Graco 259079, 259080, 259091, 259090, 259081 Operation Manuals

...

Page 1

Operation

3A1705E

Reactor® E-30i and E-XP2i

Electric, Heated, Integrated Plural Component Proportioning System With Integrated Generator. For spraying polyurethane foam and polyurea coatings. 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.

Page 2

Contents

Warnings ............................................................. 3

Important Two-Component Material

Information ............................................. 7

Proportioner Models ............................................. 9

Systems............................................................. 10

Accessories........................................................ 11

Supplied Manuals............................................... 12

Related Man

Typical Installation, with circulation ...................... 13

Typical Installation, without circulation.................. 14

Component

Generator Proportio Air Compr Advanced Motor Con Engine Co Load Cen Tempera Circuit

Overview............................................................ 30

Setup................................................................. 33

Locate Reactor ............................................ 33

Trailer Setup Guidelines ............................... 35

Install Wall (optional) .................................... 36

Connect Battery........................................... 38

Add Fuel ..................................................... 38

General Equipment Guidelines ..................... 38

Electrical Connections.................................. 39

Connect Feed Pumps................................... 39

Breathing Air................................................ 39

Connect Pressure Relief Lines...................... 40

Install Fluid Temperature Sensor .................. 40

Connect Heated Hose .................................. 40

Close gun ﬂuid manifold valves A and

Connect Whip Hose to Gun Or Gun Fluid

Pressure Check Hose .................................. 41

Connect Remote Display Module .................. 41

Grounding ................................................... 41

Supply Wet Cups With Throat Seal Liquid

vanced Display Module (ADM)

uals ................................................ 12

Identiﬁcation..................................... 15

.................................................... 17

ner Control Panel ........................... 18

essor............................................ 18

Display Module (ADM).................. 19

trol Module (MCM)........................ 23

ntrol Module ................................. 24

ter ................................................ 25

ture Control Modules....................... 26

Breakers ........................................... 28

B ................................................... 41

Manifold......................................... 41

(TSL) ............................................. 42

eration.............................................. 43

Advanced Setu

System........................................................ 47

Recipes....................................................... 47

Run Mode ................................................... 48

Startup............................................................... 55

Temporary Manual Hose Temperature

Control ................................................. 58

Fluid Circulation.................................................. 59

Circulation Through Reactor ......................... 59

Circulation Through Gun Manifold ................. 60

Jog Mode........................................................... 60

Spraying ............................................................ 61

Spray Adjustments ....................................... 62

Shutdown........................................................... 63

Pressure Relief Procedure .................................. 64

Flushing............................................................. 65

Maintenan

Errors ................................................................ 72

Troubleshooting.................................................. 74

USB Data........................................................... 86

Appendix A: Engine Control Module..................... 90

Dimensions ........................................................ 93

Performance Charts............................................ 96

Notes ................................................................ 97

Technical Speciﬁcations...................................... 98

Grac

ce ...................................................... 66

Preventa Proporti Engine Ma Flush Inl Pump Lubr Drain Co Reﬁll Pr Reﬁll En Coolant

View Errors.................................................. 72

Troubleshoot Errors ..................................... 73

Error Codes and Troubleshooting..................74

USB Logs.................................................... 86

System Conﬁguration Settings...................... 87

Custom Language File ................................. 88

Download Procedure.................................... 88

Upload Procedure........................................ 89

o Standard Warranty.................................. 102

oner Maintenance ............................ 66

oportioner Coolant Loop ................... 70

p Screens ............................. 46

tive Maintenance Schedule ............. 66

intenance .................................... 66

et Strainer Screen ........................... 67

ication System............................. 68

olant .............................................. 69

gine Coolant Loop ........................... 71

Speciﬁcations.................................. 71

3A1705E

Page 3

Warnings

The following exclamation p risks. When th hazard symbo where applic

warnings are for the setup, use, grounding, maintenance and repair of this equipment. The oint symbol alerts you to a general warning and the hazard symbol refers to procedure-speciﬁc

ese symbols appear in the body of this manual refer back to these Warnings. Product-speciﬁc

ls and warnings not covered in this section may appear throughout the body of this manual

able.

WARNING

ELECTRIC SHOCK HAZARD

This equip cause elec

• Turn off and disconnect power at main switch before disconnecting any cables and before servicing equipment.

• Connect o

• All electrical wiring must be done by a qualiﬁed electrician and comply with all local codes and regulations.

TOXIC FLUID OR FUMES Toxic ﬂuids or fumes can cause serious injury or death if splashed in the eyesoronskin, 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.

ment must be grounded. Improper grounding, setup, or usage of the system can

tric shock.

nly to grounded power source.

CARBO Exhau carbo

• Do not operate in an enclosed area.

PERS You m oper hear

• Protective eyewear, and hearing protection.

•Res

N MONOXIDE HAZARD

st contains poisonous carbon monoxide, which is colorless and odorless. Breathing

n monoxide can cause death.

ONAL PROTECTIVE EQUIPMENT

ust wear appropriate protective equipment when operating, servicing, or when in the ating area of the equipment to help protect you from serious injury, including eye injury, ing loss, inhalation of toxic fumes, and burns. This equipment includes but is not limited to:

pirators, protective clothing, and gloves as recommended by the ﬂuid and solvent

ufacturer.

man

3A1705E 3

Page 4

Warnings

WARNING

SKIN INJECTION HAZARD

High-pressure ﬂuid from dispensing device, 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. Get immediate surgical treatment.

• Engage trigg

• Do not point dispensing device at anyone or at any part of the body.

• Do not put your hand over the ﬂuid outlet.

• Do not stop o

• Follow the Pressure Relief Procedure when you stop dispensing and before cleaning, checking, or servicing equipment.

• Tighten all ﬂuid connections before operating the equipment.

• Check hose

FIRE AND EXPLOSION HAZARD

Flammabl prevent ﬁ

• Use equipment only in well ventilated area.

•Donotﬁl ﬂammabl

• 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 p are pre

• Ground all equipment in the work area. See Grounding instructions.

• Use only grounded hoses.

•Holdg

• If there is static sparking or you feel a shock, stop operation immediately. Do not use equipment until you identify and correct the problem.

• Keep a working ﬁre extinguisher in the work area.

er lock when not dispensing.

r deﬂect leaks with your hand, body, glove, or rag.

s and couplings daily. Replace worn or damaged parts immediately.

e fumes, such as solvent and paint fumes, in work area can ignite or explode. To help

re and explosion:

l fuel tank while engine is running or hot; shut off engine and let it cool. Fuel is e and can ignite or explode if spilled on hot surface.

lug or unplug power cords, or turn light switches on or off when ﬂammable fumes

sent.

un ﬁrmly to side of grounded pail when triggering into pail.

MAL EXPANSION HAZARD

THER

Fluids subjected to heat in conﬁned spaces, including hoses, can create a rapid rise in pressure due to the thermal expansion. Over-pressurization can result in equipment rupture and serious injury.

• Open a valve to relieve the ﬂuid expansion during heating.

• Replace hoses proactively at regular intervals based on your operating conditions.

3A1705E

Page 5

Warnings

WARNING

PRESSURIZED ALUMINUM 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 solvents or ﬂ

• Many other ﬂuids may contain chemicals that can react with aluminum. Contact your material supplier for compatibility.

PLASTIC PARTS CLEANING SOLVENT HAZARD

Many solvents can degrade plastic parts and cause them to fail, which could cause serious injury or property damage.

• Use only co parts.

•SeeTechnical Data in this and all other equipment instruction manuals. Read ﬂuid and solvent manufacturer’s MSDSs and recommendations.

EQUIPMENT MISUSE HAZARD

Misuse can cause death or serious injury.

• Do not op

• 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.

•Donot equip

• Check equipment daily. Repair or replace worn or damaged parts immediately with genuine manufacturer’s replacement parts only.

• Do not alter or modify equipment.

•Usee

• 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

• Comply with all applicable safety regulations.

leave the work area while equipment is energized or under pressure. Turn offall

ment and follow the Pressure Relief Procedure when equipment is not in use.

quipment only for its intended purpose. Call your distributor for information.

children and animals away from work area.

,1-trichloroethane, methylene chloride, other halogenated hydrocarbon

uids containing such solvents.

mpatible water-based solvents to clean plastic structural or pressure-containing

erate the unit when fatigued or under the inﬂuence of drugs or alcohol.

3A1705E 5

Page 6

Warnings

WARNING

BATTERY HAZARD

The battery may leak, explode, cause burns, or cause an explosion if mishandled.

• Only use the battery type speciﬁed for use with the equipment. See Technical Data.

• Battery maintenance must only be performed or supervised by personnel knowledgeable of batteries and the required precautions. Keep unauthorized personnel awayfrombattery.

• When replaci minimum, spe

• Do not dispose of battery in ﬁre. The battery is capable of exploding.

• Follow local ordinances and/or regulations for disposal.

• Do not open o the skin and

• Remove watches, rings, or other metal objects.

• Only use tools with insulated handles. Do not lay tools or metal parts on top of battery.

ng the battery, use the same lead-acid automotive battery, with 800 CCA

ciﬁed for use with the equipment. See Technical Data.

r mutilate the battery. Released electrolyte has been known to be harmful to

eyes and to be toxic.

MOVING PA

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.

•Pressur equipme

ENTAGLEMENT HAZARD

ng parts can cause serious injury.

Rotati

• Keep clear of moving parts.

•Donoto

• Do not wear loose clothing, jewelry or long hair while operating equipment.

• Equipment can start without warning. Before checking, moving, or servicing equipment, follow the Pressure Relief Procedure and disconnect all power sources.

BURN HAZARD

pment surfaces and ﬂuid that’s heated can become very hot during operation.Toavoid

Equi

re burns:

seve

• Do not touch hot ﬂuid or equipment.

RTS HAZARD

ized equipment can start without warning. Before checking, moving, or servicing

nt, follow the Pressure Relief Procedure and disconnect all power sources.

perate equipment with protective guards or covers removed.

6 3A1705E

Page 7

Important Two-C

omponent Material Information

Important Two-Component Material Information

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.

Prevent inhalation of isocyanate mists, vapors, and atomized particulates by providing sufﬁcient ventilation in the work area. If sufﬁcient ventilation is not available, a supplied-air respirator is required for everyone in the work area.

To prevent contact with isocyanates, appropriate personal protective equipment, including chemically impermeable gloves, boots, aprons, and goggles, is also required for everyone in the work area.

Moisture Sensitivity of Isocyanates

Cross-contamination can result in cured material in ﬂuid lines which could cause serious injury or damage equipment. To prevent cross-contamination of the equipment’s wetted parts, never interchange component A (isocyanate) and component B (resin) parts.

Isocyanates (ISO) are catalysts used in two component foam and polyurea coatings. ISO will react with moisture (such as humidity) to form small, hard, abrasive crystals, which become suspended in the ﬂuid. Eventually a ﬁlm will form on the surface and the ISO will begin to gel, increasing in viscosity. If used, this partially cured ISO will reduce performance and the life of all wetted parts.

The amount of ﬁlm formation and rate of crystallization varies depending on the blend of ISO, the humidity, and the temperature.

Material Self-Ignition

Some materials may become self-igniting if applied too thickly. Read material manufacturer’s warnings and material MSDS.

Keep Components A and B Separate

To prevent exposing ISO to moisture:

• Always use a sealed container with a desiccant dryer in the vent, or a nitrogen atmosphere. Never store ISO in an open container.

• Keep the ISO lube pump reservoir (if installed) ﬁlled with appropriate lubricant. The lubricant creates a barrier between the ISO and the atmosphere.

• Use only moisture-proof hoses compatible with ISO.

• Never use reclaimed solvents, which may contain moisture. Always keep solvent containers closed when not in use.

• Always lubricate threaded parts with ISO pump oil or grease when reassembling.

3A1705E

Page 8

Important Two-C

omponent Material Information

Foam Resins wi Agents

Some foam blow above 90°F (3 especially i preheating i

ing agents will froth at temperatures

3°C) when not under pressure,

f agitated. To reduce frothing, minimize

n a circulation system.

th 245 fa Blowing

Changing Mate

Changing the material types used in your equipment requires special attention to avoid equipment damage and downtime.

• When changin multiple tim

• Always clean

•Checkwithy compatibil

• When changi or polyure component have amine often have

es to ensure it is thoroughly clean.

ity.

as, disassemble and clean all ﬂuid

s and change hoses. Epoxies often

s on the B (hardener) side. Polyureas

amines on the B (resin) side.

rials

g materials, ﬂush the equipment

the ﬂuid inlet strainers after ﬂushing.

our material manufacturer for chemical

ng between epoxies and urethanes

8 3A1705E

Page 9

Proportioner Models

E-30i Series

Proportioner Mo

dels

Auxiliary Current at 240 V, 60 Hz*

259079

259080

259089 

259090 

50 Amps 240 V (1)

32 Amps

30 Amps

12 Amps

E-XP2i Series

Auxiliary Current at 240 V, 60 Hz*

259081

259091 

32 Amps

12 Amps

Includes:Part Available

Booster Heat (4000 Watts)





Includes:Part Available

Booster Heat (4000 Watts)





Air Compressor (5000 Watts)



Air Compressor (5000 Watts)

Voltage (phase)

240 V (1)

Voltage (phase)

240 V (1)

Total System Load † (Watts)

7,700

11,700

7,700

16,700

Total System Load † (Watts)

11,700

16,700

Max Flow Rate lb/min (kg/min)

30 (13.5)

Max Flow Rate gpm (lpm)

2.0 (7.6)

Approximate Output per Cycle (A+B) gal. (liter)

0.0272 (0.1034)

Approximate Output per Cycle (A+B) gal. (liter)

0.0203 (0.0771)

Maximum Fluid Working Pressure psi (MPa, bar) 2000 (14,

140) 2000 (14,

140)

Maximum Fluid Working Pressure psi (MPa, bar)

3500 (24.1,

241) 3500 (24.1,

241)



Total system watts used by system, based on maximum heated hose length of 310ft(94.5m)for each unit.

* Full load amps available for auxiliary equipment when all bare-system components are operating

at maximum capabilities. Available auxiliary current is based on 310 ft (94.5 m) of heated hose. An additional 3.0 amps of auxiliary current is available for each 50 ft (15.2 m) section of heated hose that is not used.





lable auxiliary current will be less when the engine is de-rated for site altitude. Reduce the

Avai

lable Auxiliary Current in the chart by 2.5 Amps per 1000 ft (300 m) elevation increments. If the

Avai

lable auxiliary current is less than zero, the system conﬁguration may not support the full load

avai

at altitude.

at th

Includes Complete Air Compressor Kit 24K335.

Refer to Circuit Breaker Conﬁguration Options, page 29.

eApprovals,page10.

