Compact CP 30SC E User manual
SERVICE MANUAL
SELF CONTAINED UNITS WITH TIMER
CP 30SC E
CP 30 E
CP 45 E
CP 70 E
CP 120 E
Ice Machines UK Ltd
Unit 10, LDL Business Centre, Station Road West, Ash Vale, Surrey, GU12 5RT
Tel: 01252 511611 Fax: 01252 511666
www.icemachines.co.uke-mail:info@icemachines.co.uk
LEV1FG-296
ICE CUBES MAKERS
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
INDEX
1. HOW IT WORKS 1
1.A. REFRIGERATION SYSTEM 1
1.A.a. Freezing cycle 2
1.A.b. Defrost cycle (harvest) 2
1.A.c. Air cooling 2
1.A.d. Water cooling 2
1.B. WATER SYSTEM 4
1.B.a. Freezing cycle 4
1.B.b. Defrost cycle (harvest) 4
1.B.c. Ice storage bin 4
1.C. ELECTRICAL SYSTEM 5
1.C.a. Water cooled models 8
2. INSTALLATION 9
2.A. CONNECTIONS 9
2.B. SET-UP 9
2.B.a. Air cooled condenser units 9
2.B.b. Water cooled condenser units 10
3. START-UP & TEST 10
3.A. START-UP 10
3.B. TEST 11
4. CLEANING 11
4.A. CONDENSER CLEANING 11
4.B. INTERNAL CLEANING & SANITIZING 12
4.B.a. Cleaning - To remove lime scale or other mineral deposits 12
4.B.b. Sanitizing - To remove algae or slime 13
5. GENERAL INFORMATION 14
5.A. WEIGHTS & DIMENSIONS 14
5.B. CUBE SIZE 15
5.C. MODEL NUMBER BREAKDOWN 15
5.D. GENERAL DATA 16
5.E. PRODUCTION 17
5.E.a. Theoretical daily ice production - N. of cubes/24h 17
5.E.b. Theoretical daily ice production - kg/24h 18
5.F. WATER VALVE & FLOW REGULATOR CHART 19
5.F.a. Air cooled 19
5.F.b. Water cooled 19
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.1
1. HOW IT WORKS
The system is very simple and efficient. The evaporator is built up connecting together a series of
reversed cups with a cooling coil. The refrigerant flows into the tubes while the pump sprays water
into the cups. Thus inside each cup, an ice cube grows layer by layer.
When the cubes are ready, harvest starts : hot gas flows through cooling coil of the evaporator and
fresh water enters on top of evaporator. This melts the outer surface of the cubes which fall into the
bin.
A new freezing cycle then begins.
When the bin is full of ice, the unit stops production. When a quantity of ice is taken away, the unit
restarts production.
1.A. REFRIGERATION SYSTEM
REFRIGERATION TUBING SCHEMATICS
C
VG
V
F
PT
B
S
E
230V
T
CD
mod. CP70 - CP120
TE
→
←
↑
↓
←
←
→
→
↑
AIR COOLED
CCompressor
VFan motor
VG Hot gas valve
TCapillary tube
CD Air cooled condenser
PT Pressure switch
CP70, CP120 only
FMolecular sieve
EEvaporator
BReceiver
SHeat exchanger
TE Evaporator thermostat
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.2
1.A.a.Freezing cycle
1. The compressor Cpumps the refrigerant to the condenser CD or CA when the hot gas valve
VG is closed.
2. The liquid line reaches the evaporator Ethrough the molecular sieve Fand the capillary tube T.
3. In the evaporator the refrigerant expands, thus producing the freezing effect.
4. The refrigerant goes back to the compressor through the receiver/tank Band suction line/heat
exchanger S.
5. The freezing cycle ends when the evaporator thermostat TE reaches the set temperature thus
starting the TIMER; when the time is over, the refrigeration cycle ends and the VG hot gas
valve is opened.
1.A.b.Defrost cycle (harvest)
1. When the hot gas valve VG open, refrigerant flows directly from the compressor Cto the
evaporator Eand back to the compressor through S.
