Scotsman ECLIPSE CME810, ECLIPSE CME686 User Manual

Introduction:
This manual covers the assembly, installation, start up, operation and maintenance of the 600, 800 and 1000 remote low side cuber systems.
Table of Contents
Eclipseä 600, 800, 1000
Cabinet Drawings, Ice Making System ···· Page 5
Cabinet Drawings, Compressor Package and Condensers ·················· Page 6
System Examples ··············· Page 10
Place Remote System ············· Page 11
System Location ················ Page 12
Route Tubing ················· Page 13
Ice Making Section ·············· Page 14
Compressor Package ············· Page 15
Condensing Section Assembly ········ Page 16
Condensing Section Assembly: ER2C6810 · Page 17
Condensing Section Assembly ········ Page 18
Ice making section: ·············· Page 19
Water and Drain ················ Page 20
Water and Drain ················ Page 21
Water and Drain ················ Page 22
Ice Making Section Set Up ·········· Page 23
Coupling Connections: ············ Page 24
Controller Operation ·············· Page 27
Initial Start Up ················· Page 28
Purge Adjustment ··············· Page 29
System Operation:··············· Page 30
Refrigeration Details: ············· Page 31
Technicians Only: Freeze Cycle Sequence of Operation
························· Page 32
Technicians Only: Harvest Cycle Sequence of Operation
························· Page 33
Power and Water Interruptions ········ Page 34
Sanitation and Cleaning ············ Page 35
Other Maintenance ·············· Page 36
Tight Installation Access············ Page 37
Water Distributors ··············· Page 38
Ice Sensors ·················· Page 39
Water Level Sensor Maintenance ······· Page 40
Service Diagnosis ··············· Page 41
Service Diagnosis ··············· Page 42
Service Diagnosis ··············· Page 43
Controller Features & Last Error Recall ···· Page 44
Operational Characteristics 600 lb system · · Page 45
Operational Characteristics 800 lb system · · Page 46
Operational Characteristics 1000 lb system · · Page 47
Refrigeration System Service ········· Page 48
Condensing Unit Connections ········· Page 25
Final Placement ················ Page 26
April 2002
Page 1
Eclipseä 600, 800, 1000
Configuration:
A remote low side cuber system includes several sub systems: an ice making section, a remote compressor package, and a remote air cooled condenser. Additionally, there are two models of each sub-system and this manual covers all of them.
The ice making sections are designed for use indoors in a controlled environment. The remote compressor packages and condensers are designed to operate outdoors. Each sub-system has limits for power, water and temperature.
Operational Limitations:
Minimum Maximum
o
Air Temp (IMS) 50
Air Temp (CU) -20
Water Temp 40
Water Pressure 20 psi 80 psi
Voltage (IMS) 104 126
Voltage (CU) 198 253
F 100oF.
o
F. 120oF.
o
F. 100oF.
IMS = Ice Making Section, CU= Condensing Unit
Do Not operate the machine in conditions beyond these limitations. Doing so will void the warranty.
Scotsman ice systems are designed and manufactured with the highest regard for safety and performance. They meet or exceed the standards of UL and NSF.
Scotsman assumes no liability of responsibility of any kind for products manufactured by Scotsman that have been altered in any way, including the use of any part and/or other components not specifically approved by Scotsman.
Scotsman reserves the right to make design changes and/or improvements at any time.
Specifications and design are subject to change without notice.
Warranty
Refer to the warranty coverage in effect when the equipment was sold. Warranty statements are included with each product.
Systems:
Each sub-system is a separate entity that carries its own model and serial number. They must be combined to create a remote cuber low side system.
System Information
System Model
Number
Eclipse 600-42 CP686-32A 208-230/60/1
Eclipse 600-43 CP686-3A 208-230/60/3
Eclipse 800-42 CP886-32A 208-230/60/1
Eclipse 800-43 CP886-3A 208-230/60/3
Eclipse 1000-42 CP1086-32A 208-230/60/1
Eclipse 1000-43 CP1086-3A 208-230/60/3
Compressor Package Condenser
Model Electrical Model* Electrical Model Electrical
Condensing Unit (CU) Ice Making Section (IMS)
ERC680-32A 208-230/60/1 CME686RLS-1A 115/60/1
ERC680-32A 208-230/60/1 CME810RLS-1A 115/60/1
ERC1086-32A 208-230/60/1 CME810RLS-1A 115/60/1
Notes: Voltage Codes are at the end of the model number. Codes read Voltage/Hertz/Phase. Those related to these products include:
-1 = 115/60/1
-3 = 208-230/60/3
-32 = 208-230/60/1
-42 = 115/60/1 and 208-230/60/1 (separate units)
-43 = 115/60/1 and 208-230/60/3 (separate units)
April 2002
*ER2C6810-32 is a two circuit remote condenser and can be used with any of these systems.
