SU1460557A2 - Arrangement for controlling a refrigeration plant - Google Patents

Abstract

The invention is suitable for refrigeration and can be used to control multi-chamber refrigeration units designed to operate over a wide range of temperatures. The purpose of the invention is to increase the efficiency and reliability of the plants in automatic mode when the temperature of the cooling water condensers changes. To do this, pressure relays 32 installed on the discharge line of compressor 1, time relay 33, two electromagnetic valves 27 and 28 are additionally introduced, the bypass pipe 26 with its valve 29. At that, the switch-35 modes in one position is connected to the time relay 33, the pressure switch 32 and to the electromagnetic valves 28 and 29, and in another position to the pressure switch 32 nor to the solenoid valves 27-29. Such an implementation of the automatic control scheme allows ensuring stable operation in the automatic mode, 1 sludge. (L Od El O1 14)

Description

The invention relates to refrigeration engineering, in particular to devices for controlling multi-chamber refrigeration units, which are designed to operate in a wide range of temperatures supplied to the cooling of water condensers, can be used in ship refrigeration units of provision chambers for various purposes and is improvement of the technical solution for the main author. St. No. 937922.

The purpose of the invention is to increase the cost-effectiveness and reliability of refrigeration units in automatic mode with temperature changes. cooling water condensers.

The drawing is a schematic diagram of a refrigeration unit designed to maintain predetermined temperatures in three chambers.

Refrigeration unit contains compressor 1, condenser 2, regenerative heat exchanger 3, evaporators 7–9 are located in chambers 4–6 with pipelines 10–12 for supplying liquid refrigerant and pipe 13 for evaporating refrigerant, system for automatically supplying refrigerant to evaporators 7–9 in the form of a thermostat - valves 14-16 and electromagnetic valves 17-19, temperature relays 20-22, pump 23 supplying cooling water to the condenser 2 with suction pipe 24 and pipe 25 supplying cooling water, bypass pipe 26 and installed They are electromagnetic valves 27–29 and control valve 30, discharge line 31 of compressor 1, relay 32, pressure, time relay 33, intermediate relay 34, and two-way mode switch 35, providing automatic control of the refrigeration unit in two circuits depending on temperature Cooling KOH Water Sensor 2. Moreover, in one position, the switch 35 modes at low (for example, below) the temperature of the cooling water in the control circuit

Laziness includes a time relay 33, a pressure relay 32, an electromagnetic valve 27 on the water supply pipe 25 to the condenser 2, an electromagnetic valve 29 on the bypass pipe

5 0 0 5 Q

five

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line 26, the electric drives of the compressor 1 and the water pump 23, and in another position of the mode switch 35 at high (for example, more) cooling water temperature, the pressure switch 32 is turned on in the control circuit, the electromagnetic valves 27 and 28 on the parallel water supply pipelines condenser 2, electric drives of compressor 1 and water pump 23.

The device works as follows.

When the mode switch 35 is set to position I, when the temperature in one, for example, chamber 4, reaches the upper permissible value, the electromagnetic valve 17 is opened to the upper permissible value by the temperature relay 20 signal, supplying the liquid refrigerant to the evaporator 7 through line 10 through the thermostatic valve 14 at the existing currently, the pressure drop of condensation and boiling (). Compressor 1 starts with a delay for a period of time T, the value of which is set by time relay 33 depending on the length of pipeline 10 (distance from the electromagnetic valve 17 from the thermostatic valve 14) and the evaporator capacity 7 through the refrigerant, and the start of the water pump 23 and opening of the electromagnetic valve occurs with a delay of time L 5 the delay time of starting the compressor 1 ensures that the evaporator is normally filled 7 ka1.1er 4: liquid refrigerant, which is also improved by reducing the pressure condensation during compressor operation for a period of time (,) without supplying cooling water to condenser 2 and improving the operating conditions of thermostatic valve 14 in connection with this. As a result, after starting compressor 1, it is stable without stopping

low suction pressure. one ,

After starting compressor 1 through

the time interval lt, after the temperature relay 20 has been operated and the pressure switch 32 is turned on simultaneously and the cooling water supply pump 23 is started into the condenser 2 through the open solenoid valve 27, the condensation pressure decreases when the cooling water temperature is low

(especially with a small load on the compressor 1) to a value that is different from the optimum by the value of the installation of the operation of the relay 32 pressure. In this case, the pressure switch 32 opens the electromagnetic valve 29, providing the part of the water heated in the condenser 2 through the bypass pipe 26 to the suction pipe 24 of the water pump 23. The supply of warmer water to the condenser 2 leads to a gradual condensation pressure, which, as the load increases Compressor 1 (for example, when turning on the evaporators 8 and 9, chambers 5 and 6, when the weather conditions change) increases to a value exceeding the optimal one. In this case, the pressure switch 32 closes the solenoid valve 29, stopping the supply of warm water to the condenser 2,

Thus, the periodic opening of the electromagnetic valve 29 when the condensation pressure is lowered and it closes when the condensation pressure increases by a permissible relative pressure. optimum value, the value set by the setting of the operation limits of the operating pressure relay 32 ensures the stable operation of the refrigeration unit in automatic mode.

When the mode switch 35 is set to position II, in the event of a temperature rise in one of the chambers 4-6, for example in chamber 5, the electromagnetic valve 18 opens to the upper permissible value of the temperature relay 21 signal, ensuring the supply of liquid refrigerant to the evaporator 8 through the thermostatic The valve 15 simultaneously turns on the compressor 1, the water pump 23, the pressure switch 32 and the electromagnetic valve 27 on the cooling water supply pipe 25 to the condenser 2. In the event of an increase in the condensing pressure with increasing load to compressor 1, associated, for example, with turning on the electromagnetic valves 17 and 19 of the evaporators 7 and 9, by the signal of the relay 20 and 22 of the temperature of the chambers 4 and 6 or when the weather conditions change to a value exceeding the optimum

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It is set to the value of the setting of the operation of the 32-point operating relay, the latter activates the electromagnetic valve 2B. An increase in the flow rate of the cooling water condenser 2, therefore, leads to a gradual decrease in the pressure in the condenser 2 to the value of the operation of the operating pressure switch 32, at which the electromagnetic valve 28 closes and the cooling water supply to the condenser 2 decreases.

By periodically turning on the electromagnetic valve 28 with an increase in the load on the compressor 1 and a corresponding increase in the condensation pressure and switching off the electromagnetic valve 28 with a decrease in the condensation pressure, the signal of the operating relay 32 of the pressure causes a stepwise regulation of the flow of cooling water through the condenser 2. As a result different from the optimal value by the allowable value set by the setting of the upper and lower limits s srabatshani relay 32 pressure.

Claims (1)

Invention Formula Device for regulating the refrigeration unit according to ed. St. To 937922, characterized in that, in order to improve efficiency and reliability, it additionally contains a pressure switch installed on the discharge line of the compressor, a time relay, two electromagnetic valves installed on the cooling water supply pipelines to the condenser, provided with a water bypass pipeline with its solenoid valve, while in one position the mode switch is connected to a time relay, a pressure relay, one of the solenoid valves on the cooling water supply pipe to a capacitor and a solenoid valve on the bypass pipeline, and in another position, the mode switch is connected to the pressure switch and to both electrodes five 0 0 five magnetic valve m