Operation Reactor 2 E-30 and E-XP2 Proportioning Systems 333023F EN Electric, Heated, Plural Component Proportioner for spraying polyurethane foam and polyurea coatings. Not for outdoor use. For professional use only. Not approved for use in explosive atmospheres or hazardous locations. Important Safety Instructions Read all warnings and instructions in this manual. Save these instructions. PROVEN QUALITY. LEADING TECHNOLOGY.
Contents Warnings ........................................................... 3 Important Isocyanate Information......................... 7 Models............................................................... 9 Approvals........................................................... 11 Accessories........................................................ 11 Supplied Manuals ............................................... 12 Related Manuals ................................................
Warnings Warnings The following warnings are for the setup, use, grounding, maintenance, and repair of this equipment. The exclamation point symbol alerts you to a general warning and the hazard 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 SKIN INJECTION HAZARD High-pressure fluid from gun, hose leaks, or ruptured components will pierce skin. This may look like just a cut, but it is a serious injury that can result in amputation. . • Do not spray without tip guard and trigger guard installed. • Engage trigger lock when not spraying. • Do not point gun at anyone or at any part of the body. • Do not put your hand over the spray tip. • Do not stop or deflect leaks with your hand, body, glove, or rag.
Warnings WARNING PRESSURIZED ALUMINUM PARTS HAZARD Use of fluids that are incompatible with aluminum in pressurized equipment can cause serious chemical reaction and equipment rupture. Failure to follow this warning can result in death, serious injury, or property damage. • Do not use 1,1,1-trichloroethane, methylene chloride, other halogenated hydrocarbon solvents or fluids containing such solvents. • Many other fluids may contain chemicals that can react with aluminum.
Warnings WARNING BURN HAZARD Equipment surfaces and fluid that is heated can become very hot during operation. To avoid severe burns: • Do not touch hot fluid or equipment.
Important Isocyanate Information Important Isocyanate Information Isocyanates (ISO) are catalysts used in two component materials. Isocyanate Conditions Spraying or dispensing materials containing isocyanates creates potentially harmful mists, vapors, and atomized particulates. Read material manufacturer’s warnings and material MSDS to know specific hazards and precautions related to isocyanates.
Important Isocyanate Information Foam Resins with 245 fa Blowing Agents Some foam blowing agents will froth at temperatures above 90°F (33°C) when not under pressure, especially if agitated. To reduce frothing, minimize preheating in a circulation system. 8 Changing Materials NOTICE Changing the material types used in your equipment requires special attention to avoid equipment damage and downtime. • When changing materials, flush the equipment multiple times to ensure it is thoroughly clean.
Models Models Reactor 2 E-30 and E-30 Elite All elite systems include fluid inlet sensors, Graco InSite™, and Xtreme-Wrap 50 ft (15 m) heated hose. For part numbers, see Accessories, page 11 E-30 Model Model Proportioner ★ Maximum Fluid Working Pressure psi (MPa, bar) Approximate Output per Cycle (A+B) gal. (liter) Max Flow Rate lb/min (kg/min) Total System Load † (Watts) Configurable Voltage Phase Full Load Peak Current* E-30 Elite Model 10 kW 15 kW 10 kW 15kW 0.0272 (0.1034) 0.0272 (0.
Models Reactor 2 E-XP2 and E-XP2 Elite All elite systems include fluid inlet sensors, Graco InSite™, and Xtreme-Wrap 50 ft (15 m) heated hose. For part numbers, see Accessories, page 11 Model E–XP2 Model Proportioner ★ Maximum Fluid Working Pressure psi (MPa, bar) Approximate Output per Cycle (A+B) gal. (liter) Max Flow Rategpm/min (l/min) Total System Load † (Watts) Configurable Voltage Phase Full Load Peak Current E–XP2 Elite Model 15 kW 15 kW 0.0203 (0.0771) 0.0203 (0.0771) 2 (7.
Approvals Approvals Accessories Intertek approvals apply to proportioners without hoses. Proportioner Approvals: Kit Number Description 24U315 24U314 24T280 16X521 Air Manifold Kit (4 outlets) Wheel and Handle Kit Graco InSite Kit Graco InSite Extension cable 24.6 ft (7.
