background image

EGPF Merchandisers

P/N 3143042_B 2-13

HUSSMANN CORPORATION • BRIDGETON, MO 63044-2483 U.S.A.

DIXELL Wizmate
File Name:EGPF54MT PS.bin
Date : 3/30/2021 4:16:36 PM
Model : XR75CX
Firmware : 5.6
Memo : 

Group

Parameter Description

Edit

Original Vis. Level

Minimum Maximum

Unit

Active

Regulation

Hy

Differential

4

4

Pr1

1

45

°F

True

Regulation

LS

Minimum set point

22

22

Pr2

-58

30

°F

True

Regulation

US

Maximum set point

36

36

Pr2

30

230

°F

True

Probes

ot

Thermostat probe calibration

0

0

Pr1

-21

21

°F

True

DIXELL Wizmate

Probes

P2P

Evaporator probe presence

no

no

Pr1

True

File Name:EGPF54MT PS.bin

Probes

oE

Evaporator probe calibration

0

0

Pr2

-21

21

°F

True

Date : 3/30/2021 4:16:36 PM

Probes

P3P

Third probe presence

no

no

Pr2

True

Model : XR75CX

Probes

o3

Third probe calibration

0

0

Pr2

-21

21

°F

True

Firmware : 5.6

Probes

P4P

Fourth probe presence

yes

yes

Pr2

True

Memo : 

