Service Instructions BYE-134 Electrostatic Powder Painting Equipment Cascadium BFX-1005 Plus OPERATION DESCRIPTION Equipment is a complete unit for powder coating and has five basic components (Fig. 1). CAUTION: The operator should not wear gloves or any other element that isolates the hand from the spray gun handle. All personnel next to the spray gun should be grounded when the equipment is in operation. Electrical Cable Automatic Gun THE BFX-1005 EQUIPMENT WITH THE BFP-838 GUN IS NOT RECOMMENDED FOR USE WITH METALLIC POWDER. CASCADIUM Electrical Pneumatic Control Powder Pump CONTROL ADJUSTMENTS (fig. 5) POWDER FLOW The powder flow of the spray gun being used is controlled through the powder outflow adjustment knob (POWDER FLOW RATE), on the electrical pneumatic control panel. AIR DOSING The mixture of air and powder is performed through an air dosage adjustment knob at the control panel. Fig. 1 – Basic components of the BFX-1005 INSTALLATION POWER CONNECTION ATTENTION: Check if the main switch (fig. 5) is off before connecting the equipment to the power line. The equipment works with 100 to 240 VAC, 50/60 Hz and 25VA. Connect the ground wire of the electric pneumatic control (fig. 5) to the metallic structure of the booth which should be grounded. Also ground the oven, the conveyor (if any) and all metallic objects which may conduct electricity and are next to the booth. HIGH VOLTAGE The main switch showing ON turns on the high voltage supply. The first segment of the voltage indicator (kV) and of the current indicator (µA) turn on when the power supply is connected. The working voltage is adjusted with the voltage adjustment knob at the electrical pneumatic control panel. AIR LINE Connect the air line of the electrical pneumatic control (fig. 5) to the outlet of the pressure filter regulator which should be between 80 and 90 psi (5,6 to 6,3 kgf/ cm2). Consumption is approximately 14 SCFM. 1/10 Service Instructions BYE-134 CLEANING AND MAINTENANCE OF THE AUTOMATIC GUN In order to clean the gun, take out the deflector, release the barrel cap and take out the diffuser (see fig.2), and clean these parts with an air jet. Disconnect the hose at the powder pump entrance, take out the suction tube and feed the pump with air to blow out the powder in the powder hose and the internal passages of the gun. The porous plate inside the powder tank should be cleaned with a weak air flow. Tip Deflector Diffuser Barrel Fig. 2 – Powder gun nozzle by turning the knob at the control panel counterclockwise. Change the MANUAL/AUTO switch to MANUAL position and turn the powder flow adjustment knob to see if it is controlling the powder flow satisfactorily. Check if the first segments of the voltmeter and microam meter are on. In case they do not come on when you turn the main switch, check the fuse and the line voltage. The high voltage and output current are indicated in the voltmeter / microammeter. Change the MANUAL/AUTO switch to MANUAL position, turn the voltage adjustment knob to maximum voltage and bring the electrode close to a grounded object. The high voltage (kV) falls with the electrode coming close to a grounded point and the current (A) goes up to maximum. This first test can determine if the spray gun is generating high voltage. The lack of high voltage may also be noticed due to the lack of wrap or powder adherence. FUNCTIONING DESCRIPTION The main element of the pneumatic control is a solenoid valve, connected to the air entry. The outlet of the valve feeds the injector of the powder pump through a valve (powder flow rate adjustment) and of the No. 2 hose, which feeds the powder pump. The solenoid valve which is normally closed and stopping the air flow is commanded by a switch activated by the external control source (such as CLP, supplied by others). When the MANUAL/AUTO switch is changed to AUTO position, the switch turns on the electric pneumatic control giving paint and voltage. The voltage level is adjusted by means of the voltage