Pre-charged tubing kits are required to interconnect the IMS to the CP.
Interconnecting 24 volt control wire ships with the CP unit.
Page 2
Technical Specifications
Ice Making Section (IMS)
Eclipseä 600, 800, 1000
Model Voltage Minimum Circuit
Ampacity
CME686RLS-1A 115/60/1 3 15 22”w x 16.5”d x 28” h* 92
CME810RLS-1A 115/60/1 3 15 same 92
Max Fuse Size Cabinet Size Weight (lb)
* Height does not include bin control. (add 3”)
Compressor Package
Model Voltage Contains
Headmaster?
CP686-32A 208-230/60/1 Yes 9.8 15 232 29 ¾”w x 18”d x 34 ½”h
CP686-3A 208-230/60/3 Yes 6.9 15 232 same
CP886-32A 208-230/60/1 Yes 14.6 15 232 same 180
CP886-3A 208-230/60/3 Yes 10.4 15 232 same 180
CP1086-32A 208-230/60/1 Yes 21.0 25 272 same 180
CP1086-3A 208-230/60/3 Yes 14.0 15 272 same 180
Minimum
Circuit
Ampacity
Max
Refrigerant
Fuse
Charge (R-404A)*
Size
(oz)
Cabinet Size Weight
(lb)
* Includes entire system charge.
Condenser
Model Voltage Contains
Headmaster?
ERC680-32A 208-230/60/1 No 1 1.25 15 29 ¾”w x 28 5/8”d x 38 ½”h 95
ERC1086-32A 208-230/60/1 No 1 1.25 15 same 95
ER2C6810-32 208-230/60/1 No 2 1.9 15 29 ¾”w x 37 3/16”d x 38 ½”h
Number of Circuits
Minimum
Circuit
Ampacity**
Max
Fuse
Size**
Cabinet Size, with legs Weight
* * ERC condenser fan motor is powered from CP unit and the ERC’s ampacity is included in CP unit numbers.
Note: The ERC680, ERC1086 and ERC26810 do NOT contain a headmaster. The headmaster is in the CP units.
Note: 75 feet of interconnecting control wire (24 volt) is included with the CP units.
(lb)
May 2002
Page 3
Eclipseä 600, 800, 1000
Model Number Locations
Ice Making Section
The dataplate on the back of the ice machine contains the model number, serial number and electrical data.
A second plate, located behind the front panel at the lower right front, also lists the model and serial numbers.
Compressor Package
The dataplate on the right side of the compressor package contains the model number, serial number, electrical data and system refrigerant charge.
A second plate, located behind the front panel in front of the compressor, also lists the model number, serial number and refrigerant charge.
Condenser
Dataplate location for ERC680 and ERC1086
Dataplate location for ER2C6810
The dataplate lists the condenser’s electrical information plus the model and serial numbers.
On the ERC680 and ERC1086 it is located on the side opposite the refrigeration connections.
On the ER2C6810 it is located on the inside of one of the leg panels.
Dataplate
location for
CP Unit
Dataplate location for Ice Making
Section
April 2002
Page 4
Cabinet Drawings, Ice Making System
Eclipseä 600, 800, 1000
Front
16 1/2"
5 3/8"
1.75
19 1/2"
17 "
1 1/4"
1 5/8"
22 "
Top View
Front View of Base
16.75
2 5/8"
7 3/4"
12 5/8"
1 1/4"
3 3/8"
3"
Protrusion Off Bottom Of Ice Machine
Front
Ice Making Section Footprint
Outline of unit
Maximum Drop Zone
Minimum Drop Zone
TOP ACCE SS
LINE SET, WATER INLET, 120V AC,
AND INTERFACE CABLE
OPTIONAL REAR ACCESS
LINE SET, WATER INLET, 120V AC,
AND INTERFACE CABLE
OPTIONAL REAR
ACCESS WATER INLET
OPTIONAL REAR
ACCESS DRAIN
6.58
3.46
1.75
3.00
ICE DROP AREA
TOP VIEW
16.75
22.00
REAR VIEW
5.00
8.00
28.00
LEFT AND RI GHT
SIDE ACCES S DRAIN
ICE MAKING SECTION
8.00
15.12
5.00
16.50
April 2002
Page 5
Eclipseä 600, 800, 1000
Cabinet Drawings, Compressor Package and Condensers
1/2" CONDENSER DISCHARGE LINE (IN)
CONDENSER FAN WIRE ROUTING
3/8" CONDENSER LIQUID LINE (OUT)
1/2" COOL VAPOR LINE
0.88 ELECTRICAL INLET
INTERFACE HARNESS
ER2C6810: Both Sides Attach to CP680 or CP1086
ACCESS HOLE
3/4" SUCTION LINE
ER2C6810 - 36.52
27.90
28.53
1.5”
RIGHT SIDE VIEW
3/8" LIQUID LINE
15”
2.75
1.5”
ERC680 or ERC1086: This Side Attaches to CP680 or CP1086
Discharge Line
BACK VIEW
FRONT VIEW
29.50
Liquid Line
9/16” Mounting Hole
1.5”
23.5”
1.5”
9/16” Mounting Hole
35.72
April 2002
Page 6
38.47
33.19
6.68
22.51
29.19
Proper Combinations:
Eclipseä 600, 800, 1000
The three sub systems are designed to be connected together in certain combinations to meet the user’s needs:
Eclipse 600 System: CME686, CP686, ERC680*
Eclipse 800 System: CME810, CP886, ERC680*
Eclipse 1000 System: CME810, CP1086, ERC1086*
*ERC680 or ERC1086 may be substituted for by an approved central condenser coil & fan (coil must be without headmaster - headmaster is part of CP680 or CP1086).