Probes

o4

Fourth probe calibration

0

0

Pr2

-21

21

°F

True

Regulation

odS

Outputs delay at start up

0

0

Pr2

0

255

min

True

Regulation

AC

Anti-short cycle delay

5

5

Pr1

0

50

min

True

Regulation

rtr

P1-P2 percentage for regulation

100

100

Pr2

0

100

True

Regulation

CCt

Continuous cycle duration

0.00

0.00

Pr2

ora

True

Regulation

CCS

Set point for continuous cycle

32

32

Pr2

-58

230

°F

True

Regulation

Con

Compressor ON time with faulty probe

5

5

Pr2

0

255

min

True

Regulation

CoF

Compressor OFF time with faulty probe

5

5

Pr2

0

255

min

True

Regulation

CF

Temperature measurement unit

°F

°F

Pr2

True

Regulation

rES

Resolution

dE

dE

Pr1

True

Regulation

Lod

Probe displayed

P1

P1

Pr2

True

Regulation

rEd

X-REP display

P1

P1

Pr2

True

Regulation

dLy

Display temperature delay

0.00

0.00

Pr2

min

True

Regulation

dtr

P1-P2 percentage for display

99

99

Pr2

1

99

True

Defrost

tdF

Defrost type

EL

EL

Pr2

True

Defrost

dFP

Probe selection for first defrost

nP

nP

Pr2

True

Defrost

dtE

Defrost termination temperature first defrost

48

48

Pr1

-58

122

°F

True

Defrost

idF

Interval between defrost cycles

12

12

Pr1

0

120

ora

True

Defrost

MdF

(Maximum) length for  first defrost

60

60

Pr1

0

255

min

True

Defrost

dSd

Start defrost delay

0

0

Pr2

0

255

min

True

Defrost

dFd

Displaying during defrost

dEF

dEF

Pr2

True

Defrost

dAd

Max display delay after defrost

30

30

Pr2

0

255

min

True

Defrost

Fdt

Draining time

0

0

Pr2

0

255

min

True

Defrost

dPo

First defrost after start-up

no

no

Pr2

True

Defrost

dAF

Defrost delay after fast freezing

0.00

0.00

Pr2

ora

True

Fan

FnC

Fan operating mode

O_Y

O_Y

Pr1

True

Fan

Fnd

Fan delay after defrost

0

0

Pr1

0

255

min

True

Fan

FCt

Differential of temperature for forced activation of fans

0

0

Pr2

0

90

°F

True

Fan

FSt

Fan stop temperature

2

2

Pr1

-58

122

°F

True

Fan

Fon

Fan on time with compressor off

0

0

Pr2

0

15

min

True

Fan

FoF

Fan off time with compressor off

0

0

Pr2

0

15

min

True

Fan

FAP

Probe selection for fan

nP

nP

Pr2

True

Auxiliary

ACH

Kind of action for auxiliary relay

CL

CL

Pr2

True

Auxiliary

SAA

Set point for auxiliary relay

0

0

Pr2

-58

230

°F

True

Auxiliary

SHy

Differential for auxiliary relay

2

2

Pr2

1

45

°F

True

Auxiliary

ArP

Probe selection for auxiliary relay

nP

nP

Pr2

True

Auxiliary

Sdd

Auxiliary relay switched off during defrost

no

no

Pr2

True

Alarm

ALP

Probe selection for temperature alarms

P1

P1

Pr2

True

Alarm

ALC

Temperature alarms configuration

rE

rE

Pr2

True

Alarm

ALU

Maximum temperature alarm

16

16

Pr1

0

90

°F

True

Alarm

ALL

Minimum temperature alarm

10

10

Pr1

0

90

°F

True

Alarm

AFH

Differential for temperature alarm recovery

4

4

Pr2

1

45

°F

True

Alarm

ALd

Temperature alarm delay

30

30

Pr2

0

255

min

True

Alarm

dAo

Delay of temperature alarm at start up

2.00

2.00

Pr2

ora

True

Alarm

AP2

Probe selection for condenser temperature alarms

P4

P4

Pr2

True

Alarm

AL2

Condenser  low temperature alarm

25

25

Pr2

-58

230

°F

True

Alarm

AU2

Condenser  high temperature alarm

230

230

Pr2

-58

230

°F

True

Alarm

AH2

Differ. for condenser temp. alarm recovery

15

15

Pr2

1

45

°F

True

Alarm

Ad2

Condenser temperature alarm delay

0

0

Pr2

0

255

min

True

Alarm

dA2

Delay of condenser temper. alarm at start up

0.00

0.00

Pr2

ora

True

Alarm

bLL

Compressor off for condenser low temperature alarm

yes

yes

Pr2

True

Alarm

AC2

Compressor off for condenser high temperature alarm

yes

yes

Pr2

True

Alarm

tbA

Alarm relay switched off by pushing a key

yes

yes

Pr2

True

Configuration

oA2

Second relay configuration

Alr

Alr

Pr2

True

Alarm

AOP

Alarm relay polarity

CL

CL

Pr2

True

Digital inputs

i1P

Digital input 1 polarity

CL

CL

Pr1

True

Digital inputs

i1F

Digital input 1 configuration

dor

dor

Pr1

True

Digital inputs

i2P

Digital input 2 polarity

OP

OP

Pr1

True

Digital inputs

i2F

Digital input 2 configuration

BAL

BAL

Pr2

True

Digital inputs

did

Digital input 2 alarm delay

0

0

Pr2

0

255

min

True

Digital inputs

doA

Door alarm delay

15

15

Pr1

0

255

min

True

Digital inputs

nPS

Number of activation of pressure switch

1

1

Pr2

0

15

True

Digital inputs

OdC

Compress and fan status when open door

F-C

F-C

Pr2

True

Alarm

rrd

Regulation restart with door open alarm

yes

yes

Pr2

True

Energy Saving

HES

Differential for Energy Saving

0

0

Pr2

-54

54

°F

True

Other

Adr

Serial address

1

1

Pr2

1

247

True

Probes

PbC

Kind of probe

CtC

CtC

Pr2

True

Configuration

OnF

On/off key configuration

nu

nu

Pr2

True

Other

dP1

Probe 1 value

Pr1

°F

True

Other

dP2

Probe 2 value

Pr1

°F

True

Other

dP3

Probe 3 value

Pr1

°F

True

Other

dP4

Probe 4 value

Pr1

°F

True

Other

rSE

Real Set point (SET + ES + SETd)