2. Duration of harvest is fixed by the timer. There is a delay in starting the TIMER in the defrost
period. The TIMER is energized when the evaporator thermostat TE reaches the preset high
'IN' temperature; for this reason the motor of the TIMER is connected directly with the
COMMON contact of the evaporator thermostat. When the harvest ends, the timer is de-
energized, the hot gas valve VG is closed and a new freezing cycle begins.
1.A.c.Air cooling
1. Models with air cooled condenser, have a fan motor Vwhich is always energized (mod. CP30,
CP45) or is switched on and off by the pressure switch PT, (mod.CP70, CP120) which senses
condensing pressure.
2. Pressure switch PT is factory set. After sale service is not allowed to make adjustments for any
reason.
1.A.d.Water cooling
1. Models with water cooled condenser, have a fan motor Vwhich is always energized.
2. Water inlet to condenser is regulated by the pressure switch PT, which senses condensing
pressure and energizes or not the condenser water inlet solenoid valve VC.
3. The safety thermostat TSA feels condensing temperature, too. In case of excessive temperature,
due e.g. to water shortage, valve failure etc., it shuts down the unit. When temperatures
decreases, it starts again.
4. Condenser thermostats and pressure switch are factory set. After sale service is not allowed to
make adjustments for any reason.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.3
REFRIGERATION TUBING SCHEMATICS
C
VG
V
F
PT
VC
B
S
E
CA
230V
⇐
⇐⇐
⇐
⇒
⇒⇒
⇒
T
1
2
TSA
TE
↑
↓
←
→
→
→
←
←
↑
WATER COOLED
CCompressor
VFan motor
VG Hot gas valve
VC Condenser water valve
TSA Safety thermostat
TCapillary tube
CA Water cooled condenser
PT Pressure switch
TE Evaporator thermostat
FMolecular sieve
EEvaporator
BReceiver
SHeat exchanger
⇐cWater inlet
⇒dWater drain
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.4
1.B. WATER SYSTEM
PPump(s)
SB Spray bar(s)
WT Water tank
VA Inlet water valve
EEvaporator
OF Overflow
⇐cWater inlet
⇒dBin overflow drain
⇒eTank overflow drain
1.B.a.Freezing cycle
1. The pump Ptakes water from the water tank WT through a suction pipe and sends it to the
spray bar SB (two pumps and two spray bars for mod. CP120).
2. The water sprayed by the nozzles reaches the cooled cups on the evaporator E. A quantity of
water freezes and the excess falls again into the water tank.
3. The water inlet valve VA is closed.
1.B.b.Defrost cycle (harvest)
1. The water inlet valve VA is open. Fresh water goes up on top of evaporator, helping defrost.
2. From the top of the evaporator, water falls into the water tank and refills it.
3. Excess water is discharged by the overflow control OF.
4. Water pump(s) is not working.
1.B.c.Ice storage bin
1. Water from melted ice is drained separately, and does not enter again into the water system.
E
WT OF
P
SB
c
⇐
⇒d
e
⇒
mod. CP30 - CP45
CP70
SB
VA
⇐
⇐⇐
⇐1
⇒
⇒⇒
⇒3
P
OF
WT
P
E
⇒
⇒⇒
⇒2
mod. CP 120 only
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.5
1.C. ELECTRICAL SYSTEM
•Compressor is always ON. Fan motor is regulated by the pressure switch PT only in models
CP70 & CP120. In models CP30sc, CP30 & CP45 fan motor is always ON.
•The bin thermostat TB opens, when the ice-feeler is in contact with ice. The unit then stops.
WIRING DIAGRAM
air cooled
T
TB
PT
C
V
P
VG
VA
C
TE
24
TIMER
C
C
NC
NO
3
4
B
B
B
B
B
B
B
BM
M
M
M
M
M
V
V
R
R
R
RV
P
A
CP70 - CP120
ab
A) Start of freeze cycle
Ccompressor ON
Vfan motor ON (PT)
Ppump ON
Ttimer OFF
amicro a C-NO
bmicro b C-NO
VG gas valve OFF
VA water valve OFF
TE evaporator
thermostat WARM (C-4)
TB bin thermostat closed
A) Start of freeze cycle. The pumps spray water to the cups on the evaporator which is freezing.
The evaporator thermostat TE has not reached set-point. It is in WARM position.