Note: The ice making section cannot be stacked vertically.
Accessories such as bin adapters and tubing kits are required to complete the installation.
Dispenser Adapter Kits:
Cornelius ABS or ED150: KBT40
·
Scotsman ID150: KBT40
·
Scotsman ID200 or ID250: KBT41
·
·
HD156: KBT35
·
HD356: KBT32
Bin Adapter Kits:
·
BH360: KBT31
·
HTB250/HTB350/HTB555: KBT32
·
BH550: KBT32 and KBAFFLE1
·
BH800: KBT33 and KBAFFLE2
·
BH900: KTB34 and KBAFFLE3
Tubing Kits:
·
20 foot: 3RTE20
·
50 foot: 3RTE50
·
75 foot: 3RTE75
·
Suction Line Trap: KSLT075
·
Interconnecting Tubing to Approved Rack Condenser Coil: RTE10
·
Line end kit: KTE6
Items required for installation:
Ice making section
·
Compressor Package (includes interconnecting
·
control system wire)
Remote condenser or approved rack coil
·
w/tubing kit
20’, 50’ or 75’ triple line set (liquid, discharge
·
and suction)
Bin or dispenser adapter
·
Special Considerations
The ice making section’s footprint is 22” wide by
16.5” deep. The refrigeration connections can be made out the top panel or out the back. The electrical power cord and the water inlet line can also be routed through either of those areas. The drain may be routed out the back at any position left to right; it may also be routed to either side.
The ice sensors, used for determining if the bin is full or not, are located in housings that extend below the bottom of the unit. As ice is made, it will build up in the bin or dispenser until the top of the ice pile is between the sensors. At that point, about 3” below the bottom of the cabinet, the ice machine will shut off. This ice level maximizes ice storage without overfilling the bin or dispenser.
Water
Pure water does not exist. All water supplies contain some amounts of impurities, although potable water is, by definition, fit for human consumption. Because the contents of the water to an ice machine directly impact its performance, consideration should be given to improving the water’s quality.
There are two ways water can contain impurities: in suspension or in solution. Suspended solids can be filtered out of the water. In solution or dissolved solids must be diluted or treated. Water filters are recommended to remove the suspended solids. Some filters or filter systems have treatment chemicals in them for treating the suspended solids.
This ice machine has an adjustment for the amount of water rinsed or purged. Water use adjustments are customer convenience adjustments; they are not factory defects and are not covered by warranty.
June 2002
Page 7
Eclipseä 600, 800, 1000
Create the System
Plan the installation. The system consists of four parts: the ice making section, the compressor package, the interconnecting tubing and the remote condenser. Of these, the biggest variable is the interconnecting tubing.
Tubing: The tubing consists of three pre-charged, insulated and sealed soft copper tubes. They each contain a small holding charge of R-404A. One tube, the liquid line, is 3/8” OD. The discharge tube is ½” OD and the suction tube is ¾” OD. A site inspection will determine what length of tubing is required for the installation.
Excess tubing must be either shortened at the job site (recovering the holding charge, purging with nitrogen when brazing and evacuating to 50 microns) or coiled up inside the building.
Installations with greater than 20 feet of vertical lift between ice machine and the compressor require a suction line trap. The suction line requires careful handling and large radius bends to prevent kinking.