Pr2

°F

True

Other

rEL

Firmware Release

Pr2

True

Other

Ptb

Map code

3

3

Pr2

0

65535

True

Regulation

SEt

Set point

30

30

22

36

°F

True

DIXELL Wizmate
File Name:EGPF54MT PS.bin
Date : 3/30/2021 4:16:36 PM
Model : XR75CX
Firmware : 5.6
Memo : 

Group

Parameter Description

Edit

Original Vis. Level

Minimum Maximum

Unit

Active

Regulation

Hy

Differential

4

4

Pr1

1

45

°F

True

Regulation

LS

Minimum set point

22

22

Pr2

-58

30

°F

True

Regulation

US

Maximum set point

36

36

Pr2

30

230

°F

True

Probes

ot

Thermostat probe calibration

0

0

Pr1

-21

21

°F

True

DIXELL Wizmate

Probes

P2P

Evaporator probe presence

no

no

Pr1

True

File Name:EGPF54MT PS.bin

Probes

oE

Evaporator probe calibration

0

0

Pr2

-21

21

°F

True

Date : 3/30/2021 4:16:36 PM

Probes

P3P

Third probe presence

no

no

Pr2

True

Model : XR75CX

Probes

o3

Third probe calibration

0

0

Pr2

-21

21

°F

True

Firmware : 5.6

Probes

P4P

Fourth probe presence

yes

yes

Pr2

True

Memo : 

