Hussmann Chino Q2-SPN Original operating instructions
Q2-SPN
DELI SELF SERVICE
CASE
P/N Q2-SPN-1218
INSTALLATION & OPERATION GUIDE
/CHINO
Q2-SP
DELI SELF SERVICE CASE REV. 1218
Installation
& Operation
Manual
2
1. General Instructions
This Booklet Contains Information on:
Q2-SPN refrigerated, service deli merchandiser.
Shipping Damage
All equipment should be thoroughly examined for shipping damage before and during
unloading.
This equipment has been carefully inspected at our factory and the carrier has assumed
responsibility for safe arrival. If damaged, either apparent or concealed, claim must
be made to the carrier.
Apparent Loss or Damage
If there is an obvious loss or damage, it must be noted on the freight bill or express
receipt and signed by the carrier’s agent; otherwise, carrier may refuse claim. The
carrier will supply necessary claim forms.
Concealed Loss or Damage
When loss or damage is not apparent until after equipment is uncrated, a claim for
concealed damage is made. Make request in writing to carrier for inspection within 15
days, and retain all packaging. The carrier will supply inspection report and required
claim forms.
Shortages
Check your shipment for any possible shortages of material. If a shortage should exist
and is found to be the responsibility of Hussmann Chino, notify Hussmann Chino. If
such a shortage involves the carrier, notify the carrier immediately, and request an
inspection. Hussmann Chino will acknowledge shortages within ten days from receipt
of equipment.
Hussmann Chino Product Control
The serial number and shipping date of all equipment has been recorded in Hussmann’s
les for warranty and replacement part purposes. All correspondence pertaining to
warranty or parts ordering must include the serial number of each piece of equipment
involved, in order to provide the customer with the correct parts.
Keep this booklet with the case at all times for future reference.
/CHINO
A publication of HUSSMANN®Chino
13770 Ramona Avenue • Chino, California 91710
(909) 628-8942 FAX
(909) 590-4910
(800) 395-9229
www.hussmann.com
3
Table of Contents
1. General Instructions...............................................................2
3. Cut and Plan Views ................................................................4
4. Installation...............................................................................5
5. Plumbing .................................................................................8
6. Refrigeration ...........................................................................9
8. Finishing Touches ................................................................11
9. User Information...................................................................12
13. Troubleshooting Guide ......................................................17
7. Electrical................................................................................10
10. Maintenance........................................................................13
11. Wiring Diagrams Index.......................................................15
12. Wiring Diagrams.................................................................16
4
3. Cut and Plan Views
SELF-SERVICE DELI REVISION DATE 04/12/18
HUSSMANN - Q2-SPN (CHINO)
REFRIGERATION DATA:
NSF 7
AHRI 1200
NSF 7
AHRI 1200
4',5',6',8',10',12' 640 565 22 24 4' 0.5 0.9 2.3 0.1 0.0
22.5° OS 2380 2380 22 22 5' 0.7 1.1 3.7 0.2 0.1
45° OS 1820 1820 24 24 6' 0.8 1.3 5.3 0.2 0.2
90° OS 3860 3860 20 20 8' 1.1 1.8 2.4 0.3 0.4
30° OS 2280 2280 20 20 10' 1.4 2.2 4.2 0.3 0.6
REAR STORAGE 100 90 20 26 12' 1.6 2.6 5.0 0.4 0.8
22.5° OS 0.3 0.8 1.4 N/A N/A
*FRONT DISCHARGE AIR MEASURED INSIDE AIR CURTAIN HONEYCOMB; REAR STORAGE MEASURED AT EXIT TO COIL 45° OS 0.3 0.6 0.6 N/A N/A
**REFRIGERATION NOTES: 90° OS 0.4 1.2 2.5 N/A N/A
1) BTU'S INCLUDE CANOPY LIGHTS. ADD 10 BTUS/SHELF/FT FOR EACH SHELF (LIGHT) 30° OS 0.4 0.7 1.1 N/A N/A
2) AHRI 1200 RATING POINT FOR ENERGY CONSUMPTION COMPARISON ONLY
3) USE DEW POINT FOR HIGH GLIDE REFRIGERANTS. CARE SHOULD BE TAKEN TO USE THE DEW POINT IN P/T TABLES
FOR MEASURING AND ADJUSTING SUPERHEAT. ADJUST EVAPORATOR PRESSURE AS NEEDED TO MAINTAIN THE
DISCHARGE AIR TEMPERATURE SHOWN.
4) RATING CONDITION IS NSF TYPE I, 75°F/55% RH
REFRIGERATION DATA CONTINUED:
TOP SS DELI 34 30 48 1 1.125
REAR STORAGE SS DELI 35 32 45 2 1.125
ELECTRICAL DATA:
STANDARD FANS, HEATERS, LED LIGHTS (115 VOLT)
4'
26.7 25 0.24 16 0.3 9 0.09 10 0.09 10 0.18 21 0.20 23 1 115 15
5' 26.7 30 0.24 16 0.3 9 0.11 13 0.11 13 0.23 26 0.25 29 1 115 15
6' 46.7 20 0.48 32 0.3 9 0.13 15 0.13 15 0.27 31 0.30 34 1 115 15
8' 46.7 25 0.48 32 0.3 9 0.18 21 0.18 21 0.36 41 0.40 46 1115 15
10' 46.7 30 0.48 32 0.3 9 0.23 26 0.23 26 0.45 52 0.50 57 1 115 15
12' 66.7 25 0.72 48 0.3 9 0.26 30 0.27 31 0.53 61 0.59 68 2 115 30
22.5° OS 16.7 25 0.12 8 N/A N/A 0.07 8 0.07 8 0.13 15 0.15 17 N/A N/A N/A
45° OS 16.7 25 0.12 8 N/A N/A 0.04 5 0.06 7 0.10 12 0.10 11 N/A N/A N/A
90° OS 36.7 25 0.36 24 N/A N/A 0.04 5 0.04 5 0.09 10 0.25 29 N/A N/A N/A
30° OS 10.14 20 N/A N/A 0.04 5 0.04 5 0.09 10 0.15 17 N/A N/A N/A
OPTIONAL HIGH OUTPUT LED LIGHTS (115 VOLT)
CASE ENERGY USAGE DATA:
AMPS
WATTS
AMPS WATTS AMPS WATTS
4' N/A N/A N/A N/A N/A N/A
5' N/A N/A N/A N/A N/A N/A
6' N/A N/A N/A N/A N/A N/A
8' N/A N/A N/A N/A N/A N/A
10' N/A N/A N/A N/A N/A N/A
12' N/A N/A N/A N/A N/A N/A
22.5° OS N/A N/A N/A N/A N/A N/A
45° OS N/A N/A N/A N/A N/A N/A
90° OS N/A N/A N/A N/A N/A N/A
30° OS N/A N/A N/A N/A N/A N/A
REAR STORAGE N/A N/A N/A N/A N/A N/A
SS DELI
33~35
190~225
175~200
DEFROST
WATER
(LBS/DAY/FT)
LOCATION
OFF TIME 30 4 TBD
TIME
(MIN)
DEFROST
FREQUENCY
(#/DAY)
TERM.