Roof mounting: To make installation easier the compressor and condenser are designed to be assembled together on the roof. Some installations will require the use of a hoist to lift the components to the roof.
Pad mounting: The compressor and condenser may be located below the ice making section, up to a limit of 15 feet.
Distance from unit: Limited to the length of the available pre-charged tubing.
Interconnecting wires: An interconnecting wire harness is included with the CP unit. One end plugs into the ice making section and the other into the compressor package. The system will NOT operate without this harness.
Exposed tubing: Minimize the amount of tubing exposed outdoors.
Confirm Component Availability:
CME686 or CME810
·
CP686 or CP886 or CP1086
·
ERC680 or ERC1086 or ER2C6810 unless
·
connecting to an approved condenser coil.
Note: Only these condensers may be used. They do NOT contain a headmaster valve. That valve is in the Compressor Package. Do NOT use any other Scotsman condenser. Do NOT use these condensers on any other Scotsman remote product.
Interconnecting tubing kit
·
Note: Check tubing integrity before assembly by attaching a refrigeration compound gauge onto one of each tube’s schrader valves. If there is pressure, the tube is OK, if not it should be checked for damage and leaks.
·
Bin or dispenser adapter
Elevation: CP unit limited to 35 feet above the ice making section.
Compressor package: Electrical power must be supplied to the compressor package. The remote condenser fan motor takes its power from the compressor package.
Ice making section location and attachment:
The unique footprint of the CME686 and CME810 require adapter kits to allow placement on dispensers and bins. The remote tubing connections must be made from the right side of the machine, and connections should not be made until the machine is nearly in its final installed position. The 115/60 Hz ice making section is cord connected and requires an outlet within 6 feet of the installation.
April 2002
Page 8
System Examples
Eclipseä 600, 800, 1000
The Eclipse system can be installed on a bin or dispenser. The CP unit can be installed on either a single circuit condenser, a two circuit condenser or onto a coil in a separate rack condenser.
Separate coils must be:
Scotsman approved
·
The correct size and capacity
·
New or not have been part of a system that
·
used mineral oil.
Single Circuit System
Single Circuit System on ABS Dispenser
April 2002
Page 9
Eclipseä 600, 800, 1000
System Examples
Single circuit systems use a single circuit condenser and one CP unit. Two circuit systems use a condenser with two circuits with a CP unit at each end.
IMS on ABS Dispenser, CP Unit Connected to
Approved Rack System
Two Circuit System
April 2002
Page 10
Place Remote System
Eclipseä 600, 800, 1000
Roof preparation
Most installations of this system will place the compressor package and condenser on the roof of a building. The roof must be physically stout enough to accept the load of the equipment and the roofing material must be prepared to prevent water leaks.
Follow local codes for the placement and attachment of the equipment.
Location
The condensing unit assembly requires unobstructed air flow to operate efficiently. A four foot space between each intake side and a wall or other cabinet is recommended.
Do not place where it will pick up hot discharged air from an air conditioner or other refrigeration system condensing unit.
Space must also be reserved for service on the compressor package. If using the ER2C6810 condenser, save space for the second CP unit to be attached to the other end of the condenser.
Roof Piercing:
The roof (or wall) must have a passage large enough for the three pre-charged, pre-bent tubes and the control wire to pass through. The minimum recommended size is 4” ID. In most areas the power supply may also pass through the same passage. If there isn’t a passage one must be created. In most cases this must be done by a licensed and bonded roofer in order to maintain the roof’s integrity.
Suggestions:
Hoist the compressor package and condenser to the roof in separate loads.
Note: In most cases a mechanical lift, boom truck or crane will be required to hoist the condensing unit components.
Assemble the compressor package to the condenser and mount both to either roof rails or pressure treated4x4s.
Orient the assembled unit so that the unit’s mounts are parallel to the pitch of the roof to allow water to drain freely.
IMS Shown on Ice Dispenser
Do NOT place the unit directly onto roof rock.
April 2002
Page 11
Eclipseä 600, 800, 1000
System Location
Limitations:
Distance: Limited to the maximum length of a single pre-charged tubing kit, 75 feet.
Condensing Unit Elevation over Ice Making Section: 35 feet.
Note: Elevations greater than 20 feet require installation of a suction line trap at the 20 foot mark.
Ice Making Section Elevation over Condensing Unit: 15 feet.
S-Trap
Limit of Line Set
Max Length -
40.35"
Condensing Unit Located Above Ice Machine
Line Routing:
Allowed: One rise after a drop.
·
Allowed: One drop after a rise.
·
Not Allowed: More than one rise after a drop
·
Not Allowed: More than one drop after a rise.