Probes

o4

Fourth probe calibration

0

0

Pr2

-21

21

°F

True

Regulation

odS

Outputs delay at start up

0

0

Pr2

0

255

min

True

Regulation

AC

Anti-short cycle delay

5

5

Pr1

0

50

min

True

Regulation

rtr

P1-P2 percentage for regulation

100

100

Pr2

0

100

True

Regulation

CCt

Continuous cycle duration

0.00

0.00

Pr2

ora

True

Regulation

CCS

Set point for continuous cycle

32

32

Pr2

-58

230

°F

True

Regulation

Con

Compressor ON time with faulty probe

5

5

Pr2

0

255

min

True

Regulation

CoF

Compressor OFF time with faulty probe

5

5

Pr2

0

255

min

True

Regulation

CF

Temperature measurement unit

°F

°F

Pr2

True

Regulation

rES

Resolution

dE

dE

Pr1

True

Regulation

Lod

Probe displayed

P1

P1

Pr2

True

Regulation

rEd

X-REP display

P1

P1

Pr2

True

Regulation

dLy

Display temperature delay

0.00

0.00

Pr2

min

True

Regulation

dtr

P1-P2 percentage for display

99

99

Pr2

1

99

True

Defrost

tdF

Defrost type

EL

EL

Pr2

True

Defrost

dFP

Probe selection for first defrost

nP

nP

Pr2

True

Defrost

dtE

Defrost termination temperature first defrost

48

48

Pr1

-58

122

°F

True

Defrost

idF

Interval between defrost cycles

12

12

Pr1

0

120

ora

True

Defrost

MdF

(Maximum) length for  first defrost

60

60

Pr1

0

255

min

True

Defrost

dSd

Start defrost delay

0

0

Pr2

0

255

min

True

Defrost

dFd

Displaying during defrost

dEF

dEF

Pr2

True

Defrost

dAd

Max display delay after defrost

30

30

Pr2

0

255

min

True

Defrost

Fdt

Draining time

0

0

Pr2

0

255

min

True

Defrost

dPo

First defrost after start-up

no

no

Pr2

True

Defrost

dAF

Defrost delay after fast freezing

0.00

0.00

Pr2

ora

True

Fan

FnC

Fan operating mode

O_Y

O_Y

Pr1

True

Fan

Fnd

Fan delay after defrost

0

0

Pr1

0

255

min

True

Fan

FCt

Differential of temperature for forced activation of fans

0

0

Pr2

0

90

°F

True

Fan

FSt

Fan stop temperature

2

2

Pr1

-58

122

°F

True

Fan

Fon

Fan on time with compressor off

0

0

Pr2

0

15

min

True

Fan

FoF

Fan off time with compressor off

0

0

Pr2

0

15

min

True

Fan

FAP

Probe selection for fan

nP

nP

Pr2

True

Auxiliary

ACH

Kind of action for auxiliary relay

CL

CL

Pr2

True

Auxiliary

SAA

Set point for auxiliary relay

0

0

Pr2

-58

230

°F

True

Auxiliary

SHy

Differential for auxiliary relay

2

2

Pr2

1

45

°F

True

Auxiliary

ArP

Probe selection for auxiliary relay

nP

nP

Pr2

True

Auxiliary

Sdd

Auxiliary relay switched off during defrost

no

no

Pr2

True

Alarm

ALP

Probe selection for temperature alarms

P1

P1

Pr2

True

Alarm

ALC

Temperature alarms configuration

rE

rE

Pr2

True

Alarm

ALU

Maximum temperature alarm

16

16

Pr1

0

90

°F

True

Alarm

ALL

Minimum temperature alarm

10

10

Pr1

0

90

°F

True

Alarm

AFH

Differential for temperature alarm recovery

4

4

Pr2

1

45

°F

True

Alarm

ALd

Temperature alarm delay

30

30

Pr2

0

255

min

True

Alarm

dAo

Delay of temperature alarm at start up

2.00

2.00

Pr2

ora

True

Alarm

AP2

Probe selection for condenser temperature alarms

P4

P4

Pr2

True

Alarm

AL2

Condenser  low temperature alarm

25

25

Pr2

-58

230

°F

True

Alarm

AU2

Condenser  high temperature alarm

230

230

Pr2

-58

230

°F

True

Alarm

AH2

Differ. for condenser temp. alarm recovery

15

15

Pr2

1

45

°F

True

Alarm

Ad2

Condenser temperature alarm delay

0

0

Pr2

0

255

min

True

Alarm

dA2

Delay of condenser temper. alarm at start up

0.00

0.00

Pr2

ora

True

Alarm

bLL

Compressor off for condenser low temperature alarm

yes

yes

Pr2

True

Alarm

AC2

Compressor off for condenser high temperature alarm

yes

yes

Pr2

True

Alarm

tbA

Alarm relay switched off by pushing a key

yes

yes

Pr2

True

Configuration

oA2

Second relay configuration

Alr

Alr

Pr2

True

Alarm

AOP

Alarm relay polarity

CL

CL

Pr2

True

Digital inputs

i1P

Digital input 1 polarity

CL

CL

Pr1

True

Digital inputs

i1F

Digital input 1 configuration

dor

dor

Pr1

True

Digital inputs

i2P

Digital input 2 polarity

OP

OP

Pr1

True

Digital inputs

i2F

Digital input 2 configuration

BAL

BAL

Pr2

True

Digital inputs

did

Digital input 2 alarm delay

0

0

Pr2

0

255

min

True

Digital inputs

doA

Door alarm delay

15

15

Pr1

0

255

min

True

Digital inputs

nPS

Number of activation of pressure switch

1

1

Pr2

0

15

True

Digital inputs

OdC

Compress and fan status when open door

F-C

F-C

Pr2

True

Alarm

rrd

Regulation restart with door open alarm

yes

yes

Pr2

True

Energy Saving

HES

Differential for Energy Saving

0

0

Pr2

-54

54

°F

True

Other

Adr

Serial address

1

1

Pr2

1

247

True

Probes

PbC

Kind of probe

CtC

CtC

Pr2

True

Configuration

OnF

On/off key configuration

nu

nu

Pr2

True

Other

dP1

Probe 1 value

Pr1

°F

True

Other

dP2

Probe 2 value

Pr1

°F

True

Other

dP3

Probe 3 value

Pr1

°F

True

Other

dP4

Probe 4 value

Pr1

°F

True

Other

rSE

Real Set point (SET + ES + SETd)

Pr2

°F

True

Other

rEL

Firmware Release

Pr2

True

Other

Ptb

Map code

3

3

Pr2

0

65535

True

Regulation

SEt

Set point

30

30

22

36

°F

True

Summary of Contents for XR75CX

Page 1: ...stallation Operation Manual P N 3143042_B May 2021 Spanish P N 3143043 Shipped With Case Data Sheets MANUAL IO EGPF Freedom Medium Temperature E Commerce Grocery Program Keep in store for future refer...