3A1705E 9

Page 10

Systems

Approvals

Model Approvals:

259079

Conforms to ANSI/UL Std. 73 Certiﬁed to CAN/CSA Std. C22.2 No. 68

259080

259081

Conforms to ANSI/UL Std. 499 Certiﬁed to CAN/CSA Std. C22.2 No. 88

Systems

Remote

Part Proporti

AP9079 259079 24K240 246050 Fusion™

AP9080 259080 24K240 246050 Fusion™

AP9081 259081 24K241 246055 Fusion™

AP9179 259079

AP9180 259080

AP9181 259081

CS9079

CS9080

CS9081

CS9179

CS9180

CS9181

P290

P291

180

P29

181

P29

259079 24K240 246050

259080 24K240 246050

25908

25907

25908

2590

259

oner

080

081

Display Module K

✓

Heated Ho

50 ft (15 m) 10 ft (3 m) Model Part

24K394 246050 Fusion™

24K394 246050 Fusion

24K395 246055 Fusion

24K24

24K39

24K2

24K3

24K

394

395

24605

2460

050

246

055

246

Gun

Fusion™ CS CS0101

Fusion™ CS CS0000

Fusion™ CS CS0101

Fusion™ CS CS0000

Probler® P2 GCP2R1

Probler® P2 GCP2R0

Probler® P2 GCP2R1

Probler® P2 GCP2R0

™AP

246101

246100

246101

246100

10 3A1705E

Page 11

Accessories

Systems with A

Part Proportioner

AP9089 259089

AP9090 259090

AP9091 259091

AP9189 259089

AP9190 259090

AP9191 259091

CS9089

CS9090

CS9091

CS9189

CS9190

CS9191

P29089 259089

P29090 259090

P29091 259091

P29189 259089

P29190 259090

P29191 259091

259089

259090

259091

259089

259090

259091

ir Compressor

Air Compressor

✓

✓✓

✓

✓✓

✓

✓✓

Remote Display Module Kit

Heated Hose

50ft(15m) 10ft(3m)

24K240 246050 Fusion™ AP 246101

24K241 246055 Fusion™ AP 246100

24K394 246050 Fusion™ AP 246101

24K395 246055 Fusion™ AP 246100

24K240 246050

24K241 246055

24K394 246050

24K395 246055

24K240 246050

24K241 246055

24K394 246050

24K395 246055

Gun

Model Part

Fusion™ CS CS0101

Fusion™ CS CS0000

Fusion™ CS CS0101

®P2

r® P2

CS0101

CS0000

GCP2R1

GCP2R0

GCP2R1

GCP2R0

Fusion™ C

Probler®

Probler

Proble

mber

335

sories

iption

Descr

50 ft (15 m) CAN cable (for remote display module)

Fluid Temperature Sensor (FTS) with RTD

Complete Air Compressor Kit

r Compressor (without air supply

nk)

Air Compressor (mounted 30 gallon tank)

Air Tank (12 gallons, 113.5 liters)

Air Dryer (desiccant)

Compressor Rack (frame only)

Acces

Kit Nu

24N449

24K2

24K338 Remote Display Module Kit

24K

125970

24M490

4M125

24M178

24M258

24K336 Hose Rack

mber

Kit Nu

15V551

15M4

24K334

333

24K

24K337 Light Tower Kit

M174

24L911

121006

24N365

iption

Descr

ADM Protective Covers (10 pack)

te Display Module Protective

Remo

rs (10 pack)

Cove

Feed Pump Shutdown Kit

Fuel Line and Cable Extension Kit

Drum Level Sticks

allet Support Kit

150 ft (45 m) cable (for remote display module)

RTD Test Cables (to aide resistance measurements)

3A1705E

Page 12

Supplied Manual

Supplied Manuals

The following Refer to these information.

Manuals are also available at www.graco.com.

Manual Description

3A1705 Reactor E-30i and E-XP2i,

16K761

16K913 Reactor E-

SEBU7992 Perkins® Engine, Repair-Parts

–

manuals are shipped with the Reactor.

manuals for detailed equipment

Operation Reactor E-30i and E-XP2i, Startup Instructions

30i and E-XP2i,

Shutdown I

Mecc Alte Self-Regulating Alternator Series NPE, Repair-Parts

nstructions

Related Manuals

The following manuals are for accessories used with the Reactor.

Manuals are av

Component manuals in English:

System Manuals

3A1706 Reactor E-30i and E-XP2i,

Displacement Pump Manual

309577 Electric Reactor Displacement Pump,

Feed System Manuals

309572 Heated Hose, Instructions-Parts

309852

309815 Feed Pump

309827

Spray G

309550

312666

313213

Accessory Manuals

3A1902

3A1903 Hose Rack, Instructions-Parts

3A1904 Fuel Tank/Battery Move Kit,

3A19

3A1906 Light Tower Kit, Instructions-Parts

3A1907 Remote Display Module,

3A2574

ailable at www.graco.com

Repair-Parts

Circulation and Return Tube Kit, Instructions-Parts

Kits, Instructions-Parts

Feed Pump Air Supply Kit, Instructions-Parts

un Manuals

Fusion

Proble

Compr

Instructions-Parts Feed Pump Shutdown Kit, Instructions-Parts

Instructions-Parts Pallet Support Kit, Instructions-Parts

™APGun

™CSGun

rP2Gun

essor Rack, Instructions-Parts

3A1705E

Page 13

Typical Installation, with circulation

Typical Install

ation, with circulation

Figure 1

* Shown exposed for clarity. Wrap with tape during operation.

A Reactor Proportioner

BHeatedHose

CFlui

D Heated Whip Hose

GFee

d Temperature Sensor (FTS)

ion Spray Gun

Fus

Air Supply Hose

Gun

d Pump Air Supply Lines

tator Air Supply Line

Agi

K Feed Pumps

L Agitator

M Desiccant Dryer

R Recirculation Lines

SRe

d Supply Lines

Flui

Fluid Manifold (part of gun)

Gun

mote Display Module (optional)

3A1705E 13

Page 14

Typical Install

ation, without circulation

Typical Installation, without circulation

Figure 2

* Shown exposed for clarity. Wrap with tape during operation.

A Reactor Proportioner

B Heated Hose

CFlui

D HeatedWhipHose

GFee

d Temperature Sensor (FTS)

ion Spray Gun

Fus

Air Supply Hose

Gun

d Pump Air Supply Lines

tator Air Supply Line

Agi

K Feed Pumps

L Agitator

M Desiccant Dryer

N Bleed Lines

SRe

d Supply Lines

Flui

Fluid Manifold (part of gun)

Gun

mote Display Module Kit (optional)

3A1705E

Page 15

Component Ident

iﬁcation

Component Ide

GB SB

ntiﬁcation

BB HB

(FM)

Front V Figure

iew

DG Drive

DB Electrical Enclosure

EM Electric Motor

GA Com

GB Com

GG Gen

Compon

Compo

Comp

Reac

Com

ent A Pressure Relief Outlet

nent B Pressure Relief Outlet

Gear Housing

onent A Fluid Manifold Inlet

onent B Fluid Manifold Inlet

tor Fluid Manifold

ponent A Pressure Gauge

ponent B Pressure Gauge

erator, page 17

ponent A Hose Connection

mponent B Hose Connection

HC Heated Hose Electrical Connectors

PC Prop

PT Pallet

SA Com

SB Com

SC Fl

Main Power Switch

Component A Pump

Component B Pump (behind Electrical Enclosure)

ortioner Control Panel, page 18

ponent A PRESSURE

IEF/SPRAY Valve

REL

ponent B PRESSURE

IEF/SPRAY Valve

REL

uid Temperature Sensor (FTS) Cable

mponent A Pressure Transducer

ehind gauge GA)

Component B Pressure Transducer (behind gauge GB)

3A1705E 15

Page 16

Component Ident

iﬁcation

Back Vi Figure

CP Circul

EC Elect

Y-str tempe

Booster Fluid Heater (not included with all models)

Fluid Inlet Valve (A side shown)

Heat Exchangers (heat exchanger coolant loop)

Hi (H

ation Pump

ricalCordStrainRelief

ainer (includes pressure gauge and

rature gauge)

gh Power Temperature Control Module

PTCM) Cable Connections, page 26

HEVA

Low Power Module (LPTCM) Cable Connections, page 26 (not included with all models)

ISO Pu

Moto

SG Sigh

Comp

VC Byp

mp Lubricant Reservoir

r Control Module (MCM), page 23

tGlass

onent A Control Valve

onent B Control Valve

ass Control Valve

16 3A1705E

Page 17

Generator

Component Ident

iﬁcation

EA AF

Figure 5

AF Air Filter

Battery (not supplied)

DF Diesel Fuel Filter

12V Charge Alternator

Engine Coolant Expansion Bottle

EE Engine

Engine Oil Dipstick

ER Radiator

EX Exhaust

Fuel Shutoff Solenoid

FJ Fuel Injector

FP Fuel Pump

FS Diesel Fuel Fill Cap

FT Diesel Fuel Tank

GD Generator Power Distribution Box

GL Glow Plugs

HE Heat

Heat Exchanger Coolant Expansion Bottle

Exchanger

Heat Exchanger Coolant Fill Bottle

OD Oil Drain

OF Oil Filter

OL Oil Fill

OS Oil Pressure Switch

RC Engine Coolant Radiator Cap

RF Ra

diator Fan

ST Starter

Coolant Temperature Sensor

WS Over-Temperature Switch

3A1705E

Page 18

Component Ident

iﬁcation

Proportioner

PF*

PG*

PH*

PJ*

Figure 6

Control Panel

ti17151a

PF* Component A Feed Pump Air Outlet

PG* Component B Feed Pump Air Outlet

PH* Agitator Air Outlet

PJ* Gun Air Outlet

*Notforb

Advanced Display Module (ADM), page 19

Engine Control Module, page 24

Component A Feed Pump Air Regulator

Component B Feed Pump and Agitator Air Regulator Gun Air Reg

Componen

Componen Pressure Gun Pressure Gauge

ulator

t A Feed Pump Pressure Gauge

t B Feed Pump and Agitator

Gauge

reathing air use.

Air Compressor

Select To ord

Figure 7

models are supplied with an air compressor.

er as an accessory, see Accessories, page 11.

CA Air Com

CC 12 Gal

CD Air Ou

CF Desi

CG Powe

CJ Air T

Power Box

Desiccant Dryer Assembly

ccant Dryer Air Outlet

rCable

Drain Valve

ank Pressure Gauge

pressor

lon Tank

tlet

18 3A1705E

Page 19

Component Ident

iﬁcation

Advanced Disp

lay Module (ADM)

NOTICE

To prevent damage to the softkey buttons, do not press buttons with sharp objects such as pens, plastic cards, or ﬁngernails.

Component Identiﬁcation — Front

Figure 8

Call out A Power

C Stop Stops all system processes.

Button Function

Powers system on and off.

On/O System Status Indicator Light

Soft Keys Selects the speciﬁc screen

Displays system status.

Is not a safety or emergency stop.

or operation shown on the display directly next to each key.

Call out E

F Enter Acknowledges a value

GLoc

HNa

Button Functi

Cance

k/Setup

vigation

ls a selection or

Cance numbe

change or makes a selection. Toggles between run and setup screens. If setup screens are password protected, button toggles between run and password entry screens. Na to

r entry in progress.

vigates within a screen or

a new screen.

3A1705E 19

Page 20

Component Ident

iﬁcation

Compone

Figure 9

CJ Flat Panel Mount (VESA 100)

CK Model and Serial Number

CL USB Port and Status LEDs

CM CAN Cable Connection

CN Module Status LEDs

CP Accessory Cable Connection

CR Token Access Cover

CS Battery Access Cover

nt Identiﬁcation — Back

System Status Indicator (B) Cond

Green Solid — Run Mode, System On

Gre

Yellow Solid - Run Mode, System Off

Yellow Flashing - Setup Mode, System Off

itions

en Flashing - Setup Mode, System On

USB Modu

le Status LEDs (CL)

Conditions

Green F

Yellow Solid - Downloading information to USB

Green and Yellow Flashing -ADMisbusy,USB cannot transfer information when in this mode

Modul

Green Solid - Power applied to module

Yell

Red Steady Flashing - Software upload from token in progress

Red Random Flashing or Solid -Moduleerrorexists

lashing - Data recording in progress

e Status LEDs (CN) Conditions

ow Solid - Active Communication

20 3A1705E

Page 21

Component Ident

iﬁcation

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.

Menu Bar

The menu bar appears at the top of each screen. (The following image is only an example.)

Alarm/Deviation

The current sy the menu bar. T

stem error is displayed in the middle of

here are four possibilities:

Icon Function No Icon

No information or no error has occurred

Advisory

Deviation

Alarm

Status

The curren of the menu

t system status is displayed at the lower right

bar.

Soft Keys

Icons next to the soft keys indicate which mode or action is associated with each soft key. Soft keys that do not have an icon next to them are not active in the current screen.

NOTICE

To prevent damage to the soft key buttons, do not press buttons with sharp objects such as pens, plastic cards, or ﬁngernails.

Date and Time

The date and time are always displayed in one of the following formats. The time is always displayed as a 24-hour clock.

• DD/MM/YY HH:MM

• YY/MM/DD HH:MM

• MM/DD/YY HH:MM

Arrows

The left and right arrows indicate screen navigation.

Screen Menu

The screen menu indicates the currently active screen, which is highlighted. It also indicates the associated screens that are available by scrolling left and right.

System Mode

The current system mode is displayed at the lower left of the menu bar.

Jump In/Jump Out

In screens that have editable ﬁelds, press to access the ﬁelds and make changes. When changes are

complete press again to exit edit mode.

Navigation within Screens

Press to open drop-down menus on Setup screens.

Press

navigate left and right within a screen. Press select digits to change within a ﬁeld.

Press

up and down within a screen. Also press move between ﬁelds within a drop-down menu, and to increment or decrement numbers within a ﬁeld.

to enter changes or make a selection.

to navigate to new screens and to

to navigate to new screens and to navigate

3A1705E

Page 22

Component Ident

Icons

iﬁcation

Softkeys

Icon Function

Component A

Component B

Estimated Su

Hose Temperature

Jog Mode Sp

Engine Coolant Temperature

Pressure

Cycle Counter (press and hold)

Advisory. See Errors, page 51 for more information.

pply Material

eed

Icon Function

Start Proport

Start and Sto

Stop Proportioner

Turn on spec

Park component A pump

Enter Jog M

Reset Cycle Counter (press and hold)

Select Re

Move Cursor Left One Character

Move Cur

ioner

p Proportioner in Jog Mode

iﬁed heat zone.

ode. See Jog Mode, page 60

cipe

sor Right One Character

Deviation. See Errors, page 51 for more information

Alarm. See Errors, page 51 for more information

Toggle between upper-case, lower-case, and numbers and special characters.