MBrown
BBlue
VGreen
RRed -
AOrange
PPink
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.6
WIRING DIAGRAM
air cooled
T
TB
PT
C
V
P
VG
VA
C
TE
24
TIMER
C
C
NC
NO
3
4
B
B
B
B
B
B
B
BM
M
M
M
M
M
V
V
R
R
R
RV
P
A
ab
CP70 - CP120
B) End of freeze cycle
Ccompressor ON
Vfan motor ON (PT)
Ppump ON
Ttimer ON
amicro a C-NO
bmicro b C-NO
VG gas valve OFF
VA water valve OFF
TE evaporator
thermostat COLD (C-2)
TB bin thermostat closed
B) End of freeze cycle. The evaporator thermostat TE has reached the set-point. It is in COLD
position. The timer starts to complete freezing cycle.
WIRING DIAGRAM
air cooled
T
TB
PT
C
V
P
VG
VA
C
TE
24
TIMER
C
C
NC
NO
3
4
B
B
B
B
B
B
B
BM
M
M
M
M
M
V
V
R
R
R
RV
P
A
ab
CP70 - CP120
C) Start of defrost
Ccompressor ON
Vfan motor ON (PT)
Ppump OFF
Ttimer OFF
amicro a C-NC
bmicro b C-NC
VG gas valve ON
VA water valve ON
TE evaporator
thermostat COLD (C-2)
TB bin thermostat closed
C) Start of Defrost. Microswitches a and b are operated by the two levers and the rotating cam of
the timer. The pumps stop and the hot gas and water valves open. The evaporator thermostat is
still in COLD position. The motor of the timer stops.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.7
WIRING DIAGRAM
air cooled
T
TB
PT
C
V
P
VG
VA
C
TE
24
TIMER
C
C
NC
NO
3
4
B
B
B
B
B
B
B
BM
M
M
M
M
M
V
V
R
R
R
RV
P
A
ab
CP70 - CP120
D) Defrost
Ccompressor ON
Vfan motor ON (PT)
Ppump OFF
Ttimer ON
amicro a C-NC
bmicro b C-NC
VG gas valve ON
VA water valve ON
TE evaporator
thermostat WARM (C-4)
TB bin thermostat closed
D) Defrost. The evaporator thermostat switches to WARM position starting the motor of the Timer,
thus completing defrost.
WIRING DIAGRAM
air cooled
T
TB
PT
C
V
P
VG
VA
C
TE
24
TIMER
C
C
NC
NO
3
4
B
B
B
B
B
B
B
BM
M
M
M
M
M
V
V
R
R
R
RV
P
A
ab
CP70 - CP120
E) End of defrost
Ccompressor ON
Vfan motor ON (PT)
Ppump ON
Ttimer ON
amicro a C-NO
bmicro b C-NC
VG gas valve ON
VA water valve ON
TE evaporator
thermostat WARM (C-4)
TB bin thermostat closed
E) End of Defrost. Defrost ends when both levers reach top of the rotating cam of the timer. This is
not simultaneous but first the external micro aand then the internal micro b are activated.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.8
IT IS VERY IMPORTANT NOT TO CHANGE CONNECTIONS BETWEEN THE TWO
INTERNAL (a) AND EXTERNAL (b) MICROSWITCHES OF THE TIMER.
internal microswitchexternal microswitch
TIMER
ab
red
green
brown
orange pin
It is possible to manually put the unit in defrost cycle by turning the orange pin of the TIMER
clockwise.
1.C.a.Water cooled models
Water inlet to the condenser is regulated by the pressure switch PT, which energizes or not the
condenser water inlet solenoid valve VC, sensing condensing pressure.
The safety thermostat TSA feels condensing temperature, too. In case of excessive temperature, due
e.g. to water shortage, valve failure etc., it shuts down the unit. When temperatures decreases, it
starts again.