Page 2: ...rrect parts or improper service Contact your Hussmann representative to arrange servicing ANSI Z535 5 DEFINITIONS DANGER Indicate s a hazardous situation which if not avoided will result in death or s...

Page 3: ...rs 1 20 EcoVision Door Alignment Modular Bottom Hinge Plate 1 20 Refrigeration Electrical Controller 2 Refrigerant 2 1 Field Installation of Condensing Unit 2 2 Condensing Unit Top Piping Line Connect...

Page 4: ...mation on Proposition 65 please visit the California State government website August 31 2018 Unloading From Trailer Lever Bar also known as a Mule Johnson Bar J bar Moving Dolly s Setting Case Line Up...

Page 5: ...ings can be adjusted using the controller keypad Lighting is not standard but offered as a option LOCATION These merchandisers are designed for displaying products in air conditioned stores where temp...

Page 6: ...supply inspection report and required claim forms EXTERIOR LOADING Do NOT walk on top of case s or damage to the case s and serious personal injury could occur They are not structurally designed to su...

Page 7: ...ing shims or wedges are provided with each merchandiser for use if needed NOTE BEGIN LINEUP LEVELING FROM THE HIGHEST POINT OF THE STORE FLOOR Shim Here Shim Here Rear of Case Base Component The front...

Page 8: ...ch merchandiser Use the packaged hardware in the hardware joining kit 1 x inch Gasket 1 x inch Gasket 1 x inch Gasket Apply a bead of silicone sealant along joining surface SIDE VIEW IMPORTANT Before...

Page 9: ...covers must be removed Use the joining locations as shown in the illustration below Loosely fasten cap screws washer and nut retainers at all locations Tighten the rear and bottom locations first Note...

Page 10: ...olts in the concrete 2 Use a hammer drill to drill diameter holes 2 inches deep in the concrete 3 on each end of the case Clean out concrete dust from holes 3 Install the diameter anchor bolts Tighten...

Page 11: ...g shipping and installation Pump Collection Pan Kit sits underneath case 1 2 Steps 1 Remove cover plates 2 Connect case wire whip to pump EXPLODED VIEW 6 5 Pump Pan NOTES 1 APPLICABLE STANDARDS SPECIF...

Page 12: ...APTER 0 50 X 0 75 14 MPT 1 7 HOSE BRAIDED 0 50 ID 1 8 TRAP DRAIN LOW TEMP ISL 1 9 CLIP JIFFY FOR 3 4 OD 10 10 SCREW SM 8 18X5 8 PHIL HX HD 10 11 TAPE ADHESIVE TRANSFER 20 00 INCHES 12 CLAMP HOSE 1 4 T...

Page 13: ...provide access to the valves the pump and reservoir TOP VIEW 36 75 933 4mm TOP ELECTRICAL BOX 20 25 514 3mm POWER IN FIELD SUPPLY 4 00 101 5mm FRONT SIDE BOTTOM VIEW FRONT SIDE REAR SIDE 43 60 1107 3...

Page 14: ...END SHELF FRAME EGP 2 4 BRACKET END SHELF FRAME TO CASE 2 5 BRACKET MIDDLE SHELF FRAME TO CASE 2 1 0 B 2X DETAIL B SCALE 1 2 3 0 4 REF 1 REF 2 0 2 REF USE THESE BRACKETS TO CONNECT END FRAMES TO CASE...