Supplied Manuals Supplied Manuals The following manuals are shipped with the Reactor 2. Refer to these manuals for detailed equipment information. Manuals are also available at www.graco.com. Manual 333023 333091 333092 Description Reactor 2 E-30 and E-XP2 Operation Reactor 2 E-30 and E-XP2 Startup Quick Guide Reactor 2 E-30 and E-XP2 Shutdown Quick Guide Related Manuals The following manuals are for accessories used with the Reactor. Component Manuals in English: Manuals are available at www.graco.
Typical Installation, without circulation Typical Installation, without circulation H J K G A J L M K G F N (RES) N (ISO) D S E P C* B Figure 1 * Shown exposed for clarity. Wrap with tape during operation.
Typical Installation, with system fluid manifold to drum circulation Typical Installation, with system fluid manifold to drum circulation K H M G J J R A M K L R G (RES) F (ISO) D S E P C* B Figure 2 * Shown exposed for clarity. Wrap with tape during operation.
Typical Installation, with gun fluid manifold to drum circulation Typical Installation, with gun fluid manifold to drum circulation Figure 3 * Shown exposed for clarity. Wrap with tape during operation.
Component Identification Component Identification 16 Figure 4 333023F
Component Identification Key BA BB CD DG EC EM FA FB FH FM FV GA GB HA HB HC MP PA PB 333023F ISO Side Pressure Relief Outlet RES Side Pressure Relief Outlet Advanced Display Module (ADM) Drive Gear Housing Electrical Cord Strain Relief Electric Motor ISO Side Fluid Manifold Inlet RES Side Fluid Manifold Inlet Fluid Heaters (behind shroud) Reactor Fluid Manifold Fluid Inlet Valve (RES side shown) ISO Side Pressure Gauge RES Side Pressure Gauge ISO Side Hose Connection RES Side Hose Connection Heated Hos
Component Identification Advanced Display Module (ADM) The ADM display shows graphical and text information related to setup and spray operations. NOTICE To prevent damage to the softkey buttons, do not press buttons with sharp objects such as pens, plastic cards, or fingernails.
Component Identification Table 1 : ADM Keys and Indicators Key Function Press to startup or shutdown the system. Startup/Shutdown Key and Indicator Press to stop all proportioner processes. This Is not a safety or emergency stop. Stop Press to select the specific screen or operation shown on the display directly next to each key. Soft Keys • • Use to move from screen to screen. Up/Down Arrows: Use to move among fields on a screen, items on a dropdown menu, or multiple screens within a function.
Component Identification Figure 6 Back View CJ Flat Panel Mount (VESA 100) CK Model and Serial Number CL USB Port and Status LEDs CM CAN Cable Connection CN CP CR CS Module Status LEDs Accessory Cable Connection Token Access Cover Battery Access Cover Table 2 ADM LED Status Descriptions LED System Status USB Status (CL) ADM Status (CN) Conditions Description Green Solid Green Flashing Yellow Solid Yellow Flashing Green Flashing Yellow Solid Green and Yellow Flashing Run Mode, System On Setup Mode
Component Identification ADM Display Details Power Up Screen The following screen appears when the ADM is powered up. It remains on while the ADM runs through initialization and establishes communication with other modules in the system. Alarm/Deviation The current system error is displayed in the middle of the menu bar.
Component Identification Icons Icons Icon Softkeys Function Component A Component B Estimated Supply Material Icon Function Start Proportioner Start and Stop Proportioner in Jog Mode Stop Proportioner Turn on or off the specified heat zone. Hose Temperature Park pump Jog Mode Speed Enter Jog Mode. See Jog Mode, page 45 Pressure Reset Cycle Counter (press and hold) Select Recipe Cycle Counter (press and hold) Advisory. See Errors, page 37 for more information. Deviation.
