Zero Zone RVZC 30, 30BB, 30T, 30TBB, 24, WA, WB, RVZP 30, 30BB, 30T, 30TBB Reach-In Freezer Installation & Operation Manual
The Zero Zone RVZC 30, RVZC 30BB, RVZC 30T, RVZC 30TBB, RVZC 24, RVZC WA, RVZC WB, RVZP 30, RVZP 30BB, RVZP 30T, RVZP 30TBB reach-in freezers are built with the thickest insulation in the industry and a high efficiency evaporator coil. They are designed to provide optimal refrigeration for ice, frozen food, or ice cream. Potential case features include: Brushless D.C. electronic motors or PSC or shaded pole fan motors, T-8 fluorescent lamps, LED lighting or fiber optic lighting, Standard-energy, low-energy or no-energy doors.
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
TABLE OF CONTENTS
INTRODUCTION ................................................................... 4
DELIVERY INSPECTION ...................................................... 4
PACKAGING ........................................................................ 4
LOCATION ............................................................................ 4
Figure 1: Case label information ...................................... 5
INSTALLATION ..................................................................... 6
Leveling ........................................................................... 6
Figure 2: Leveling cases prior to joining .......................... 6
Figure 3: Typical hat channel locations ............................ 7
Figure 4: Shims under bases and case ........................... 7
Figure 5A: All base locations ........................................... 8
Figure 5B: All base locations ........................................... 9
Figure 5C: All base locations ......................................... 10
CASE MOVEMENT ............................................................ 11
Figure 6: Removing wood planks ................................... 12
Figure 7: Wood block inside base ................................. 12
Figure 8: Expandable base ............................................ 12
LINE UP ASSEMBLY .......................................................... 13
Figure 9: Caulking cases to be joined ........................... 13
Figure 10: T-strips ......................................................... 13
Figure 11: Required sealing for
NSF approved installations .......................................... 14
DRAIN LINE ........................................................................ 14
Figure 12: Trap support ................................................. 14
BUMPER AND KICK PLATE ........................................... 15
Installing End Kick Plate ................................................ 15
Installing Bumper ........................................................... 15
Figure 13: Other style bumpers ..................................... 15
Figure 14: Installing bumper and kick plate .................... 16
UNDER CASE RETURN AIR FLOW
ASSEMBLY INSTRUCTIONS .............................................. 16
Figure 15: Bumper air flow ............................................ 16
REFRIGERATION ............................................................... 17
General ......................................................................... 17
Refrigerant Piping ......................................................... 17
Figure 16: Penetration sealing ....................................... 17
Figure 17A: Refrigeration line sizing - Frozen Foods .... 18
Figure 17B: Refrigeration line sizing - Ice Cream ......... 19
Figure 18: 45° elbow suction line ................................... 20
Temperature Control Adjustment .................................... 20
Leak Check-Evacuation-Charging ................................. 20
Figure 19: Temperature settings .................................... 20
Figure 20: Temperature control ...................................... 20
ELECTRICAL ..................................................................... 21
OPTIONAL ELECTRICAL WIRING ...................................... 21
Single Point Connection ................................................ 21
Master Satellite Connection ........................................... 21
Figure 21: Electric defrost 30” wiring ............................ 22
Figure 22: Electric defrost 24” wiring ............................ 23
Figure 23: Hot gas wiring .............................................. 24
Figure 24: Single point wiring ........................................ 25
Figure 25: Master satellite wiring ................................... 26
DEFROSTING .................................................................... 27
General ......................................................................... 27
Defrost Settings and Controls ........................................ 27
Electric Defrost Operation ............................................. 28
Gas Defrost Operation ................................................... 28
Limit Thermostat ............................................................ 28
Figure 26: 30” Electric .................................................. 29
Figure 27: 24” Electric .................................................. 29
Figure 28: Coil 30” Hot gas ........................................... 30
Figure 29: Coil 24” Hot gas ........................................... 30
USER INFORMATION ..................................................... 31
Cleaning ........................................................................ 31
Shelf Location ............................................................... 31
Shelves .......................................................................... 31
Loading the Case .......................................................... 31
Light Switch ................................................................... 31
Case thermometer ......................................................... 31
SERVICE ............................................................................ 31
Evaporator ..................................................................... 31
Expansion Valve ............................................................ 31
Defrost Heater Element ................................................. 32
Heater Element Removal ................................................ 32
Evaporator Fans ............................................................ 32
Fan Removal ................................................................. 32
Ballasts — 1-Door, WA and WB .................................... 32
Fluorescent Lighting ...................................................... 32
Optional lighting ............................................................. 32
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
INTRODUCTION
The information contained in this manual pertains to the Evolution display freezers which include:
RVZC30
RVZC30BB
RVZC30T
RVZC30TBB
RVZC24
RVZCWA
RVZCWB
RVZP30
RVZP30BB
RVZP30T
RVZP30TBB
(The 30" 1-door case is based on the 24" door platform; for the 1door case, please use the coil assembly drawings, defrost and electrical specifications listed for 24" door cases.) Specification sheets for each of these cases is supplied separately and are available at www.zero-zone.com. All of these cases are used for merchandising ice, frozen food, or ice cream.
Zero Zone has made every effort to produce refrigeration equipment of the highest quality using state-of-the-art components. The cases are built with the thickest insulation in the industry and a high efficiency evaporator coil. Potential case features include:
• Brushless D.C. electronic motors or
PSC or shaded pole fan motors
• T-8 fluorescent lamps
• LED lighting or fiber optic lighting
• Standard-energy, low-energy or no-energy doors
These display cases were designed and tested using the following industry standards:
• ASHRAE Standard 72-2005 – Method of Testing Commercial
Refrigerators and Freezers (ANSI Approved)
• ARI 1200- Performance Rating of Commercial Refrigerated Display Merchandisers and Storage Cabinets (ANSI Approved)
• UL 471- Commercial Refrigerators and Freezers (ANSI Approved) (equipment certified by ETL)
• NSF 7- Commercial Refrigerators and Freezers (ANSI Approved)
(equipment certified by NSF)
ASHRAE 72-2005 specifies the test conditions for the equipment.
It includes the ambient conditions of 75° F dry bulb and 55% RH. It also specifies the door opening requirements for the performance test. Doors are opened six times in one hour for 6 seconds. The door opening test period is for 8 hours during one 24-hour performance test. As an example a 5-door case will have 240 door openings during one 24-hour test.
Consult the factory if your store exceeds these test conditions.
DELIVERY INSPECTION
These display cases were carefully factory-tested, inspected and properly packed to ensure delivery in the best possible condition.