WIRING DIAGRAM
water cooled
T
TB
PT
C
P
VG
VA
C
TE
24
TIMER
C
C
NC
NO
3
4
B
B
B
B
B
B
B
BM
M
M
M
M
M
V
V
R
R
R
RV
P
A
ab
VC
V
BM
4
2
CTSA
A) Start of freeze cycle
Ccompressor ON
Vfan motor ON (PT)
Ppump ON
Ttimer OFF
amicro a C-NO
bmicro b C-NO
VG gas valve OFF
VA water valve OFF
TE evaporator
thermostat WARM (C-4)
TB bin thermostat closed
TSA safety
thermostat closed
All the other diagram are similar to the air cooled ones, provided you change the Vfan motor with
the condenser water inlet valve VC , and you add the safety thermostat TSA and the fan motor V.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.9
2. INSTALLATION
2.A. CONNECTIONS
1. Choose a location far from heating sources and in a well ventilated dry place, not dusty, near
water inlet & drain connections.
2. Provide enough clearance at both sides and at rear of the unit (20 cm at least).
DO NOT USE UNIT OUTSIDE AND DO NOT EXPOSE IT TO RAIN.
3. Set upstream of the units an electrical multi-pole disconnect switch having a contact separation
of at least 3 mm in all poles. Switch rating shall comply with power specifications of each ice-
maker, as per specifications given in the plate on rear of each unit.
ALL CONNECTIONS SHOULD BE MADE IN ACCORDANCE WITH EXISTING
LOCAL ELECTRICAL REQUIREMENTS.
4. Power supply must match voltage specifications on registration plate on rear of unit. +/- 6%
deviation permitted. On higher rushes no assurance of correct operation is given.
5. Water inlet should be regulated by a 3/4" threaded tap, for an easy installation of the supply hose.
ATTENTION! CONNECT UNIT TO DRINKING (POTABLE) WATER ONLY.
6. Check if water inlet pressure is between 1 to 3 bar. If it is higher, install a pressure reducer set at
2,5 bar.
7. Water outlet must be at ground level connected to an open vented siphon.
2.B. SET-UP
2.B.a.AIR COOLED CONDENSER UNITS
1. Unpack the ice maker without turning the unit upside down, check for damage, remove all
cartons and the wooden pallet.
2. Remove the bag with the accessories from inside the unit. Take care of the Final User Manual
and give it to your customer. Remove the water blinds assembly. Check that the water spray-bar
and the internal ice chute are in the correct position, then re-install water blinds assembly.
3. Connect the unit to the external multi-pole switch for electric supply.
4. Check that the unit is perfectly level. If required, adjust leveling feet.
5. Connect the water inlet solenoid valve to the water mains tap with the rubber water supply tube.
6. Connect a drain hose to the water outlet of the unit and the open vented siphon at floor level.
7. Clean walls and bottom of storage bin with a wet cloth.
8. Open tap on water mains and check for leakage.
9. Switch on main external disconnect switch.
10.
The unit starts in defrost at first installation. Water is charged and fills water tank. When the
timer ends the defrost cycle, the freezing cycle begins.
11.
After a shut-off period, it is possible that the unit will not re-start in defrost. In this case or in
case more water is needed, turn clockwise the orange pin of the timer with a screwdriver, until
the unit goes in defrost.
12.
Always charge fresh water before starting ice production, at first installation and after a long
shut-off period.
To start and stop unit, only use the external disconnect multi-pole switch.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.10
2.B.b.WATER COOLED CONDENSER UNITS
1. Follow steps 1 to 12 as described before (2.B.a).
2. Water inlet to the condenser is through the same water inlet solenoid valve, except for the fact
that the valve has one way-in and two solenoid operated way-out.
3. Drain out of the condenser is collected in the same drain-out connector.
1
2
3
air & water cooled installation
1. multi-pole disconnect switch
2. water mains tap
3. open vented siphon at floor level
fig. 2.B.1
3. START-UP & TEST
When all the installation procedures have been completed, and all panels that should have been
removed, have been replaced in position, you can start-up the unit.
3.A. START-UP
1. Clean walls and bottom of storage bin with a wet cloth.
If needed, follow instructions for sanitizing the storage bin and/or the ice-maker.
2. Open tap on water mains and check for leakage.
Always charge water before starting ice production at first installation, or after a shut-off period.
3. Ambient temperature must range 10°C to 43°C .
Water temperature must be between 10°C and 25°C.
4. Switch main external disconnect switch on.
To switch unit ON and OFF operate on the external disconnect switch only.
5. Unit starts production.
Within half an hour the first ice cubes will fall into the storage bin.