Backspace

Cancel

Clear

Troubleshoot Selected Error

Increase value

Decrease value

screen

Previous screen

Return to ﬁrst screen

3A1705E

Page 23

Component Ident

iﬁcation

Motor Control

Module (MCM)

Motor Control Module

Figure 10

1A, 1B

Token and Rotary Switch Access Cover

Module Status LEDs see Module Status LEDs (CN) Conditions, page 20

Warning Label

CAN Communication Connections

Heat Exchanger Control Vave Output (to load center)

Two-way Splitter to A and B Heat Exchanger Temperature Sensors

ngine Coolant Temperature Sensor

ump Cycle Switch

11 Not used

MCM Rotary Switch Positions

=E-30i

1=E-XP2i

onal Accessory Connection: Feed

Opti

Shut Down Kit

Pump

ssure Transducer B (Blue) side

Pre

ssure Transducer A (Red) side

Pre

or Brush Wear and Over-Temperature

Mot

sor Connection

Sen

M Power Input Connection

tor Power Connection

3A1705E 23

Page 24

Component Ident

iﬁcation

Engine Contro

l Module

NOTICE

To prevent damage to the softkey buttons, do not press buttons with sharp objects such as pens, plastic cards, or ﬁngernails.

For more information about the engine control module, see Appendix A: Engine Control Module, page 90.

Icon Description Function

On Start Engine

Auto

Off Stop all system

Scroll Scroll through the

Page Sele

Error La

Auto mode (not used)

processes. Is not a safety or emergency stop.

instruments or recorded events on the currently displayed page

Toggle between the information page and the error log page

es error

Indicat is prese generat

nt on

Figure 1

Engine Control Module

3A1705E

Page 25

Component Ident

iﬁcation

Load Center

F4 Radiator Fan Fuse

K1 Fuel Relay

K4 Radiator Fan Relay

Load Center Power Fuse

Starter Relay

Glow Plug Relay

Manual Valve Switch

LED

D10

D12

D14

D23

Related Component

Fuel Shutoff Solenoid (FS)

Starter (ST)

Glow Plugs (GL) Radiator F (RF)

A Coolant Valve

B Coolant Valve

Bypas Valve

Manual Valve Switch (MV)

s Coolant

Color

Green

Red

Green

Red

Blue

Green

Red

ON-State Description Fuel shutoff solenoid on the engine is open. Starter is cranking. Glow plugs are heating. Radiator fan is on. A-side (red) coolant valve is open. B-side coolan open. Bypas valve Manu swit ON po

(blue)

tvalveis

s coolant

is open.

al valve

ch is in the

sition.

3A1705E 25

Page 26

Component Ident

iﬁcation

Temperature C

Located inside the Electrical Enclosure (DB).

ontrol Modules

High Power Temperature Control Module (HPTCM) Cable Connections

Figure 12

Low Power Module (LPTCM) Cable Connections

Only used with E-XP2i and E-30i models with booster heat.

Figure 14

Figure 13

1 Not used

Fluid Temperature Sensor (FTS) Connection Output Power Connection

Contactor Control Connection

Input Power Connection

CAN Communications Connections

Rotary Switch, Token Access

Module Status LEDs (see Advanced Display Module (ADM), page 19, (CN) for conditions

Figure 15

4 Not used

9Base

-Temperature Switch Connection

Over

Booster Heat Temperature Sensor Connection Output Power Connection

Input Power Connection

CAN Communications Connections

Rotary Switch, Token Access

Module Status LEDs (see Advanced Display Module (ADM), page 19, (CN) for conditions

26 3A1705E

Page 27

Component Ident

iﬁcation

Adjust Rotary Switch

The rotary switch setting indicates which zone the temperature control module will control in the system. The HPTCM uses an 8-position rotary switch. The LPTCM uses a 16-position rotary switch.

Set the rotar according to

HPTCM Rotary Switch Location

Figure 16

y switch (S) to the speciﬁc selection

the settings listed in the following tables.

HPTCM A and B Rotary Switch Settings

Setting

0HeatedHose

1 Not Used

2 Not Used

3 Not Used

4 Not Used

6 Not Used

LPTCM A and B Rotary Switch Settings

Setting

0 Not Used

1 Not Used

2 Not Used

3 Not Used

Zone

Not Used

Zone

LPTCM Rotary Switch Location

Figure 17

4 Not Used

6 Not Used

8 Not Used

9 Not Used

A Booster Heat A

B Booster Heat B

D Not Used

E Not Used

F Not Used

Not Used

3A1705E

Page 28

Component Ident

iﬁcation

Circuit Break

CB08

CB07

CB06

CB05

CB04

CB03

CB02

CB01

Circuit B

Figure 1

reakers Inside Electrical Enclosure (DB)

Note

ers

CT01

Ref. Size Component

CB01

30 A High Power Tem

Control Modu

CB02

20 A

Motor Control Module (MCM)

CB03

Two Motor Fans, Cabinet Fan, Power Supply, and Coolant Circulation Pump

CB04*

30 A

Auxiliary

Power (Air

Compress

CB05*

CB06*

10 A Auxiliary Power

20 A Auxilia

ry Power

E-XP2i and E-30i With Heat: Low Power

CB07

15 A

Temperature Control Module (LPTCM) A

E-30i:

Auxiliary

E-XP2i and E-30i With Heat: Low Power

CB08 15 A

Temperature Control Module (LPTCM) B

E-30i: Auxiliary

perature

le (HPTCM)

or)

Not all wires are shown.

* See Circuit Breaker Conﬁguration Options, page 29.

CB20

Circuit Breakers Inside Proportioner Cabinet

Figure 19

Ref. Size Component

CB20

eated Hose

28 3A1705E

Page 29

Component Ident

iﬁcation

CB04 be substituted to accommodate larger loads or a sub-panel. The total auxiliary equipment loads added to the conﬁguration must be limited to the system’s available auxiliary current. See Proportioner Models, page 9, for available auxiliary current at 240V, 60Hz.

CB10

Circuit Breakers Inside Alternator Assembly

Figure 20

Ref. Size Component

CB10

90 A 120/240V Alternator

Circuit Breaker Conﬁguration Options

Improper conﬁgurat All changes from the conﬁguration must and Local safety an a qualiﬁed electri changes. See page 2 breaker conﬁgura

The Electrical Enclosure (DB) circuit breaker conﬁguration described in the tables on the previous page is the recommended conﬁguration.

Sub-Panel Options

ion can result in electric shock.

recommended circuit breaker

meet all National, State,

d electrical codes. Consult

cian before attempting any

7 and 28 for correct circuit

tion.

See the React breakers and used must mee

or repair manual for optional circuit

their current ratings. Circuit breakers

t UL489 speciﬁcations.

Auxiliary Wiring Diagram Options.

The generator supplies power in a 3-wire, single-phase, mid-point neutral wiring conﬁguration. For 240 VAC loads, wire the load across the output terminals of the circuit breaker. For 120 VAC loads, wire the load between the neutral terminal blocks next to the three pole main power switch (CT01) to one pole of the circuit breaker. See electrical diagrams in Reactor repair manual.

Disable L

PTCMs For Booster Heat

Both LPTCMs for booster heat must be disabled to allow use of power for additional auxiliary power.

1. Follow Shutdown instructions. See

Shutdown, page 63.

2. Refer to Disable Optional Booster Heater Wiring

Diagram in the Reactor repair manual.

To repl follow

ace or repair a circuit breaker, use the

ing steps:

1. Follow Shutdown instructions. See

Shutdown, page 63.

2. Refer to circuit breaker identiﬁcation table and

electrical diagrams in Reactor repair manual.

3. Loosen four screws connecting wires and bus

bar to circuit breaker that will be replaced. Disconnect wires.

Some customer changes are acceptable to accommodate larger loads from auxiliary equipment or a sub-panel. It is suggested that circuit breakers

4. Pull locking tab out 1/4 in. (6mm) and pull circuit

breaker away from the din rail. Install new circuit breaker. Insert wires and tighten down all screws.

3A1705E 29

Page 30

Overview

The system use released from component mat deﬁned on the

The engine coolant loop (gray) circulates heated coolant from the engine (EE), through the heat

s two coolant loops to use heat

the engine to heat the A and B

erial to the target temperatures

ADM (PD).

exchanger (HE engine. Coola (black) captu inside the he

res heat from the engine coolant loop

at exchanger (HE) near the radiator.

), radiator (ER), and back to the

nt in the proportioner coolant loop

Engine Coolant Loop and Proportioner Coolant Loop Figure 21

30 3A1705E

Page 31

Overview

The proportioner coolant loop circulates coolant through secondary heat exchangers (HE) located on the back of the proportioner to heat the A and B component material before the material is pressurized in the proportioner pumps (PA, PB). After the A and B material has been heated in the heat exchangers, the material enters the ﬂuid manifold (FM) and heated hose.

For models with a booster heater, the A and B material enters the booster heater after the material is pressurized in the proportioning pumps to heat the material higher than 140°F (60°C).

d B Component Material Flow

Aan

ure 22

Fig

3A1705E 31

Page 32

Overview

Coolant only ﬂows through the secondary heat exchangers when the heat exchanger control valves (VA, VB) are open and the A and B component temperatures are below the target temperatures set on the ADM. See Fig. 24.

When the contr and B materia Coolant ﬂows circulation coolant ﬁll b in the engin

ol valves (VA, VB) close, the A

l has reached target temperature.

through the bypass control valve (VC),

pump (CP), sight glass (SG), proportioner

ottle (HF), and back to the heat exchanger

e coolant loop. See Fig. 23

Proportioner Coolant Loop — A and B Valves Open (heating material) Figure 24

Propor (not he

e23

Figur

tioner Coolant Loop — A and B Valves Closed

ating material)

32 3A1705E

Page 33

Setup

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.

Locate Reactor

If system w go to step 2

1. For systems with an air compressor, install the

air tank bracket assembly and connect air lines. For systems without an air compressor, order air compressor kit 24K335. See manual 3A1902 for complete installation instructions.

a. Use at least two people to install the air

b. Remove u-bolt holding desiccant container

c. Connect air line (A1) between compressor

as not ordered with the air compressor,

NOTICE

Only use air compressors with a continuous run head unloader. Repeated compressor motor startups will cause errors and shutdown the system. See Technical Speciﬁcations, page 98 for recommended air compressors and requirements. Other models may be used, but motor must not stop and start during operation.

tank assembly (AT). Secure to frame with supplied screws (AS) and nuts (AN). See illustration on next page.

and add all desiccant pellets (shipped separately). Replace u-bolt securely. See manual 309921.

and air tank inlet.

e. Connect pilot air lines (A3 and A4) between

the air compressor and air tank.

f. Secure water drain lines (A5 and A6) to the

frame and drain outlets.

2. Install hose rack, if ordered. See manual 3A1903

for detailed instructions.

3. Locate Reactor on a level surface that is

nonporous and diesel resistant, such as diamond plate. See Dimensions, page 93, for clearance and mounting hole dimensions.

4. Do not expose Reactor to rain or below 20°F

(-7°C).

NOTICE

To ensure the heat exchanger control valves open and close properly, do not store Reactor below 20°F (-7°C).

5. If a wall will be installed between the

proportioner and generator, remove the fuel tank and battery bracket. See Trailer Setup Guidelines, page 35 for instructions.

6. To mount in a trailer, use forklift to move Reactor

by inserting the forks through the Reactor pallet frame. It is recommended to lift from the engine side. Bolt pallet directly to trailer frame.

Note

Use Pal includ locat kit ma

let Support Kit 24L911 (rollers not

ed) to relocate pallet to mounting

ion when forks are unavailable. See

nual for instructions.

NOTICE

Keep the vent holes in the bottom of the proportioner cabinet open. Make sure there is unobstructed incoming air for the cooling fan at the top of the proportioner cabinet that blows air up into the electric motor. Failure to provide unobstructed incoming air can cause the motor to overheat.

d. Connect air line (A2) between proportioner

air inlet to air dryer outlet.

3A1705E 33

Page 34

Setup

34 3A1705E

Page 35

Setup

Trailer Setup

Route exhaust system away from combustible materials to prevent materials from igniting or gas recirculation into a wall, ceiling, or a concealed space. Provide exhaust system guards to prevent burns.

Guidelines

NOTICE

Provide recommended size louvers. Failure to do so can damage the engine and void the engine warranty.

Exhaust pipes that pass through ﬂammable ceilings must be guarded by vented metal thimbles that extend at least 9 in. (228.6 mm) below and above the roof and are at least 6 in. (152.4 mm) in diameter larger than the exhaust pipe.

Exhaust pipes that pass through ﬂammable walls must be guarded by either:

2. Provide radiator exhaust for Reactor. Use a 400

in.

(258,064 mm2) minimum louver.

3. Provide air duct to connect radiator exhaust to

louver.

4. Provide a 400 in.

air intake louver near the generator.

5. Remove red exhaust cap.

6. Provide a minimum 2 in. (50.8 mm) diameter

engine exhaust outlet with ﬂexible pipe element. Provide rain cap, or equivalent routing, to prevent moisture from entering the metal exhaust pipe.

( 258,064 mm2) minimum fresh

• Metal ventilated thimble at least 12 in. (305 mm) larger than the diameter of the exhaust pipe.

• Metal or other approved ﬁreprooﬁng materials that provides at least 8 in. (203 mm) of insulation between the exhaust pipe and ﬂammable material.

Exhaust pipes not covered above must have at least 9 in. (228.6 mm) of clearance from the outside of the exhaust pipe to adjacent ﬂammable materials.

1. Provide sufﬁcient lighting to safely operate and

maintain system equipment.

Radiator Exhaust and Air Intake Louvers

Figure 25

3A1705E 35

Page 36

Setup

Install Wall (

Install a wall between the proportioner and generator to:

• Temperature

chemical is s manufacture

• Reduce noise

is running.

The supplied fuel lines and battery cable may need to be replaced if a wall is installed between the proportioner and generator. Purchase the Fuel Line and Battery Cable Extension Kit 24K333.

1. If necessary drain coolant from system. See

Drain Coolant, page 69. Coolant lines do not need to be disconnected to install a wall.

Note

Battery must be connected to starter to drain coolant from system.

2. Remove screws and battery bracket from the

pallet.

optional)

condition the trailer space where

tored. Check with chemical

r for chemical storage temperatures.

for the operator while the Reactor

3. Remove fuel tank from the pallet.

a. Remove the mou

spacers.

b. Disconnect in

fuel tank.

c. Use two peopl

and place whe accessible.

Note

Do not mount fuel tank in front of the generator air intake or where it will limit opening and access to the electrical enclosure (DB).

4. Install wall (IW) where the fuel tank was located.

Ensure there is at least 1.25 in. (31.75 mm) between the wall, exhaust mufﬂer, and MCM. See Fig. 27, page 37.