The equipment should be uncrated and checked for damage immediately upon delivery. DAMAGE MUST BE NOTED AT TIME
OF DELIVERY AND ALL CLAIMS FOR DAMAGES MUST BE
FILED WITH THE TRANSPORTATION COMPANY - NOT WITH
ZERO ZONE. The carrier will supply necessary report and claim forms.
PACKAGING
Each case in a line up is labeled to identify the line up and joint.
The label uses a number and letter designation. The number indicates the lineup. The letter indicates the case joint. Case joints begin with the letter A at the left most joint in the lineup, when looking at the front of the line up. The joint for two cases has the same number-letter designation (Figure 1). Back to Back cases have a unique designation. The left most joint in the lineup when looking at the front of the case is labeled 1-A. The joint on the back of the case is 1-A1 (Figure 1).
Insulated dividers are factory installed to separate low and medium temperature cases. They are also used to join different case models. Factory installed “Plexi” glass dividers separate refrigeration circuits.
The first case in the line up (with it’s right side labeled A) has a packet attached to the door handle that contains the manual, special instructions for installing ordered options, and touch up paint if the cases are custom painted Every other case in the line up has a packet attached to the door that contains the specific information for that case. The packing slip is taped to each case’s right hand door.
Bumpers and kick plates are shipped on top of the case. Shelves for the case are tie wrapped and blocked into the individual cases.
Other accessories like, drain traps, drain pans, condensate evaporating pans, and hat channels are shipped in the case that require the parts.
Materials for joining cases include caulk, joining bolts, splices and
T or J strips. These parts are supplied in cases that have a leftside insulated divider or no left end. The parts are bagged and taped to the coil covers. The T and J strips are tied to the shelves.
LOCATION
These cases must not be installed in the direct rays of the sun or near a source of radiant heat.
Be certain that the floor under the installation is of sufficient strength to prevent sagging. Out of level conditions will result in reduced performance.
Wall cases (cases set with a back to a wall) and cases set back to back, should be positioned to allow a minimum 2 - 4 inch space behind the back of the unit(s). This will allow necessary air to circulate behind the display case(s). Higher humidity stores with minimal air circulation require a 4” gap.
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 1. Case label information
5
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
INSTALLATION
Leveling (Figure 2)
Cases must be installed perfectly level to allow efficient operation of the refrigeration coils and complete drainage of defrost water. Since a level area is seldom available, the following steps are recommended to insure a level installation.
1.
Measure off and mark on floor the exact dimensions of the case lineup. (Check blueprints).
2.
Snap a chalk line at the locations for the front and back positions of the base rails.
3.
Mark locations of all joints (front and back).
4.
Using a laser or transit, find the highest point along both base rail position lines. Using the high point as a reference, mark the difference directly on the floor to each joint (front and back).
5.
If you plan on using optional hat channels to raise the case height, place them under each pair of bases. The
3 and 4 door hat channels will be angled slightly to support the front and rear bases. (Figures 3 & 5).
6.
Place the required number of shims under each base or optional hat channel at each joint (front and back) to equal the highest point.
The RVZC/P30 and 24, 2 through 5 door cases, have segmented bases mounted at the ends and under the center section of the case. The RVZC 1 door and BB have full bases that run front to back and are located at the ends and under the center sections of the case. The
RVZC WA & WB have segmented bases that run front to back.
Tape all shims in place (Figure 2). Figure 4 shows the correct orientation of shims under the base or channel.
7.
Place additional support shims under all other bases or hat channels (Figures 5A, 5B & 5C).
8.
If you’ve purchased seismic restraints, specific instructions for attaching those restraints are included in your document package. These instructions should be read and followed before the line up is assembled.
9.
For alternate installation methods visit www.zero-zone.com.
A. Measure and mark exact case outline
B. Mark floor level differences
Case F ron t
Cas e F ro nt
C. Shim joints to equal highest points
Figure 2: Leveling cases prior to joining
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Base
Shim
Hat section
Figure 3: Typical hat channel locations
Shim
Base
0407
Base
Both corners of the base must be supported by shims to prevent base buckling
Figure 4: Shims under bases and case
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
1 Door Case
Back-to-Back Wrap Around Case (WB)
Figure 5A: All base locations
Wrap Around Case (WA)
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 5B: All base locations
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 5C: All base locations
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
CASE MOVEMENT
The BB cases are shipped with wood planks that allow the use of pipe rollers. These wood planks should be removed after the case is moved to its final location (Figure 6).
The RVC/P and BB cases have steel protective support plates under the ends (not under insulated dividers). These are designed to protect the end from Johnson bar damage.
Only experienced certified fork truck drivers should use fork trucks to move the cases. The case should only be lifted off the floor as high as necessary for transport. The fork truck should be driven slowly avoiding any abrupt motions or bumps.
The following fork lift dimensions must be maintained to avoid damaging the case when it is lifted.
2-DOOR CASES:
Use the following methods to move the cases.
Model
RVC/P 30 & 24
Fork lift Johnson Furniture Pipe Safe (case) from ends bar dolly rollers jacks
RVC WA & WB
RVC/P BB
*
Forks must extend from 26” to no more than 30” under the case.
3-DOOR CASES:
Use 48” long Forks!
Forks must extend from 39” to no more than 43” under the case.
4 & 5 DOOR CASES:
* Fork lift from rear
Care should be taken when moving the cases. The doors should be secured so they cannot open while the case is moved.
Use 48” long forks!
Forks must extend from 44” to 47” under the case.
Fork blades wider than 4 inches will not fit in the bases.
Spacer blocks are factory installed in the end bases of 4 and 5 door cases that use 4 1/2” bases (Figure 7). These blocks limit the cases forward tilt while it is being lifted and must be used when lifting 4 or 5 door cases with 4 1/2” bases.
For low shipping height applications, Zero Zone has optional expandable bases. As shipped, the base is 1¾” tall. It is attached with spacers that allow the base to slide away from the bottom of the case creating a gap that allows the use of a
1½” thick fork truck blade (Figure 8).
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Figure 6: Removing wood planks
0407
Figure 7: Wood block inside base
Spacers
Figure 8: Expandable base
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
LINE UP ASSEMBLY
1.
Set the first Reach-In into the desired position and level it. Run a 1/4” to 3/8” diameter bead of Butyl caulk 1/2” in from both the inner and outer surfaces of the case end. (Figure 9).
2.
Push the second Reach-In against the end of the first.
Level the second Reach-In. Remove the left and right end coil covers and the rectangular pocket hole covers, accessing the holes in the end frames of each case as shown. The bolt kit supplied with the cases includes diagrams of these locations. Install tee strips between the door frames at case joints (See Figure 10). Use the special screws and nuts provided.
3.
Start the joining bolts, but do not tighten them. Begin tightening the bolts at the top rear, working down the back of the case and up the front making sure that the front seams are flush.