Component Identification Electrical Enclosure AAA Temperature Control Module (TCM) AAB Motor Control Module (MCM) AAC Enclosure Fan AAD Wiring Terminal Blocks AAE Power Supply AAF Surge Protector AAG Hose Breaker AAH Motor Breaker AAJ A Side Heat Breaker AAK B Side Heat Breaker AAL Transformer Breaker MP Main Power Switch 333023F 23
Component Identification Motor Control Module (MCM) Base Model Elite Model Figure 7 MS 1 2 3 4 5 6 7 8 9 Description Module Status LEDs see LED Status Table CAN Communication Connections Motor Temperature Not used Not used Not used A Pump Output Pressure B Pump Output Pressure A Fluid Inlet Sensor (Elite only) B Fluid Inlet Sensor (Elite only) 10 11 12 14 15 16 RS * Accessory output Not used Pump Cycle Counter Graco Insite™ Motor Power Output Main Power Input Rotary Switch * MCM Rotary Switch Positi
Component Identification Temperature Control Module (TCM) Cable Connections Figure 8 1 Power Input 2 Heater Overtemperature 3 CAN Communications Connections 4 Power Out (ISO) 5 Power Out (Res) 6 Power Out (Hose) 7 Module Status LEDs 8 Heater A Temperature (ISO) 9 Heater B Temperature (RES) 10 Hose Temperature 333023F 25
Installation Installation Setup From Shipping Configuration 1. Remove bolts (A) and nuts. 2. Swing up the electrical enclosure and reinstall bolt (A) with nut. Tighten bolt (B) and nut. 3. Position cable bundles against the frame and attach to the frame with loose wire tie (C) on each side. 1. Use the supplied bolts to install the supplied L-brackets onto the system frame in the top-most square holes. Install brackets on both the left and right side of system frame. 2. Secure the L-brackets to the wall.
Setup Setup Grounding The equipment must be grounded to reduce the risk of static sparking. Static sparking can cause fumes to ignite or explode. Grounding provides an escape wire for the electric current. • Reactor: • Spray gun: cord. System is grounded through the power connect whip hose ground wire to FTS. See Install Fluid Temperature Sensor, page 29. Do not disconnect ground wire or spray without whip hose. • Fluid supply containers: follow your local code.
Setup Connect Power Terminal jumpers are located inside the electrical enclosure door. Install supplied terminal jumpers in the positions shown in image for the power source used. Route power cable through strain relief (EC) in electrical enclosure. Connect incoming power wires as shown in image. Gently pull on all connections to verify they are properly secured. Verify all items are connected properly as shown in image then close electrical enclosure door. NOTE: 3.
Setup Supply Wet Cups With Throat Seal Liquid (TSL) • Check felt washers in packing nut/wet-cup (S) daily. Keep saturated with Graco Throat Seal Liquid (TSL), Part No. 206995, to prevent material from hardening on displacement rod. Replace felt washers when worn or contaminated with hardened material. Component B (Resin) Pump: Pump rod and connecting rod move during operation. Moving parts can cause serious injury such as pinching or amputation. Keep hands and fingers away from wet-cup during operation.
Advanced Display Module (ADM) Operation Advanced Display Module (ADM) Operation When main power is turned on by turning the main power switch (MP) to the ON position, the power up screen will be displayed until communication and initialization is complete. Then the power key icon screen will display until the is pressed for the ADM power on/off button (A) first time after system power-up. To begin using the ADM, the machine must be active.
Advanced Display Module (ADM) Operation Setup Mode The ADM will start in the Run screens at the Home screen. From the Run screens, press to access the Setup screens. The system defaults with no password, entered as 0000. Enter the current password then press . Press to navigate through the Setup Mode screens. See Setup Screens Navigation Diagram, page 45. Set Password Set a password to allow Setup screen access, see Advanced Screen 1 – General, page 33. Enter any number from 0001 to 9999.
Advanced Display Module (ADM) Operation Setup Screens Navigation Diagram Figure 11 32 333023F
Advanced Display Module (ADM) Operation Advanced Setup Screens Advanced setup screens enable users to set units, adjust values, set formats, and view software information to scroll through the Advanced setup screens, Once in the desired for each component. Press Advanced setup screen, press to access the fields and make changes. When changes are complete press to exit edit mode. Note Users must be out of edit mode to scroll through the Advanced setup screens.
Advanced Display Module (ADM) Operation System 1 Recipes Use this screen to set the activation pressure for the Pressure Imbalance Alarm and Deviation, enable or disable diagnostic screens, set the maximum and minimum drum volume, and enable drum alarms. Use this screen to add recipes, view saved recipes, and enable or disable saved recipes. Enabled recipes can be selected at the Home Run Screen. 24 recipes can displayed on the three recipe screens.
Advanced Display Module (ADM) Operation Run Mode The ADM will start in the Run screens at the “Home” screen. Press screens. See Run Screens Navigation Diagram, page 44. From the Run screens, press to navigate through the Run Mode to access the Setup screens.
Advanced Display Module (ADM) Operation Home — System Off Home — System With Error This is the home screen when the system is off. This screen displays actual temperatures, actual pressures at the fluid manifold, jog speed, coolant temperature, and number of cycles. Active errors are shown in the status bar. The error code, alarm bell, and description of the error will scroll in the status bar. 1. Press to acknowledge the error. 2. See for corrective action.