adjustment knob. OPERATION CHECK In case the equipment is not working properly, before making the diagnostic of defects, check if the installation of the equipment was done according to what is described in Page 1 in this manual. Also check if the entry pressure is correct and is the powder is fluidizing correctly. TROUBLESHOOTING ATTENTION: We did not consider defects caused by installation or operation deficiency in the below described diagnosis. Therefore, the reading of this manual from the beginning and the Checking Operation described on this page is important to validate the diagnosis. The reading of the Functioning Description can also help in the diagnosis. DEFECT Powder does not come out PROBABLE CAUSE 1. Defective Powder Pump. 2. Defective pneumatic control. 3. Defective Module 3. 4. Defective Module 4. To determine which of the four causes is most probable, take out hose (2) which feed the powder pump and change the MANUAL/AUTO switch to MANUAL position. If air comes out of the hose, the probable cause is the pump. Disassemble the pump, clean it and check the condition Also check the operation: close completely the dosing air 2/10 Service Instructions BYE-134 of the adaptor (ref. 5 powder pump, page 11). Replace defective parts. If air does not come out of the powder pump feeding hose, first check the MANUAL/AUTO switch. Disconnect the switch from control panel and with a wire or any electric conductive material connect the two screws that fasten the switch. The solenoid valve should open and air should come out of the powder pump feeding hose (which was disconnected from the pump). If this occurs, the defect is probably in this switch (see exploded view of electro-pneumatic control at page 7). If the air does not come out through the powder pump feeding hose, the defect may be in Module 3, Module 4, in the electric cable or in the electrical pneumatic control. Perform a continuity test on the electric cable and, if there is no cutout, the problem is in Module 3, Module 4 or in the electrical pneumatic control. Check if Modules 3 and 4 are functioning as described in the section Checking the Modules (page 4). If the modules 3 and 4 are functioning properly, the defect should be in the solenoid valve. Turn the main switch OFF, and disconnect the solenoid of the motherboard and check the continuity of the solenoid valve coils, through the connector pins of the harnesses removed from the motherboard. The resistance should be 80 to 120 ohm, if not, replace the defective coil(s). If the coils are OK, revise or replace the solenoid valve. Other problems may occur with the electro-pneumatic control. If so, talk to DeVilbiss technical assistance or your distributor. DEFECT Little powder comes out PROBABLE CAUSE 1. BFT-164 Venturi tube of the powder pump is worn out. 2. Powder pump and suction tube partially obstructed. 3. Damp powder. Disassemble and clean powder pump and suction tube. Replace Venturi tube, if necessary. DEFECT There is no wrap or powder adherence to the object being painted or wrap is deficient PROBABLE CAUSE 1. There is no high voltage or voltage is low. 2. The object being painted is not grounded. Do the Operation Check (page 2). Further to this check, change the MANUAL/AUTO switch to MANUAL position and bring a grounded object a few millimeters from the electrode of the gun. (To make it easy to observe the high voltage shut the powder flow adjustment). You should see a blue spark between the electrode and the grounded object which proves the high voltage presence. There being high voltage check the grounding of the part. In case there is no high voltage, the defect should be in the electrical pneumatic control, in the gun or in the electric cable of the gun. Check modules 1, 2, 3, 4 of the motherboard, the gun and the electric cable of the gun, according to procedures described in the next sections. CHECKING MODULES (see fig. 3) CAUTION: The line voltage is present in the terminals of Module 1, in the harnesses of the