4.
For NSF case installation, the interior case seams need to be sealed using NSF approved caulk (not supplied)
(Figure 11).
5.
The end panel protector support plates should be removed after the cases are set in their final position.
Figure 10: T-Strips
DO NOT APPLY EXCESS AMOUNTS OF BUTYL SEALANT THAT WOULD CAUSE IT TO SQUEEZE ONTO END
FRAME METAL AREAS. Caulk-sealant used to join cases and complete the sealing requirements for NSF compliance should not come in contact with butyl sealant. Apply to clean, dry surfaces free of contaminants that adversely affect adhesion and could change color of sealant joint areas over time.
B
A
Procedure for Joining Cases
1/4" - 3/8" TYPICAL
BUTYL SEALANT
BEADS
These procedures are critical! Failure to follow these guidelines will result in a poorly functioning case. This is especially true of freezers.
DETAIL A
SCALE 1 : 5
DETAIL B
SCALE 1 : 5
1/4" - 3/8" TYPICAL
BUTYL SEALANT
BEADS
1.
Apply two 1/4” to 3/8” wide beads of Butyl sealant, 1/2” in from the inside and outside edges of foamed insulated ceiling, rear wall, base and door frame to be joined. Apply to only one case joint to avoid excessive amounts of Butyl sealant that would squeeze out of the joint. Sealant is not applied to the structural steel end frames. After cases are joined, caulk the top and back exterior seams (if possible) at this time.
2.
When joining ends of cases, caulk sealant should be applied in the same like manner for joints.
0407
If 4 shipping blocks are installed to inside of base ends, remove them to comply with NSF.
Figure 9: Caulking cases to be joined
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Figure 11: Required sealing for NSF approved installations
DRAIN LINE
The drain is located at the center of the case in the floor pan.
The drain can be reached by removing the center coil covers and then removing a fan motor. The 1” PVC drain outlet is located at the center front of the case behind the kick plate.
Install the tee to the outlet pipe and a drain trap to the tee. Plug the open end of the tee using the clean-out plug supplied with the drain trap kit. The drain line must be pitched away from the case. The tee, drain trap and plug are supplied with the case.
The factory installs a drain support at the front of the case on all 30" door cases. We supply a trap support that is field mounted to the case (Figure 12). The drain trap must be
level. The drain trap should be primed with water after installation.
0407
Figure 12: Trap Support
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
BUMPER AND KICK PLATE
A custom Zero Zone bumper is standard on all case models and should be installed at the bottom front of the case. Various bumper styles are available (Figure 13). The assembly is adjustable to compensate for uneven floors. The bumper end filler is factory installed on bumpers for cases with end panels that do not include Euro trim.
Installing End Kick Plate (Figure 14)
The end kick plate attaches to the small black bracket attached to each side of the case with an end. The kick plate can be adjusted vertically to match the height of the floor below it.
1.
Attach a Tinnerman clip to the side bumper support.
2.
Place the side kick plate against the Tinnerman clip on the side bracket.
3.
Install the black 3/4” screw through the side kick plate and into the Tinnerman clip. A scratch-awl or similar tool can be used to line up the holes.
4.
The front of the side kick plate is located behind the front kick plate and attached with screws to the front kick plate.
Installing Bumper (Figure 14)
The front kick plate and bumper attaches using 1½” screws attached to brackets located on the front of the case. The kick plate can be adjusted up and down to fit the height of the floor below it.
1.
Starting from the left end of the lineup, attach a Tinnerman clip to each bumper support. Locate them over the hole for a plastic bumper, and over the slot for an aluminum bumper.
2.
Attach the kick plate splice to the right side of the kick plate using the ¾” screw in the lower hole.
3.
Lean the kick plate against the bumper support.
4.
Hang the bumper on the case. The kick plate should be located behind the bumper.
5.
Install the black 1½" screw through the bumper, kick plate, kick plate splice and into the Tinnerman clip. A scratch-awl or similar tool can be used to line up the holes.
6.
Follow these steps to install the next bumper in the lineup. A bumper splice (provided) should be installed between the two cases. Center the splice and adjust the height so the decorative tape (if applicable) lines up.
Using self-tapping screws (provided), attach the upper portion of the splice using the predrilled holes in the splice. Then with two more screws, attach the lower half.
0407
Figure 13: Other style bumpers
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
VZ CASE
END KICKPLATE
KICKPLATE
BUMPER END
BUMPER
BUMPER SPLICE
BUMPER END
Figure 14: Installing bumper and kick plate
UNDER CASE RETURN AIR FLOW ASSEMBLY
INSTRUCTIONS
To assemble the bumper for under case return airflow, a spacer
(provided) must be inserted between the bumper and kick plate
(Figure 15). The spacer is held in place with the standard black assembly screw used to attach the bumper. One 3/8” spacer is required at each screw location (2 spacers on a 2-door, 3 spacers on a 3-door).
1.
To ease installation, hook the bumper to the case and position the kick plate. Then pull the bottom edge of the bumper forward, hold the spacer in place, and then insert the assembly screw through the bumper, spacer, kick plate, bumper bracket and into the Tinnerman clip.
2.
With the spacers in place, air will be allowed to flow between the bumper and kick plate and then underneath the case. The target airflow rate under the case should be 50 cfm/door.
END KICKPLATE
0407
16
Figure 15: Bumper air flow
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
REFRIGERATION
Fill in area with foam after installation
General
Unless otherwise specified, the liquid and suction connections are made inside the case under the evaporator fan/coil cover.
Refrigerant piping may enter the case through the front left bottom, the left rear bottom of case or the left rear top of case.
The copper pipe should not touch or rub on the edges of the sheet metal. After connections have been made, the refrigeration access hole in the case must be sealed completely with aerosol-dispensed Urethane insulation or equivalent (i.e.: Great
Stuff). Penetrations made in sheet metal baffles should also be sealed (Figure 16).
Refrigerant Piping
Correct refrigeration line sizing and installation is essential for proper system operation (Figure 17A & 17B). A P-trap must be installed at the bottom of all vertical suction risers (Figure 18).
Various risers are available as a factory installed option.
Seal sheet metal perforation
When two or more case sections are connected to one compressor, the main liquid and suction line for the group should be run through the cases and be brought out through the refrigeration outlet of one case only. The factory recommends one riser per circuit/system for hot gas defrost when using top back refrigeration exit. Circuit risers are available as a factory installed option. On 30" wide door cases with suction lines over
1-3/8” diameter, a P-trap made with 45° elbows is required
(Figure 18). A piping chase in front of the fan shroud allows the refrigerant lines to be run through the right or left end frame.
Piping should not be placed near the electric defrost heaters.