Page 15: ...O THE CASE FRAME WITH ONE SCREW AS SHOWN E 2X DETAIL E SCALE 1 2 5 F 2X DETAIL F USE THESE BRACKETS TO CONNECT END FRAMES TO CASE UPRIGHTS AS SHOWN 9 REF 3035366 COVER LWR ANLR UPRIGHT ASSEMBLE REAR F...

Page 16: ...SHELF WELDMENT ASSEMBLY 15 3 PAN BASE PAN 6 USE TH CONNE CASE U 303536 ASSEMBLE REAR FRAM 30353 WITH HE A 2 15 147 51 36 00 68 60 11 72 PRIGHTS A DETAIL A SCALE 1 1 INSTALL SHELVES INTO BACK STANDARDS...

Page 17: ...UMPER SQUARE 6 3 MULLION 2 4 BUSHING GRAVITY TOP PIN 6 5 DOOR ASSY LH GLASS 24X74 WITH SOLID PIN BLACK 3 6 DOOR ASSY RH GLASS 24X74 WITH SOLID PIN BLACK 3 7 PLATE ASSY BOTTOM HINGE MODULAR 3 8 RAIL BO...

Page 18: ...arts kit and remove top of crate to access doors NOTE Some parts shown may not be included on the case s to be installed The illustrations are only for door installation purposes STEPS 1 Locate the Su...

Page 19: ...w in the correct location and can be mounted to the floor in 3 locations with masonry screws in the locations shown by the arrows Bottom Rail Support 4 Reinstall Bottom Support over Support Rail Place...

Page 20: ...ions Canopy Support Screw Mullion Flange 5 Install mullions onto Support Rail Angle the mullion toward inside of the case and engage the flange in the extrusion Step 1 Straighten mullion Step 2 NOTE E...

Page 21: ...standing in front Repeat for other openings Bottom plate assembly L Left side Bottom Rail 7 Install one bushing into each mullion Bushing 8 Install the bottom plate assembly in the Support Rail The b...

Page 22: ...door handle to increase door tension To remove tension from door lift the door assembly out of the plate assembly Do not attempt to turn rod away from the door handle Seat Torsion Rod into plate asse...

Page 23: ...roximately 19 in lbs NEVER PRY THE CAM OPEN TO INSTALL THIS WILL PERMANENTLY DAMAGE THE CAM Cam and shoulder screw Bottom plate assembly 12 Install door frame gaskets to wiper retainer Start the wiper...

Page 24: ...B 2 C To Correct Shift the Bottom Plate to the Right To Correct Shift the Bottom Plate to the Left 14 ADJUSTING DOORS A Leveling Merchandisers must be installed level to ensure proper operation of the...

Page 25: ...ty information regarding the safe handling of refrigerant and refrigerant oil including the Material Safety Data Sheet MSDS sheets can be obtained from your refrigerant supplier REFRIGERANT EGPF case...

Page 26: ...example below Fasten Condensing Unit to Mounting Plate 141403 NSTRUCTION ELEC WIRE ROUTING EGPF MT FREEDOM ELEC HARNESS ROUTING WATER TUBING CONNECTED TO PUMP MODULE LOCATED IN BOTTOM OF THE CASE SEE...

Page 27: ...located on top of case 2 Pull up the inlet outlet lines to same height as the condensing unit refrigeration lines Ensure refrigeration lines are centered in the cutout ABOUT QUICK CONNECT COUPLINGS Q...

Page 28: ...lings Apply refrigerant oil to the entire surface of diaphragm o ring and threaded area of male coupling assembly The amount of lubricant used must cover all designated surfaces sufficiently Ideal app...

Page 29: ...d be tightened until a definite increase in resistance metal to metal contact occurs is felt at this point the nut will have covered most of the threads on the male body It is important to ensure the...

Page 30: ...0 890 2900 WWW HUSSMANN COM COVER AND SEAL PENETRATION 4 Insert foam filler into slot Ensure there are no gaps around foam filler Place silicone around the tubing 5 Place the butyl tape over the slot...