Advanced Display Module (ADM) Operation Maintenance Events Use this screen to view daily and lifetime cycles or gallons that have been pumped and gallons or liters remaining in the drums. The lifetime value is the number of pump cycles or gallons since the first time the ADM was turned on. The daily value automatically resets at midnight. The manual value is the counter that can be manually reset. Press and hold to reset manual counter.
Advanced Display Module (ADM) Operation Troubleshooting This screen displays the last ten errors that occurred on the system. Use the up and down arrows to select an error and press to view the QR code for the selected error. Press to access the QR code screen for an error code that is not listed on this screen. See Error Codes and Troubleshooting, page 58, for more information on error codes. QR Codes To quickly view online help for a given error code, scan the displayed QR code with your smartphone.
Advanced Display Module (ADM) Operation Diagnostic Use this screen to view information for all system components. Note ★ Maximum values based on maximum input voltage. Values will lower with lower input voltage. Job Data Use this screen to enter a job name or number.
Advanced Display Module (ADM) Operation System Events Use the table below to find a description for all system non-error events. All events are logged in the USB log files.
Startup Startup 4. To prevent serious injury, only operate Reactor with all covers and shrouds in place. NOTICE Proper system setup, startup, and shutdown procedures are critical to electrical equipment reliability. The following procedures ensure steady voltage. Failure to follow these procedures will cause voltage fluctuations that can damage electrical equipment and void the warranty. 1. Check generator fuel level.
Startup 9. Switch on the air compressor, air dryer, and breathing air, if included. 10. e. Open fluid inlet valves (FV). Check for leaks. For first startup of new system, load fluid with feed pumps. a. Check that all steps are complete. See Setup, page 27. b. If an agitator is used, open the agitator’s air inlet valve. c. If you need to circulate fluid through the system to preheat the drum supply, see Circulation Through Reactor, page 44.
Startup 11. Press to activate ADM. 12. If necessary, setup the ADM in Setup Mode. See Advanced Display Module (ADM) Operation, page 30. 13. Preheat the system: a. Press to turn on hose heat zone. This equipment is used with heated fluid which can cause equipment surfaces to become very hot. To avoid severe burns: • Do not touch hot fluid or equipment. • Do not turn on hose heat without fluid in hoses. • Allow equipment to cool completely before touching it.
Fluid Circulation Fluid Circulation Circulation Through Reactor NOTICE To prevent equipment damage, do not circulate fluid containing a blowing agent without consulting with your material supplier regarding fluid temperature limits. Optimum heat transfer is achieved at lower fluid flow rates with temperature set points at desired drum temperature. Low temperature rise deviation errors may result. To circulate through gun manifold and preheat hose, see Circulation Through Gun Manifold, page 45. 1.
Jog Mode Circulation Through Gun Manifold NOTICE To prevent equipment damage, do not circulate fluid containing a blowing agent without consulting with your material supplier regarding fluid temperature limits. Optimum heat transfer is achieved at lower fluid flow rates with temperature set points at desired drum temperature. Low temperature rise deviation errors may result. Circulating fluid through the gun manifold allows rapid preheating of the hose. 1.
Spraying Spraying 6. Open fluid inlet valve located at each pump inlet. The Fusion AP gun is shown. 1. Engage gun piston safety lock and close gun fluid inlet valves A and B. Fusion Probler 2. Attach gun fluid manifold. Connect gun air line. Open air line valve. 3. Adjust the gun air regulator to desired gun air pressure. Do not exceed the maximum rated air pressure. 4. Set PRESSURE RELIEF/SPRAY valves (SA, SB) to SPRAY . 7. Press to start motor and pumps. 8.
Spraying 9. Open gun fluid inlet valves A and B. 11. Pull gun trigger to test spray onto cardboard. If necessary, adjust pressure and temperature to get desired results. Spray Adjustments Fusion Probler Flow rate, atomization, and amount of overspray are affected by four variables. • Too little pressure results in an uneven pattern, coarse droplet size, low flow, and poor mixing. Too much pressure results in excessive overspray, high flow rates, difficult control, and excessive wear.