The defrost heaters on the 30" door cases will grow one inch to the left of the coil when they reach operating temperature.
The compressor should be installed as close as possible to the cases to reduce pressure drop. Install a shallow trap at the bottom of the riser.
The suction and liquid lines may be taped together to form an external heat exchanger. Insulate the tubing for at least 20 feet from the case outlet.
A low pressure or temperature control can be used to control case temperature. The control should be selected with adequate contact capacity for the switching load. In rack systems, an evaporator pressure-regulating valve may be used to control the evaporating temperature.
The settings (See Figure 19) are approximate due to variations in gauge accuracy, differences in compressor efficiency, line pressure drop and super heat settings. Before making adjustments for store or stocking conditions, make sure the super heat is set between 6°F and 10°F. Close coupled systems typically run at the higher end of this range to avoid flood back.
Fill in area with foam after installation
Figure 16: Penetration sealing
The best location for the liquid line drier is inside the freezing compartment. However, it may be installed near the compressor for easy maintenance. Install moisture indicating sight glass at the outlet end of the drier.
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
R-404 Line Sizing Tables for Zero Zone VZ Frozen Food Freezer (-7°F Evaporator Temperature)
Liquid Line Sizing - Electric Defrost*
Up to 50 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
Up to 100 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
From
0
To
7,300
7,310 15,000
15,010 27,300
27,310 64,600
Liquid Line
1/4
+
5/16
+
3/8
1/2
From
0
To
4,970
4,980 10,300
10,310 18,700
18,710 44,300
Liquid Line
1/4
+
5/16
+
3/8
1/2
Up to 150 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
From To
0
3,970
3,960
8,150
Liquid Line
1/4
+
5/16
+
8,160 14,900
14,910 35,500
3/8
1/2
64,610 122,000 5/8 44,310 83,200 5/8
* For hot gas defrost, use a liquid line one size larger than shown.
35,510 66,700
66,710 111,000
∆
For 1°F pressure drop, multiply rated Btuh by 1.45 before using the Liquid Line Sizing Table.
+
Larger liquid line size may be used (such as 3/8), if preferred.
†
3/4 liquid line may be used to reduce cost.
5/8
7/8
†
Up to 200 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
From To
0
3,380
3,370
6,940
Liquid Line
1/4
+
5/16
+
6,950 12,700
12,710 30,300
3/8
1/2
30,310 56,900
56,910 94,800
5/8
7/8
†
Liquid Correction Factors for Liquid Line Sizing Table - Use Maximum Liquid Temperature
For maximum liquid temperatures other than 90°F, multiply rated BTU by liquid correction factor before using the Liquid Line Sizing Table.
Maximum Liquid Temperature:
Liquid Correction Factor:
40°F
0.96
50°F
0.95
60°F
0.95
70°F
0.95
80°F
0.97
90°F
1.00
100°F
1.05
110°F
1.12
120°F
1.21
Suction Horizontal Line Sizing
Up to 50 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From To
0
1,740
4,110
1,730
4,100
7,700
7,710 12,800
Horizontal
3/8
++
1/2
++
5/8
++
7/8
†
7/8
1-1/8
1-3/8
Up to 100 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From To
0
1,190
2,820
5,290
1,180
2,810
5,280
8,780
8,790 14,000
14,010 28,200
28,210 49,200
Horizontal
3/8
++
1/2
++
5/8
++
7/8
†
7/8
1-1/8
1-3/8
Up to 150 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From To
0
950
940
2,240
Horizontal
3/8
++
1/2
++
2,250
4,230
4,220
7,030
5/8
++
7/8
†
7,040 11,200 7/8 12,810 20,300
20,310
41,010
41,000
71,400
11,210 22,700
22,710 39,500
1-1/8
1-3/8
71,410 113,000 1-5/8 49,210 77,800 1-5/8 39,510 62,500 1-5/8
62,510 130,000 2-1/8
‡
For 1°F pressure drop, multiply rated BTU by 1.44 before using the Suction Horizontal Line Sizing Table.
++
Larger suction horizontal line size may be used, if preferred.
†
3/4 horizontal suction line may be used to reduce cost.
Up to 200 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From To
0
810
800
1,910
Horizontal
3/8
++
1/2
++
1,920
3,610
3,600
6,000
5/8
++
7/8
†
6,010 9,530 7/8
9,540 19,400
19,410 33,800
33,810 53,500
53,510 112,000
1-1/8
1-3/8
1-5/8
2-1/8
Liquid Correction Factors for Suction Horizontal Line Sizing Table - Use Maximum Liquid Temperature
For maximum liquid temperatures other than 90°F, multiply rated BTU by liquid correction factor before using the Liquid Line Sizing Table.
Maximum Liquid Temperature:
Liquid Correction Factor:
40°F
0.72
50°F
0.76
60°F
0.81
70°F
0.86
80°F
0.92
90°F
1.00
100°F
1.09
110°F
1.21
120°F
1.37
Suction Vertical Riser Sizing
Maximum Allowable Riser Size For Adequate Oil Return*
70°F Minimum Liquid Temperature, using 0.35 PSI Per 100 Feet (per 2006 ASHRAE Handbook - Refrigeration).
For rated Btuh:
From To Vertical
1,360
2,560
4,280
2,550
4,270
6,790
6,800 13,900
1/2
5/8
5/8
†
7/8
It may be necessary to make adjustments to compensate for special situations which cause the actual Btuh to differ from the rated Btuh of the cases.
All liquid line and suction line sizes are inches, refrigeration O.D.
13,910 24,300 1-1/8
Subject to change without notice.
24,310 38,400
38,410 80,000
1-3/8
1-5/8
80,010 142,000 2-1/8
* If horizontal line size is smaller than specified vertical riser size, the smaller size may be used for both.
†
3/4 suction riser may be used to reduce pressure drop.
Liquid Correction Factors for Suction Vertical Riser Sizing Table - Use Minimum Liquid Temperature
CCR, 4/4/07
Multiply rated BTU by liquid correction factor before using the Suction Vertical Riser Sizing Table.
Minimum Liquid Temperature:
40°F 50°F 60°F 70°F 80°F 90°F
Liquid Correction Factor:
0.84
0.88
0.94
1.00
1.07
1.16
100°F
1.27
SP-0612-01, Rev A
Figure 17A: Refrigeration line sizing - Frozen Foods
18
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
R-404 Line Sizing Tables for Zero Zone VZ Ice Cream Freezer (-16°F Evaporator Temperature)
Liquid Line Sizing - Electric Defrost*
Up to 50 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
Up to 100 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
From To
0 7,090
7,100 14,600
14,610 26,500
26,510 62,800
Liquid Line
1/4
+
5/16
+
3/8
1/2
For rated Btuh:
From To
0
4,840
4,830
9,930
9,940 18,200
18,210 43,100
Liquid Line
1/4
+
5/16
+
3/8
1/2
Up to 150 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
From To
0
3,860
3,850
7,930
Liquid Line
1/4
+
5/16
+
7,940 14,500
14,510 34,500
3/8
1/2
62,810 117,000 5/8 43,110 80,900 5/8 34,510 64,800 5/8
* For hot gas defrost, use a liquid line one size larger than shown.