TEMP
(°F)
COIL
ONLY
DRIP
TIME
USAGE
CUT IN
(ºF)
CUT OUT
(ºF)
ELEC. THERMOSTAT /
AIR SENSOR SETTINGS
DEFROST
TYPE
CASE LENGTHS/
WEDGES CASE USAGE
NSF 7
NSF 7
RATING CONDITION EVAPORATOR DISCHARGE
AIR ** (°F)
CAPACITY ***
(BTU/HR/FT) (TOTAL
FOR WEDGES)
TEMPERATURE (ºF) VELOCITY
(FT/MIN)
PSI GPM
CASE
LENGTH
S
EST.
REFG.
CHRG.
404A
(LBS) GPM
GLYCOL (20°F INLET, 6° RISE)
FRONT REAR
STORAGE
PSI
SS DELI
33~35
175~200
2.25
EVAPORATOR FANS
0.7
SS DELI
33~35
175~200
SS DELI
33~35
175~200
SS DELI
33~35
SS DELI
30~34
380~600
0.6
END PANEL WIDTH KEY
# OF
END
PNLS
END
PNL
WIDTH
(IN.)
TOTAL ADDED
LENGTH (IN.)
1.125
ANTI-SWEAT
HEATERS
CONVENIENCE
OUTLETS (OPTIONAL)
VOLTS AMPS
# OF
EVAP
FANS
BLADE
DIA.
(IN.)
BLADE
PITCH (°) AMPS WATTS
CASE LENGTH
MAX ALLOWABLE
CDEC (KWh/Day/ft)
(KWh/day wedges)
WATTS AMPS WATTS AMPS WATTS
CASE LENGTH
CANOPY
LIGHTS
H.O. LED
OPTIONAL SHELF MAX. H.O. LED
LOAD
CASE LENGTH /
WEDGES
EVAPORATOR
FANS; REAR
STORAGE
AMPS WATTS AMPS WATTS
CANOPY
LIGHTS LED
TDA/V (ft
2
/ft)
(ft
3
wedges)
ACTUAL CDEC
(KWh/day/ft)
(KWh/day wedges)
OPTIONAL LED
SHELF LIGHTS
MAX. LED LOAD
(W/ ALL OPTIONS)
AMPS
#
OUTLE
TS
AXIAL
4',5',6',8',10',12'
2.05
1.49
1.62
45° OS
0
0.00
3.18
5
4. Installation
Location
The refrigerated merchandisers have been designed
for use only in air conditioned stores where temperature
and humidity are maintained at or below 75°F and 55%
relative humidity. DO NOT allow air conditioning, electric
fans, ovens, open doors or windows (etc.) to create air
currents around the merchandiser, as this will impair its
correct operation.
Product temperature should always be maintained at a
constant and proper temperature. This means that from the
time the product is received, through storage, preparation
and display, the temperature of the product must be
controlled to maximize life of the product.
Uncrating the Stand
Place the xture as close to its permanent position as
possible. Keep in place, attached case until ready to set/
bolt to adjoining case.
Tighten Glass Screws
Tighten screws along clamshell located on the underside
of glass before placing unit into operation.
Exterior Loading
These models have not been structurally designed to
support excessive external loading. Do not walk on their
tops; This could cause serious personal injury and damage
to the xture.
Setting and Joining
The sectional construction of these models enable them to
be joined in line to give the effect of one continuous display.
An Alignment pin kit is supplied with every case and must
be used in alignment.
Leveling
IMPORTANT! IT IS IMPERATIVE THAT CASES BE
LEVELED FROM FRONT TO BACK AND SIDE TO SIDE
PRIOR TO JOINING. A LEVEL CASE IS NECESSARY
TO INSURE PROPER OPERATION, WATER DRAINAGE,
GLASS ALIGNMENT, AND OPERATION OF THE HINGES
SUPPORTING THE GLASS. LEVELING THE CASE
CORRECTLY WILL SOLVE ALL HINGE OPERATION
AND GLASS ALIGNMENT PROBLEMS.
NOTE: A. To avoid removing concrete ooring, begin lineup
leveling from the highest point of the store oor.
B. When wedges are involved in a lineup, set them rst.
All cases were leveled and joined prior to shipment to
insure the closest possible t when cases are joined in the
eld. When joining, use a carpenters level and adjust legs
accordingly. The legs on the Q2-SPN are adjustable and
do not require shims. Simply screw the leg up or down to
adjust height.
1. Using case blueprints, measure off and mark on the
oor the exact dimensions of where the cases will
sit. Snap chalk line for front and back positions of
base rail or pedestal. Mark the location of each joint
front and back. Find the highest point throughout the
lineup. FLOORS ARE NORMALLY NOT LEVEL!
Determine the highest point of the oor; cases
will be set off this point. All cases in the entire
lineup must be brought up to the highest level of the
case sitting at the highest point in the lineup. This
may be done a few different ways.
a) Walk the oor looking for any mounds or dips.
b) Use a string level.
c) Use a transit.
If a wedge is used in the middle of a lineup, the
wedge must be set on the highest point on the oor
FIRST, with the rest if the lineup being leveled from
it. The Q2-SPN case has adjustable legs to allow for
leveling.
2. Set rst case over the highest part of the oor and
adjust legs so that case is level. Remove side and
back leg braces after case is set and joined.
3. Set second case within one foot (1') of the rst case,
and remove leg skids. Keep the supports along the
length of the case and far end of case. Level case to
the rst using the instructions in step one.
4. Apply masking tape 1/8" in from end of case on inside
and outside rear mullion and body work on both
cases to be joined.
5. Apply liberal bead of case joint sealant (butyl) to rst
case. Sealant area is shown using a dotted line in
illustration in Step 8. Apply heavy amount to cover
entire shaded area.
DO NOT USE PERMAGUM!
It is the contractor’s responsibility to install
case(s) according to local construction and
health codes
6. Slide second case up to rst case snugly. Then level
second case to the rst case so glass front, bumper
and top are ush.
CAUTION
7. To compress butyl at joint, use two Jurgenson wood
6
clamps. Make sure case is level from front to back
and side to side on inside bulkheads at joint.
8. Attach sections together via the bolts pictured in the
illustration below.