6. For best performance, we suggest that ambient temperature should be between 12°C and 38°C.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.11
3.B. TEST
1. Wait three producing cycles before making any adjustment, then check the ice cubes. They must
have a small dimple. If they are too empty, turn the adjusting screw of the ice-control thermostat
clockwise to '+'. If they are too full, turn the screw counter clockwise to '-'.
2. Always make slight adjustments and wait for results. Do not insist on obtaining a full cube
without any dimple by adjusting the evaporator thermostat (ice-control) to full '+'.
Especially with hot external temperatures, adjusting the evaporator thermostat (ice-control) to
full '+' will cause the unit to have very long producing cycles, with a great decrease in production.
It is also possible that too full cubes won't fall into the bin during the defrost cycle and so they
will be cut and melted by water spray, obtaining the opposite of what thought.
3. If cubes are white or not complete, clean spray bar and nozzles.
4. With ice in contact with the ice bin level feeler inside the bin, the unit should stop within 1 min.
If not, slightly turn the adjusting screw of the bin thermostat counter clockwise towards
'SUMMER' until the unit stops. With the feeler cleared from ice, the unit should restart within 5
min. If not, screw slightly clockwise towards 'WINTER'.
5. To reach thermostats or Timer remove front panel.
6. Final User is not allowed to change adjustments of the thermostats or to service unit.
With water and/or ambient temperature below 10°C, to help ice cubes fall into the bin, it is possible
to increase duration of harvesting operating on the adjustable cam of the TIMER.
Timer
To change duration of harvest cycle, loosen the lock
screw releasing the moving cam.
Change position of the cam referring to the numbers
printed on the orange part.
Lock the cam with the screw.
fig. 3.B.1
4. CLEANING
CAUTION ! : HAZARDOUS MOVING PARTS INSIDE MOTOR COMPARTMENT !
Do not operate with panels removed !
DANGER ! : ELECTRIC SHOCK HAZARD !
Disconnect power before servicing unit !
4.A. CONDENSER CLEANING
Clean condenser every month.
Disconnect power, remove front panel and brush away dust and dirt from the condenser with a hard
brush and a vacuum cleaner.
CAUTION: the fins of the condenser have sharp edges which might hurt your fingers.
A dirty condenser causes loss of production and may jeopardize correct operation of the unit.
orange pin
7
1
3
5
lock screw
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.12
4.B. INTERNAL CLEANING & SANITIZING
CAUTION ! : DO NOT MIX CLEANER AND SANITIZING SOLUTION TOGETHER
WARNING ! WEAR RUBBER GLOVES AND SAFETY GOGGLES WHEN HANDLING
ICE MACHINE CLEANER OR SANITIZER
4.B.a.Cleaning - To remove lime scale or other mineral deposits
1. Disconnect power and remove front panel and, for easier operation, top panel and door.
2. Discard all the ice present in the ice bin.
3. To drain water tank, remove water blinds and ice chute and gently remove the moving part of the
overflow regulator (fig. 4.B.1).
4. To clean tank and water system, add an approved liquid ice machine cleaner to water tank
following the directions of the manufacturer of the product.
Otherwise you can pour two spoons of vinegar or citric acid in the water tank.
5. Re-place all items removed (overflow regulator, spray bar, ice chute and water blinds) and start
the unit with the Timer in defrost position. Fresh water will be charged.
6. Leave the unit work for some producing cycles.
7. To rinse, place the Timer in defrost position allowing fresh water in. To drain water follow
instructions as per #3.
8. To clean ice bin discard the ice produced and gently rub sides and bottom of the bin with a cloth
using the same cleaning solution.
fig. 4.B.1
For a more thorough cleaning you can remove spray bars, ice chute and water blinds and clean them
separately.
water blinds
ice chute
spray bar
rubber hose
water tank
fig. 4.B.2
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.13
When you re-assemble all the parts removed for cleaning, it is very important to verify that the
nozzles are free to spray water and that the ice chute does not interfere with the spray bar. (nozzle
must be in the middle of the rows of the ice chute fig 4.B.3).
fig 4.B.3
4.B.b.Sanitizing - To remove algae or slime
1. To sanitize ice storage bin, take away all the ice and gently wipe walls and bottom of the bin with
a cloth and a sanitizing cleaner following the directions of the manufacturer of the product.