64,810 108,000
∆
For 1°F pressure drop, multiply rated Btuh by 1.45 before using the Liquid Line Sizing Table.
7/8
†
+
Larger liquid line size may be used (such as 3/8), if preferred.
†
3/4 liquid line may be used to reduce cost.
Up to 200 equivalent feet
90°F Liquid, 2°F Pressure Drop
Δ
For rated Btuh:
From To
0
3,280
3,270
6,750
Liquid Line
1/4
+
5/16
+
6,760 12,400
12,410 29,400
3/8
1/2
29,410 55,400
55,410 92,100
5/8
7/8
†
Liquid Correction Factors for Liquid Line Sizing Table - Use Maximum Liquid Temperature
For maximum liquid temperatures other than 90°F, multiply rated BTU by liquid correction factor before using the Liquid Line Sizing Table.
Maximum Liquid Temperature:
Liquid Correction Factor:
40°F
0.95
50°F
0.94
60°F
0.94
70°F
0.95
80°F
0.97
90°F
1.00
100°F
1.05
110°F
1.12
120°F
1.23
Suction Horizontal Line Sizing
Up to 50 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
Up to 100 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From
0
1,430
3,370
To
1,420
3,360
6,300
6,310 10,500
Horizontal
3/8
++
1/2
++
5/8
++
7/8
†
For rated Btuh:
From
0
980
2,300
4,330
To
970
2,290
4,320
7,180
Horizontal
3/8
++
1/2
++
5/8
++
7/8
†
Up to 150 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From To
0
780
770
1,840
Horizontal
3/8
++
1/2
++
1,850
3,460
3,450
5,750
5/8
++
7/8
†
5,760 9,120
9,130 18,600
7/8
1-1/8
10,510 16,600
16,610 33,600
7/8
1-1/8
7,190 11,400
11,410 23,100
7/8
1-1/8
33,610 58,400
58,410 92,300
1-3/8
1-5/8
23,110
40,310
40,300
63,700
1-3/8
1-5/8
18,610
32,410
32,400
51,200
1-3/8
1-5/8
63,710 132,000 2-1/8 51,210 107,000 2-1/8
‡
For 1°F pressure drop, multiply rated BTU by 1.44 before using the Suction Horizontal Line Sizing Table.
++
Larger suction horizontal line size may be used, if preferred.
†
3/4 horizontal suction line may be used to reduce cost.
Up to 200 equivalent feet
90°F Liquid, 2°F Pressure Drop
‡
For rated Btuh:
From To
0
670
660
1,560
Horizontal
3/8
++
1/2
++
1,570
2,960
2,950
4,910
5/8
++
7/8
†
4,920 7,790
7,800 15,900
7/8
1-1/8
15,910 27,700
27,710 43,800
43,810 91,000
1-3/8
1-5/8
2-1/8
Liquid Correction Factors for Suction Horizontal Line Sizing Table - Use Maximum Liquid Temperature
For maximum liquid temperatures other than 90°F, multiply rated BTU by liquid correction factor before using the Liquid Line Sizing Table.
Maximum Liquid Temperature: 40°F 50°F 60°F 70°F 80°F 90°F 100°F 110°F
Liquid Correction Factor:
0.72
0.76
0.80
0.86
0.92
1.00
1.10
1.22
120°F
1.38
Suction Vertical Riser Sizing
Maximum Allowable Riser Size For Adequate Oil Return*
70°F Minimum Liquid Temperature, using 0.35 PSI Per 100 Feet (per 2006 ASHRAE Handbook - Refrigeration).
For rated Btuh:
From To Vertical
1,210 2,280 1/2
2,290
3,820
3,810
6,050
6,060 12,400
5/8
5/8
†
7/8
It may be necessary to make adjustments to compensate for special situations which cause the actual Btuh to differ from the rated Btuh of the cases.
All liquid line and suction line sizes are inches, refrigeration O.D.
Subject to change without notice.
12,410 21,600
21,610 34,300
1-1/8
1-3/8
34,310 71,300 1-5/8
71,310 127,000 2-1/8
* If horizontal line size is smaller than specified vertical riser size, the smaller size may be used for both.
†
3/4 suction riser may be used to reduce pressure drop.
Liquid Correction Factors for Suction Vertical Riser Sizing Table - Use Minimum Liquid Temperature
Multiply rated BTU by liquid correction factor before using the Suction Vertical Riser Sizing Table.
Minimum Liquid Temperature:
40°F 50°F 60°F 70°F 80°F 90°F
Liquid Correction Factor:
0.83
0.88
0.94
1.00
1.08
1.17
100°F
1.28
CCR, 3/29/07
SP-0612-02, Rev A
Figure 17B: Refrigeration line sizing - Ice Cream
19
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Figure 18: 45° elbow suction line
Temperature Control Adjustment
When factory installed, the temperature control is located toward the right end of the case behind the black kick plate. The sensing bulb is located under the coil cover on the back side of the fan shroud. It can be wired in series with the low-pressure
(L.P.) control. It can also be used in a pump down system by wiring it in series with the liquid solenoid valve. A thermostat is shown in Figure 20.
Discharge air temperature probes for electronic case controllers may be installed in many different customer specified locations including, but not limited to, honeycomb, ceiling pocket cover, rear wall, and return air.
Leak Check-Evacuation-Charging
After all of the refrigeration piping and system components have been assembled, the entire system must be pressurized and checked for leaks.
When the system is leak free, evacuate with a deep vacuum pump. Triple evacuation to a minimum of 500 microns and nitrogen sweep is recommended. After the system has been thoroughly evacuated of all moisture and non-condensable gas, charge the system with the proper refrigerant, using “hi-side/ low-side” charging techniques.
