7
Differential pressure monitor
The differential pressure monitor protects the plate heat exchange of the chiller against excessively low flow rates
and hence against damage caused by ice formation.
3.3.2
OPTIONS
Ø
HYDRAULIC CIRCUIT
BP
Ø
Automatic bypass / Overflow valve
The overflow valve is intended to guarantee a minimum throughput in the cooling medium circuit. This protects the
evaporator and the pump.
BPM
Ø
Manual bypass
This type of bypass can be used to manually adjust the minimum throughput in the cooling medium circuit.
CAA
Ø
Automatic cooling medium feed via a float valve
The cooling medium is filled up automatically by the float valve if the level in the tank falls below a minimum.
EV 1
Ø
Solenoid valve 1 (connect without current) in return circuit
These valves should be used in open systems when the consumers are installed on a higher level. This is generally
used as a valve combination with VNR (see below).
FL
Ø
Flow controller
The flow controller located in the cooling medium inlet monitors the flow in the cooling medium and consum er cir-
cuit. It switches the cooling system off if the throughout falls below a minimum.
LVE
Ø
Flow switch (systems open to the atmosphere with tank)
The flow switch is located in the tank and monitors the cooling medium level.
If the water level falls and reaches the minimum value, the cooling system and the pump(s) are switched off. The
chiller cannot be switched on again until the cooling medium has been filled up to the MAX mark on the level dis-
play.
RA
Ø
Tank heating
The tank heating warms the cooling medium in the tank. It is used to achieve the optimum operating temperature
within a short time if there is a low ambient temperature and no process heat is being added.
TD
Ø
Digital thermometer in return circuit (systems with single and dual circuit)
The digital thermometer shows the inlet temperature of the cooling medium.
VNR
Ø
Non-return valve in the supply line
These valves are used in open systems when the consumers are positioned at a higher level and prevent uncon-
trolled flow of the cooling medium back into the tank when the pump is stationary. They are generally used in
combination with a solenoid valve (EV, see above).
Dirt trap
If there is a risk of the cooling medium becoming contaminated by solids with a diameter > 1 mm during operation,
a dirt trap with an appropriate mesh width has to be used. This should preferably be fitted outside of the chiller so
that it can be cleaned easily. It is important to note the flow direction. The dirt trap must be cleaned at regular in-
tervals after commissioning the chiller, or as required.
Pump alternatives
A pump is provided as standard and supplies a pressure of 2 to 3 bar at the defined nominal flow rate. Other
pumps can of course be selected according to the project. Depending on the pressure and volume it may be neces-
sary to carry out adjustments to the system characteristics with the aid of control valves.
3.3.3
SINGLE-CIRCUIT SYSTEM WITH TANK (STANDARD)
The cooling medium circuit has been designed as system open to the atmosphere. The circuit consists o f the follow-
ing components:
§
pump of horizontal or vertical design,
§
tank, open to the atmosphere, thermally insulated with draining facility, optical filling level indicator and cover
to prevent contamination of the cooling medium.
§
piping system consisting of copper or plastic pipes with manometer and probe connection for the operating
thermostats.
The volume of cooling medium in the tanks is a contributory factor to maintaining the constancy of the cooling me-
dium outlet temperature. The pump conveys the cooling medium within the circuit out of the tank to the consumer
and then back into the tank via the evaporator.
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Страница 70: ...70 MODEL PCGE 28 230V 1Ph 50Hz POWER COMMAND DIAGRAM ...
Страница 71: ...71 MODEL PCGE 28 400V 3Ph 50Hz POWER COMMAND DIAGRAM ...
Страница 72: ...72 MODELS PCGE 31 to PCGE 41 OCGE 31 to OCGE 41 230V 1Ph 50Hz POWER SECTION ...
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Страница 76: ...76 MODELS PCGE 200 to PCGE 520 OCGE 150 to OCGE 240 PCGEZ 160 to PCGEZ 300 400V 3Ph 50Hz POWER SECTION ...
Страница 77: ...77 MODELS PCGE 200 to PCGE 520 OCGE 150 to OCGE 240 PCGEZ 160 to PCGEZ 300 400V 3Ph 50Hz COMMAND SECTION ...
Страница 78: ...78 MODELS PCGE 590 to PCGE 3300 PCGEZ 360 to PCGEZ 480 400V 3Ph 50Hz ...
