able to rotate the air cap horns by hand.
Operation NOTE: Smart models display values, standard models display color indicator lights Table 2. Indicator Colors/Values Indicator Color Description Green When spraying, the indicator should 400-750 Hz remain green, indicating sufficient air pressure to the alternator turbine. Amber <400 Red >750 If the indicator changes to amber after 1 second, the air pressure is too low. Increase air pressure until the indicator is green.
Operation Maintenance To reduce the risk of an injury, follow the Pressure Relief Procedure and the Fluid Voltage Discharge and Grounding Procedure before doing any maintenance on the gun or system. Daily Care and Cleaning Checklist Check the following list daily upon completion of equipment usage. To reduce the risk of fire, explosion, or electric shock, turn off the turbine air (TA) before flushing the gun. Follow the Fluid Voltage Discharge and Grounding Procedure, page 24, before flushing.
Operation Clean Outside of Gun 3. Remove the air cap assembly (24, 25) and shroud (26). See FIGURE 19. NOTICE • Clean all parts with a non-conductive, compatible solvent. Conductive solvents can cause the gun to malfunction. • Fluid in the air passages could cause the gun to malfunction and could draw current and reduce the electrostatic effect. Fluid in the power supply cavity can reduce the turbine life. Whenever possible, point the gun down when cleaning it.
Operation Check for Fluid Leakage If any fluid leakage from the gun is detected, stop spraying immediately. Fluid leakage into the gun shroud could cause fire or explosion and result in serious injury and property damage. To reduce the risk of an injury, follow the Pressure Relief Procedure on page 24 when you stop spraying and whenever you are instructed to relieve the pressure. Clean the Cabinet • Inspect the cabinet and clean up any spilled paint.
Electrical Tests Electrical Tests Use the following procedures to test the condition of the power supply and gun body, and electrical continuity between components. See Power Supply Removal and Replacement, page 47. Test Gun Resistance Use megohmmeter Part No. 241079 (AA) and an applied voltage of 500 V. Connect the leads as shown. 2. Trigger the gun and measure resistance between the electrode needle tip (3) and the turbine air fitting. The resistance should be 90-120 megohms.
Electrical Tests Test Power Supply Resistance Test Electrode Resistance 2. Remove the turbine alternator (8) from the power supply, page 48. Remove the electrode (3). See Electrode Replacement, page 43. Measure the resistance between the contact (HH) and the electrode wire (GG). The resistance should be 8-30 megohms. If out of range, replace the electrode. 3. Measure resistance from the power supply's ground strips (EE) to the spring (7a). See FIGURE 22.
Electrical Tests Test Ground Strip Resistance Test Cylinder Resistance Using an ohmmeter, measure the resistance between the latch housing (206) and the ground lug (214). The ground strip is grounded through the cart back to the ground lug. Resistance must be less than 100 ohms. If greater than 100 ohms, replace the ground strip (240). Remove the enclosure door. Using an ohmmeter, measure the resistance from the pump (209) to the ground lug (214). Resistance must be less than 100 ohms.
Troubleshooting Troubleshooting Installing and servicing this equipment requires access to parts which may cause an electric shock or other serious injury if the work is not performed properly. Do not install or repair this equipment unless you are trained and qualified. Follow the Fluid Voltage Discharge and Grounding Procedure on page 24 before checking or servicing the system and whenever you are instructed to discharge the voltage.
Troubleshooting Visual Checks First, check the system for any visible faults or errors to help isolate whether the spray gun, fluid hose or voltage isolation system has failed. A voltage probe and meter, part no. 245277, is helpful for diagnosing voltage problems and is required for some of the troubleshooting tests that follow. 1. Check that all of the air and fluid tubes and hoses are properly connected. 2. Check that the voltage isolation system valves and controls are properly set for operation. 3.
Troubleshooting Tests If you still have no voltage, separate the spray gun and hose from the voltage isolation system and check whether the gun and hose alone will hold voltage with the following test. 1. Flush the system with water and leave the lines filled with water. 2. Discharge the system voltage (see Fluid Voltage Discharge and Grounding Procedure on page 24. down somewhere in the fluid hose or gun. Continue with step 12.
Troubleshooting Spray Pattern Troubleshooting NOTE: Check all possible remedies in the Troubleshooting Chart before disassembling the gun. NOTE: Some spray pattern problems are caused by the improper balance between air and fluid. Problem Cause Solution Fluttering or spitting spray. No fluid. Refill supply. Loose, dirty, damaged nozzle/seat. Clean or replace nozzle, page 42. Air in fluid supply. Check fluid source. Refill. Damaged nozzle or air cap. Replace, page 42.