9. Apply bead of butyl to top of bulk heads and slip on
stainless steel bulkhead cap. Also apply silicone to
seam between joints.
10. Use nger to smooth silicone as thin as possible at
masking tape on inside and outside of rear mullion
(apply additional silicone if necessary). Remove
tape applied on line #4.
11. Remove front, back and end shipping braces.
Installation (Cont'd)
Bumper Installation Instructions
Step 1: Make sure the aluminum channel
and end caps are installed.
Step 2: Use silicone lubricant to help the
bumper slide into the channel.
Step 3: Starting on one end: while inserting
the bumper, push it up against the end cap
to prevent the bumper from shrinking after
installation (when it gets cold).
Step 4: As you insert the bumper into the
channel with one hand, pull the bumper
toward you with the other to open the
inside lips. Slowly apply pressure by rolling
the bumper into the track.
7
Q2-SPNCASETOCASE
ALIGNMENT
(1)Start by assuring both joiningcases areoneven, levelground
(2)Matecases together usingthe AlignmentPinsasguides
(3)Boltcases together at all(3) bolt locaons
(4)Inspec omakesurethatall case to case gaps areacceptable
(5)Install Bulkhead Caps (see page 2)
TOPBOLTLOCATION
FRONTBOLTLOCATION
REAR BOLT LOCATION
BOLT HOLE
BOLT HOLE
BOLT HOLE
ALIGNMENT
PIN
ALIGNMENT
PIN
TOPBOLTPRIMARY
ACCESS THROUGH
CONDIMENT PANS
TOPBOLTSECONDARY ACCESS
THROUGHINTERIORPANELS
OR HONEYCOMB(WHEN SECTI
ON
HASNOCONDIMENT PANS)
A
CCESS FROM
UNDE
RSIDE
FRONTBOLTACCESS
BY REMOVING FRONT
BODY PANEL
Installation (Cont'd)
8
5. Plumbing
Waste Outlet and P-TRAP
The waste outlet is located off the center of the case on
one side allowing drip piping to be run lengthwise under
the xture.
A 1-1/2" P-TRAP and threaded adapter are supplied with
each xture. The P-TRAP must be installed to prevent air
leakage and insect entrance into the xture.
NOTE: PVC-DWV solvent cement is recommended. Follow the
Hussmann’s instructions.
Installing Condensate Drain
Poorly or improperly installed condensate drains can
seriously interfere with the operation of this refrigerator, and
result in costly maintenance and product losses. Please
follow the recommendations listed below when installing
condensate drains to insure a proper installation:
1. Never use pipe for condensate drains smaller
than the nominal diameter of the pipe or P-TRAP
supplied with the case.
2. When connecting condensate drains, the P-TRAP
must be used as part of the condensate drain
to prevent air leakage or insect entrance. Store
plumbing system oor drains should be at least 14”
off the center of the case to allow use of the P-TRAP
pipe section. Never use two water seals in series in
any one line. Double P-TRAPS in series will cause a
lock and prevent draining.
3. Always provide as much down hill slope (“fall”) as
possible; 1/8” per foot is the preferred minimum.
PVC pipe, when used, must be supported to
maintain the 1/8” pitch and to prevent warping.
4. Avoid long runs of condensate drains. Long runs
make it impossible to provide the “fall” necessary for
good drainage.
5. Provide a suitable air break between the ood rim of
the oor drain and outlet of condensate drain. 1” is
ideal.
6. Prevent condensate drains from freezing:
a. Do not install condensate drains in contact with
non-insulated suction lines. Suction lines should
be insulated with a non-absorbent insulation
material such as Armstrong’s Armaex.
b. Where condensate drains are located in dead
air spaces (between refrigerators or between a
refrigerator and a wall), provide means to prevent
freezing. The water seal should be insulated to
prevent condensation.
Q3-SPCASETOCASEALIGNMENT
Bulkhead CapInstallation
Plac
eBulkheadCap
Ov
er Joint
Seal With Butyl
Installation (Cont'd)
9
Refrigerant Type
The standard refrigerant will be R-404A unless otherwise
specied on the customer order. Check the serial plate on
the case for information.
Piping
The refrigerant line outlets are located under the case.
Locate rst the electrical box, the outlets are then on the
same side of the case, but at the opposite end. Insulate
suction lines to prevent condensation drippage.
Refrigeration Lines
Liquid Suction
3/8” O.D. 5/8” O.D.
NOTE: The standard coil is piped at 5/8” (suction); however,
the store tie-in may vary depending on the number of
coils and the draw the case has. Depending on the case
setup, the connecting point in the store may be 5/8”, 7/8”,
or 11/8”. Refer to the particular case you are hooking up.
Refrigerant lines should be sized as shown on the
refrigeration legend furnished by the store.
Install P-TRAPS (oil traps) at the base of all suction line
vertical risers.
Pressure drop can rob the system of capacity. To keep the
pressure drop to a minimum, keep refrigerant line run as
short as possible, using the minimum number of elbows.
Where elbows are required, use long radius elbows only.
Control Settings
Maintain these parameters to achieve near constant
product temperatures. Product temperature should be
measured rst thing in the morning, after having been
refrigerated overnight. For all multiplexing, defrost should
be time terminated. Defrost times should be as directed in
the Q2-SPN Produce technical data sheet. The number of
defrosts per day should never change. The duration of the
defrost cycle may be adjusted to meet conditions present
at your location.
Access to TEV Valves and Drain
Lines
Mechanical - Remove product from case. Remove pans.
TX valve (mechanical only) and drain are located under
the pans within the case.
Electronic - The electronic expansion valve master and
slave cylinder(s) are located within the electrical access
panel(s) in the rear of case. Rear panels lift up and out.
NOTE: Duplex receptacles must be detached before removing
rear panels.
Electronic Expansion Valve (Optional)
A wide variety of electronic expansion valves and case
controllers can be utilized. Please refer to EEV and
controller manufacturers information sheet. Sensors for
electronic expansion valves will be installed on the coil inlet,
coil outlet, and in the discharge air. (Some supermarkets
require a 4th sensor in the return air). Case controllers
will be located in the electrical raceway or under the case.
Expansion Valve Adjustment
Expansion valves must be adjusted to fully feed the
evaporator. Before attempting any adjustments, make
sure the evaporator is either clear or very lightly covered
with frost, and that the xture is within 10°F of its expected
operating temperature.
After case has been brought to running
temperature verify screws along glass clamp
aluminium extrusion are tight.
AT TENTION
INSTALLER
Measuring the Operating Superheat
1. Determine the suction pressure with an accurate
pressure gauge at the evaporator outlet.
2. From a refrigerant pressure temperature chart,
determine the saturation temperature at the
observed suction pressure.