You can use household products or a diluted solution of sodium hypoclorite (bleach).
2. To sanitize water tank and all the water system, follow instructions for cleaning using a sanitizing
product instead of a cleaner.
If your water is rich in chlorine, you will not obtain a full clear and crystal ice-cube, and the ice will
melt sooner.
It may be necessary to connect water supply to a water treatment system to inhibit scale formation,
filter sediment or remove chlorine taste.
Water treatment will pay for itself through decreased maintenance, higher efficiency and quality of
product.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.14
5. GENERAL INFORMATION
5.A. WEIGHTS & DIMENSIONS
L
P
H
D
C
B
A
2
3
1
dimensions
1) Electrical cord
2) Water inlet 3/4”
3) Water drain ø 20 mm
LPHABCD
MODEL mm mm mm
CP 30SC E
CP 30SC E W 405 430 650 55 90 100 70
CP 30 E
CP 30 E W 495 560 745 220 145 275 65
CP 45 E
CP 45 E W 495 560 815 220 145 275 65
CP 70 E
CP 70 E W 710 560 900 425 195 485 120
CP 120 E
CP 120 E W 710 560 1270 425 195 485 120
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.15
5.B. CUBE SIZE
Two types of ice cubes are available, the standard cube and the big cube, except the model CP30SC
which is available only with the standard cube.
The standard cube has an average weight of 19 grams, while the big one has an average weight of
32 grams.
Shapes and dimensions are explained in fig. 5.B.1
34
33
standard cube 19g big cube 32g
The two versions can be easily detected because the models producing the big cube 32g show the
letter G after the model number.
5.C. MODEL NUMBER BREAKDOWN
Let’s take for example model CP 70E W G X (-- means no letter)
CP 70 E W G X
voltage
X = 220V 60Hz
Y = 115V 60Hz
-- = 220-240V 50Hz
cube size
G = big cube 32g
-- = standard cube 19g
condensation
W = water cooled
-- = air cooled
refrigerant
E = R134a
Z = R404a
-- = R12 (obsolete)
model
brand
CP = compact
( e.g. CP70EWGX = compact 70, R134a, water cooled, big cube, 220/1/60).
40
38
fig. 5.B.1
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.16
5.D. GENERAL DATA
MODEL TIMER
ADJUSTMENT
DEFROST
N. OF CUBES
PER CYCLE
Q.TY OF ICE
PER CYCLE
IN GRAMS
THEORETICAL
WATER USAGE l/h
air cooled water cooled
CP 30SC E 2,5 24 456 9 32
CP 30 E 2,5 24 456 9 32
CP 30 E G 3,5 20 640 13 54
CP 45 E 3,5 32 608 13 55
CP 45 E G 4,5 28 896 13 55
CP 70 E 3,5 52 988 13 60
CP 70 E G 4,5 44 1536 13 60
CP 120 E 3,5 104 1976 22 62
CP 120 E G 4,5 96 3072 22 62
MODEL REFRIGERANT
CHARGE g
air cooled water cooled
CP 30SC E 32 35 0,16 2,5 400 10A ¼ Hp 210 180
CP 30 E 41 46 0,31 2,5 400 10A ¼ Hp 210 180
CP 30 E G 41 46 0,31 2,5 400 10A ¼ Hp 210 170
CP 45 E 44 50 0,33 3,2 510 10A ³⁄
⁄⁄⁄8 Hp 220 195
CP 45 E G 44 50 0,33 3,2 510 10A ³⁄
⁄⁄⁄8 Hp 220 195
CP 70 E 66 71 0,45 5,0 800 10A ½ Hp 370 300
CP 70 E G 66 71 0,45 5,0 800 10A ½ Hp 350 285
CP 120 E 86 93 0,63 6,2 1150 16A 1 Hp 350 285
CP 120 E G 86 93 0,63 6,2 1150 16A 1 Hp 330 270
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.17
5.E. PRODUCTION
5.E.a.THEORETICAL DAILY ICE PRODUCTION - N. of cubes/24h