Page 31: ...tion is provided to cover the field connected tubing sections These exposed sections must be covered with insulation Check that all suction lines are adequately covered with insulation from case penet...

Page 32: ...SHEET SIZE D BLE STANDARDS SPECIFICATIONS 4 5M 1994 DIMENSIONS AND TOLERANCES ODUCT CHARACTERISTICS PER EPR 0006 IDENTIFIED WITH SYMBOL AL NEW W K SHEET 6 OF 6 3141403 A INSTRUCTION ELEC WIRE ROUTING...

Page 33: ...FLECTOR DISCHARGE AS SHOWN LOOKING AT TOP FRONT LEFT SIDE OF CASE TOP PANEL THERMOMETER HOLE A PARTIAL FRONT VIEW FAN PLENUM MODULE ONLY INTR PANELS AND OTHER HIDDEN FOR CLARITY SCALE 1 6 67 FAN HARNE...

Page 34: ...ed into the electronic unit controller on the condensing unit The compressor discharge temperature is set to cut out at 225 F Air cooled condensing units without Electronic Unit Controller For cases t...

Page 35: ...arm may be silenced by pressing any of the buttons on the front of the controller display Possible causes of high low pressure alarm Excessive refrigerant Lack of refrigerant Lack of air flow into the...

Page 36: ...t a pa rameter in programming mode or to confirm an operation Starts a manual defrost Press the UP arrow to see the MAX tempera ture to browse the parameter codes in pro gramming mode or to increase t...

Page 37: ...iguration dor dor Pr1 True Digital inputs i2P Digital input 2 polarity OP OP Pr1 True Digital inputs i2F Digital input 2 configuration BAL BAL Pr2 True Digital inputs did Digital input 2 alarm delay 0...

Page 38: ...2 14 Refrigeration Wiring Routes Controller P N 3143042_B U S Canada 1 800 922 1919 Mexico 800 890 2900 WWW HUSSMANN COM NOTES...

Page 39: ...cases are running listen for any unusual sounds or events Examples include evaporator fan blade interference The discharge air output at the top inside front of the case honeycomb area should be relat...

Page 40: ...e requirements above The thermometer may need to be moved several times to find the warmest location Mounting options include flexible plastic for price tag molding application magnet applied to back...

Page 41: ...oarse paper towels on coated glass Ammonia based cleaners on acrylic parts Solvent oil or acidic based cleaners on any interior surfaces Do Remove the product and all loose debris to avoid clogging th...

Page 42: ...olution may be used periodically to minimize scratching and remove stains Rinse and wipe dry immediately after cleaning Never use hydrochloric acid muriatic acid on stainless steel CLEANING COILS Neve...

Page 43: ...Cleaning None Cleaning None Replacement Replacement 1 1 12 6 4 4 N A 6 N A 0 2 0 2 2 0 05 0 1 0 1 0 1 0 2 N A 0 05 N A 1 1 2 0 05 1 2 0 6 0 4 0 8 N A 0 03 N A 0 2 0 2 This table is provided for refere...

Page 44: ...4 4 Maintenance P N 3143042_B U S Canada 1 800 922 1919 Mexico 800 890 2900 WWW HUSSMANN COM NOTES...

Page 45: ...2 Remove interior top and back panels 3 Disconnect fan from wiring harness 4 Remove screws holding fan motor bracket assembly to plenum and remove assembly 5 Replace fan motor bracket assembly and re...

Page 46: ...F 235 C Technique 1 Locate Leak 2 REMOVE ALL PRESSURE 3 Brush area UNDER HEAT 4 Use PRESTOLITE TORCH ONLY Number 6 tip 5 Maintain separate set of stainless steel brushes and USE ONLY ON ALUMINUM 6 Tin...

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Page 48: ...ann Corporation Corporate Headquarters Bridgeton Missouri U S A To obtain warranty information or other support contact your Hussmann representative Please include the model and serial number of the p...

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