3. Measure the temperature of the suction gas at the
thermostatic remote bulb location.
4. Subtract the saturation temperature obtained in step
No. 2 from the temperature measured in step No. 3.
5. The difference is superheat.
6. Set the superheat for 5°F - 7°F.
Thermostat Location
Thermostats are located in the electrical section; behind
the rear panel, on the right-hand side of the case (facing
the back of the case).
6. Refrigeration
10
7. Electrical
Wiring Color Code
CASE MUST BE GROUNDED
NOTE: Refer to label afxed to case to determine the actual
conguration as checked in the “TYPE INSTALLED”
boxes.
Electrical Circuit Identication
Standard lighting for all models will be full length uorescent
lamps located within the case at the top. The switch
controlling the lights, the plug provided for digital scale, and
the thermometer are located at the rear of the case mullion.
The receptacle that is provided on the exterior back of these
models is intended for computerized scales with a ve amp
maximum load, not for large motors or other high wattage
appliances. It should be wired to a dedicated circuit.
Electrical Service Receptacles (When
Applicable)
The receptacles located on the exterior of the merchandiser
are intended for scales and lighted displays. They are not
intended nor suitable for large motors or other external
appliances.
BEFORE SERVICING
ALWAYS DISCONNECT ELECTRICAL
POWER AT THE MAIN DISCONNECT
WHEN SERVICING OR REPLACING ANY
ELECTRICAL COMPONENT.
This includes (but not limited to) Fans, Heaters
Thermostats, and Lights.
Field Wiring and Serial Plate
Amperage
Field Wiring must be sized for component amperes printed
on the serial plate. Actual ampere draw may be less than
specied. Field wiring from the refrigeration control panel to
the merchandisers is required for refrigeration thermostats.
Case amperes are listed on the wiring diagram, but always
check the serial plate.
Ballast Location
Ballasts are located within the access panel that runs the
length of the rear of the case.
Ashrae Color Code
NOTE: All other manufacturers have no standard sensor codes.
Case Control Systems SENSOR COLOR
Manufacturer ® > EIL CPC
Location
Coil Inlet
Color Blue Blue
Part# 225-01-1755 225-01-3255
Coil Outlet Color Red Red
Part# 225-01-1757 225-01-3123
Discharge Air Color Green Green
Part# 225-01-1756 225-01-3260
Return Air Color Purple Green
Part# 225-01-1758 225-01-3260
Defrost Term. Color White Orange
Part# 225-01-0650 225-01-3254
Liquid Line Color White Blue
Part# 225-01-0650 225-01-3255
11
8. Finishing Touches
Bumper Installation Tips
1. Start to attach the bumper at one end of the lineup,
preferably on a straight case.
2. Push the end of the bumper into the bumper
channel rmly. This may be difcult if bumper is cold.
3. Bend the bumper backwards to open and guide it
forward onto the bumper channel.
4. An inside bumper miter must be cut on wedges.
5. Loose ends on miters must be anchored with
screws on the bottom edge.
6. The top and bottom edges of the bumper must be
rmly seated into the retainer by applying with a
rubber mallet (not by hand).
7. The bumper should be struck by the mallet at a
slight angle that forces the bumper back into itself
to prevent stretching. The installation can be made
easier by applying a parafn block to the retainer
grooves.
Installing Splashguard
After merchandisers have been leveled and joined, and
all drip piping, electrical and refrigeration work has been
completed, install the splashguards. Splashguards may
be sealed to the oor using a vinyl cove base trim. The
size of trim needed will depend on how much the oor is
out of level.
NOTE: The splashguard must be removable to allow access to
components behind it.
1. Remove all dirt, wax, debris, etc. from the area of
the splashguard to ensure a secure adhesion.
2. Apply a good contact cement to the trim, allowing a
proper dry time.
3. Install trim to the splashguard so that it is ush with
the oor.
12
9. User Information
Stocking
Improper temperature and lighting will cause serious
product loss. Discoloration, dehydration and spoilage
can be controlled with proper use of the equipment and
handling of product. Product temperature should always
be maintained at a constant and proper temperature.
This means that from the time the product is received,
through storage, preparation and display, the temperature
of the product must be controlled to maximize life of the
product. Hussmann cases were not designed to “heat up”
or “cool down” product - but rather to maintain an item’s
proper temperature for maximum shelf life. To achieve the
protection required always:
1. Minimize processing time to avoid damaging
temperature rise to the product. Product should be
at proper temperature.
2. Keep the air in and around the case area free
of foreign gasses and fumes or food will rapidly
deteriorate.
3. Maintain the display merchandisers temperature
controls as outlined in the refrigerator section of this
manual.
4. Do not place any product into these refrigerators
until all controls have been adjusted and they
are operating at the proper temperature. Allow
merchandiser to operate a minimum of six (6) hours
before stocking with any product.
5. When stocking, never allow the product to extend
beyond the recommended load limit. Air discharge
and return air ue must be unobstructed at all times
to provide proper refrigeration.
6. Avoid the use of supplemental ood or spot lighting.
Display light intensity has been designed for
maximum visibility and product life at the factory.
The use of higher output uorescent lamps (H.O.
and V.H.O.), will shorten the shelf life of the product.
Case Cleaning
Long life and satisfactory performance of any equipment
are dependent upon the care given to it. To insure long
life, proper sanitation and minimum maintenance costs,
the refrigerator should be thoroughly cleaned frequently.
SHUT OFF FAN DURING CLEANING PROCESS. It can be
unplugged within the case, or shut off case at the source.
The interior bottom may be cleaned with any domestic soap
or detergent based cleaners. Sanitizing solutions will not
harm the interior bottom, however, these solutions should
always be used according to the manufacturer’s directions.
It is essential to establish and regulate cleaning procedures.
This will minimize bacteria causing discoloration which
leads to degraded product appearance and signicantly
shortening product shelf life.
Soap and hot water are not enough to kill this bacteria. A
sanitizing solution must be included with each cleaning
process to eliminate this bacteria.
1. Scrub thoroughly, cleaning all surfaces, with soap
and hot water.
2. Rinse with hot water, but do not ood.
3. Apply the sanitizing solution according to
Hussmann’s directions.
4. Rinse thoroughly.
5. Dry completely before resuming operation.
Cleaning Glass and Mirrors
Only use a soft cloth and water for cleaning any glass
or mirrored components. Be sure to rinse and/or dry
completely.
Never use hot water on cold glass surfaces! It may
shatter and cause serious injury! Allow glass surfaces
to warm rst.
Non-Glare Glass
The high optical clarity of this glass is possible due to
special coatings on the glass surface itself. To preserve
this coating and the optical clarity, keep the glass clean.