Troubleshooting Gun Operation Troubleshooting Problem Cause Solution Excessive spray fog. Atomizing air pressure too high. Decrease air pressure as low as possible. Fluid too thin. Increase viscosity. Atomizing air pressure too low. Increase air pressure; use lowest air pressure necessary. Poorly mixed or filtered fluid. Remix or refilter fluid. Fluid too thick. Reduce viscosity. Fluid leaks from the fluid packing area Worn packings or rod. Replace; see page 43.
Troubleshooting Electrical Troubleshooting Problem Cause Voltage still present at gun after fol- Turbine air is not turned off. lowing the Fluid Voltage Discharge Did not wait long enough for voltage and Grounding Procedure, page to discharge. 24. Poor wrap. Solution Turn off. Wait longer before touching electrode with grounded rod. Check for bleed resistor failure. Air pocket in fluid line leaves fluid near gun isolated. Determine cause and correct. Purge air from fluid line.
Troubleshooting ES indicator light is not lit (standard models only) No power Check power supply, turbine, turbine ribbon cable. See Power Supply Removal and Replacement, page 47 and Turbine Removal and Replacement, page 48. ES indicator light is amber (standard Turbine speed is too low models only) Increase air pressure until indicator is green.
Repair Repair Prepare the Gun for Service Remove the Gun from the Manifold 1. Follow the Fluid Voltage Discharge and Grounding Procedure, page 24. Installing and repairing this equipment requires access to parts that may cause electric shock or other serious injury if the work is not performed properly. Do not install or service this equipment unless you are trained and qualified. Contact with the charged components of the spray gun will cause an electric shock.
Repair Air Cap/Nozzle Replacement 1. Prepare gun for service, page 41. 2. Remove the retaining ring (24) and air cap (25). See FIGURE 28. 3. Remove the fluid nozzle (4) assembly with the multi-tool (44). The nozzle contact ring (4a) is a conductive contact ring, not a sealing o-ring. To reduce the risk of sparking or electric shock, do not remove the nozzle contact ring (4a) except to replace it and never operate the gun without the contact ring in place.
Repair Electrode Replacement Fluid Packing Removal 1. Prepare the gun for service, page 41. NOTE: You may replace the packing rod as an assembly, as described below, or as individual parts (see page 44). The assembly is pre-adjusted at the factory. 2. Remove the air cap and nozzle, page 42. 1. Prepare the gun for service, page 41. 3. Unscrew the electrode (3) with the multi-tool (44). FIGURE 29. NOTICE To avoid damaging the plastic threads, be very careful when installing the electrode. 4.
Repair Packing Rod Repair NOTE: You may replace the packing rod as individual parts, as described below, or as an assembly (see page 43). The assembly is pre-adjusted at the factory. NOTE: Before installing the fluid packing rod into the gun barrel, make sure the internal surfaces of the barrel are clean. Remove any residue with a soft brush or cloth. Check the inside of the barrel for marks from high voltage arcing. If marks are present, replace the barrel. 1.
Repair Piston Repair 1. Prepare the gun for service, page 41. 11d 11c 2. Remove the air cap, page 42. Remove the gun shroud (26). 3. Remove the jam nut (16), actuator arm (15), and adjustment nut (16). See FIGURE 33. 11f 11e 11a NOTE: The fluid nozzle (4) must be in place when removing or installing the jam nut and actuator arm. 11b WL D 4. Remove piston cap (13) from the rear of the gun. 11g 11d 5. Push on the piston rod (11) to push the piston out the back of the gun. 11e 6.
Repair Adjust the Actuator Arm Barrel Removal NOTE: The fluid nozzle (4) must be in place when removing or installing the jam nut and actuator arm. 1. Prepare the gun for service, page 41. See FIGURE 33. 2. Remove the air cap, page 42. Remove the gun shroud (26). 1. Install the adjustment nut (16b), actuator arm (15), and jam nut (16a) onto the piston rod (11b). 3. Remove the adjustment nuts (16a, 16b) and actuator arm (15). See FIGURE 33. 2. Position the parts so there is a 0.125 in.
Repair Barrel Installation Power Supply Removal and Replacement See FIGURE 35 1. Verify the gasket (9) and grounding spring (6) are in place and the gasket air holes are aligned properly. Replace the gasket if damaged. 2. Make sure the spring is in place on the tip of the power supply (7). Liberally apply dielectric grease to the tip of the power supply. Place the barrel (1) over the power supply and onto the gun body (10). 3.
