SU408109A1 - - Google Patents

Description

METHOD FOR START-UP OF A CASCADE REFRIGERATING MACHINE

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The invention relates to refrigeration.

Methods are known for starting a cascade chiller with a compressor, a condenser, an evaporator and a throttling device in each stage by receiving a control signal from a pressure switch installed in the discharge line of the lower stage compressor when the pressure deviates from a predetermined value.

However, the known starting methods do not provide high operational reliability.

The aim of the invention is to improve the operational reliability of the chiller.

For this, the pressure relay signal acts on a solenoid valve placed in front of the throttling device, respectively, to turn it on or off.

The drawing shows a diagram of the lower stage of the cascade chiller (the upper stage of the machine is not shown), providing the implementation of the proposed method.

The lower cascade of the machine contains a compressor 1, a condenser-evaporator 2, a solenoid valve 3 installed on the refrigerant supply line to the evaporator 4, a throttling device 5, a spreading tank 6,

connected to the suction line of the compressor 1. In the discharge line of the compressor 1, a pressure switch 7 is installed. In cooling facility 8, temperature controller 9 is installed.

During the commissioning of the refrigerating machine, the compressor 1 sucks the refrigerant from the expansion tank 6 and the evaporator 4, compresses it and pumps it into the condenser-evaporator 2. The refrigerant vapor condenses and the liquid refrigerant flows through the open solenoid valve 3 into the throttling device 5 and into the evaporator 4. After some time, the amount of liquid refrigerant circulating in the system increases due to the refrigerant suction by compressor 1 from the expansion tank 6. The cooling capacity increases.

The incompatibility of the lower stage performance due to the high temperature in the object 8 of the capacity of the condenser-evaporator 2 causes an increase in the injection pressure.

Upon reaching a predetermined value of the pressure of the relay, the pressure 7 delivers a control signal to the solenoid valve 3, which closes.

The suction pressure when the solenoid valve 3 is closed decreases due to the discontinuation of the refrigerant to the evaporator 4. The cooling capacity of the cycle and the thermal load on the condenser-evaporator 2 fall. The discharge pressure decreases and, for a given lower value of the pressure switch 7, it issues a new control signal, through which the solenoid valve 3 is turned on.

The refrigerant supply to the evaporator 4 is resumed. Injection pressure begins to increase. The operation cycles of the solenoid valve 3 are repeated with the help of the control signals of the pressure switch 7.

When the set temperature in the object 8 is reached, the temperature controller 9 switches off the maschine. As the temperature in object 8 rises to a predetermined value using temperature control 9, the machine is turned on again.

When the temperature in the object 8 reaches, at which the thermal load on the condenser-evaporator 2 does not exceed its capacity and the cooling capacity of the upper stage, the discharge pressure does not reach the value at which the pressure switch 7 issues a control signal to turn on the solenoid valve 3. Cyclic operation of the solenoid valve 3 from pressure switch 7 T1 is terminated.

The polished method thus reduces the number of starts and stops of the lower stage compressor, which increases the operational reliability of the chiller and allows the machine to be put into operation in order to speed up.

Subject invention

The method of starting a cascade cooling circuit with a compressor, a condenser, an evaporator and a throttling device in each stage by receiving a control signal from a pressure switch installed in the discharge line of the lower stage compressor when the pressure deviates from a given value, which is different in that , by a signal of a pressure relay, they act on a solenoid valve placed in front of the throttling device, respectively, to turn it on or off.

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