R 404a Frozen Food
RACK SYSTEMS
VZ and VZT 30” door
Evaporator temp -7°F
R 404a Ice Cream
RACK SYSTEMS
VZ and VZT 30” door
Evaporator temp -16°F
VZ 24” door and WA and WB VZ 24” door and WA and WB
Evaporator temp -11°F
CONDENSING UNIT
VZ and VZT 30” door
Evaporator temp -18°F
CONDENSING UNIT
VZ and VZT 30” door
Condensing unit cut in 35 psig Condensing unit cut in 27psig
Condensing unit cut out 24 psig Condensing unit cut out 16 psig
VZ 24” door and WA and WB VZ 24” door and WA and W
Condensing unit cut in 33 psig Condensing unit cut in 26 psig
Condensing unit cut out 21 psig Condensing unit cut out 15 psig
RETURN & DISCHARGE
AIR TEMPERATURE
Return air temp cut in +6°F
Return air temp cut out 0°F
RETURN & DISCHARGE
AIR TEMPERATURE
Return air temp cut in -3°F
Return air temp cut out -9°F
Discharge air temp cut in +3°F Discharge air temp cut in -3°F
Discharge air temp cut out -3°F Discharge air temp cut out -12°F
Note: These set points may require optimization for your applications to prevent short-cycling or delayed cycling.
Figure 19: Temperature settings
0407
20
Figure 20: Temperature control
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
ELECTRICAL
! CAUTION !
DISCONNECT POWER TO THE CASE
BEFORE SERVICING ELECTRICAL COMPONENTS TO
AVOID PERSONAL INJURY AND DAMAGE TO THE UNIT.
Figure 21 for 30” door cases and Figure 22 for 24” door cases shows the typical wiring diagram for a freezer equipped with electric defrost. Figure 23 shows the typical wiring diagram for a freezer equipped with hot gas defrost. Each case is provided with a wiring diagram located in the electric box that shows the exact wiring of the case.
There are many control options available for multiple case defrost systems. Wiring diagrams and instructions can be obtained by contacting Zero Zone’s Service Department.
External wiring should be sized according to the amperage rating stamped on the serial plate. The serial plate is located on the ceiling inside the left-hand door. Typical electrical values are shown on specification sheets for each of these cases in the bag attached to the case or are available at www.Zero-Zone.com. All internal wiring has been done at the factory. Cases with standard wiring have their control wires terminated in the electrical compartment located behind the kick rail at the right end of the case. A terminal block has been used to simplify field connections. An electrical box is mounted on the top of the unit for cases equipped with the optional top mount electrical connections.
All wiring must comply with the National Electrical Code and all local codes. After installation of the equipment, correct operation of the electrical circuits and controls and defrost operation and termination should be verified. All operating voltages and amperages should be measured and recorded.
OPTIONAL ELECTRICAL WIRING
Single Point Connection
The “single point” connection system is designed to reduce the time required to install and wire one display case with one condensing unit. Figure 24 is a typical diagram for this system.
All of the display case controls, including the disconnect switch, time clock, temperature control, and defrost temperature control are installed behind the kick plate and prewired. The liquid line solenoid valve is installed in the liquid line and wired.
The power to operate the display case is connected at the case disconnect switch. The power to operate condensing unit is connected in the condensing unit control panel. There are no interconnecting wires between the condensing unit and display case.
The controls operate the system as a pump down defrost.
When the display case begins defrost the liquid line solenoid valve, fans and anti-sweat heaters are de-energized. The defrost heaters are energized. The compressor continues to run and pumps down the coil. The compressor cycles off on its low-pressure control. If there is any residual liquid left in the coil, the suction line pressure will rise and the compressor may turn on and pump down the coil.
The liquid line solenoid is energized at the end of the defrost cycle and the defrost heaters are de-energized. The suction line pressure rises and the compressor starts. When the evaporator reaches operating temperature the delay thermostat (klixons) will close energizing the fans and anti-condensate door heaters.
Master Satellite Connection
The “master satellite” connection system allows one condensing unit to be connected to multiple cases. Figure 25 shows a typical diagram for this system.
All of the display case controls including the disconnect switch, time clock, temperature control, and defrost temperature control are installed behind the kick plate and prewired. The liquid line solenoid is prewired but is not installed in the liquid line.
The power to operate each display case is connected at each cases’ disconnect switch. The power to operate condensing unit is connected at the condensing unit. There are no interconnecting wires between the condensing unit and display case.
There are interconnecting wires that need to be connected between the cases. The liquid line solenoid valve needs to be installed in the common liquid line before the liquid is distributed to the cases.
The controls operate the system as a pump down defrost. When the display case begins defrost, the liquid line solenoid valve, fans and anti-sweat heaters are de-energized. The defrost heaters are energized. The compressor continues to run and pumps down the coil.
The master case contains the time clock. Interconnecting case wiring allows the master case to control the satellite cases.
When defrost is initiated in the master case, it sends an electrical signal to each case to energize the defrost relay and initiate a defrost in all of the satellite cases. A second set of interconnecting wires are connected in series between each of the cases. Each case defrost heater is de-energized when the coil reaches the defrost termination temperature. An additional signal is relayed to the next case indicating that the termination temperature has been reached. When all of the cases have reached termination temperature, the defrost termination circuit is complete and the defrost is terminated.
The liquid line solenoid is energized at the end of the defrost cycle and the defrost heaters are de-energized. The suction line pressure rises and the compressor starts. When the evaporator reaches operating temperature, the delay thermostat (klixons) will close, energizing the fans and anti-sweat door heaters.
0407
21
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 21: Electric defrost 30” wiring
22
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 22: Electric defrost 24” wiring
23
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 23: Hot gas wiring
24
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 24: Single point wiring
25
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
0407
Figure 25: Master satellite wiring
26
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
DEFROSTING
General
Periodic defrosting to keep the coil free of frost is accomplished automatically by a time clock used in conjunction with an electric or hot gas defrost.
For best results, temperature termination of defrost is strongly recommended on Zero Zone cases.
Defrost Settings and Controls
Temperature termination based on coil temperature allows the length of defrost to vary depending on how much frost is on the coil and the defrost heater voltage. Coil frost is a function of shopping patterns, stocking habits, general door maintenance and ambient temperature and humidity. More frost requires a longer defrost. A lower defrost heater voltage extends the defrost period.
Alternate Termination: If it is not possible to terminate the defrost cycle based on a defrost termination thermostat or probe sensing the temperature at the coil, and the only available temperature probe is sensing the discharge air temperature, then the termination temperature should be set to 65°F, zero minutes drip time.
Electric Defrost
Frequency: One electric defrost per day is recommended.
Time of day: Nighttime defrosting is preferred to avoid periods of shopping or stocking.
Duration:
Electric defrost does not require any drip time because Zero
Zone provides a built-in fan delay thermostat.
Electric defrost Fail-safe Times:
Zero Zone electric defrost freezers are delivered with the defrost thermostat open-on-rise contacts wired in series with the defrost heaters. Unless the installer rewires the defrost thermostat, the defrost heater is de-energized when defrosting is complete.