Water is the only solution recommended for use in cleaning
non-glare glass. The damage to the glass from improper,
caustic solutions is irreparable. In addition to cleaning the
glass with the recommended product, there are precautions
that should be taken when working and cleaning the inside
of the case.
• When cleaning the inside of the cases, we
recommend that the glass be fully opened and
covered to prevent solutions from splashing onto the
glass and ruining the coating on the inside.
Plexiglass and Acrylic Care
Improper cleaning not only accelerates the cleaning cycle
but also degrades the quality of this surface. Normal daily
bufng motions can generate static cling attracting dust to
the surface. Incorrect cleaning agents or cleaning cloths
can cause micro scratching of the surface, causing the
plastic to haze over time.
Cleaning
Hussmann recommends using a clean damp chamois, or a
paper towel marketed as dust and abrasive free with 210®
Plastic Cleaner and Polish available by calling Sumner
Labs at 1-800-542-8656. Hard, rough cloths or paper towels
will scratch the acrylic and should not be used.
Antistatic Coatings
The 210®has proven to be very effective in not only
cleaning and polishing the Plexiglass surface, but also
providing anti-static and anti-fog capabilities. This product
also seals pores and provides a protective coating.
13
Have case Model and Serial Number
ready! This information is located on the
nameplate of the unit.
BEFORE SERVICING
ALWAYS DISCONNECT ELECTRICAL
POWER AT THE MAIN DISCONNECT
WHEN SERVICING OR REPLACING ANY
ELECTRICAL COMPONENT.
This includes (but not limited to) Fans, Heaters
Thermostats, and Lights.
CAUTION
Fluorescent Lamp Disposal:
The United States Environmental protection Agency has
information regarding environmentaly-safe uorescent
lamp waste management programs. On the Net: EPA
Web site.
http://www.epa.gov/osw/hazard/wastetypes/universal/
lamps/recycle.htm
Replacing Fluorescent Lamps
Fluorescent lamps are furnished with a shatterproof
protective coating. The same type of lamp with protective
coating must be used if replaced.
ENCAPSULITE
SHATTERPROOF COATING - SA 10645
Complies with FDA USDA
& OSHA Regulations
for replacement call:
1-800-395-9229
Turn switch off then on after replacing bulb
NSF
U
R
R
Evaporator Fans
The evaporator fans are located at the center front of these
merchandisers directly beneath the display pans. Should
fans or blades need servicing, always replace fan blades
with the raised embossed side of the blade TOWARD THE
MOTOR.
Copper Coils
The copper coils used in Hussmann merchandisers may
be repaired in the eld. Materials are available from local
refrigeration wholesalers.
Hussmann recommends using #15 Sil-Fos for repairs.
Tips and Troubleshooting
Before calling for service, check the following:
1. Check electrical power supply to the equipment for
connection.
2. Check xture loading. Overstocking case will affect
its proper operation.
3. If frost is collecting on xture and/or product, check
that Humidity Control is working properly, and that
no outside doors or windows are open - allowing
moisture to enter store.
CLEANING PRECAUTIONS
When cleaning:
•Do not use high pressure water hoses
•Do not introduce water faster then waste outlet can drain
•NEVER INTRODUCE WATER ON SELF CONTAINED UNIT
WITH AN EVPORATOR PAN
•NEVER USE A CLEANING OR SANITIZING SOLUTION
THAT HAS AN OIL BASE (these will dissolve the butyl
sealants) or an AMMONA BASE (this will corrode the
copper components of the case)
•TO PRESERVE THE ATTRACTIVE FINISH:
•DO USE WATER ANDAMILD DETERGENT FOR THE
EXTERIOR ONLY
•DO NOT USE A CHLORINATED CLEANER ON ANY
SURFACE
•DO NOT USE ABRASIVES OR STEEL WOOL SCOURING
PADS (these will mar the finish)
CAUTION
10. Maintenance
14
Maintenance (Cont'd)
Glass Replacement and Adjustment
Instructions
In order to replace or adjust the glass, the glass must be
placed in the raised position. The underside of the clamp is
exposed, revealing the tightening screws. By turning these
screws counterclockwise 1/4 turn each, the glass will be
loosened for either removal or adjustment.
Note: Do not overtighten the screws since damage may occur.
Stainless Steel Cleaning and Care
There are three basic things, which can break down your
stainless steel’s passivity layer and allow corrosion.
1. Mechanical Abrasion
Mechanical Abrasion means those things that
will scratch the steels surface. Steel Pads, wire
Brushes, and Scrapers are prime examples.
2. Water
Water comes out of our tap in varying degrees of
hardness. Depending on what part of the country
you live in, you may have hard or soft water. Hard
water may leave spots. Also, when heated, hard
water leaves deposits behind that if left to sit, will
break down the passive layer and rust your stainless
steel. Other deposits from food preparation and
service must be properly removed.
3. Chlorides
Chlorides are found nearly everywhere. They
are in water, food and table salt. One of the worst
perpetrators of chlorides can come from household
and industrial cleaners.
Don’t Despair! Here are a few steps that can help prevent
stainless steel rust.
1. Use the Proper Tools
When cleaning your stainless steel products, take
care to use non-abrasive tools. Soft Clothes and
plastic scouring pads will NOT harm the steel’s
passive layer. Stainless steel pads can also be
used but the scrubbing motion must be in the same
direction of the manufacturer’s polishing marks.
2. Clean With the Polish Lines
Some stainless steels come with visible polishing
lines or “grain”. When visible lines are present, you
should ALWAYS scrub in a motion that is parallel to
them. When the grain cannot be seen, play it safe
and use a soft cloth or plastic scouring pad.
3. Use Alkaline, Alkaline Chlorinated or
Non-chloride Containing Cleaners
While many traditional cleaners are loaded
with chlorides, the industry is providing an ever
increasing choice of non-chloride cleaners. If you
are not sure of your cleaner’s chloride content
contact your cleaner supplier. If they tell you that
your present cleaner contains chlorides, ask for
an alternative. Also, avoid cleaners containing
quaternary salts as they also can attack stainless
steel & cause pitting and rusting.
4. Treat your Water
Though this is not always practical, softening hard
water can do much to reduce deposits. There
are certain lters that can be installed to remove
distasteful and corrosive elements. Salts in a
properly maintained water softener are your friends.
If you are not sure of the proper water treatment, call
a treatment specialist.
5. Keep your Food Equipment Clean
Use alkaline, alkaline chlorinated or non-chlorinated
cleaners at recommended strength. Clean
frequently to avoid build-up of hard, stubborn stains.
If you boil water in your stainless steel equipment,
remember the single most likely cause of damage is
chlorides in the water. Heating cleaners that contain
chlorides has a similar effect.