·
Max Rise: 35 Feet
22.87"
Max Drop: 15 Feet
17.15"
Condensing Unit Located Below Ice Machine
Condensing Unit Distance Schematic
April 2002
Page 12
Route Tubing
Eclipseä 600, 800, 1000
Scotsman’s pre-charged tubing kits are pre-bent to fit the connection path at the ice making section.
If the tubing is to be routed out the top, use the
·
double-bend ends.
Liquid
Vapor
Suction
If the tubing is to be routed out the back, use
·
the ends with the single 90 degree bends.
Liquid
Select the correct end to send to the roof.
The method or technique used to route the tube is left to the installer. However, in many cases it is easier to position the tubing inside the building first, then feed the outside portion through the tubing passage (pitch pot). Installation of tubing will be easier if the suction line is run first, followed by the liquid and vapor lines. Use of two persons is suggested to prevent kinking of the tubing, long runs may require three people.
Allow enough tubing to make large radius bends
·
from the roof passage to the compressor unit. Do NOT leave excess tubing on the roof.
If a trap must be installed, the suction line
·
tubing must be cut apart to install it.
Identify the ice machine end of the tubing. Each
·
tube has one end formed to route through the hole in the unit’s top.
Tape the ends of the vapor and liquid line tubes
·
together along with the interconnecting wire. Extend the end of the interconnecting wire about 2 feet beyond the end of the precharged tubes and then tape it back onto the tubes.
·
Route the three tubes and the wire from the roof, or other entrance, to the ice making section’s planned position. Avoid uncoiling and recoiling the tubing, as that can lead to kinks.
Vapor
Suction
Note: Units mounted flush against the wall require refrigerant connections out the top, water supply in from the top, power supply routed through the top and drain routed to a side.
·
Support long runs of tubing with hangers.
·
Repair any tears in the tubing insulation, especially those on the suction line that are inside the building.
Shortening Tubing
The precharged tubing kits are available in a variety of lengths, they should only be shortened if absolutely necessary.
To Shorten Tubes:
1. Recover the 3 ounce R-404A holding charge from each tube.
2. Cut out the required length of tubing, do not cut the tubing right at the quick connects.
3. Attach nitrogen bottle to one quick connect and a hose with a depressor to the other end, purge nitrogen through each tube while brazing.
4. Remove nitrogen, evacuate to 200 microns.
Note: If tubes are connected to the IMS, evacuate the vapor & suction lines to get the entire system.
April 2002
Page 13
Eclipseä 600, 800, 1000
Ice Making Section
The CME686 and CME810 are similar in layout. They differ in controller, float stem and vapor inlet valve. Both have three plates and three thermostatic expansion valves.
Major Components:
TXVs - one per plate, same for all
Water Pump - same for both models
Water Level Sensor - signals water level to the
controller
Controller - operates both the ice machine section and the compressor unit.
Drain Valve - opens to allow pump to drain reservoir
Water Inlet Valve - 1.25 GPM solenoid valve that opens to fill the reservoir
Low Side Access Valve - allows connection for diagnosis of ice machine section refrigeration operation. Not for recovery.
Controller
Freezing Compartment Cover
Liquid, Vapor and Suction Connections - where the
pre-charged tubing kits connect to.
Drain Tube - internal vent eliminates need for external vent
TXVs
Water Pump
Water
Level
Sensor
Low Side Access Valve
Vapor Connection
Liquid Connection
Suction Connection
Drain Tube with Internal Vent
Drain Valve
Water Inlet Solenoid Valve
April 2002
Page 14
Compressor Package
Eclipseä 600, 800, 1000
Both compressor packages are similar in layout, they only differ in compressor and charge.
Major Components:
CPR Valve - limits refrigeration pressures
inside the dome of the compressor.
Condenser By Pass Valve - opens during harvest to allow discharge gas to flow to the vapor line.
Headmaster - maintains a minimum discharge pressure during freeze
Liquid Inlet Valve - Normally Open, closes during harvest.
Receiver - stores liquid refrigerant for freeze and provides vapor for harvest
Suction Access Valve - provides a place to attach a refrigeration manifold for diagnostics and recovery.
Condenser By
Pass Valve
24 volt comm line
Liquid from
Power
Routing Hole
Vapor Line
Connection
Routing Hole
Suction Line
Connection
Liquid Line
Connection
CP Unit Refrigeration Connection ID
Cond.
Discharge to Cond.
Condenser Wire Routing Hole
Headmaster
Suction
Access
Valve
CPR Valve
Pressure
Cut Out
Liquid Access Valve
Liquid Inlet Valve
Receiver
Hi
CP Component Location
April 2002
Page 15
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