wiring. There can be danger of electric shocks and short-circuits. This job should be done by specialized personnel in order to avoid accidents and fire. MODULE 1 (fig. 3) Turn the main switch to ON use a multimeter and check the voltage between terminals AC/L and AC/N (fig. 3) of the module terminal bar. The voltage should equal the one in the line (100-240VCA). If there is no voltage, check the fuse, the installation and the main switch. Substitute the fuse or switch, if necessary, or correct the installation. There being alternate voltage in terminals L and N (fig. 3), check the voltage between terminals -V and +V (fig. 3) of module 1, with the main switch ON should be -12 and +12V. . If there is no voltage, the module is defective and should be replaced. 3/10 Service Instructions BYE-134 If Module 1, the main switch and the fuse are not defective, check the motherboard where the outlets of modules 2, 3 and 4 are installed. YELLOW LED 2.1 MODULE 1 MODULE 3 MODULE 2 RED LED 3.2 -V BLUE GREEN LED 3.3 GREEN LED M5 +V WHITE LED 3.1 AMARELO RED LED M4 MOTHERBOARD GREEN LED M3 RED LED 4.3 GREEN LED 4.4 MODULE 4 YELLOW 5V LED M1 GREEN 12V LED M2 GREEN LED 4.2 YELLOW LED 4.1 Fig. 3 – Illustration diagram of electrical pneumatic control MOTHERBOARD Turning on the on/off switch on the electrical pneumatic control panel the M1 (yellow) and M2 (green) leds will turn on indicating that the motherboard is on with the 5V and 12V voltages. If these two leds do not turn on check if the unit's plug is connected to an outlet with 100 to 240VAC voltage. If it is properly connected, the problem may be in the entry fuse, next to the power connecting cable in the unit's cabinet. In case current is correct it is possible that the problem is with Module 1 which is the key control which feeds the whole equipment. If only one of the leds M1 or M2 is on, the problem may be in Module 1 or in the connecting cable of Module 1 to the motherboard. With normal operation and the M1 and M2 leds on, when adjusting the voltage of the potentiometer of the equipment's panel, LEDs M3 (green) and M4 (yellow) will light with a variable shine depending of the level of adjusted voltage. When triggering the gun, LED M5 will also show a variable shine depending on the voltage adjustment in the potentiometer in the panel, increasing the shine when the potentiometer is turned to increase the voltage. LED M5's shine will also decrease when the outlet voltage of the gun increases, with a consequent loss of high voltage. If LEDs M3 and M4 are on and LED M5 does not light in the described conditions, it is possible there is a defect in module 2 or the motherboard. Replacement of Module 2 may define the cause. MODULE 2. Module 2 has only LED 2.1 (yellow) which shows if the module is being fed at 12 V. MODULE 3. Leds LED 3.1 (yellow) and LED 3.2 (red) will turn on when the on/off switch if turned on. When the MANUAL/AUTO switch is on MANUAL position then the Stage I the LED 3.3 (green) turns on and LED 3.2 (red) turn off. If abnormal behavior is observed the module should be replaced. MODULE 4. When turning on the equipment, LED 4.1 (yellow) turns on. When the MANUAL/AUTO switch is on MANUAL position, and Stage II is selected at the gun, LED 4.2 and 4.4 (green) turn on and LED 4.3 (red) turns on for half a second each time the trigger is depressed. If Stage I is selected at the gun, LED 4.2 (green) turns on and LED 4.3 (red) as in Stage II turns on for half a second each time the MANUAL/AUTO switch is changed to MANUAL position. If abnormal behavior is observed, the module should be replaced. CHECKING THE POWER CABLE Release the connectors and remove the two extremities of the cable. With a multimeter, check the continuity between same number pins of the connectors in the two extremities. If there is an interruption, replace the cable. Also check the isolation between the pins of a same connector (fig. 4). The pins are isolated. Fig.4 – Electric cable connector CHECKING THE GUN The high voltage is generated in the gun barrel. If motherboard, the modules 1, 2, 3, 4 and the electric cable are not defective and the gun is not generating high tension, the defect is probably in the gun barrel (see exploded of powder gun). The best way to confirm the defect is to replace the gun with a new one. If the new gun generates high voltage, the defective gun barrel must be replaced. 