6. RINSE, RINSE, RINSE
If chlorinated cleaners are used you must rinse,
rinse, rinse and wipe dry immediately. The sooner
you wipe off standing water, especially when sit
contains cleaning agents, the better. After wiping the
equipment down, allow it to air dry for the oxygen
helps maintain the stainless steel’s passivity lm.
7. Never Use Hydrochloric Acid (Muriatic Acid) on
Stainless Steel.
8. Regularly Restore/Passivate Stainless Steel.
15
Model Description Size Digram #
Q2-SPN-R
Q2-SP-N-4R W/OP-
TIONAL TOP LIGHT 4' 3003959
Q2-SP-N-5R W/OP-
TIONAL TOP LIGHT 5' 3064454
Q2-SP-N6-R 6' 1H95151
Q2-SPN-8R 8' 3008496
Q2-SP-N-10R W/OP-
TIONAL TOP LIGHT 10' 3003958
Q2-SP-N12-R 12' 3013450
Q2-SPN-22.50-R 22.5° 3070614
Q2-SPN-45OS 45° 2H21329
Q2-SPN-30OS 30° 2H21307
Q2-SPN-90OS 90° 2H21327
11. Wiring Diagrams Index
16
HUSSMANN_GDF_1.1 SHEET SIZE D
MATERIAL - N/A
THIRD
ANGLE
PROJECTION
UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES.
DRAWN BY -CRAIG BOOREY
APPROVED BY - CRAIG BOOREY
TOLERANCES ARE:
DECIMALS .XX u.03, .XXX u.010
ANGLES u2v
DATE DRAWN - 4-11-16 ECN-CAP-0000988
REVIEWED BY -CRAIG BOOREY REF -
3003959
DIAGRAM-Q2-SP-N-4
R
REV ECN DATE REVISION DESCRIPTION REV BY CHKD BY APPR BY
A ECN-CAP-0000988 2016/04/11 RELEASED TO PRODUCTION CB CB CB
B ECN-CAP-0005707 2017/01/13 REVISED REAR STORAGE COIL CB CB CB
C ECN-CAP-0006206 2017/01/13 REVISED REAR STORAGE T-STAT CB CB CB
REVISION HISTORY
NOTES:
CASE MUST BE GROUNDED
WHEN PASSING WIRES THROUGH METAL HOLES A GROMMET MUST BE USED
C
SHEET 1 OF 1
CIRCUIT #1
L1
LOADING
1.8
120V
BLACK # 14
WHITE # 14
SWITCH TOGGLE
125-01-0307
~120 VAC - 60 Hz.
BUNDLE
ORANGE
L1 N
MCA= 1.5A
MOP= 15A
~120 VAC - 60 Hz.
BUNDLE
BROWN
L1 N
MCA= .94A
MOP= 15A
BUNDLE
BLACK/WHITE
NL
BLK # 14
MOP= 15A
WHT # 14
T-STAT
225-01-0710
LIQUID SOLENOID
.14A @ 120VAC
INCOMING POWER
~120 VAC - 60 Hz
15.0
L1
120 V
LOADING
GFCI DUPLEX
125-01-3178
NOTE FOR GFCI PROTECTION: IF MORE THAN ONE SINGLE
RECEPTACLE IS USED IN CONJUNCTION WITH A GFCI DUPLEX
RECEPTACLE "DOWNSTREAM" ON THE LOAD SIDE, THE SUM OF
ALL RECEPTACLES SHOULD NOT BE MORE THAN 15A
LOAD SIDE POWER
RECEPTACLE
125-01-0443 (OPTIONAL)
~120 VAC - 60 Hz
CIRCUIT # 2 (optional)
BLK # 14
WHT # 14
GRN # 14
BUNDLE
YELLOW
ALL SINGLE
RECEPTACLES TO BE
TIED TO DUPLEX GFCI
RECEPTACLE
EVAP
FAN MOTOR
(2) 0477653
7W .12A @ 120VAC
M M
BLK # 14
WHT # 14
OPTIONAL
BLUE -
RED +
LED DRIVER
LIGHT CIRCUIT 0.22A 24.2W
4' LED LIGHT
4' LED LIGHT
WARMER
125-01-0767
TYCO THERMAL
CONTROLS
10BTV1-CR
40 WATTS
0.37AMP@120V
BUNDLE
PURPLE
LI N
~120 VAC - 60 Hz.
MCA= .69A
MOP= 15A
WHT # 14
BLK # 14
3' LED LIGHT
OPTIONAL CANOPY LIGHT FOR COLD WELL TOP
SWITCH
125-01-0307
OPTIONAL REAR STORAGE
L1
N
REAR STORAGE
COOLER UNIT
RT-12 0.30 @ 115V
MCA= 0.38A
MOP= 15A
~120 VAC - 60 Hz
BLK # 14
WHT # 14
SUCTION SOLENOID
.14A @ 120VAC
DIGITAL T-STAT
BUNDLE
WHITE/BLACK
~120 VAC - 60 Hz
N L1 G
BLACK #14
WHITE #14
SENSOR
BLACK#14
WHITE #14
LN
120
LC
LNO
M
GRN# 14
G
12. Wiring Diagrams
17
HUSSMANN_GDF_1.1 SHEET SIZE D
MATERIAL - N/A
THIRD
ANGLE
PROJECTION
UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES.
DRAWN BY -CRAIG BOOREY
APPROVED BY - CRAIG BOOREY
TOLERANCES ARE:
DECIMALS .XX
u
.03, .XXX
u
.010
ANGLES
u
2
v
DATE DRAWN -5-31-18 ECN-CAP-0012697
REVIEWED BY -CRAIG BOOREY REF -
3064454
DIAGRAM-Q2-SPN-5-
R
REV ECN DATE REVISION DESCRIPTION REV BY CHKD BY APPR BY
A ECN-CAP-0012697 2018/05/31 RELEASED TO PRODUCTION CB CB CB
REVISION HISTORY
NOTES:
CASE MUST BE GROUNDED
WHEN PASSING WIRES THROUGH METAL HOLES A GROMMET MUST BE USED
A
SHEET 1 OF 1
CIRCUIT #1
L1
LOADING
1.4
120V
BLACK # 14
WHITE # 14
SWITCH TOGGLE
125-01-0307
~120 VAC - 60 Hz.
BUNDLE
ORANGE
L1 N
MCA= 0.33A
MOP= 15A
~120 VAC - 60 Hz.