Repair Tuck the ribbon forward, under the power supply. Slide the turbine (8) down onto the power supply (7). 8. Insert the power supply/turbine assembly in the gun body (10). Make sure the ground strips (EE) make contact with the gun body. Smart models only: align the connector of the 6–pin flexible circuit (30) with the socket (CS) at the top of the gun body. See FIGURE 36. Push the connector securely into the socket as you slide the power supply/turbine assembly into the gun body.
Repair coil (8a) so the bearing blades are flush with the surface of the coil. 6. Push the fan and coil assembly (8a) out the front of the housing (8d). 8b2◆ M 8a 8g 8f◆ WL E 11. Press the new top bearing (8b2.) onto the short end of the shaft so the bearing blades are flush with the surface of the coil (8a). The flatter side of the bearing must face away from the coil. 12. Hold the coil assembly (8a) on a workbench with the fan end facing up. Press the fan (8e.) onto the long end of the shaft (S).
Parts Parts Standard Pro Xp Auto Waterborne Air Spray Gun Models LA1T18, Waterborne, Rear Manifold 1 Torque to 20 in-lbs (2 N•m) 1 50 333012B
Parts LA1T18, Waterborne, Rear Manifold Ref. No. Part No.
Parts Smart Pro Xp Auto Waterborne Air Spray Gun Model LA1M18, Waterborne, Rear Manifold 1 Torque to 20 in-lbs (2 N•m) 1 52 333012B
Parts LA1M18, Waterborne, Rear Manifold Ref. No. Part No.
Parts Packing Rod Assembly Part No. 24N655 Packing Rod Assembly Includes items 2a-2k 2k✿ 2j✿ 2e 2f 2b‡ 2h‡ 2c‡ 2d‡ 2g 2a‡ WL D Ref. Part No. No. 2a‡ 2b‡ 2c‡ 2d‡ 2e O-RING SEAL PACKING, fluid PACKING, needle ROD, packing (includes items 2j and 2k) 2f 197641 NUT, packing 2g 185495 HOUSING, packing 2h‡ 186069 SPACER, packing 54 111316 116905 178409 178763 24N703 Description Qty 1 1 1 1 1 1 1 1 Ref. Part No. No.
Parts Turbine Assembly Part No. 24N664 Turbine Assembly 8f◆ 8e◆ 8g* 8d◆ 8b1◆ 8a 8b2◆ 8h◆ WL E Ref. Part No. No. Description 8a 24N705 COIL, turbine 8b◆ 24N706 BEARING KIT (includes two bearings, item 8e fan, and one item 8h clip) 8d◆ 24N707 HOUSING; includes item 8f 8e◆ ------ FAN; part of item 8b 8f◆ ------ CAP, housing; part of item 8d 333012B Qty 1 1 1 1 1 Ref. Part No. No.
Air Caps and Fluid Nozzles Air Caps and Fluid Nozzles Fluid Nozzle Selection Chart Fluid Nozzle Performance Charts Use the following procedure to select the proper fluid nozzle for your application. To reduce the risk of an injury, follow the Pressure Relief Procedure on page 24 before removing or installing a fluid nozzle and/or air cap. Fluid Nozzle Part No. Color Description Orifice Size, mm (in.) 24N613 0.75 (.029) 24N614 1.0 (.042) 24N615 24N616 1.2 (.047) Black For standard coatings 1.
Air Caps and Fluid Nozzles Table 4. Orifice Size: 1.0 mm (0.040 in.) FLUID PRESSURE bar, psi Table 7. Orifice Size: 1.8 mm (0.070 in.) FLUID PRESSURE bar, psi FLUID FLOW: oz/min, cc/min Table 5. Orifice Size: 1.2 mm (0.047 in.) FLUID PRESSURE bar, psi FLUID FLOW: oz/min, cc/min Table 8. Orifice Size: 2.0 mm (0.079 in.) FLUID PRESSURE bar, psi FLUID FLOW: oz/min, cc/min FLUID FLOW: oz/min, cc/min Table 6. Orifice Size: 1.5 mm (0.059 in.
Air Caps and Fluid Nozzles Air Cap Selection Chart NOTE: All air cap pattern shapes and lengths in the following chart were measured under the following conditions. Pattern shape and length are material dependent. To reduce the risk of an injury, follow the Pressure Relief Procedure before removing or installing a fluid nozzle and/or air cap. Part No. (color) Pattern Shape 24N438 (black) Length in. (mm) • Distance to target: 10 in. (254 mm) • Inlet air pressure: 50 psi (34 kPa, 3.4 bar).