Note

To prevent an air pocket from forming inside the coolant lines between the proportioner and generator, ensure there is a constant rise in elevation if the coolant lines are adjusted. Failure to have a constant rise in elevation will reduce heating efﬁciency.

nting screws, supports, and

let and outlet fuel lines from the

e to lift fuel tank off of the pallet

re the fuel ﬁll spout is easily

Remove Battery Bracket and Fuel Tank

Figure 26

5. Reconnect inlet and outlet fuel lines.

6. Install spacers, supports, and screws through

the fuel tank and tighten to the ﬂoor. Torque to 40 ft-lbs (54 N•m).

7. Place battery bracket over fuel tank or near the

Reactor. Remove existing battery cables from engine and replace with the cables provided from the fuel line and battery cable extension kit.

8. Install mounting bolts through battery bracket and

tighten to the ﬂoor. Torque to 40 ft-lbs (54 N•m).

Note

under the battery bracket help

Pads

bilize the fuel tank during operation.

sta

36 3A1705E

Page 37

1 ft min (0.3m)

Setup

15 in.

(381 mm)

Wall (IW

Figure 2

1.25 in. (31.75 mm)

) Installation Guidelines

1.25 in. (31.75 mm)

6 in. min (406.4 mm)

3A1705E 37

Page 38

Setup

Connect Batte

Improper battery installation or maintenance may result in electric shock, chemical burns, or explosion. Battery maintenance must only be performed or supervised by personnel knowledgeable of batteries and the required precautions. Keep unauthorized personnel away from batteries.

See Technical Speciﬁcations, page 98 for battery requirements and recommended battery size.

1. Secure battery (not supplied) to bracket with

strap.

3. Cover battery terminals with plastic caps (PC)

attached to supplied battery cables.

4. Verify battery was connected properly by

pressing OFF (PE) to “wake up” the controller screen. Do not attempt to start the engine until all Setup steps are complete. See Repair manual if engine control module doesn’t light up.

on the engine control module

Add Fuel

1. Remove fuel cap (FS) and ﬁll fuel tank with no

more than 20 gallons (75 liters) of diesel fuel. Replace cap. See Perkins engine manual for approved diesel fuels.

2. Squeeze prime bulb (P) to prime engine. Press

the prime bulb repeatedly until fuel begins to return to the fuel tank.

Figure 28

2. Connect battery cable from the engine starter

(ST) and chassis to the battery. Connect the black cable to battery negative (-) and the red cabletobatterypositive(+).

NOTICE

Always connect the red battery cable to battery positive (+) and the black battery cable to the battery negative (-). Failure to properly connect the battery cable to the battery will damage the fusible link when the engine control module is turned ON. Do not bypass the fusible link when damaged. The fusible link prevents damage to other system components. See the system repair manual for repair instructions.

Figure 30

eral Equipment Guidelines

Gen

Maintain and inspect the generator, air compressor, and other equipment per the manufacturer recommendations to avoid an unexpected shutdown. Unexpected equipment shutdown will cause voltage ﬂuctuations that can damage electrical equipment.

Figure 29

38 3A1705E

Page 39

Setup

Electrical Co

Connect air compressor, breathing air, and auxiliary power electrical connections to the speciﬁed circuit breakers. See Circuit Breakers, page 28.

1. Remove one or

of electrica route wires t breathing a Circuit Bre for more inf

nnections

more knock-outs on side

l enclosure, as required, and

hrough for air compressor,

ir, and auxiliary equipment. See

aker Conﬁguration Options, page 29,

ormation.

Connect Feed Pumps

1. Install fe

AandBsup Typical I Typical I

2. Seal comp

(M) in ve

3. Install

necessa

4. Connect

compon on the s closed

ed pumps (K) in component

ply drums. See nstallation, with circulation, page 13 and nstallation, without circulation, page 14.

onent A drum and use desiccant dryer

nt.

agitator (L) in component B drum, if

ry.

supply hoses from feed pumps to the

ent A and component B material inlets

ystem. Ensure A and B inlet valves are

5. Connect air lines to proportioner. Ensure

components are properly connected to correct location.

Note

Agitator air supply includes a small restriction oriﬁce to limit the air ﬂow to minimize air compressor load. Do not use the agitator air outlet (PH) for any other component.

Breathing Air

Note

Supply hoses from feed pumps should be 3/4 in. (199 mm) ID.

Breathing the air from the compressed air supply can cause serious injury if inhaled.

•Onlyu

se an independent and approved

hing air system with adequate air ﬂow to

breat

de clean breathable air.

provi

3A1705E 39

Page 40

Setup

Connect Press

Do not operate Reactor without all covers and shrouds in place.

1. Recommended: Connect high pressure

hose (R) to relief ﬁttings (BA, BB) of both PRESSURE RELIEF/SPRAY valves. Route hose back to component A and B drums. S ee Typical Installation, with circulation, page 13.

2. Alternately: Secure supplied bleed tubes (N)

in grounded, sealed waste containers (H). See Typical Installation, without circulation, page 14.

ure Relief Lines

Install Fluid Temperature Sensor

The Fluid Temperature Sensor (FTS) is supplied. Install FTS between main hose and whip hose. See Heated Hose manual for instructions.

coded: red for component A (ISO), blue for component B (RES). Fittings are sized to prevent connection errors.

Note

Manifold hose adapters (HA, HB) allow use of 1/4 in. and 3/8 in. ID ﬂuid hoses. To use 1/2 in. (13 mm) ID ﬂuid hoses, remove adapters from ﬂuid manifold and install as needed to connect whip hose.

Connect Heated Hose

See Heated Hose manual for detailed instructions on connecting heated hoses.

Note

The FTS (C) and whip hose (D) must be used with heated hose. Hose length, including whip hose, must be 60 ft (18.3 m) minimum.

NOTICE

Apply grease on all system and hose ﬂuid ﬁttings. This lubricates the threads and prevents material from hardening on the threads.

1. Turn main power switch OFF .

2. Assemble heated hose sections, FTS, and whip

hose.

3. Connect A and B hoses to A and B outlets on

Reactor ﬂuid manifold (FM). Hoses are color

Figure 31

4. Connect cables (C). Connect electrical

connectors (V). Be sure cables have slack when hose bends. Wrap cable and electrical connections with electrical tape.

5. Connect quick-disconnect pin ﬁtting to 4 ft air

hose, shipped loose. Connect other hose end to the gun air hose in the heated hose bundle. Push pin ﬁtting into the lowest air panel outlet (PJ).

Figure 32

40 3A1705E

Page 41

Setup

Close gun ﬂuid

manifold valves A and

Connect Whip Hose to Gun Or Gun Fluid Manifold

See hose manual for proper connections.

Pressure Check Hose

See hose manual. Pressure check for leaks. If no leaks, wrap hose and electrical connections to protect from damage.

or vehicle chassis or, if stationary, to true earth ground. Remove bolt and braided cable from pallet. Install grounding cable terminated with a ring terminal (cable and terminal not supplied) under braided cable. Reinstall bolt and torque to minimum 25 ft-lbs (34 N∙m). An alternate grounding location is to the ground bar (CB02) in the electrical enclosure. Follow all National, State, and Local safety and ﬁre codes.

Connect Remote Display Module

See Remote Display Module kit manual for installation instructions.

Grounding

The 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.

•

Reactor System:

an appropriately sized conductor to the trailer

System must be grounded with

•

Spray gun:

See Install Fluid Temperature Sensor, page 40. Do not disconnect ground wire or spray without whip hose.

•

Fluid supply containers:

Object being sprayed:

•

Solvent pails used when ﬂushing:

•

code. Use only metal pails, which are conductive, placed on a grounded surface. Do not place pail on a nonconductive surface, such as paper or cardboard, which interrupts grounding continuity.

•

To maintain grounding continuity when ﬂushing or relieving pressure,

ﬁrmly to the side of a grounded trigger gun.

connect whip hose ground wire to FTS.

follow your local code.

follow your local

hold a metal part of spray gun

metal

pail, then

3A1705E

Page 42

Setup

Supply Wet Cup

s With Throat Seal

Liquid (TSL)

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.

To prevent the pump from moving, turn the main power switch OFF.

• Component A (ISO) Pump: Keep reservoir (R) ﬁlled

with Graco Throat Seal Liquid (TSL), Part 206995. Wet-cup piston circulates TSL through wet-cup, to carry away isocyanate ﬁlm on displacement rod.

• Component B (Resin) Pump: 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 Pump

Figure 34

Component A Pump Figure 33

3A1705E

Page 43

Advanced Displa

yModule(ADM)Operation

Advanced Disp

When main powe power switch screen will b initializat

Then the power key icon screen will display until the

ADM power on/off button (A) ﬁrst time after system power-up.

To begin using the ADM, the machine must be active. To verify the machine is active, verify that the System Status Indicator Light (B) is illuminated green, see Advanced Display Module (ADM), page 19. If the System Status Indicator Light is not green, press

the ADM Power On/Off (A) button Status Indicator Light will illuminate yellow if the machine is disabled.

ion is complete.

r is turned on by turning the main

(MP) to the ON position, the splash

e displayed until communication and

lay Module (ADM) Operation

is pressed for the

. The System

Perform the following tasks to fully setup your system.

1. Select pr Alarm to a

2. Enter, en Recipes S

3. Set gene Advance

4. Set unit Advance

5. Set USB Advanc

6. Set tar Target

7. Set co level

8. Ensur home s

essure for the Pressure Imbalance

ctivate. See System Screen, page 47.

able, or disable recipes. See

creen, page 47.

ral system settings. See

d Screen 1 — General, page 46.

sofmeasure. See

d Screen 2 — Units, page 46.

settings. See

ed Screen 4 — USB, page 46.

get temperatures and pressure. See

s, page 50.

mponent A and component B supply

s. See Maintenance, page 51.

e engine is at operating temperature on the

creen.

3A1705E 43

Page 44

Advanced Displa

yModule(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 Setup Screens Navigation Diagram, page 45.

.Press to navigate through the Setup Mode screens. See

Set Password

Set a password to allow Setup screen access, see Advanced Screen 1 – General, page 46. Enter any number from 0001 to 9999. To remove the password, enter the current password in the Advanced Screen – General screen and change the password to 0000.

From the Setup screens, press to return to the Run screens.

3A1705E

Page 45

Advanced Displa

yModule(ADM)Operation

Setup Screens Navigation Diagram Figure 35

3A1705E 45

Page 46

Advanced Displa

yModule(ADM)Operation

Advanced Setu

Advanced setup screens enable users to set units, adjust values, set formats, and view software information

for each component. Press

Advanced setup screen, press

to exit edit mode.

Note

Users must be out of edit mode to scroll through the Advanced setup screens.

Advanced Screen 1 — General

Use this screen to set the language, date format, current date, time, setup screens password (0000 – for none) or (0001 to 9999), screen saver delay, and enable or disable silent mode.

p Screens

to scroll through the Advanced setup screens, Once in the desired

to access the ﬁelds and make changes. When changes are complete press

Advanced Screen 3 — USB

Use this screen to disable USB downloads/uploads, disable USB log errors, enter the maximum number of days to download data, and how frequently USB logs are recorded. See USB Data, page 86.

Advanced Screen 2 — Units

Use this screen to set the temperature units, pressure units, volume units, and cycle units (pump cycles or volume).

Advanced Screen 4— Software

This screen displays the software part number and software version for the Advanced Display Module, Motor Control Module, High Power Temperature Control Module, Low Power Temperature Control Modules, and USB Conﬁguration.

46 3A1705E

Page 47

Advanced Displa

yModule(ADM)Operation

System

Usethisscreentosettheactivationpressureforthe Pressure Imbalance Alarm and Advisory, enable or disable diagnostic screens, enable drum alarms, set the maximum drum volume, enable drum alarms, and set low material alarm level.

Recipes

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.

Add Recipe

1. Press and then use to select a

recipe ﬁeld.

(maximum 16 characters). Press old recipe name.

2. Use to hi

number pad to enter a value. Press

Press

ghlight the next ﬁeld and use the

to enter a recipe name

to clear the

to save.

Enable or Disable Recipes

1. Press

pe that needs to be enabled or disabled.

reci

andthenuse to select the

2. Use

Press

to highlight the enabled check box.

to enable or disable the recipe.

3A1705E

Page 48

Advanced Displa

yModule(ADM)Operation

Run Mode

The ADM will start in the Run screens at the “Home” screen. Press to navigate through the Run Mode screens. See Run Screens Navigation Diagram, page 44.

From the Run screens, press

to access the Setup screens.

48 3A1705E

Page 49

Advanced Displa

yModule(ADM)Operation

Run Screens Navigation Diagram Figure 36

3A1705E 49

Page 50

Advanced Displa

yModule(ADM)Operation

Home — System Off

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.

Home — Sys

When the actual t at the ﬂu the numb contro

Use this screen to turn on heat zones, view coolant temperature, start the proportioner, stop the proportioner, park the component A pump, enter jog mode, and clear cycles.

emperature for heat zones, actual pressures

id manifold, coolant temperature, jog speed,

l soft keys.

tem Active

system is active, the home screen displays

er of cycles, along with all associated

Home — System With Error

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

2. See Troubleshooting, page 74 for corrective

action.

to acknowledge the error.

Targets

Use this screen to deﬁne the setpoints for the A Component Temperature, B Component Temperature, heated hose temperature, and pressure.

Maximum A and B temperature for systems without booster heat: 140°F (60°C)

Maximum A and B temperature for systems with booster heat: 180°F (82°C)

Maximum heated hose temperature: 10°F (5°C) above the highest A or B temperature setpoint or 180°F (82°C).

Note

If the remote display module kit is used, thesesetpointscanbemodi•edatthegun.

50 3A1705E

Page 51

Advanced Displa

yModule(ADM)Operation

Maintenance

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 v gallons sinc

The daily value automatically resets at midnight.

The manual value is the counter that can be manually

reset. Press

alue is the number of pump cycles or

e the ﬁrst time the ADM was turned on.

and hold to reset manual counter.

Events

This screen shows the date, time, event code, and description of all events that have occurred on the system. There are 10 pages, each holding 10 events. The 100 most recent events are shown. See System Events for event code descriptions. See Error Codes and Troubleshooting, page 74 for error code descriptions.

All events a downloaded see Downloa

nd errors listed on this screen can be

on a USB ﬂash drive. To download logs,

d Procedure, page 88.

Cycles

This screen shows daily cycles and gallons that have been sprayed for the day.

All information listed on this screen can be downloaded on a USB ﬂash drive.

Errors

This screen shows the date, time, error code, and description of all errors that have occurred on the system.

All errors listed on this screen can be downloaded on a USB ﬂash drive.

3A1705E 51

Page 52

Advanced Displa

yModule(ADM)Operation

Diagnostic

Use this screen to view information for all system components.