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Страница 84: ...84 MODELS PCGE 370 to PCGE 520 PCGEZ 180 to PCGEZ 300 with tank and pump MODEL PCGE 590 with tank and pump ...
Страница 85: ...85 MODELS PCGE 730 to PCGE 880 PCGEZ 360 to PCGEZ 480 with tank and pump MODEL PCGE 1000 with tank and pump ...
Страница 86: ...86 MODEL PCGE 1100 with tank and pump MODEL PCGE 1300 with tank and pump ...
Страница 87: ...87 MODEL PCGE 1900 2200 with tank and pump MODEL PCGE 2900 3300 with tank and pump ...
Страница 89: ...89 MODELS PCGE 370 to PCGE 520 PCGEZ 180 to PCGEZ 300 without tank MODEL PCGE 590 without tank ...
Страница 90: ...90 MODELS PCGE 730 to PCGE 880 PCGEZ 360 to PCGEZ 480 without tank MODEL PCGE 1000 without tank ...
Страница 91: ...91 MODEL PCGE 1100 without tank MODEL PCGE 1300 without tank ...
Страница 92: ...92 MODEL PCGE 1900 2200 without tank MODEL PCGE 2900 3300 without tank ...
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Страница 166: ...69 11 2 WIRING DIAGRAM MODELS PCGE 11 to PCGE 25 PCGEZ 08 230V 1Ph 50Hz POWER COMMAND DIAGRAM ...
Страница 167: ...70 MODEL PCGE 28 230V 1Ph 50Hz POWER COMMAND DIAGRAM ...
Страница 168: ...71 MODEL PCGE 28 400V 3Ph 50Hz POWER COMMAND DIAGRAM ...
Страница 169: ...72 MODELS PCGE 31 to PCGE 41 OCGE 31 to OCGE 41 230V 1Ph 50Hz POWER SECTION ...
Страница 170: ...73 MODELS PCGE 31 to PCGE 41 OCGE 31 to OCGE 41 230V 1Ph 50Hz COMMAND SECTION ...
Страница 171: ...74 MODELS PCGE 31 to PCGE 141 OCGE 31 to OCGE 141 PCGEZ 37 to PCGEZ 100 400V 3Ph 50Hz POWER SECTION ...
Страница 172: ...75 MODELS PCGE 31 to PCGE 141 OCGE 31 to OCGE 141 PCGEZ 37 to PCGEZ 100 400V 3Ph 50Hz COMMAND SECTION ...
Страница 173: ...76 MODELS PCGE 200 to PCGE 520 OCGE 150 to OCGE 240 PCGEZ 160 to PCGEZ 300 400V 3Ph 50Hz POWER SECTION ...
Страница 174: ...77 MODELS PCGE 200 to PCGE 520 OCGE 150 to OCGE 240 PCGEZ 160 to PCGEZ 300 400V 3Ph 50Hz COMMAND SECTION ...
Страница 175: ...78 MODELS PCGE 590 to PCGE 3300 PCGEZ 360 to PCGEZ 480 400V 3Ph 50Hz ...
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Страница 181: ...84 MODELS PCGE 370 to PCGE 520 PCGEZ 180 to PCGEZ 300 with tank and pump MODEL PCGE 590 with tank and pump ...
Страница 182: ...85 MODELS PCGE 730 to PCGE 880 PCGEZ 360 to PCGEZ 480 with tank and pump MODEL PCGE 1000 with tank and pump ...
Страница 183: ...86 MODEL PCGE 1100 with tank and pump MODEL PCGE 1300 with tank and pump ...
Страница 184: ...87 MODEL PCGE 1900 2200 with tank and pump MODEL PCGE 2900 3300 with tank and pump ...
Страница 186: ...89 MODELS PCGE 370 to PCGE 520 PCGEZ 180 to PCGEZ 300 without tank MODEL PCGE 590 without tank ...
Страница 187: ...90 MODELS PCGE 730 to PCGE 880 PCGEZ 360 to PCGEZ 480 without tank MODEL PCGE 1000 without tank ...
Страница 188: ...91 MODEL PCGE 1100 without tank MODEL PCGE 1300 without tank ...
Страница 189: ...92 MODEL PCGE 1900 2200 without tank MODEL PCGE 2900 3300 without tank ...
Страница 194: ...97 710 1789 00 00 02B 轜 07 05 2008 ...