Zero Zone VZ and VZT 30” door electric defrost freezers are also equipped with a high-limit, snap-disc thermostat that deenergizes the defrost heater if the coil temperature exceeds
80°F to provide a secondary safety termination.
Ice Cream Frozen Food
VZ 30” door 1/day at 45 minutes 1/day at 45 minutes
VZT 30” door 1/day at 55 minutes 1/day at 55 minutes
VZ 24” door & 1/day at 54 minutes 1/day at 54 minutes
WA, WB
At ASHRAE test conditions and 208 volt defrost heater operation, the typical observed VZ 30” door defrost durations are 28 minutes for ice cream and 19 minutes for frozen food. At the same conditions, the typical observed VZT 30” door defrost durations are 39 minutes for ice cream and 26 minutes for frozen food. VZ 24” and WA and WB defrost durations are 43 minutes.
Preferred Termination: For optimal performance, Zero Zone recommends a temperature-terminated defrost, using a defrost termination thermostat or probe sensing the coil temperature.
Hot Gas Defrost
Frequency: One hot gas defrost per day is recommended.
Time of day: Nighttime defrosting is preferred to avoid periods of shopping or stocking.
Duration:
Hot gas defrost requires a 5 minute drip time.
Hot Gas Defrost Fail-safe Times:
Hot Gas
Reduced
Temperature
Gas
Ice Cream Frozen Food
1/day at 30 minutes 1/day at 30 minutes
5 minute drip 5 minute drip
1/day at 40 minutes 1/day at 40 minutes
5 minute drip 5 minute drip
The VZ and VZT 30” door case has the probe located at the right hand side of the coil in the center of the bottom row of tubes.
The VZ 24” door and WA and WB case has the probe located at the right hand side of the coil in the top row of tubes.
Preferred Termination: For optimal performance, Zero Zone recommends a temperature-terminated defrost, using a defrost termination thermostat or probe attached to the dump line.
If the case is so equipped, the defrost termination temperature is 50°F. Zero Zone provides a defrost termination thermostat unless a control system defrost probe is requested.
At ASHRAE test conditions, termination ranges from 12-22 minutes.
If the cases are so equipped, the defrost termination is 65°F.
Zero Zone provides a defrost termination thermostat unless a control system defrost probe is requested.
0407
27
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Electric Defrost Operation
The compressor stops when the defrost is initiated in a nonpump-down system. On pump-down systems, the liquid line solenoid will be de-energized when the defrost is initiated. The clock will energize the 208/230 volt defrost heater, and energize the normally closed 208/230 volt contactor or relay. This de-energizes the 115-volt fans, lights and anti-sweat heaters. If you don’t have a light circuit limit thermostat, the lights will not de-energize.
•
•
The refrigeration technician should recheck coil condition after one week of retail operations to be certain that the frequency and duration of defrost is adequate for the particular store and locality. For example, if defrost voltage is below
200 volts, additional fail-safe time may be required.
When using time terminated defrost, defrost termination thermostat should be wired in series with the defrost heater.
After the defrost period, the compressor will operate. When the coil temperature reaches +5°F, the fan, light and anti-sweat heater limit thermostats (Klixons) will close, starting the fans, lights and anti-sweat heaters.
Gas Defrost Operation
Several types of gas defrost methods in conjunction with time actuated, time or temperature terminated defrost timers can be used to defrost the evaporator.
The refrigeration system designer and installer are responsible for correct line sizing for effective gas defrost and liquid return from the freezers. Sizing and component selection depend on the type of defrost, size, and location of high side refrigeration system.
Zero Zone freezers equipped for gas defrost consist of a side port distributor and a TXV check valve for coil defrost, and a suction line check valve to bypass hot gas to the serpentine coil. The serpentine coil is attached to the bottom of the pan to ensure pan and drain defrost.
The timer starts the gas defrost cycle by energizing a solenoid, reversing valve, or directional valve. The gas is injected from the source into the suction line of the evaporator to be defrosted. The gas flows into the serpentine coil attached to the floor of the case and then into the evaporator. Condensed liquid leaves the evaporator through the side port distributor, through a check valve into the liquid line. (Figures 28 & 29).
General Notes
•
•
Defrost termination thermostats may be wired in series for multiple evaporator installations.
Defrost termination thermostats may be used as a digital input for electronic controllers.
Limit Thermostat
Each freezer has factory set limit thermostats (Klixons) attached to the return bends of the coil on the right end of the freezer to regulate the operation of the evaporator fans and anti-sweat door heaters. A limit thermostat is optional for the light circuit.
When a limit thermostat is provided in the lighting circuit, the lights will be off during defrost.
IMPORTANT! OPERATION OF THE LIMIT THERMOSTATS
CAUSES THE EVAPORATOR FANS, FREEZER LIGHTS, AND
ANTI-SWEAT DOOR HEATERS TO REMAIN OFF UNTIL THE
COMPRESSOR IS OPERATING AND THE COIL TEMPERA-
TURE IS BROUGHT BELOW THE THERMOSTAT CUT-IN SET-
TING (+5°F ). SUPERHEAT MUST BE SET CORRECTLY BY
THE INSTALLING CONTRACTOR FOR PROPER THERMOSTAT
OPERATION.
When the freezer first operates, the fans and lights may cycle off and on a few times until coil temperature is below +5°F.
The superheat must be set for proper operation.
The 30” door models have a high limit thermostat installed on the coil return bend, wired in series with the defrost heaters.
This thermostat opens when the temperature reaches 80° F.
0407
28
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Figure 26: 30” Electric
0407
Figure 27: 24” Electric
29
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
Figure 28: Coil 30” Hot gas
0407
Figure 29: Coil 24” Hot gas
30
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
USER INFORMATION
Cleaning
The case should be thoroughly cleaned before start-up and routinely thereafter to maintain a clean appearance. Use mild detergent and warm water (never an abrasive cleaner) to wipe out the inside of the case. Wash down all glass doors with glass cleaner. Do not use any products containing silicon on anti-fog glass coatings. Clean interior glass reduces fogging and increases visibility. The case will remain bright and sparkling with just a few minutes of cleaning each week. Internal components can be cleaned after removal of access panels. The case drain should be regularly cleared of debris and price tags.
Light Switch
The light switch is located inside the right hand door. Turn the light switch off during the initial case temperature pull down to prevent the case lights from cycling off and on. Always turn the lights off when replacing lamps.
Case Thermometer
The cases are shipped with 2 thermometers. One thermometer is factory mounted in the discharge air stream. The second thermometer is shipped loose and should be installed in the warmest product location. Specific instructions are packaged with the shipped loose thermometer.
Do not use high-pressure water or steam to clean the interior.
Shelf Location
The shelves are adjustable in 1” increments on cantilever shelf cases and 1/2” increments on pilaster cases and may be located in any position for best display advantage.