The follo

Temperature

• Hx A Chem: Heat Exchanger A Chemical

• Hx B Chem: Heat Exchanger B Chemical

• Hose Chemical

• Booster A Chemical

wing information is displayed:

• Booster B Chemical

• Booster A PCB — temperature control module temperature

• Booster B PCB — temperature control module temperature

• Hose PCB — temperature control module temperature

• Coolant Outlet

Amps

• Booster A Current

• Booster B Current

• Hose Current

Volts

•MCMBus

• Incoming Hose Voltage (240V)

Pressure

• Pressure A — chemical

• Pressure B — chemical

Cycles

• CPM — cycles per minute

• Total Cycles

52 3A1705E

Page 53

Advanced Displa

yModule(ADM)Operation

Troubleshooting

This screen displays the last ten errors that occurred on the system. Use the up and down

arrows to select an errors and press troubleshooting information for the selected error.

Press error code th Error Codes informatio

to acce

nonerrorcodes.

ss troubleshooting screen for an

at is not listed on this screen. See

and Troubleshooting, page 74, for more

to view

Recipes

Use this screen to select an enabled recipe. Use the up and down arrows to highlight a recipe and press

to load. The currently loaded recipe is outlined

by a green box.

Note

This screen will not display if there are not any enabled recipes. To enable or disable recipes, see Recipes Setup Screen, page 47.

3A1705E 53

Page 54

Advanced Displa

yModule(ADM)Operation

System Events

Usethetableb

Event Code

EADA

EADB

EADH

EAPX

EARX

EAUX

EB0 X

EBDA

EBDB

EBDH

EBPX

EBRX

EBUX

EL0X

EM0 X

EP0 X

ER0 X

EVUX

elow to ﬁnd a description for all system events. All events are logged in the USB log ﬁles.

Description

Recipe Selected

Heat On A

Heat On B

Heat On Hose Pump On

Jog On

USB Drive Inserted ADM Red Stop Button Pressed

Heat Off A

Heat Off B

Heat Off Hose Pump Off

Jog Off

USB Drive Removed

Setup Value Changed

A Temperature Setpoint Changed

B Temperature Setpoint Changed

Hose Temperature Setpoint Changed

Pressure Setpoint Changed

Recipe Changed

System Power On

System Power Off

Pump Parked

System Settings Downloaded

System Settings Uploaded

Custom Language Downloaded

Custom Language Uploaded

Logs Downloaded

User Counter Reset

USB Disabled

54 3A1705E

Page 55

Startup

To prevent serious injury, only operate Reactor with all covers and shrouds in place.

Startup

NOTICE

1. Check generator fuel level.

Running out of fuel will cause voltage ﬂuctuations that can damage electrical equipment.

2. Check coolant levels.

Inspect the level of coolant inside the engine coolant expansion bottle (EB) and heat exchanger coolant expansion bottle (HB).

HOT

COLD

3. Check ﬂuid inlet screens.

HOT

COLD

6. Start the generator.

Press start button

twice on the engine control module. The controller will automatically sequence glow plug warming and crank operations. Allow engine to reach full operating speed.

Note

Engine will not start if main power switch is in the on position.

Note

If the engine control module screen does not light up after the start button is pressed, see the system repair manual.

7. Turn main power switch ON.

When the system is powered up by turning the main power switch (MP) to the ON position, the splash screen will display until communication and initialization is complete.

Before daily startup, ensure that the ﬂuid inlet screens are clean. See Flush Inlet Strainer Screen, page 67

4. Check ISO lubrication reservoir.

Check level and condition of ISO lube daily. See Pump Lubrication System, page 68.

5. Conﬁrm main power switch is OFF before starting generator.

3A1705E 55

Page 56

Startup

8. Check coolant color.

Use a ﬂashligh through sight be visible ins should be gree then the coola is a milky col has likely le that the cool

t to inspect the color of the coolant

glass (SG). The mesh ﬁlter should

ide the sight glass and the coolant

n. If there are a lot of air bubbles,

nt level may be low. If the coolant

or, then that indicates A or B material

aked inside a heat exchanger and

ant needs to be drained.

• To add more coolant, see

Reﬁll Proportioner Coolant Loop, page 70 and Reﬁll Engine Coolant Loop, page 71.

• To drain the coolant system, see

Drain Coolant, page 69.

9. Switch on the air compressor, air dryer, breathing air, and other accessories.

Complete the following steps for systems with a supplied air compressor.

a. Close the

air dryer (CH) when tank has

main air shutoff valve, desiccant

inlet valve, and water drain valve

ever the pressure in the air supply

been relieved.

11. Open the main air shutoff valve.

12. Slowly increase the air pressure regulator settings.

13. Load ﬂuid with feed pumps.

a. Check that all Setup steps are complete.

See Setup, page 33.

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 59. If you need to circulate material through the heat hose to the gun manifold, see Circulation Through Gun Manifold, page 60.

d. Turn both PRESSURE RELIEF/SPRAY

valves (SA, SB) to SPRAY

b. Press start on the air compressor power box

(CB). Wait until the pressure gauge (CJ) on the air supply tank reaches 30 psi.

c. Open the desiccant dryer inlet valve, water

drain valve, and the main air shutoff valve.

10. During initial startup, ensure all three air regulators are turned fully counterclockwise.

e. Adjus

desir to sta psi (0 pumps

t A and B feed pump air regulators to

ed air pressure, on front of proportioner,

rt the feed pumps. Do not exceed 130

.2 MPa, 2 bar) to the A and B feed

56 3A1705E

Page 57

f. Open ﬂuid inlet valves (FV). Check for leaks.

Do not mix components A and B during startup. Always provide two grounded waste containers to keep component A and component B ﬂuids separate.

g. Hold gun ﬂuid manifold over two grounded

waste containers. Open ﬂuid valves A and B until clean, air-free ﬂuid comes from valves. Close valves.

Startup

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.

• Wear gloves if ﬂuid temperature exceeds 110°F (43°C).

Thermal expansion can cause overpressurization, resulting in equipment rupture and serious injury, including ﬂuid injection. Do not pressurize system when preheating hose.

The Fusion AP gun manifold is shown.

14. Setup ADM. Advanced Display Module (ADM) Operation, page 43.

15. Press

to turn on hose heat zone.

16. Wait for tempera tempera temper green a fan wil reache

17. Wait for the hose to reach set point temperature or a hose overpressure condition may occur due to thermal expansion.

18. Pres

the engine to reach operating ture and the hose to reach setpoint ture. The engine has reached operating

ature when the black arrow is under the

rea of the temperature bar. The radiator

l turn on when operating temperature is

to turn on A and B heat zones.

3A1705E 57

Page 58

Temporary Manua

l Hose Tempe rature Control

Temporary Manual Hose Temperature Co

If T6DH error code appears from a break in the hose RTD cable or FTS sensor, follow the steps for temporary manual hose temperature control. Repair or replace the hose RTD cable or FTS as soon as job is ﬁnished.

1. Connect the spare RTD (15V837), shipped with the system, to the Fluid Temperature Sensor (FTS) cables (SC) at the Reactor Fluid Manifold (FM).

15V837

ntrol

2. Insert the RTD sensor probe between the two hoses where the scuff guard ends.

3. Lower the hose temperature setpoint on the system ADM screen by (20°F (-6°C). Push probe into the hose bundle at least 3 in. (76 mm).

4. Do not leave the RTD tip probe exposed to air or a hose overtemperature condition may occur.

NOTICE

To prevent ov the hoses, do the two hose

5. Repair or replace the hose RTD cable or FTS as soon as the job is ﬁnished.

erheating material and damaging

not leave the spare RTD between

s after the job is complete.

58 3A1705E

Page 59

Fluid Circulati

Fluid Circula

Circulation T

hrough Reactor

tion

NOTICE

Do not circul without cons regarding ﬂ

To circulate through gun manifold and preheat hose, see Circulation Through Gun Manifold, page 60.

1. Follow Sta

To avoid injection injury and splashing, do not install shutoffs downstream of the PRESSURE RELIEF/SPRAY valve outlets (BA, BB). The valves function as overpressure relief valves

when set to SPRAY open so valves can automatically relieve pressure when machine is operating.

2. See Typical Installation, with circulation, page 13.

Route circulation lines back to respective component A or B supply drum. Use hoses rated at the maximum working pressure of this equipment. See Technical Speciﬁcations, page 98.

ate ﬂuid containing a blowing agent ulting with your material supplier

uid temperature limits.

rtup, page 55.

. Lines must be

3. Set PRESSURE R

SB) to PRESSURE RELIEF/CIRCULATION

4. Set temperature targets. See Targets, page 50.

5. Press

A and B temperatures reach targets. See Jog Mode, page 60 for more information about jog mode.

6. Press

7. Turn on

ﬂuid in the min supply

8. Exit j

9. Set PR

SB) to SPRAY

to circulate ﬂuid in jog mode until

the A and B heat zones. Wait until the

let valve temperature gauges (FV) reach

imum chemical temperature from the

drums.

og mode.

ESSURE RELIEF/SPRAY valves (SA,

ELIEF/SPRAY valves (SA,

turn on the hose heat zone.

3A1705E 59

Page 60

Jog Mode

Circulation T

hrough Gun Manifold

NOTICE

Do not circula without cons regarding ﬂu

Circulating rapid prehe

1. Install gun ﬂuid manifold (P) on accessory

circulation kit (CK). Connect high pressure circulation lines (R) to circulation manifold.

te ﬂuid containing a blowing agent ulting with your material supplier id temperature limits.

ﬂuid through the gun manifold allows ating of the hose.

3. Follow procedures from Startup, page 55.

4. Turn main power switch on

5. Set temperature targets. See Targets, page 50.

6. Press

A and B temperatures reach targets. See Jog Mode, page 60 for more information about jog mode.

to circulate ﬂuid in jog mode until

Jog Mode

Jogmodehastwopurposes:

• It can speed ﬂuid heating during circulation.

• It can ease system ﬂushing and priming.

1. Turn main power switch on

The Fusion AP gun manifold is shown.

CK Gun

24636

256566

GC1703

2. Rou

com hos pre Tec

te circulation lines back to respective

ponent A or B supply drum. Use

es rated at the maximum working

ssure of this equipment. See

hnical Speciﬁcations, page 98.

nAP

Fusio

Fusion CS

ler P2

Prob

Manual

30981

313058

3132

2. Press c

3. Press up or down (J1 through J20).

4. Press

5. To s

or .

irculate

Note

Jog speeds correlate to 3-30% of motor power, but will not operate over 700 psi (4.9 MPa, 49 bar) for either A or B.

to start motor.

top the motor and exit jog mode press

to enter jog mode.

to change jog speed

60 3A1705E

Page 61

Spraying

4. Adjust the gun air regulator on the proportioner

control panel to desired gun air pressure. Do not exceed 130 psi (0.2 MPa, 2 bar).

The Fusion AP

gun is shown.

1. Engage gun piston safety lock.

2. Close gun ﬂuid inlet valves A and B.

3. Attach gun ﬂuid manifold. Connect gun air line. Open air line valve.

5. Set PRESSURE RELIEF/SPRAY valves (SA,

SB) to SPRAY

6. Check that heat zones are on and temperatures are on target, see Home screen, page 50

7. Verify that the engine temperature is at least up to the minimum operation temperature range. The fan will start running when the engine has reached maximum temperature.

8. Press

to start motor and pumps.

9. Check ﬂuid pressure and adjust as necessary.

10. Check ﬂuid pressure gauges (GA, GB) to ensure proper pressure balance. If imbalanced, reduce pressure of higher component by slightly turning PRESSURE RELIEF/SPRAY valve for that component toward PRESSURE

RELIEF/CIRCULATION

until gauges show

balanced pressures.

11. Instructions continue on next page.

3A1705E 61

Page 62

Spraying

12. Open gun ﬂuid inlet valves A and B.

Note

On impingement guns, never open ﬂuid manifold valves or trigger gun if pressures are imbalanced.

13. Disengage gun piston safety lock.

14. Test spr tempera

ay onto cardboard. Adjust pressure and ture to get desired results.

15. Equipment is ready to spray.

Spray Adjustm

Flow rate, atomization, and amount of overspray are affected by four variables.

• Fluid pressu

in an uneven p ﬂow, and poo in excessiv control, an

• Fluid tempe

setting. T help balan

• Mix chambe

on desired

• Clean-of

results i nozzle, a overspra air-ass

e overspray, high ﬂow rates, difﬁcult

d excessive wear.

he A and B temperatures can be offset to

cetheﬂuidpressure.

ﬂow rate and ﬂuid viscosity.

f air adjustment. Too little clean-off air

n droplets building up on the front of the

nd no pattern containment to control

y. Too much clean-off air results in

isted atomization and excessive overspray.

ents

re setting. Toolittlepressureresults

attern, coarse droplet size, low

r mixing. Too much pressure results

rature. Similareffectstoﬂuidpressure

rsize. Choice of mix chamber is based

62 3A1705E

Page 63

Shutdown

NOTICE

Proper system procedures ar reliability voltage. Fai cause voltag electrical e

1. Press to stop the pumps.

2. Turn off heat zones.

3. Relieve pressure. See

Pressure Relief Procedure, page 64.

4. Press

5. Press

6. Turn off the air compressor, air dryer, and

breathing air.

7. Close the main air shutoff valve.

setup, startup, and shutdown

e critical to electrical equipment

. The following procedures ensure steady

lure to follow these procedures will

e ﬂuctuations that can damage

quipment and void the warranty.

to park the Component A Pump.

to deactivate the system.

8. Turn main power switch OFF.

To prevent electric shock do not remove any shrouds or open the electrical enclosure door. 240 V is still present in the system until the engine has stopped.

9. Allow engi

ne dwell time.

NOTICE

Allow engine dwell time, per manufacturer recommendations, prior to shutdown. Dwell time will help engine cool down after running at operating temperature for any period of time.

10. Press on the engine control module.

11. Open air compressor bleed valve to relieve pressure and remove water from tank.

12. Close all ﬂuid supply valves.

3A1705E 63

Page 64

Pressure Relief

Procedure

Pressure Relief Procedure

4. Route ﬂuid to waste containers or supply tanks. Turn PRESSURE RELIEF/SPRAY valves (SA, SB) to PRESSURE RELIEF/CIRCULATION

This equipme is manually r injury from p splashing ﬂu Pressure Rel and before c

nt stays pressurized until pressure

elieved. To help prevent serious

ressurized ﬂuid, such as skin injection,

id and moving parts, follow the

ief Procedure when you stop spraying

leaning, checking, or servicing

equipment.

TheFusionA

P gun is shown.

1. Relieve pressure in gun and perform gun shutdown procedure. See gun manual.

2. Close gun ﬂuid inlet valves A and B.

3. Shut of

f feed pumps and agitator, if used.

. Ensure gauges drop to 0.

5. Engage gun piston safety lock.

6. Disconnect gun air line and remove gun ﬂuid manifold.

64 3A1705E

Page 65

Flushing

To 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.

• All wetted parts are compatible with common solvents. Use only moisture-free solvents.