Average production at different ambient temperatures with water temperature of 10°C
MODEL 15°C 21°C 25°C 30°C 38°C
CP 30SC E 1600 1460 1350 1190 1040
CP 30 E 1600 1460 1350 1190 1040
CP 30 E G 1020 920 840 730 630
CP 45 E 2050 1800 1600 1500 1400
CP 45 E G 1340 1160 1015 935 835
CP 70 E 3500 3300 3040 2830 2600
CP 70 E G 2270 2110 1920 1760 1620
CP 120 E 6100 5700 5300 4950 4600
CP 120 E G 4325 3995 3670 3375 3130
Average production at different ambient temperatures with water temperature of 15°C
MODEL 15°C 21°C 25°C 30°C 38°C
CP 30SC E 1420 1310 1200 1090 970
CP 30 E 1420 1310 1200 1090 970
CP 30 E G 910 820 740 665 580
CP 45 E 1900 1700 1500 1400 1300
CP 45 E G 1245 1060 945 870 765
CP 70 E 3300 3200 3000 2790 2500
CP 70 E G 2140 2040 1880 1740 1540
CP 120 E 5600 5350 5100 4800 4500
CP 120 E G 3985 3740 3505 3265 3030
Average production at different ambient temperatures with water temperature of 21°C
MODEL 15°C 21°C 25°C 30°C 38°C
CP 30SC E 1250 1150 1080 1000 900
CP 30 E 1250 1150 1080 1000 900
CP 30 E G 790 720 670 600 530
CP 45 E 1700 1500 1400 1200 1100
CP 45 E G 1080 945 860 735 620
CP 70 E 3250 3140 2940 2710 2400
CP 70 E G 2090 2010 1870 1650 1430
CP 120 E 5200 5000 4800 4600 4400
CP 120 E G 3655 3495 3330 3075 2875
Production could change of ± 5/10% depending on cube size and cube concavity adjustment.
F.A.G. SRL SELF CONTAINED UNITS WITH TIMER
ME-CPT1-199 COMPACT SERVICE MANUAL
PAG.18
5.E.b.THEORETICAL DAILY ICE PRODUCTION - kg/24h
Average production at different ambient temperatures with water temperature of 10°C
MODEL 15°C 21°C 25°C 30°C 38°C
CP 30SC E 30,4 27,74 25,65 22,61 19,76
CP 30 E 30,4 27,74 25,65 22,61 19,76
CP 30 E G 32,64 29,44 26,88 23,36 20,16
CP 45 E 38,95 34,2 30,4 28,5 26,6
CP 45 E G 42,88 37,12 32,48 29,92 26,72
CP 70 E 66,5 62,7 57,76 53,77 49,4
CP 70 E G 72,64 67,52 61,44 56,32 51,84
CP 120 E 115,9 108,3 100,7 94,05 87,4
CP 120 E G 138,4 127,84 117,44 108 100,16
Average production at different ambient temperatures with water temperature of 15°C
MODEL 15°C 21°C 25°C 30°C 38°C
CP 30SC E 26,98 24,89 22,8 20,71 18,43
CP 30 E 26,98 24,89 22,8 20,71 18,43
CP 30 E G 29,12 26,24 23,68 21,28 18,56
CP 45 E 36,1 32,3 28,5 26,6 24,7
CP 45 E G 39,84 33,92 30,24 27,84 24,48
CP 70 E 62,7 60,8 57 53,01 47,5
CP 70 E G 68,48 65,28 60,16 55,68 49,28
CP 120 E 106,4 101,65 96,9 91,2 85,5
CP 120 E G 127,52 119,68 112,16 104,48 96,96
Average production at different ambient temperatures with water temperature of 21°C
MODEL 15°C 21°C 25°C 30°C 38°C
CP 30SC E 23,75 21,85 20,52 19 17,1
CP 30 E 23,75 21,85 20,52 19 17,1
CP 30 E G 25,28 23,04 21,44 19,2 16,96
CP 45 E 32,3 28,5 26,6 22,8 20,9
CP 45 E G 34,56 30,24 27,52 23,52 19,84
CP 70 E 61,75 59,66 55,86 51,49 45,6
CP 70 E G 66,88 64,32 59,84 52,8 45,76
CP 120 E 98,8 95 91,2 87,4 83,6
CP 120 E G 116,96 111,84 106,56 98,4 92
Production could change of ± 5/10% depending on cube size and cube concavity adjustment.
This manual suits for next models
4
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