BUNDLE
BROWN
L1 N
MCA= .30A
MOP= 15A
BUNDLE
BLACK/WHITE
NL
BLK # 14
MOP= 15A
WHT # 14
T-STAT
225-01-0707
LIQUID SOLENOID
.14A @ 120VAC
INCOMING POWER
~120 VAC - 60 Hz
15.0
L1
120 V
LOADING
GFCI DUPLEX
125-01-3178
NOTE FOR GFCI PROTECTION: IF MORE THAN ONE SINGLE
RECEPTACLE IS USED IN CONJUNCTION WITH A GFCI DUPLEX
RECEPTACLE "DOWNSTREAM" ON THE LOAD SIDE, THE SUM OF
ALL RECEPTACLES SHOULD NOT BE MORE THAN 15A
LOAD SIDE POWER
RECEPTACLE
125-01-0443 (OPTIONAL)
~120 VAC - 60 Hz
CIRCUIT # 2 (optional)
BLK # 14
WHT # 14
GRN # 14
BUNDLE
YELLOW
ALL SINGLE
RECEPTACLES TO BE
TIED TO DUPLEX GFCI
RECEPTACLE
EVAP
FAN MOTOR
(2) 0477653
7W .12A @ 120VAC
M M
BLK # 14
WHT # 14
OPTIONAL
BLUE -
RED +
LED DRIVER
LIGHT CIRCUIT 0.26A 29.1W
5' LED LIGHT
5' LED LIGHT
WARMER
125-01-0767
TYCO THERMAL
CONTROLS
10BTV1-CR
50 WATTS
.46AMP@120V
BUNDLE
PURPLE
LI N
~120 VAC - 60 Hz.
MCA= .58A
MOP= 15A
WHT # 14
BLK # 14
4' LED LIGHT
OPTIONAL CANOPY LIGHT FOR
COLD WELL TOP W/SWITCH
OPTIONAL REAR STORAGE
L1
N
REAR STORAGE
COOLER UNIT
RT-12 0.30 @ 115V
MCA= 0.38A
MOP= 15A
~120 VAC - 60 Hz
BLK # 14
WHT # 14
SUCTION SOLENOID
.14A @ 120VAC
DIGITAL T-STAT
BUNDLE
WHITE/BLACK
~120 VAC - 60 Hz
N L1 G
BLACK #14
WHITE #14
SENSOR
BLACK#14
WHITE #14
LN
120
LC
LNO
M
GRN# 14
G
18
HUSSMANN_GDF_1.1 SHEET SIZE D
MATERIAL - N/A
THIRD
ANGLE
PROJECTION
UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES.
DRAWN BY -CRAIG BOOREY
APPROVED BY - CRAIG BOOREY
TOLERANCES ARE:
DECIMALS .XX
u
.03, .XXX
u
.010
ANGLES
u
2
v
DATE DRAWN -11/25/13 ECN# - 768637
REVIEWED BY -CRAIG BOOREY REF - NEW DIAGRAM
1H95151
DIAGRAM-Q2-SPN-6
REV ECN DATE REVISION DESCRIPTION REV BY CHKD BY APPR BY
A 768637 2013/11/25 NEW DIAGRAM CB CB CB
B 996474 2015/08/11 ADDED OPTIONAL CANOPY LIGHT CB CB CB
REVISION HISTORY
NOTES:
CASE MUST BE GROUNDED
B
SHEET 1 OF 1
CIRCUIT #1
L1
LOADING
1.5
120V
BLACK # 14
WHITE # 14
SWITCH TOGGLE
125-01-0307
~120 VAC - 60 Hz.
BUNDLE
ORANGE
L1 N
MCA= 1.5A
MOP= 15A
~120 VAC - 60 Hz.
BUNDLE
BROWN
L1 N
MCA= .94A
MOP= 15A
BUNDLE
BLACK/WHITE
NL
BLK # 14
MOP= 15A
WHT # 14
T-STAT
225-01-0707
LIQUID SOLENOID
225-01-1332
.16A @ 120VAC
INCOMING POWER
~120 VAC - 60 Hz
15.0
L1
120 V
LOADING
GFCI DUPLEX
125-01-3178
NOTE FOR GFCI PROTECTION: IF MORE THAN ONE SINGLE
RECEPTACLE IS USED IN CONJUNCTION WITH A GFCI DUPLEX
RECEPTACLE "DOWNSTREAM" ON THE LOAD SIDE, THE SUM OF
ALL RECEPTACLES SHOULD NOT BE MORE THAN 15A
LOAD SIDE POWER
RECEPTACLE
125-01-0443 (OPTIONAL)
~120 VAC - 60 Hz
CIRCUIT # 2 (optional)
BLK # 14
WHT # 14
GRN # 14
BUNDLE
YELLOW
ALL SINGLE
RECEPTACLES TO BE
TIED TO DUPLEX GFCI
RECEPTACLE
EVAP
FAN MOTOR
(4) 0477653
7W .12A @ 120VAC
M M
BLK # 14
WHT # 14
OPTIONAL
M
BOHN COIL ASSY
VA-012 1.28A 120V
225-02-1333
N
L
OPTIONAL
~120 VAC - 60 Hz.
MCA= 1.6A
MOP= 15A
BUNDLE
BROWN
M
BLUE -
RED +
DRIVER 0518898
BAAB1100LE202
LIGHT CIRCUIT 0.36A 39.4W
3' LED LIGHT
3' LED LIGHT
3' LED LIGHT
3' LED LIGHT
WARMER
125-01-0767
TYCO THERMAL
CONTROLS
10BTV1-CR
60 WATTS
.56AMP@120V
BUNDLE
PURPLE
LI N
~120 VAC - 60 Hz.
MCA= .69A
MOP= 15A
WHT # 14
BLK # 14
6' LED LIGHT
OPTIONAL CANOPY LIGHT FOR COLD WELL TOP
T-STAT
1H66770550
BUNDLE
WHITE/BLACK
~120 VAC - 60 Hz
N L1
BLACK #14
WHITE #14
OPTIONAL T-STAT FOR EP CASE
120
CCNO
SENSOR
SUCTION SOLENOID
1H84576500
.14A @ 120VAC
19
HUSSMANN_GDF_1.1 SHEET SIZE D
MATERIAL - N/A
THIRD
ANGLE
PROJECTION
UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES.
DRAWN BY -CRAIG BOOREY
APPROVED BY - CRAIG BOOREY
TOLERANCES ARE:
DECIMALS .XX
u
.03, .XXX
u
.010
ANGLES
u
2
v
DATE DRAWN - 6-7-16 ECN-CAP-0002200
REVIEWED BY -CRAIG BOOREY REF -
3008496
DIAGRAM-Q2-SPN-8R
REV ECN DATE REVISION DESCRIPTION REV BY CHKD BY APPR BY
A ECN-CAP-0002200 2016/06/07 RELEASED TO PRODUCTION CB CB CB
REVISION HISTORY
NOTES:
CASE MUST BE GROUNDED
WHEN PASSING WIRES THROUGH METAL HOLES A GROMMET MUST BE USED
A
SHEET 1 OF 1
CIRCUIT #1
L1
LOADING
1.7
120V
BLACK # 14
WHITE # 14
SWITCH TOGGLE
125-01-0307
~120 VAC - 60 Hz.