• Toﬂushfeedho separately fr RELIEF/SPRAY

RELIEF/CIRC

ses, pumps, and heaters

om heated hoses, set PRESSURE

valves (SA, SB) to PRESSURE

ULATION

. Flush through bleed

lines (N).

• To ﬂush entire system, circulate through gun ﬂuid manifold (with manifold removed from gun).

• To prevent moisture from reacting with isocyanate, always leave the system ﬁlled with a moisture-free plasticizer or oil. Do not use water. Never leave the system dry. See Important TwoComponent Material Information, page 7.

3A1705E 65

Page 66

Maintenance

Prior to perfo follow Pressu

rming any maintenance procedures,

re Relief Procedure, page 64.

Preventative Maintenance Schedule

The operati determine h Establish a recording w needed, an checking y

ng conditions of your particular system

ow often maintenance is required. preventive maintenance schedule by hen and what kind of maintenance is

d then determine a regular schedule for

our system.

Proportioner Maintenance

Wet Cup

Check th Throat S not over

Fluid I

ewetcupdaily. Keepit2/3fullwithGraco

eal Liquid (TSL

tighten packing nut/wet cup.

) or compatible solvent. Do

nlet Strainer Screens

Compressor Ta

Open the manual water drain valve weekly. See valvelocationonpage34. Openonlywhenair pressure is less than 25 psi.

nk Water Drain

Dust Protection

Use clean, dry, oil-free compressed air to prevent dust buildup on control modules, control boards, fans, and motor (under shield).

Coolant Levels

Check coolant level inside both overﬂow tanks daily.

Flush and reﬁll the coolant on both the engine and heat exchanger coolant loop once a year. See Reﬁll Proportioner Coolant Loop, page 70. See Reﬁll Engine Coolant Loop, page 71.

Engine Maintenance

The engine instructions that accompany your unit detail speciﬁc procedures for maintenance of the engine. Following the engine manufacturer’s recommendations will extend engine work life.

t ﬂuid inlet strainer screens daily, see

Inspec Flush I

Greas

Greas greas

ISO L

Insp dai Pum

nlet Strainer Screen, page 67.

e Circulation Valves

e circulation valves (SA, SB) with Fusion

e (117773) weekly.

ubricant Level

ect ISO lubricant level and condition

ly. Reﬁll or replace as needed. See

p Lubrication System, page 68.

Daily

• Cooling System Coolant Level — Check

• Engine Air Cleaner Service Indicator — Inspect

• Engine Oil Level — Check

Every 500 Service Hours or 1 Year

• Engine Air Cleaner Element (Dual Element) —

Clean/Replace

• Engine Oil and Filter — Change

• Fuel System Filter — Replace

tery Voltage — Check. See

• Bat

endix A: Engine Control Module, page 90.

App

66 3A1705E

Page 67

Maintenance

Flush Inlet St

rainer 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.

Note

Clean the A-side screen only during daily startup. This minimizes moisture contamination by immediately ﬂushing out any isocyanate residue at the start of dispensing operations.

1. Close the ﬂuid inlet valve at the pump inlet and

shut off the appropriate feed pump. This prevents material from being pumped while cleaning the screen.

2. Place a

drain

container under the strainer base to catch

off when removing the strainer plug (C).

3. Remove the screen (A) from the strainer

manifold. Thoroughly ﬂush the screen with compatible solvent and shake it dry. Inspect the screen. No more than 25% of the mesh should be restricted. If more than 25% of the mesh is blocked, replace the screen. Inspect the gasket (B) and replace as required.

4. Ensurethepipeplug(D)isscrewedintothe

strainer plug (C). Install the strainer plug with the screen (A) and gasket (B) in place and tighten. Do not overtighten. Let the gasket make the seal.

5. Open the ﬂuid inlet valve, ensure that there are

no leaks, and wipe the equipment clean. Proceed with operation.

Figure

3A1705E 67

Page 68

Maintenance

Pump Lubricat

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 formatio pump lubrica depends on th is operatin exposure to possible.

Lubricant discoloration is due to continual seepage of small amounts of isocyanate past the pump packings during operation. If the packings are operating properly, lubricant replacement due to discoloration should not be necessary more often than every 3 or 4weeks.

To change pump lubricant:

1. Follow Pr

2. Lift the

and remo the cap o check va Reattac

3. Drain t

lubric

n is due to moisture absorption by the

nt. The interval between changes

g. The pump lubrication system minimizes

moisture, but some contamination is still

essure Relief Procedure, page 64.

lubricant reservoir (R) out of the bracket

lve and allow the lubricant to drain.

h the check valve to the inlet hose.

he reservoir and ﬂush it with clean

ant.

ion System

e environment in which the equipment

ve the container from the cap. Holding ver a suitable container, remove the

4. When the reservoir is ﬂushed clean, ﬁll with fresh

lubricant.

5. Thread the reservoir onto the cap assembly and

place it in the bracket.

6. The lubrication system is ready for operation. No

priming is required.

Pump Lubrication System

Figure 38

68 3A1705E

Page 69

Maintenance

Drain Coolant

To avoid burns, do not perform maintenance on the coolant system until the coolant system has reached ambient temperature.

Drain coolant from the engine and proportioner coolant loops once a year or if the coolant lines need to be disconnected, in order to install a wall between the generator and proportioner.

1. Perform Shutdown, page 63.

2. Remove the cabinet door from the front of the

proportioner.

3. Turn on manual valve switch (MV), located on

the load center (LC), to manually open the A and B heat exchanger control valves and bypass control valve.

Note

LED Component LED Color

Manual valve s

A Side Control Valve

B Side Control Valve

Bypass Valve

4. To drain proportioner coolant loop:

a. Remove the

bottle (HF

b. Place the o

waste con coolant u the sight

witch (MV)

proportioner coolant loop ﬁll

)cap.

ther end of the drain tube in a

tainer. Open the drain valve. Drain

ntil coolant is no longer visible in

glass.

Red

Blue

Green

The battery must be connected to operate valves. The load center (LC) LEDs will stay on when the manual valve switch (MV) is in the ON position.

Figure 39

Proportioner Coolant Loop Drain Valve

Figure 40

c. To reﬁll coolant loop, see Reﬁll Proportioner

Coolant Loop, page 70.

3A1705E 69

Page 70

Maintenance

5. To drain engine coolant loop:

a. Remove the eng b. Remove engine

guards rest on valve.

Engine Coolant Loop Drain Valve

Figure 41

c. Place a waste container under the drain

valve. Open the drain valve and drain coolant.

d. To reﬁll coolant loop, see

Reﬁll Engine Coolant Loop, page 71.

e. Replace engine shrouds. Torque screws to

25 ft-lbs (33.8 N∙m)

ine coolant loop (RC) cap.

guards as shown. Let the

theenginetoaccessthedrain

Reﬁll Proport

Note

Air needs to be coolant loop or when air en takes about o cycle to purg

To avoid burns, do not perform maintenance on the coolant system until the coolant system has reached ambient temperature.

Only use coolant solutions that are compatible with the system. See Coolant Speciﬁcations, page 71.

1. Before reﬁlling coolant loop, perform steps 1–3

from Drain Coolant, page 69. Drain coolant loop if necessary.

2. Remove the caps from the metal proportioner

coolant loop ﬁll bottle (HF) and expansion bottle (HB). Fill the proportioner coolant loop ﬁll bottle (HF) to the top and add more coolant to expansion bottle (HB) until the coolant is at the cold ﬁll line. See Coolant Speciﬁcations, page 71.

ioner Coolant Loop

purged from the proportioner

when it is ﬁlled with new coolant

ters the coolant system. It

ne full warm-up and cool-down

e air from coolant.

Coolant System Bottles

Figure 42

70 3A1705E

Page 71

Maintenance

3. Replace cap.

4. Press start button

control module.

5. Turn main power switch on.

6. Inspect coolant ﬂow in sight glass (SG) for

bubbles and to verify that the coolant is ﬂowing.

7. Inspect coolant loops for leaking ﬁttings or valves.

8. The coolant has reached operating temperature

when the radiator fan turns on. When the fan turns on, turn the main power switch OFF.

9. Press to stop the generator.

10. After the coolant system temperature lowers to

ambient temperature, reﬁll or add coolant to the expansion bottle (HB) cold level indicator line.

11. Turnoffmanualvalveswitch(MV)toclosetheA

and B heat exchanger control valves (VA, VB) and bypass control valve (VC).

twice on the engine

Only use coolant solutions that are compatible with the system. See Coolant Speciﬁcations, page 71.

1. Perform Shutd

2. Remove the eng

(RC) and ﬁll un bottom of the Coolant Spec

3. Remove the ca

bottle (EB) a level. Repl

4. Press start button

control module.

5. Turn main power switch ON.

6. Inspect coolant loops for leaking ﬁttings or valves.

7. The coolant has reached operating temperature

when the radiator fan turns on. When the fan turns on, turn the main power switch OFF.

own, page 63.

ine radiator coolant cap

til the coolant reaches the

neck. Replace cap. See

iﬁcations, page 71.

p from the engine coolant loop

nd ﬁll until the coolant is at the hot

ace cap.

twice on the engine

Note

When the manual valve switch (MV) is in the OFF position, the load cent (LC) LEDs only turn on when the syst opens the valves.

12. If necessary, reﬁll or add coolant to the expansion

bottle (HB) cold level indicator line. See Fig. 42.

Reﬁll Engine Coolant Loop

Reﬁll the engine coolant loop when the coolant is below the cold level line at ambient temperature.

To avoid burns, do not perform maintenance on the coolant system until the coolant system has reached ambient temperature.

8. Press to stop the generator.

9. Add more coolant to expansion bottle (EB)

after the coolant system temperature lowers to ambient temperature. Repeat until coolant level stays at cold level when at ambient temperature. It may take a few cycles to remove all air out of coolant system.

Coolant Speciﬁcations

Only reﬁll the coolant loops with a solution of 50% distilled or soft water and 50% green ethylene glycol antifreeze with a corrosion inhibitor. Do not use common tap water; it contains chlorides and minerals which form scale on the coolant system walls. Use only antifreeze that meets speciﬁcation ASTM D3306–89, BS658, or AS 2108. A pre-diluted mix is recommended, such as PEAK Ready Use 50/50 Pre-Diluted.

3A1705E

Page 72

Errors

View Errors

When an error screen displ description Troublesho

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 53.

There are three types of errors that can occur. Errors are indicated on the display as well as by the light tower (optional).

Alarms a a parame level re to be add

Deviations are indicated by indicates a parameter critical to the process has reached a level requiring attention, but not sufﬁcient enough to stop the system at this time.

quiring the system to stop. The alarm needs

occurs the error information

ays the active error code and

. To diagnose the active error, see

ot Errors, page 73.

re indicated by

ter critical to the process has reached a

ressed immediately.

. This condition indicates

. This condition

Advisories are indicated by indicates a parameter that is not immediately critical to the process. The advisory needs attention to prevent more serious issues in the future.

. This condition

3A1705E

Page 73

Errors

Troubleshoot Errors

See Error Code causes and sol

To troubleshoot the error:

1. Press the soft key for help with the active error.

Note

Press previously displayed screen.

s and Troubleshooting, page 74 for

utions to each error code.

or to return to the

to diagnose the error. Press previous screen.

3. Select conditions that are present in the system

until a cause has been identiﬁed. Press go the troubleshooting screen that displays the ten most recent errors.

to return to the

2. Press

that ar

o select one of following conditions

e present in the system until you are able

3A1705E 73

Page 74

Troubleshootin

Troubleshooting

See Errors, page 72 for information about errors that can occur on the system.

Error Codes and Troubleshooting

See Reactor repair manual for non-error based troubleshooting.

Error

Code A1N1

A4CH

Error

Location MCM

Hose ALARM High Relay

Type Name

ALARM

No Motor Current

Current Hose

See Troublesh recent errors Troubleshoot have occurre

See Error Codes and Troubleshooting for error codes, possible causes, and solutions.

Note

Error codes are stored in the error log and displayed on the Error and Troubleshooting screens on the ADM.

Cause Solution

Loose or bad connection.

Motor brushes completely worn down.

Bad MCM. Replace MCM. See

Wiring problem.

Shorted contactor.

ooting,page53forthetenmost

that have occurred on the system. See

Errors, page 73 to diagnose errors that

d on the system.

Check wiring between MCM and motor.

Check motor brushes and replace if needed.

System Repair manual. Check wiring between

HPTCM and contactor. Look for shorted wire between HPTCM and contactor terminals A1 and A2.

Measure resistance between A1 and A2 terminals. The resistance should be about 289Ω. If contactor is measuring less than 100Ω, then the contactor is shorted and shouldbereplaced.

3A1705E

Page 75

Troubleshootin

Error

Code A4CM MCM

A4DA Boost A

A4DB Boost B

A4DH Hose

A4NM

A7CH

A7DABoo

A7DBBoo

A7DHHos

A8DABoo

Error

Location

MCM

Hose ALARM Unexpected

st A

st B

st A

ost B

Type Name

ALARM

ALARM High Heater

ALARM High Mot

ALA

High MCM Current

Current

Curren

Relay Current Une

Hea

No H Cu

xpected ter Current

eater

rrent

Cause Solution

MCM is drawing much current f system.

Short circuit in booster heater wiring.

Bad heater.

Short circuit in hose wiring.

Short circuit of motor wiring.

Motor will not rotate.

ical pump is stuck

Chem

ted Temperature

Shor

rol Module.

Cont Shorted Temperature

Control Module.

pped circuit breaker.

Tri

ose/broken

nnection.

too

rom the

If problem con replace MCM. S Repair manual

Check wiring for touching wires.

Measure resistance of heater(s), replace if needed.

Check continuity of transformer windings, normal reading are about

0.2Ω on both primary and secondary. If reading is 0Ω replace transformer.

Check fo the prim the supp transfo

Check wiring to the motor to ensure no bare wires are touching and that no wires are shorted to ground.

Replace motor. See System Repair manual.

Repair or replace chemical pump. See System Repair manual.

ace Module. See

Repl

em Repair manual.

Syst Replace Module. See

System Repair manual.

ually check circuit

Vis

eaker for a tripped

ndition.

co Check heater wiring for

loose wires.

tinues

ee System

r shorts between

ary winding and

ort frame of the

rmer.

3A1705E 75

Page 76

Troubleshootin

Error

Code CACA

CACB

CACH

CAC-MMCM

CACP

Error

Location Boost A Module does not have

Boost B

Hose

Remote Display Module

Type Name

ALARM

Communicatio Error

Cause Solution

software or dial is set to wrong position.

No 24v DC sup module.

Loose or broken CAN cable.

