Cornelius I Series Especificaciones Pagina 51
- Pagina / 54
- Tabla de contenidos
- SOLUCIÓN DE PROBLEMAS
- MARCADORES
Valorado. / 5. Basado en revisión del cliente
TP00952
November 26, 200146
The normal flow pattern through the headmaster is from the condenser port to the receiver port. When
this flow pattern is unable to maintain a receiver outlet pressure equal to or above the dome pressure set-
ting of the valve, the dome pressure will force the valve portage to change closing the condenser port and
opening the bypass port from the compressor discharge line. This allows the high pressure vapor from
the discharge port to “buck” the receiver pressure back up. With the condenser port closed, the refriger-
ant is backed up in the condenser, basically reducing the condenser size, assisting in maintaining the dis-
charge portage flow and increasing the head pressure.
Remember, sense of touch to the lines of the headmaster will determine the flow path the headmaster is
in, condenser to receive, or bypass to receiver.
High side gauge installed at the receiver outlet valve will determine if the headmaster is functioning to
maintain the proper operating pressure.
In the event the control appears to be “stuck in bypass”, the pressure drop across the headmaster must
be measured. With a gauge installed at the receiver outlet valve and the high side service valve, the pres-
sure difference at these two points must be less than the 15 PSI. The three most common causes of an
excessive pressure drop are shortage of refrigerant, kinked remote lines, and excessive line length.
Eliminate refrigerant shortage first. Add refrigerant in two-pound increments (not to exceed six pounds)
to determine if it corrects the pressure drop. If pressure drop is not corrected, inspect line set for sharp
bends or kinks and correct as required. If adding refrigerant does not correct continued (bypass) condition
and line set is not damaged, replace headmaster.
REMOTE SYSTEM EVACUATION/RE-CHARGE
All field repairs to the sealed system must start with a total discharge of the system following the require-
ments of the Clean Air Act of July, 1992.
Proper evacuation of the total remote system will require a three (3) point hook-up of your manifold and
hose set, (See Figure 30):
Point #1 - Cuber receiver outlet valve
Point #2 - Cuber high side service valve
Point #3 - Cuber low side service valve
Evacuation:
1. With cuber power supply turned “OFF” disconnect and insulate all 3 compressor leads at the com-
pressor. Turn power supply on, place power switch in the “on” position. This will energize (open) the
Liquid Line solenoid allowing evacuation of the Liquid Line between the solenoid and the expansion
valve(s).
2. Evacuate system to 200/250 microns or less. At this point, there should be a holding test of five(5)
minutes. You may expect a slight loss of vacuum as normal. A rapid rise to normal atmospheric
pressure indicates moisture still present in the system. On a “wet” system, it will prove beneficial to
use heat lamps to warm the compressor dome and evaporator surface during evacuation.
3. Turn cuber power switch OFF. Reconnect compressor leads.
4. *After proper evacuation hold test has been performed, the refrigerant charge should be “dumped”
into the receiver until the pressure equalizes, stopping the flow. Do not try to throttle the refrigerant
flow. Doing so will allow system pressure to balance too soon. The high-side service valve should be
closed and the balance of the charge fed slowly through the suction side service valve with the com-
pressor operational. Control the feed rate at no faster than four (4) ounces [113.g] per minute to en-
sure the compressor oil does not become too saturated with refrigerant resulting in a loss of com-
pressor lubrication.
5. All refrigerant re-charging must be weighed into the system, utilizing an electronic charging scale.
DO NOT attempt to recharge the system by sight glass, system pressure, amperage, frost line or
sweat patterns.
6. Always leak check entire system after recharge.
CAUTION: Before programming the electronic scales to “dump” the charge, de-energize
the liquid line solenoid, close the shut-off valve on vacuum pump and low side of the
manifold set.
- Service / Training Manual 1
- TABLE OF CONTENTS 3
- PRODUCT PREVIEW 6
- MODEL AND SERIAL LOCATION 7
- SPECIFICATIONS 8
- TECHNICAL SPECIFICATIONS 9
- INSTALLATION INSTRUCTIONS 10
- DISPENSER INSTALLATION 11
- PLUMBING CONNECTIONS 12
- ELECTRICAL 12
- INSTALLATION CHECK POINTS 12
- START UP AND CHECK OUT 12
- November 26, 20018 13
- CLEANING PROCEDURES 14
- PREP – CLEANING PROCEDURE 15
- November 26, 2001 11 16
- OPERATIONS 17
- START UP SEQUENCE (PRIMARY) 18
- SECONDARY START UP 18
- DUMP CYCLE 18
- WATER FILL CYCLE 18
- PRECHILL CYCLE 18
- FREEZE CYCLE 19
- HARVEST CYCLE 19
- FAN CONTROL 19
- CALIBRATION MODE 19
- ADJUSTING BRIDGE THICKNESS 20
- TOTAL ICE CAPACITY 20
- ICE PRODUCTION CHECK 20
- FIGURE 10 21
- LED INDICATORS 22
- HARVEST BUTTON 23
- CLEAN CYCLE 24
- SAFETY FEATURES 25
- WATER FILL TIME OUT 25
- MAXIMUM FREEZE TIME OUT 26
- HARVEST TIME OUT 26
- BIN FULL DELAY 27
- HIGH CONDENSER TEMPERATURE 27
- OPEN CONDENSER THERMISTOR 27
- RESET OPERATION 28
- VOLTAGE CHECKS 28
- STACKING CABLE 28
- CONDENSER FAN CYCLING CONTROL 29
- THERMOSTATIC EXPANSION VALVES 29
- WATER REGULATING VALVE 30
- SERVICE STEM VALVES 30
- MOISTURE CONTAMINATION 31
- COMPRESSOR CONTACTOR 31
- Potential – 32
- Current – 32
- Capacitors 32
- LEAK DETECTION 33
- SELF-CONTAINED PRODUCTS 34
- HIGH PRESSURE SAFETY SWITCH 35
- COMPRESSOR RUN-ON 35
- TROUBLESHOOTING 36
- November 26, 200132 37
- November 26, 2001 33 38
- November 26, 200134 39
- FIGURE 16 40
- FIGURE 17 41
- XTREME ICE – KITS 42
- 631500074 43
- FIGURE 19 44
- SEE DETAIL 45
- DETAIL A 45
- SCALE 1:2 45
- 8–32 HEX 45
- REMOTE CONDENSERS 46
- REMOTE CONDENSER LOCATION 48
- November 26, 2001 45 50
- November 26, 200146 51
- FIGURE 30 52
- November 26, 200148 53
- One Cornelius Place 54
- Anoka, Minnesota 55303-6234 54
- (763) 421-6120 54
- (800) 238-3600 54
Relacionado con productos y manuales para Máquinas productoras de hielo Cornelius I Series
(22 paginas)© 2020, manymanuals.es. Todos los derechos reservados | 0.049 s |
Manymanuals.com
Manymanuals.de
Manymanuals.fr
Manymanuals.it
Manymanuals.pl
Manymanuals.cz
Manymanuals.es
Manymanuals-pt.com
Comentarios a estos manuales