Air Caps and Fluid Nozzles Isolation Enclosure Part No.
Air Caps and Fluid Nozzles Ref. Part No. Description No. Qty 1 240 234018 STRIP, grounding; aluminum 1 1 241 110209 NUT, regulator 11 242 114051 WASHER, shim, latch 1 PLATE 4 1 243 210084 1 244 ------ ROD, ground SCREW, hex hd; 1/4–20 x 5/8 in. (16 mm) 16 Ref. Part No. Description No.
Air Caps and Fluid Nozzles Ref. Part No. Description No. Qty 282 4 SWIVEL, tube; 1/4 npt x 1/4 in. (6 mm) OD tube 283 -----SWIVEL, tube; 1/8 npt x 5/32 in. (4 mm) OD tube 285 112791 CLAMP 286 -----TUBE; 3/8 in. (10 mm) OD 300★ 235070 HOSE, air, grounded; 0.315 in. (8 mm) ID; 1/4 npsm(f) x 1/4 npsm(f) left-hand thread; red cover with stainless steel braid ground path; 25 ft (7.
Tubing and Wiring Tubing and Wiring Detail Views of Control Box C9 A1 A2 C1 C2 B3 B4 B3 C2, C9 C1 C3, C4, C5 C8 A1 C6 C7 C8 C6 B2 E1 C3 Detail View of Door Interlock Switch B5 B2 Tubing and Wiring Chart 62 333012B
Tubing and Wiring Use the diagrams to find the connection points for the tubing and wiring listed below Code Ref. Length in. Description No. (mm) Code Ref. Length in. Description No.
Tubing and Wiring Agitator Kit 245895 To keep fluid mixed and prevent settling out. Includes items 401-408. 401 407 402 1 2 406 403 Ref. Part No. Description No. Qty 401 112698 1 ELBOW, swivel; 1/8 npt(m) x 1/4 in. (6 mm) OD tube 402 114158 FITTING, adapter, Y; 1/4 in. (6 mm) OD tube; m x f x f 403 193315 COLLAR, mounting, agitator 404 193316 NUT, collar, agitator 405 197298 COVER, pail; 5 gal. (19 liter) 406 224571 AGITATOR; see manual 306565 407 purchase TUBE, nylon; 1/4 in.
Tubing and Wiring Fluid Regulator Kit 245944 Shielded Waterborne Fluid Hose 24W597 To allow precise fluid pressure regulation at the gun. Includes items 501-507. 600d A1 501 506 600c 504 507 502 600b 505 503 600 S 600a Ref. Part No. Description No. 501 110078 502 113070 503 113576 504 236281 FITTING, tube, fluid; 1/4 npt(m) x 3/8 in. 1 (10 mm) tube 1 NIPPLE, reducer; 3/8 npt x 1/4 npt PLUG; 1/4 npt REGULATOR, fluid; see manual 308325 505 C20350 ELBOW, 90°; 1/4 npt(f) x 1/4 in.
Accessories Accessories Smart Model Accessories and Fiber Optic Cables Part No. 24W035 Fluid Line Accessories Shielded Waterborne Fluid Hose Part No. Description 24W597 25 ft (7.6 m) 24W598 50 ft (15.2 m) Description Pro Xp Auto Control Module. See 332989 for details. Fiber Optic Cables for Gun System Accessories See item V in FIGURE 12 on page 18. Connect gun manifold to Pro Xp Auto Control Module. See 332989. Part No.
Dimensions Dimensions Rear Inlet Manifold 2.6 in (66 mm) 2.5 in (63 mm) 10.6 in (269 mm) 10.2 in (259 mm) 2.9 in (73 mm) 6.3 in (160 mm) 8 in (203 mm) 0.53 in (13.
Technical Data Technical Data Pro Xp Auto Waterborne Air Spray Gun Maximum fluid working pressure Maximum working air pressure Maximum air pressure at gun inlet Maximum fluid operating temperature Paint resistivity range Short circuit current output Gun Weight (Approximate) Voltage Output Standard Models Smart Models Noise (dBa) Sound Power (measured per ISO Standard 9216) Sound Pressure (measured 1 m from gun) Inlet/Outlet Sizes Turbine air inlet fitting, left-hand thread Atomizing air inlet fitting Fan a
Notes Notes 333012B 69
Graco Pro Xp 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.