Bad module

Bad module Replace Remote Display

ply to

Insert a system token into the missing GCA module and cycle the power. Wait until the red light on the module to stop ﬂashing before removing the token. Verify the dial on the TCM's are in the correct position: 0 for hose, A for boost A, B for boost B

Green light module sho green ligh to make sur cable conn Verify the outputti replace p System Re

Check the CAN cables running between GCA modules and tighten if needed. If the problem still persists move each cable around the connector and watch the ﬂashing yellow light on the GCA modules. If the lights stops replace the CAN cable.

Replace MCM. See System Repair manual for instructions.

Module.

on each

uldbelit. If

tisnotlit,check

eeachCAN

ection is tight.

power supply is

ng 24 Vdc. If not,

ower supply. See

pair manual.

76 3A1705E

Page 77

Troubleshootin

Error

Code DADX

DE0X

F9DX

H1 MH

H4 MH

K8NM

Error

Location MCM

MCM

Hose ALARM Low Line

Hose ALARM High L

MCM

Type Name

ALARM Pump Runaway Flow rate is too large

ALARM

ALARM Pressure Flow

ALARM Locked Rotor

Pump Cycle Switch Fault

Cutback

Frequency

ine

ency

Frequ

Cause Solution

Mix chamber to system select chamber rated

Make sure the has chemical feed pumps ar correctly.

No material Verify pump chemical. I replace or r

Inlet ball Open ball v

Faulty or m switch.

Mix chamber is too large for the set pressure.

Line fr 55 Hz.

Line frequency is above 65 Hz.

Locked rotor.

mical pump is stuck.

Che

issing cycle

equency is below

Check wiring between cycle switch and MCM port

6. Reference the pressure

ﬂow curves and select a tip size that is the correct size for the set pressure.

Check f outoft

ed 120/240V

suppli

ator manual for

altern

r instructions.

repai Check frequency. If

out of tolerance, see supplied 120/240V alternator manual for repair instructions.

Replace motor. See System Repair manual.

Repair or replace pump. See System Repair manual.

o large for

ed, use mix

for system.

system

and the

e operating

in pumps.

s are supplying f necessary, eﬁll drums.

valves are closed.

alves.

requency. If

olerance, see

3A1705E

Page 78

Troubleshootin

Error

Code L1AX

L1BX

MBN0

MMUX

P4AX

P4BX

P6AX Pressu

P6BX

Error

Location ADM ALARM

MCM

USB

MCM

Type Name

ADVISORY

ALARM

Low Chemical Level A

Low Chemical Level B

Motor Brush Wear

USB Log Full USB logs have reached

Over Pres

Trans A

Pressure Transducer Fault B

sure A

sure B

ducer Fault

Cause Solution

Tanks low on material. Fill tanks with material.

Brushes have worn down and need replacing.

a level were data loss will occur if logs are not downloaded.

System pr before al reach set

Bad pressure transducer.

E-XP2i conﬁgu

Loose/

Bad sensor.

essurized

lowing heat to

point.

system

red as E-30i.

bad connection.

Replace Brushes. See System Repair manual.

Use a USB drive and download all logs.

Turn on the heat and allow thehosetoreachthe setpoint before turning on the pumps.

Verify th reading at the ma transdu match.

Ensure MCM is s E-30i.

Check to ensure the pressure transducer is properly installed and all wires are properly connected.

See if the error follows the transducer. Disconnect transducer cable from #8 and #9 connectors on MCM. Reverse A and B connections and check if the error follows. If the error follows the transducer, replace the pressure transducer. See system repair manual. If the error does not follow, replace MCM. See system repair manual.

e ADM pressure

the analog gauges

nifold. Replace

cers if they do not

rotary switch on

et to position 0 for

78 3A1705E

Page 79

Troubleshootin

Error

Code P7AX Pressure

P7BX

P0AX

P0BX

T1DE Heat

Error

Position MCM

MCM ADVISORY

Exchanger

Type Name

ALARM

ALARM Low Temperature

Imbalance A High

Pressure Imbalance

Pressure Imbalance A High

Pressure Imbalance B High

Coolant Outlet

BHigh

Cause Solution

Pressure diff between A and B is greater tha deﬁned value.

Pressure imb deﬁned too lo

Out of material.

Feed system defective. Check feed pump and hoses

See P7AX.

See P7BX.

Radiator fan will not stop. Replace fan relay.

Engine thermostat is stuck closed.

erence

material

nthe

alance is

Ensure the mat equally restr material line

Ensure that t imbalance va System Setup an acceptab pressure to unnecessar abort dispe

Fill tanks

for blockage. Check that the feed pumps have the correct air pressure.

Replace thermostat. See Perkins distribution.

erial ﬂow is

ictedonboth

he pressure

lue, on the

screen, is at

le maximum

prevent

yalarmsand

nses.

with material.

3A1705E 79

Page 80

Troubleshootin

Error

Code T2AE Low Temperature

T2BE

Error

Position Heat

Exchanger

Type Name

DEVIATION

Hx A

Low Temperature Hx B

Cause Solution

Coolant circu not working.

Air lock in ci pump.

No voltage to coil of valve.

lation pump

rculation

Check for 240V If there is the replace circu

Check for coolant ﬂow in sight glass.

Turn on the manual valve switch (MV), on the load center, to manually turn on the solenoids and see if the temp rises. If not, check voltage output on J6 connector on the load center and ensure the LEDS are on. If not, Replace the load center board. See system repair manual.

If voltage is present, measure the resistance of the coil, it should be 12.5 Ω, if coil is open replace coil.

AC on pump.

correct voltage,

lation pump.

T2DA Boost

T2DB Boos

T2DH Hose

T2DE Heat

Exchanger

ALARM

ADVISORY

Low Chemical Temperature

Low Temperature Coolant Outlet

age is present, test

If volt

l with screwdriver.

the coi The scr magnet coil. I replac or rep valve

s too high at current

Flow i

int.

setpo

Bad heater(s) Conﬁrm resistance of heater

Radiator fan will not stop. Replace fan relay.

Engine thermostat is stuck open.

Useas that i use.

is 23–26.5 ohms. Replace if OL/open loop.

Replace thermostat. See Perkins distributor to replace.

ewdriver should

ically stick inside the

f screwdriver sticks,

e the plunger on valve lace the complete

assembly.

maller mix chamber

s rated for the unit in

80 3A1705E

Page 81

Troubleshootin

Error

Code T3NM

T4AE

T4BE

T4CA

T4CB

T4CH

T4CM MCM

T4DA Boost A

T4DB Boost B

Error

Position MCM ADVISORY

Heat Exchanger

Boost A

Boost B

Hose

Type Name

High Motor Temperature

ALARM

High Chemica Temperatur

High Chemical Temperature Hx B

LPTCM Over Temperature

LPTCM O Temper

HPTCM Over Temperature

High MCM Temperature

High Chemical Temperature

gh Chemical

emperature

ver

ature

eHxA

Cause Solution

Motor is operating outside of pressure ﬂow curve. The system is running at a lower setpoint to preserve motor life.

Manual valve on load cent the ON posit

B side contr solenoid is open posit

Short on load center board. If the blue and red LEDsareonwhilethe heat is off, then the load center board is bad.

Cooling fan not operating on power.

Overhe

High a

rature.

tempe

Overheated Control Module.

Bad RTD.

Bad Low Power Temperature Control Module.

switch (MV)

er board is in

ion.

ol valve

stuck in the

ion.

ated module.

mbient

Run the system at a lower duty cycle or with a smaller mix chamber. See Performance Charts, page

96.

Open cabinet switch to th

Disconnect from valve s temperatu decrease,

See Load Center Diagnostics in Reactor repair manual..

Iffanisnotworkingcheck wiring between CB03 and fan. If wiring is good, replace fan.

Turn co afewmi

ion does not clear or

condit

erates consistently,

regen

ce module.

repla

e ambient temperature

Ensur

ow 120°F(48°C) before

is bel

g the system.

usin Stop the pumps. Wait

a few minutes. If the condition does not clear or regenerates consistently, replace MCM. See System Repair manual.

Swap A and B heater volex cables and RTDs and see if issue follows. If so, replace RTD.

wap the A and B LPTCMs

nd see if the issue follows

he module. If so replace

PTCM. See System Repair

anual.

cover and turn

e OFF position.

connector

olenoid. If

re does not

rebuild solenoid.

ntroller off. Wait

nutes. If the

3A1705E 81

Page 82

Troubleshootin

Error

Code T4DH Hose ALARM

T4DE Heat

T4NM

Error

Position

Exchanger

MCM

Type Name

ALARM High Temperature

ALARM High Motor

High Chemical Temperature

Coolant Outlet

Temperatur

Cause Solution

BadHighPower Temperature Control Module.

Broken Fan.

Plugged rad

Cooling fans are not operating properly.

Bad ele

iator.

ctric motor.

Replace HPTCM System Repair

Check fan rel fuse (30 Amp A load center b if needed.

Replace if needed.

Ensure ambi is less than

Check to see that the fans are moving. Measure voltagetofans. There should be 240 VAC. If no voltage is measured, check wiring between fan and circuit breaker CB03.

If the fans have voltage but are not moving, replace fan.

Use an ai around t remove a

Replace electric motor. See System Repair manual.

.See

manual.

ay (K4) and

TO “F3”) on

oard. Replace

ent temperature

120°F(48°C).

rhosetoblowout

he fan housings and

ny built-up debris.

82 3A1705E

Page 83

Troubleshootin

Error

Code T6AE Heat

T6BE Heat

T6DA Boost A RTD Fault A

T6DB Boost B RTD Fault B

T6DE Heat

T6DH Hose

T8AE Temperature Not

Error

Position

Exchanger

Heat Exchanger

Type Name

ALARM

RTD Fault A The module is reading

RTD Fault B

Coolant Outlet RTD Fault

RTD Cable or FTS Fault

Rising Hx A

Cause Solution

Check port on m

inﬁnite resistance. Bad RTD.

Broken RTD cable in hose or bad FTS.

No cool

ant ﬂow

wiring to RTD. Switch the RTD with another

and see if the error message follows the RTD. Replace RTD if the error follows the RTD. See System Repair manual for instructions.

Expose each hose RTD connection to check and retighten any loose connector. Measure hose RTD cable and FTS continuity. See system repair manual. Order RTD Test Kit 24N365 for measurement.

See Temporary Manual Hose Temperature Control, page 58, to ﬁnish job until repair can be completed.

Check c for coo glass.

odule and

oolant level. Check

lant ﬂow in sight

T8BE

Temperature Not Rising Hx B

Ensure that the circulation pump has 240 VAC. If not, replace the circulation pump. See System Repair manual.

Bad valve solenoid. Turn on the manual valve

switch (MV), on the load center, and see if the valve solenoid shifts. If not replace solenoid.

Bad load center. Red, blue, and green LEDs

should light up on load center board. If not, replace load center.

3A1705E 83

Page 84

Troubleshootin

Error

Code T8DA Boost A

T8DB Boost B Bad hose heater. Measure hose resistance,

T8DH Hose

V1CM MCM

V1MH Hose ALARM Low Line Vo

V4CM MCM

V4MH Hose ALARM High Lin

WBNM

Error

Position

MCM

Type Name

ALARM Temperature Not

Rising

ALARM Bus Under

Voltage

ltage

ALARM

Bus Overvoltage

e Voltage

Motor Sensor Fault

Cause Solution

Bad heater rod

Started spra engine and ho operating t

Tripped cir

Loose or ba

Low genera voltage

High auxi current.

Incomin too high

Bad Connection between MCM (Port 10) and brush wear/over temperature board.

Bad brush wear/over temperature board.

g line voltage is

(boost).

ying before

se reached

emperature. cuit breaker.

d connection.

tor line

liary inrush

Measure resistance, 23 – 26 Ω, of heater rod, replace if reading open.

replace if reading open. Wait until temperatures have

been reached on engine and hose before spraying.

Visually ch breaker for condition

Check wiring for loose wires.

Measure vo main power Voltage s between 1

Ensure co air drier continu accordi

Measure main pow Voltag betwee

age is too high, see

If volt

ed alternator manual

suppli for gen and rep

Check connection and cables.

Replace Motor. See System Repair manual.

eck circuit

a tripped

ltage across

switch (CT01).

hould measure

90 and 264 VAC. mpressor or

are setup to be ous run and sized ng to manual.

voltage across

er switch (CT01).

eshouldmeasure

n 190 and 264 VAC.

erator speciﬁcations

air.

84 3A1705E

Page 85

Troubleshootin

Error

Code WMCE MCM

WSCX

WSUX USB ADVISORY USB Invali

WXUD ADM

WXUU ADM

WX00

Error

Position

ADM

MCM

Type Name

ALARM

ADVISORY Invalid CAN

ADVISORY USB Download

ADVISORY USB Upload Error Custom language ﬁle

ALARM External Input The alarm external input

Load Center Fa

Conﬁguration

Conﬁgurat

Error

ion

Cause Solution

ult

Bad Connectio MCM (Port 2) an center board.

Bad load cent

Duplicate node on CAN network.

A valid con can't be fo USB.

Bad ADM.

Log Downl

failed to upload

hasbeendrivenlow.

n between

dload

er.

ﬁguration ﬁle

und for the

oad Failed.

Check connect cables.

Replace load center. See System Repair manual.

Verify LPTCM are set to A and B.

Insert a system token into the ADM and cycle the power. Wait until the lights on USB port stop ﬂashing before Removing the token.

Replace A Repair ma

Backup and reformat the USB drive. Retry download.

Perform normal USB download and use the new disptext.txt ﬁle to upload the custom language.

An active alarm is being generated by the external trigger. If the external alarm is not conﬁgured check for a short in the wiring going to MCM port 7, pins 1 and 3.

ion and

DM. See System nual.

3A1705E 85

Page 86

USB Data

USB Logs

Note

TheADMcanread/writetoFAT(File Allocation Table) storage devices. NTFS, used by 32 GB or greater storage devices, is not supported.

During operation, the ADM stores system and performance related information to memory in the form of log ﬁles. The ADM maintains four log ﬁles:

• Event Log

•JobLog

• Daily Log

• System Software Log

• Blackbox Log

Follow Download Procedure, page 88, to retrieve log ﬁles.

Each time a USB ﬂash drive is inserted into the ADM USB port, a new folder named DATAxxxx is created. The number at the end of the folder name increases each time a USB ﬂash drive is inserted and data is downloaded or uploaded.

Event codes in deviations,

Actions Taken includes setting and clearing event conditions by the system, and acknowledging error conditions by the user.

clude both error codes (alarms,

and advisories) and record only events.

Job 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 415,413 data points for download. See Setup - Advanced Screen 3 — USB, page 46, for information on setting the Download Depth and USB Log Frequency.

•Datapoi

• A side he

•Asideb

•Bsideh

nt date

nt time

at exchanger temperature

oost heater temperature

eat exchanger temperature

Event Log

The event log ﬁle name is 1–EVENT.CSV and is stored in the DATAxxxx folder.