Spraying Manual Hose Heat Mode If the system produces the T6DH sensor error hose alarm or the T6DT sensor error TCM alarm, use manual hose heat mode until the hose RTD cable or FTS temperature sensor can be repaired. Do not use Manual Hose Mode for extended periods of time. The system performs best when the hose has a valid RTD and can operate in temperature control mode. If a hose RTD breaks, the first priority is to fix the RTD. Manual Hose Mode can help finish a job while waiting for repair parts. 3.
Spraying 5. Navigate back to the Run Mode Home screen. The hose now displays a current instead of a temperature. Disable Manual Hose Mode 1. Enter Setup Mode and navigate to System 2 Screen and deselect Enable Manual Hose Mode, or repair the hose RTD cable or FTS. Note Until the RTD sensor is repaired, the T6DH sensor error alarm will display each time the system is powered up. 333023F 2. Manual hose mode is automatically disabled when the system detects a valid RTD sensor in the hose.
Shutdown Shutdown NOTICE Proper system setup, startup, and shutdown procedures are critical to electrical equipment reliability. The following procedures ensure steady voltage. Failure to follow these procedures will cause voltage fluctuations that can damage electrical equipment and void the warranty. 1. Press 6. Turn off the air compressor, air dryer, and breathing air. to stop the pumps. 7. Turn main power switch OFF. 2. Turn off all heat zones. 3. Relieve pressure.
Shutdown 9. Set PRESSURE RELIEF/SPRAY valves (SA, SB) to SPRAY to seal out moisture from drain line. 10. Engage gun piston safety lock then close fluid inlet valves A and B.
Pressure Relief Procedure Pressure Relief Procedure Follow the Pressure Relief Procedure whenever you see this symbol. 4. Route fluid to waste containers or supply tanks. Turn PRESSURE RELIEF/SPRAY valves (SA, SB) to PRESSURE RELIEF/CIRCULATION . Ensure gauges drop to 0. This equipment stays pressurized until pressure is manually relieved.
Flushing Flushing To flush feed hoses, pumps, and heaters separately from heated hoses, set PRESSURE RELIEF/SPRAY valves (SA, SB) to PRESSURE To help prevent fire and explosion: • Flush equipment only in a well-ventilated area. • Do not spray flammable fluids. • Do not turn on heaters while flushing with flammable solvents. • Flush out old fluid with new fluid, or flush out old fluid with a compatible solvent before introducing new fluid. • Use the lowest possible pressure when flushing.
Maintenance Maintenance Grease Circulation Valves Grease circulation valves (SA and SB) with Fusion grease (117773) weekly. Prior to performing any maintenance procedures, follow Pressure Relief Procedure, page 52. SA SB Preventative Maintenance Schedule The operating conditions of your particular system determine how often maintenance is required.
Maintenance Flush Inlet Strainer Screen The inlet strainers filter out particles that can plug the pump inlet check valves. Inspect the screens daily as part of the startup routine, and clean as required. Isocyanate can crystallize from moisture contamination or from freezing. If the chemicals used are clean and proper storage, transfer, and operating procedures are followed, there should be minimal contamination of the A-side screen. compatible solvent and shake it dry. Inspect the screen.
Maintenance Pump Lubrication System Check the condition of the ISO pump lubricant daily. Change the lubricant if it becomes a gel, its color darkens, or it becomes diluted with isocyanate. Gel formation is due to moisture absorption by the pump lubricant. The interval between changes depends on the environment in which the equipment is operating. The pump lubrication system minimizes exposure to moisture, but some contamination is still possible.
Errors Errors Troubleshoot Errors View Errors To troubleshoot the error: 1. Press the soft key next to “Help With This Error” for help with the active error. When an error occurs the error information screen displays the active error code and description. The error code, alarm bell, and active errors will scroll in the status bar. For a list of the ten most recent errors see Troubleshooting, page 58.
Troubleshooting Troubleshooting See Troubleshooting, page 38 for the ten most recent errors that have occurred on the system. See Troubleshoot Errors, page 57 to diagnose errors on the ADM that have occurred on the system. See Errors, page 57 for information about errors that can occur on the system. Error Codes and Troubleshooting See system repair manual or visit http://help.graco.com for causes and solutions to each error code.
USB Data USB Data Download Procedure Note System configuration setting files and custom language files can be modified if the files are in the UPLOAD folder of the USB flash drive. See System Configuration Settings File, Custom Language File, and Upload Procedure sections. 1. Insert USB flash drive into USB port. 2. The menu bar and USB indicator lights indicate that the USB is downloading files. Wait for USB activity to complete. 3. Remove USB flash drive from USB port. 4.