BUNDLE
ORANGE
L1 N
MCA= 1.5A
MOP= 15A
~120 VAC - 60 Hz.
BUNDLE
BROWN
L1 N
MCA= .94A
MOP= 15A
BUNDLE
BLACK/WHITE
NL
BLK # 14
MOP= 15A
WHT # 14
T-STAT
225-01-0707
LIQUID SOLENOID
.14A @ 120VAC
INCOMING POWER
~120 VAC - 60 Hz
15.0
L1
120 V
LOADING
GFCI DUPLEX
125-01-3178
NOTE FOR GFCI PROTECTION: IF MORE THAN ONE SINGLE
RECEPTACLE IS USED IN CONJUNCTION WITH A GFCI DUPLEX
RECEPTACLE "DOWNSTREAM" ON THE LOAD SIDE, THE SUM OF
ALL RECEPTACLES SHOULD NOT BE MORE THAN 15A
LOAD SIDE POWER
RECEPTACLE
125-01-0443 (OPTIONAL)
~120 VAC - 60 Hz
CIRCUIT # 2 (optional)
BLK # 14
WHT # 14
GRN # 14
BUNDLE
YELLOW
ALL SINGLE
RECEPTACLES TO BE
TIED TO DUPLEX GFCI
RECEPTACLE
EVAP
FAN MOTOR
(4) 0477653
7W .12A @ 120VAC
M M
BLK # 14
WHT # 14
OPTIONAL
MM
BLUE -
RED +
DRIVER 0518898
BAAB1100LE202
LIGHT CIRCUIT 0.32A 35.2W
4' LED LIGHT
WARMER
125-01-0767
TYCO THERMAL
CONTROLS
10BTV1-CR
80 WATTS
.72AMP@120V
BUNDLE
PURPLE
LI N
~120 VAC - 60 Hz.
MCA= .69A
MOP= 15A
WHT # 14
BLK # 14
OPTIONAL CANOPY LIGHT FOR COLD WELL TOP
OPTIONAL T-STAT FOR EP CASE
4' LED LIGHT
4' LED LIGHT
4' LED LIGHT
SUCTION SOLENOID
225-01-0878
.14A @ 120VAC
T-STAT
1H66770550
BUNDLE
WHITE/BLACK
~120 VAC - 60 Hz
N L1
BLACK #14
WHITE #14
SENSOR
BLK/WHT STRIPE#14
WHITE #14
LN
120
LC
LNO
20
HUSSMANN_GDF_1.1 SHEET SIZE D
MATERIAL - N/A
THIRD
ANGLE
PROJECTION
UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES.
DRAWN BY -CRAIG BOOREY
APPROVED BY - CRAIG BOOREY
TOLERANCES ARE:
DECIMALS .XX
u
.03, .XXX
u
.010
ANGLES
u
2
v
DATE DRAWN - 4-11-16 ECN-CAP-0000988
REVIEWED BY -CRAIG BOOREY REF -
3003958
DIAGRAM-Q2-SP-N-1
0R
REV ECN DATE REVISION DESCRIPTION REV BY CHKD BY APPR BY
A ECN-CAP-0000988 2016/04/11 RELEASED TO PRODUCTION CB CB CB
REVISION HISTORY
NOTES:
CASE MUST BE GROUNDED
WHEN PASSING WIRES THROUGH METAL HOLES A GROMMET MUST BE USED
A
SHEET 1 OF 1
CIRCUIT #1
L1
LOADING
4.7
120V
BLACK # 14
WHITE # 14
SWITCH TOGGLE
125-01-0307
~120 VAC - 60 Hz.
BUNDLE
ORANGE
L1 N
MCA= 1.5A
MOP= 15A
~120 VAC - 60 Hz.
BUNDLE
BROWN
L1 N
MCA= .94A
MOP= 15A
BUNDLE
BLACK/WHITE
NL
BLK # 14
MOP= 15A
WHT # 14
T-STAT
225-01-0710
LIQUID SOLENOID
225-01-1332
.16A @ 120VAC
INCOMING POWER
~120 VAC - 60 Hz
15.0
L1
120 V
LOADING
GFCI DUPLEX
125-01-3178
NOTE FOR GFCI PROTECTION: IF MORE THAN ONE SINGLE
RECEPTACLE IS USED IN CONJUNCTION WITH A GFCI DUPLEX
RECEPTACLE "DOWNSTREAM" ON THE LOAD SIDE, THE SUM OF
ALL RECEPTACLES SHOULD NOT BE MORE THAN 15A
LOAD SIDE POWER
RECEPTACLE
125-01-0443 (OPTIONAL)
~120 VAC - 60 Hz
CIRCUIT # 2 (optional)
BLK # 14
WHT # 14
GRN # 14
BUNDLE
YELLOW
ALL SINGLE
RECEPTACLES TO BE
TIED TO DUPLEX GFCI
RECEPTACLE
EVAP
FAN MOTOR
(4) 0477653
7W .12A @ 120VAC
M M
BLK # 14
WHT # 14
OPTIONAL
M
BOHN COIL ASSY
VA-012 1.28A 120V
(2) 225-02-1333
N
L
OPTIONAL
~120 VAC - 60 Hz.
MCA= 1.6A
MOP= 15A
BUNDLE
BROWN
M
BLUE -
RED +
LED DRIVER
LIGHT CIRCUIT 0.59A 64.2W
5' LED LIGHT
5' LED LIGHT
5' LED LIGHT
5' LED LIGHT
WARMER
125-01-0767
TYCO THERMAL
CONTROLS
10BTV1-CR
100 WATTS
0.93AMP@120V
BUNDLE
PURPLE
LI N
~120 VAC - 60 Hz.
MCA= .69A
MOP= 15A
WHT # 14
BLK # 14
3' LED LIGHT
OPTIONAL CANOPY LIGHT FOR COLD WELL TOP
T-STAT
1H66770550
BUNDLE
WHITE/BLACK
~120 VAC - 60 Hz
N L1
BLACK #14
WHITE #14
OPTIONAL T-STAT FOR EP CASE
120
CCNO
SENSOR
SUCTION SOLENOID
1H84576500
.14A @ 120VAC
3' LED LIGHT
3' LED LIGHT
SWITCH
125-01-0307
Table of contents
Other Hussmann Monitor manuals