The event log maintains a record of the last 49,182 events and errors. Each event record contains:

• Date of event code

• Time of event code

• Event code

• Event type

• Action taken

vent Description

•E

•Bsideb

•Hoset

• Engin

•Aside

•Bside

•Hose

•Asid

•Bsid

•Pre

•Sys

•Pre

oost heater temperature

emperature

e coolant temperature

temperature setpoint

e pressure

ssure setpoint

tem lifetime pump cycle counts

ssure, volume, and temperature units

86 3A1705E

Page 87

USB Data

Daily Log

The daily log ﬁle name is 3–DAILY.CSV and is stored in the DATAxxxx folder.

The daily log m and volume spr powered up. T that were use

The following data is stored in this ﬁle:

• Date that material was sprayed

• Time — unused column

• Total pump cycle count for day

• Total volume sprayed for day

aintains a record of the total cycle ayed on any day that the system is

he volume units will be the same units

d in the Job Log.

System Software Log

The system software ﬁle name is 4–SYSTEM.CSV andisstoredintheDATAxxxxfolder.

The syste

• Date log was created

m software log lists the following:

Blackbox Log File

The black box ﬁle name is 5–BLACKB.CSV and is stored in the DATAxxxx folder.

The Blackbox l system runs an will help Gra

og maintains a record of how the

d the features that are used. This log

co troubleshoot system errors.

System Conﬁguration Settings

The system c SETTINGS.T folder.

A system conﬁguration settings ﬁle automatically downloads each time a USB ﬂash drive is inserted intotheADM.Usethisﬁletobackupsystem settings for future recovery or to easily replicate settings across multiple systems. Refer to the Upload Procedure, page 89 for instructions on how to use this ﬁle.

onﬁguration settings ﬁle name is

XTandisstoredintheDOWNLOAD

• Time log was created

• Component name

• Software version loaded on the above component

3A1705E 87

Page 88

USB Data

Custom Langua

The custom language ﬁle name is DISPTEXT.TXT and is stored in the DOWNLOAD folder.

A custom lang eachtimeaUS If desired, u custom langu ADM.

The system is able to display the following Unicode characters. For characters outside of this set, the system will display the Unicode replacement character, which appears as a white question mark inside of a black diamond.

• U+0020 - U+007E (Basic Latin)

• U+00A1 - U+00FF (Latin-1 Supplement)

• U+0100 - U+017F (Latin Extended-A)

• U+0386 - U+03CE (Greek)

• U+0400 - U+045F (Cyrillic)

uage ﬁle automatically downloads

B ﬂash drive is inserted into the ADM.

se this ﬁle to create a user-deﬁned set of

age strings to be displayed within the

ge File

• Deﬁne a custom string for each row in the second

column.

Note

If the custom language ﬁle is used, you must deﬁne a custom string for each entry in the DISPTEXT.TXT ﬁle. Blank second-column ﬁelds will be displayed blank on the ADM.

• The ﬁle name must be DISPTEXT.TXT.

• The ﬁle format must be a tab-delimited text ﬁle

using Unicode (UTF-16) character representation.

• The ﬁle must contain only two columns, with

columns separated by a single tab character.

• Do not add or remove rows to the ﬁle.

• Do not change the order of the rows.

Download Procedure

Note

Create Custom Language Strings

The custom language ﬁle is a tab-delimited text ﬁle that contains two columns. The ﬁrst column consists of a list of strings in the language selected at the time of download. The second column can be used to enter the custom language strings. If a custom language was previously installed, this column contains the custom strings. Otherwise the second column is blank.

y the second column of the custom language ﬁle

Modif

ded and the follow Upload Procedure, page 89 ,

as nee

stall the ﬁle.

to in

The format of the custom language ﬁle is critical. The following rules must be followed in order for the installation process to succeed.

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

2. The me

3. Remov

4. Inser

5. The U

6. Open

7. Ins

USBﬂashdriveintoUSBport.

nu bar and USB indicator lights indicate

he USB is downloading ﬁles. Wait for USB

that t

ity to complete.

activ

e USB ﬂash drive from USB port.

t USB ﬂash drive into USB port of computer.

SB ﬂash drive window automatically opens.

does not, open USB ﬂash drive from within

If it

ows® Explorer.

Wind

GRACO folder.

tructions continue on next page.

88 3A1705E

Page 89

USB Data

8. Open the system folder. If downloading data

from more than one system, there will be more than one folder. Each folder is labeled with the corresponding serial number of the ADM (The serial number is on the back of the ADM.)

9. Open DOWNLOAD folder.

10. Open DATAxxxx folder.

11. Open DATAxxxx folder labeled with the highest

number. The highest number indicates the most recent data download.

12. Open log ﬁle. Log ﬁles open in Microsoft® Excel

by default as long as the program is installed. However,theycanalsobeopenedinanytext editor or Microsoft® Word.

Note

All USB logs are saved in Unicode (UTF-16) format. If opening the log ﬁle in Microsoft Word, select Unicode encoding.

Upload Procedure

Use this procedure to install a system conﬁguration ﬁle and/or a custom language ﬁle.

1. If necessary, follow the Download Procedure to

automatically generate the proper folder structure on the USB ﬂash drive.

3. The USB ﬂash drive window automatically opens.

If it does not, open USB ﬂash drive from within Windows Explorer.

4. Open GRACO folder.

5. Open the system folder. If working with more

than one system, there will be more than one folder within the GRACO folder. Each folder is labeled with the corresponding serial number of the ADM. (The serial number is on the back of the module.)

6. If installing the system conﬁguration settings

ﬁle, place SETTINGS.TXT ﬁle into the UPLOAD folder.

7. If installing the custom language ﬁle, place

DISPTEXT.TXT ﬁle into the UPLOAD folder.

8. Remove USB ﬂash drive from the computer.

9. Install USB ﬂash drive into the ADM USB port.

10. The menu bar and USB indicator lights indicate

that the USB is downloading ﬁles. Wait for USB activity to complete.

11. Remove USB ﬂash drive from USB port.

Note

If the custom language ﬁle was installed, users can now select the new language from the Language drop-down menu in Advanced Screen 1 — General, page 46.

2. Insert USB ﬂash drive into USB port of computer.

3A1705E 89

Page 90

Appendix A: Engi

ne Control Module

Appendix A: En

gine Control Module

Run Screens

There are seven run screens on the engine control module:

• Line-to-neutral voltage

• Line-to-line voltage

• Frequency

• Engine Speed

• Engine lifetime counter

•Batteryvoltage

Press

Run Screen Layout

Inst

Icon

to scroll through the run screens. Press to enter the Information screens.

Alarm

Icon

Instrumentation Units

Mode

Icon

Information Screens

From the Run Screen, press to enter the information screens. Press to scroll through the last ﬁve generator events.

Press

Information Screen Layout

Even

to return to the Run Screens.

Time of Event (Engine

Run Hours)

Unit

Alar

Icon

Mode

Ico

90 3A1705E

Page 91

Appendix A: Engi

ne Control Module

Mode Icons

An icon is displayed in the mode icon area of the display to indicate what mode the unit is currently in.

Icon Description Details

Stopped

Auto Engine is at rest and the unit is in auto mode.

Manual Engine is at rest and the unit is in manual run mode.

Timer animation Engine is starting up.

Running an

Instrume

A small ic

Icon Descript

on is displayed in the instrumentation icon area to indicate what value is currently being displayed.

Generator Generator voltage and frequency screen

Engine Speed

Engine is at rest and the unit is in stop mode.

imation

Engine is r

ntation Icons

ion

Details

Engine speed screen

unning.

Engine Lifetime Counter

Event Log Event is being displayed.

Unit Time

Hours run

Unused feature

3A1705E 91

Page 92

Appendix A: Engi

ne Control Module

Alarms

There are two types of alarms that can occur on the system. Alarms are indicated by an icon the Run and Information screens.

Warning

When present on system, a warning alarm will not stop the generator.

Icon Description Details

Battery High Voltage

Battery Low Voltage

Fail To Sto

Flexible Sensor The ﬂexible sensor warning alarm has been triggered.

The DC Suppl duration o

The DC Supply has fallen below the low volts setting level for the duration of the low battery volts timer.

The module detected a condition that indicates that the engine is running when it has been instructed to stop.

y has risen above the high volts setting level for the

f the high battery volts timer.

Shutdown

When present on system, a shutdown alarm will stop the generator. Clear the alarm and remove the fault. Then press the stop button to reset the module. See the information screen toseethelatestalarm.

Icon Description Details

Fail To Start The engine has not ﬁred after the preset number of start attempts.

Genera Shutdo

tor High Voltage

The generator output voltage has risen above the preset level.

ator Low Voltage

Gener

own

Shutd

High Coolant Temperature Shutdown

Low Oil Pressure Shutdown The engine oil pressure has fallen below the low oil pressure trip

Over Frequency Shutdown The generator output frequency has risen above the preset level.

Under Frequency Shutdown The generator output frequency has fallen below the preset level.

The ge

The mo excee Safe

setting level after the Safety On timer has expired.

nerator output voltage has fallen below the preset level.

dule detects that the engine coolant temperature has

ded the high engine temperature shutdown setting after the

ty On timer has expired.

92 3A1705E

Page 93

Dimensions

Top View Figure 43

Dimensions

Side View Figure 44

3A1705E 93

Page 94

Dimensions

Top View: System with Compressor and Hose Rack Accessories Figure 45

Front View Figure 46

Side View: System with Compressor and Hose Rack Accessories Figure 47

94 3A1705E

Page 95

Dimensions

Mounting Dimensions

Pallet Figure

3A1705E 95

Page 96

Performance Cha

rts

Performance Charts

Use these char rates are base

ts to help identify the proportioner that will work most efﬁciently with each mix chamber. Flow

d on a material viscosity of 60 cps.

Proportioners For Foam

2000

(138)

1500

(103)

PRESSURE

psi (bar)

1000

(69)

500

(34)

(2.3)

AR4242

(01)

AR5252

(02)

AR6060

(03)

AR7070

(04)

(6.8)20(9.1)25(11.3)30(13.6)35(15.9)

(4.5)

FLOW lbs/min (kg/min)

E-30i

(18.1)

(20.4)

(22.7)

(25.9)

Proportioners For Coatings

3500

(241)

3000

(207)

2500

(172)

SURE

PRES

psi

(bar)

2000

(138)

1500

(103)

1000

(69)

500

(34)

0 0.5

(1.9)

AR2020

(000)

AR2929

(00)

1.0

(3.8)

E-XP2i

AR4242

(01)

FLOW lbs/min (kg/min)

1.5

(5.7)

2.0

(7.6)

2.5

(9.5)

3.0

(11.3)

96 3A1705E

Page 97

Notes

3A1705E 97

Page 98

Technical Speci

ﬁcations

Technical Spe

ciﬁcations

E-30i Models

-7° t

Metric

94 m

o49°C

U.S.

Maximum Fluid Working Pressure

Pressure 2000 psi 14 MPa, 140 bar

Maximum Flu

E-30i

E-30i with

Maximum O

Output

Maximum

Length

Output per Cycle

A and B 0.0272 gal. 0.1034 liter

Operating Ambient Temperature Range

Temperature

id Temperature

booster heater

utput

Heated Hose Length

140°F 60°C

180°F 82°C

30 lb/min 13.5 kg/min

310 ft

o 120°F

20° t

Auxiliary Power Available

Voltage 120 Vac or 240 Vac, 60 Hz

ine

Eng

Model

ternator

Model MeccAlte22kW,240V,1PH,60Hz,pancakestyle

Battery Requirements

oltage

Minimum Cold Cranking Amps 800 CCA

Connection Type Post Style

Recommended Battery Size

BC Group Number

Length 10.25 in. 260 mm

Width 6.81 in. 173 mm

Height 7.88 in. 200 mm

Booster Heater Power

Perkins 404–22G, 2.2 L, 29 HP

2Vdc

E-30i None

E-30i with booster heat 4000 Watts

98 3A1705E

Page 99

Recommended Air Compressors

Technical Speci

ﬁcations

Champion® BR-

Speciﬁcations 5 HP, 240 V, 1 Phase, 60 Hz, 21 cfm

Required Features

Quincy PLT5–5B, Base Mount

Speciﬁcations

Required Features

Champion® HR5-3, 30 Gallon Tank Mount

Speciﬁcations

Required Features Pilot valve unloader

Noise

Sound Pressure measured from

3.1 ft (1 m), at 1500 psi (10 MPa, 103 bar), 2 gpm (7.6 lpm)

Fluid Inlets

Component A (ISO) and Component B (RES)

5, Base Mount

Belt guard aftercooler

Pilot valve unloader

5HP,240V,1Phase,60Hz

Belt guard aftercooler

Pilot valve unloader

5HP,240V,1Phase,60Hz

91.0 dBA

3/4 NPT(f) with 3/4 NPSM(f) union

Fluid Outlets

Component A (ISO) #8 (1/2 in.) JIC, with #5 (5/16 in.) JIC adapter

Component B (RES) #10 (5/8 in.) JIC, with #6 (3/8 in.) JIC adapter

Fluid Circulation Ports

Size 1/4 NPSM(m), with plastic tubing

Maximum Pressure 250 psi 1.75 MPa, 17.5 bar

Weight

E-30i 1750 lb 794 kg

E-30i with booster heat 1800 lb 816 kg

E–30i with compressor 2250 lb 1020 kg

E–30i with booster heat and compressor

Wetted Parts

Material Aluminum, stainless steel, zinc plated carbon steel, brass,

carbide, chrome, chemically resistant o-rings, PTFE, ultra-high

2300 lb 1043 kg

molecular weight polyethylene

3A1705E 99

Page 100

Technical Speci

ﬁcations

E-XP2i Models

U.S.

Maximum Fluid Working Pressure

Pressure 3500 psi 24.1 MPa, 241 bar

Maximum Flui

E-XP2i

Maximum Output

Output

Maximum Heated Hose Length

Length

Output per Cycle

A and B 0.0203 g

Operating Ambient Temperature Range

Temper

Auxiliary Power Available

Volta

Engine

Model

d Temperature

ature

180°F 82°C

2 gpm 7.6 lpm

310 ft

al.

20° to 120°F -7° to 49°C

120 Va

Perk

c or 240 Vac, 60 Hz

ins 404–22G, 2.2 L, 29 HP

Metric

94 m

0.0771 l

iter

Alternator

Model MeccAlte22kW,240V,1PH,60Hz,pancakestyle

tery Requirements

Bat

Voltage 12 Vdc

nimum Cold Cranking Amps

Connection Type Post Style

Recommended Battery Size

BC Group Number

Length 10.25 in. 260 mm

Width 6.81 in. 173 mm

Height 7.88 in. 200 mm

Booster Heater Power

Wattage 4000 Watts

0CCA

100 3A1705E

Graco 259079, 259080, 259091, 259090, 259081 Operation Manuals

Specifications and Main Features

Frequently Asked Questions

User Manual