USB Data Job Log System Software Log The job log file name is 2–JOB.CSV and is stored in the DATAxxxx folder. The job log maintains a record of data points based on the USB Log Frequency defined in the Setup screens. The ADM stores the last 237,000 data points for download. See Setup - Advanced Screen 3 — USB, page 33, for information on setting the Download Depth and USB Log Frequency.
USB Data Custom Language File The custom language file name is DISPTEXT.TXT and is stored in the DOWNLOAD folder. A custom language file automatically downloads each time a USB flash drive is inserted into the ADM. If desired, use this file to create a user-defined set of custom language strings to be displayed within the ADM. The system is able to display the following Unicode characters.
Performance Charts Performance Charts Use these charts to help identify the proportioner that will work most efficiently with each mix chamber. Flow rates are based on a material viscosity of 60 cps. NOTICE To prevent system damage, do not pressurize the system above the line for the gun tip size being used. Proportioners For Foam 2000 (138) AR4242 (01) AR5252 (02) 1500 (103) PRESSURE psi (bar) AR6060 (03) 1000 (69) AR7070 (04) E-30 500 (34) 0 5 (2.3) 10 (4.5) 15 (6.8) 20 (9.1) 25 (11.
Performance Charts Proportioners For Coatings Table 5 Fusion Air Purge, Round Pattern 3500 (241) 3000 (207) 2500 PRESSURE psi (bar) E-XP2 AR2020 (000) (172) AR2929 (00) 2000 (138) 1500 (103) AR4242 (01) 1000 (69) 500 (34) 0 0.5 1.0 (1.9) 1.5 (3.8) 2.0 (5.7) (7.6) FLOW gal./min (l/min) Table 6 Fusion Air Purge, Flat Pattern 3500 (241, 24.1) 3000 (207, 20.7) AF2929 (FTXX38 TIP) 2500 (174, 17.4) PRESSURE psi (bar) AF2020 (FTXX24 TIP) 2000 (138, 13.
Performance Charts Table 7 Fusion Mechanical Purge, Round Pattern 3500 (241, 24.1) E-XP2 3000 (207, 20.7) XR2323 (RTM040) 2500 (174, 17.4) PRESSURE psi (bar) XR2929 (RTM040) 2000 (138, 13.8) MR3535 (RTM040) 1500 (103, 10.3) XR3535 (RTM055) 1000 (69, 6.9) MR4747 (RTM055) XR4747 (RTM055) 500 (35, 3.5) 0 0.5 1 (1.9) 1.5 (3.8) 2.0 (5.7) (7.6) FLOW gal./min (l/min) Table 8 Fusion Mechanical Purge, Flat Pattern 3500 (241, 24.1) XF2323 (FTM424) XF1313 (FTM424) 3000 (207, 20.
Technical Specifications Technical Specifications Reactor 2 E-30 and E-XP2 Proportioning System Maximum Fluid Working Pressure E-30 E-XP2 Maximum Fluid Temperature E-30 E-XP2 Maximum Flow Rate E-30 E-XP2 Maximum Heated Hose Length Length U.S. Metric 2000 psi 3500 psi 14 MPa, 140 bar 24.1 MPa, 241 bar 190°F 190°F 88°C 88°C 30 lb/min 2 gpm 13.5 kg/min 7.6 lpm 310 ft 94 m 0.0272 gal. 0.0203 gal. 0.1034 liter 0.
Technical Specifications Sound Pressure Sound Pressure measured per ISO-9614–2. E-30 87.3 dBA E-XP2 79.6 dBA Measured from 3.1 ft (1 m), at 1000 psi (7 MPa, 70 bar), 3 gpm (11.4 lpm) Measured from 3.1 ft (1 m), at 3000 psi (21 MPa, 207 bar), 1 gpm (3.8 lpm) Sound Power E-30 93.7 dBA E-XP2 86.6 dBA Measured from 3.1 ft (1 m), at 1000 psi (7 MPa, 70 bar), 3 gpm (11.4 lpm) Measured from 3.1 ft (1 m), at 3000 psi (21 MPa, 207 bar), 1 gpm (3.
Graco Extended Warranty for Reactor® 2 Components 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.
Graco Information For the latest information about Graco products, visit www.graco.com. 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. For patent information, see www.graco.com/patents.