4/10 Service Instructions BYE-134 REPLACING THE ELECTRIC CABLE REPLACING THE GUN BARREL Release the connectors and remove the cable. Main switch ON/OFF (MANUAL/AUTO) Remove the two screws that hold the barrel to the gun body with a hexagonal 1/8” wrench and a 5/8" hex wrench take out the powder entry tube, and pull the barrel forward. Install a new barrel and put back the screws and the powder entry tube. Voltmeter / Microamperimeter Voltage adjustment Powder flow adjustment Power cable Compressed air inlet Ground wire Automatic gun CASCADIUM Filter regulator (NOT INCLUDED) Electrical cable Compressed air supply Powder Pump Supply hose Nº3 (dosing) Supply hose Nº2 (to powder pump) Fig. 5 – Schematics of an installation of electrostatic painting outilift 5/10 Service Instructions BYE-134 REPLACING THE MODULES Disconnect the voltage from the line before replacing any module. MODULE 1. Disconnect the connectors and remove the module from the plastic fixers. MODULE 2. Remove the module. MODULE 3. Remove the module. MODULE 4. Remove the module. MOTHERBOARD. Disconnect the connectors and remove the board from the plastic fixers. MODULE 2 MODULE 3 MOTHERBOARD MODULE 1 MODULE 4 Module 3 Electrical cable Automatic gun Solenoid valve Powder hose Powder pump Filter regulator Powder adjustment valve Fluidized powder (NOT INCLUDED) Fluidization powder source (NOT INCLUDED) Fig. 6 – Illustration diagram of the electrical pneumatic control 6/10 Service Instructions BYE-134 BGA-????: ELECTRO-PNEUMATIC FONT 4 25 3 5 7 1 13 6 10 2 9 1 8 11 18 24 19 17 23 20 19 15 14 21 12 19 22 29 22 16 23 24 19 15 26 19 14 18 29 7/10 Service Instructions BYE-134 PARTS LIST ELECTRICAL PNEUMATIC CONTROL REFERENCE DeVILBISS CODE DESCRIPTION QUANTITY 1 BSS-6103 Switch 2 2 BGA-0420 Microammeter 1 3 BSS-11201 Module 1 1 4 BGA-0422 Connector 1 5 BGA-0421 Harness 1 6 BGA-0418 Module 3 1 7 BGA-0417 Module 2 1 8 BGA-0428 Module 4 1 9 BGA-0605 Motherboard 1 10 BGA-0424 Microammeter Harness 1 11 BGA-0426 Potentiometer 1 Flow orifice 1 12 13 BGA-0427 Module 1 Harness 1 14 BFC-0528 Adapter 2 15 K-8119 Hoses 1 16 BFC-0753 Valve 1 17 BFC-0754 Valve 1 18 BFC-0175 Screw 2 19 BSS-602014-K5 O Ring Kit 1 20 BFC-0548 Manifold with restraint 2 21 BSH-0100 Adapter 1 22 BGA-0423 Solenoid Valve 1 23 BSS-602013-K5 O Ring Kit 1 24 BFC-0527 Adapter 2 25 BSS-006326-K5 Fuse Assembly 1 26 BFC-0177 2 Stage Manifold 1 27 H-1766 14” NPS x 1/8” NPT 1 28 BFC-0561 Hose Nº1 1 29 BFC-0562 Hose Nº2 1 30 BFC-0563 Hose Nº3 1 8/10 Service Instructions BYE-134 BFP-0833 POWDER GUN 1 8 2 6 4 13 7 5 10 9 3 TABLE 1 Pattern Code Round NFP-0601 Elliptical BFP-0603 1 11 14 9 15 16 REFERENCE DeVILBISS CODE DESCRIPTION QUANTITY 1 BFP-0777 Barrel 1 2 See Table 1 Deflector Assemply 1 3 K-8111 Replacement Kit 1 4 BFP-0345 Tip 1 5 BFP-0598 Electrode Support 1 6 BFP- 0347 Deflector pusher 1 7 BFP-0588 Deflector 1 8 BFP-0333 Powder tube 1 Body 1 9 10 BFP-0594 Command Assembly 1 11 BGA-0411 Barrel Harness 1 13 BGA-0412 Harness 1 14 BFP-0591 Powder Entry Tube 1 15 BFP-0584 Electrode Assembly 1 16 BFP-0350 Elliptical Pattern Tip 1 9/10 Service Instructions BYE-??? BFP-0847: POWDER PUMP ASSEMBLY BFP-0867: CABLE ASSEMBLY 9 1 3 1 1 2 2 REFERENCE 5 4 8 DeV. CODE DESCRIPTION 7 QTY 1 BFP-0??? Power cable 1 2 BFP-0??? Powder hose Assemply 1 6 REFERENCE DeV. CODE DESCRIPTION QTY 1 BFT-0523 Retaining 2 2 BFT-0416 Injector 1 3 BFT-0164 Venturi Tube 1 4 BFT-0415 Adapter Support 1 5 BFT-0181 Pump Ring 1 6 BFT-0540 Suction Tube 1 7 BSS602013-K5 “O” Ring 1 8 BSS-602018-K5 “O” Ring 1 9 BSS602017-K5 “O” Ring 1 10/10
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