Be sure shelf clips or brackets are completely seated before installing the shelf.
The shelf brackets are stamped with “R” for Right and “L” for left to aid installation.
Shelves
Zero Zone manufactures many different styles of shelves, baskets and product stops. The shelves and baskets are placed on the shelf brackets or on pilaster shelf clips. Baskets used in place of shelves in a pilaster case are deeper than the shelves used at the bottom of the case. Some of the baskets may be reversed and used as a typical shelf.
Loading the Case
The case may be loaded with merchandise after it has been operated for at least 24 hours with correct case temperature and proper control operation. While loading the shelves, leave an air space between the top of the merchandise and the shelf above it so the customer can remove the merchandise. The air space allows an air curtain on top of the product. Product should not extend beyond the front of the shelves or block the return air grill.
The shelf loads are as follows:
Cantilever typical load 170 lbs.
maximum load 235 lbs.
Pilaster typical load 180 lbs.
Some deflection may occur under higher loads.
maximum load 250 lbs.
SERVICE
See Figures 26 and 28 for the typical component layout of the
30" door case. See Figures 27 and 29 for the typical component layout of the 24" door cases.
The cart bumper must be removed to gain access to the drain clean out and electrical connection. Disassemble the bumper and kick rail by removing the 2 or 3 metal screws located in the kick rail. The bumper assembly can be lifted up and removed from the case. The kick plate can be removed, exposing the electric tray cover and drain (Figure 14).
Evaporator
The evaporator coil, located at the rear bottom of the case, is factory assembled with distributor, expansion valve, and other refrigeration components. To inspect the coil, remove the center or left of center coil cover. A small inspection port is located at the rear of the case. To inspect the entire coil, remove the remaining coil covers and raise the evaporator cover.
Expansion Valve
Unless otherwise specified, a superheat adjustable externally equalized thermostatic expansion valve with a removable strainer and pressure limiting charge is mounted to the evaporator coil. The valve is not preset. Adjust the superheat setting for maximum coil effectiveness. Typical superheat settings are between 6°F and 10°F. Close coupled systems should use the higher superheat setting to minimize the chance of liquid flood back. To adjust the expansion valve, remove the right end coil cover. Remove the cap from the bottom of the valve. When looking at the valve stem end, turn the valve stem counter-
clockwise to decrease superheat. Turn the valve stem clock-
wise to increase super heat. Measure the suction line temperature at the expansion valve-sensing bulb and compare it to the suction temperature corresponding to the saturated pressure. Make sure that line pressure drop is taken into account.
Turn the valve stem only 1/4 turn at a time and allow sufficient time (20 to 30 minutes) for the valve to settle before making
0407
31
RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24
any further adjustments. Replace the valve stem cap after the valve super-heat has been adjusted. BE CERTAIN THE VALVE
STEM CAP IS WIPED DRY FIRST.
! CAUTION !
DISCONNECT POWER TO THE CASE
BEFORE SERVICING ELECTRICAL COMPONENTS TO
AVOID PERSONAL INJURY AND DAMAGE TO THE UNIT.
Defrost Heater Element
On 30" door cases one heater is located on the front of the coil and one on the rear of the coil (Figure 25). On 24" door cases and wraparound cases, the heater element is located under the coil (Figure 26). The electric wire leads are connected in the junction box behind the front kick rail.
Heater Element Removal
motors having the same characteristics including type, physical size, wattage and RPM.
Air Curtain Velocity
Air curtain velocity is affected by stocking levels, coil frost loads, temperature and fan condition. The measurement method also affects the reading. Zero Zone recommends using an Alnor Velometer Jr., set to the 0-to-800 fpm range.
Air velocity should be measured at the back edge of the discharge air honeycomb, at the center of the middle door in the case (other doors have slightly lower velocity). A typical
VZ velocity reading is 425 feet per minute in a fully-packed freezer, after the freezer has defrosted and pulled down to operating temperature. A typical VZT velocity reading is 400 feet per minute under the same conditions. Air curtain velocity in a partially-packed freezer is significantly lower because more air exits the back wall duct holes.
Front and rear heater location (VZ and VZT 30” door)
The defrost heaters are located on the front and rear face of the coil. The front heater is located approximately 1" off the floor and the rear heater is approximately 2" off the floor. The heater is secured to the coil by a number of stainless steel heater retaining clips. Heaters are fastened to the floor on the right hand side of the coil. Remove fasteners holding the heater to the floor.
Fan Removal
1.
2.
3.
Turn off power to fans. Remove coil cover.
Unplug fan from fan power supply plug located on the front face of the fan housing.
Remove the fan blade nut and fan blade.
4.
Remove the two mounting bolts and remove the fan assembly from the fan housing.
The front heater can be removed by pulling the retaining clip away from the coil and sliding the heater out from under the clip.
The rear heater can be removed by raising the heater retaining clip. Raise each clip about 2 inches above the coil working from right to left on the coil. Repeat this process until the retaining clips are free of the coil. The heater will slide up with the retaining clip.
5.
6.
Remove the three fan motor mounting screws from the back of the fan motor.
Reverse steps 1 - 5 to install.
Ballasts — 1-Door, WA and WB
Most Zero Zone case ballasts are located in the door mullion.
Ballasts for the 1 door, WA & WB, are located behind the kickplate.
Under coil location (VZ 24” and WA and WB door)
To remove the defrost element, remove the coil covers. Lift the inner coil cover upward and tip the fan housing forward. This will expose the coil. Remove both fan housing end brackets and center coil supports, then slide out the complete heater pan assembly from under the coil. Slowly lift the heater pan assembly between the coil and fan housing, turning it on edge while lifting.
Fluorescent Lighting
T-8 lighting is standard on all cases. These systems use a lens to direct light output evenly across the shelves. Turn off power before servicing the lamps. The lens must be removed to access the lamp. The lens must be replaced after servicing for proper operation. Detailed information is contained in the door instruction booklet.
Heaters are installed in the reverse order of how they were removed.
Evaporator Fans
Air is circulated throughout the case with 115-volt low temperature fan motors. These motors must be operating at all times except during defrost. Fan motors should be replaced with
Optional Lighting
When optional lighting systems (LED, fiber optic) are supplied, separate instructions are supplied with the case.
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RVZC30 (and BB/T/TBB/WA), RVZP30 (and BB/T/TBB/WA), RVC24

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Key features
- Thickest insulation in the industry
- High efficiency evaporator coil
- Brushless D.C. electronic motors or PSC or shaded pole fan motors
- T-8 fluorescent lamps
- LED lighting or fiber optic lighting
- Standard-energy, low-energy or no-energy doors
- NSF 7 certified