RU1772424C - Compressor installation - Google Patents

Abstract

SUMMARY OF THE INVENTION A rotary compressor comprises a housing, in a cavity of which a cylinder with a radial groove and a dividing plate mounted therein is arranged. The eccentric rotor is placed in the cylinder with the possibility of constant contact with the plate and the formation of suction and compression cavities. The compression cavity is communicated through a heat exchanger with the internal cavity of the casing, which is filled with coolant. The heat exchanger is equipped with a device for injecting a cooling medium installed at the inlet to the heat exchanger and is in communication with the cavity behind the separation plate and a hydraulic line with sequentially installed in the non-exhaust valve, heat exchanger and oil separator. The cavity behind the plate through the valve is connected to the inner cavity of the casing. 1 silt, t

Description

The invention relates to the field of compressor engineering, and in particular to compressor units with a two-phase working fluid for cryogenic systems.

A known compressor installation in which two heat exchangers are sequentially installed after the compression stage, the first of which is supplied with air from the atmosphere to cool the gas, and the second with water. The disadvantage of such a design scheme is that the compressor unit has significant dimensions due to the presence of large heat transfer surfaces, which leads to large losses of levulation, and, consequently, to large power costs. The system is quite complex, and the use of water for cooling deprives its ERTLNMPNOSTM and limits the scope.

The closest in technical essence to the claimed device is a compressor unit selected as a prototype, comprising a rotary compressor, in the casing of which a rotor and a cylinder are placed, in the groove of which is a plate that targets the working chamber of the cylinder on the suction and compression cavity, the latter connected to the internal cavity of the casing through a heat exchanger, the gas 8 is cooled by a gas cooler due to the air supplied by the electric fan.

A disadvantage of the known technical solution is that the cooling efficiency of the compressed gas is achieved by the increased heat exchange surface, as a result of which the heat exchanger has large dimensions and the length of the flow part. This leads to large losses of pressure, and hence the power for calcining gas and liquid through the heat exchanger. Due to the interaction of the gas and liquid phases passing through the heat exchanger, these losses reach a significant value.

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The aim of the present invention is to increase the efficiency of the compressor unit by reducing hydraulic losses,

This goal is achieved in that in a known compressor installation comprising a rotary compressor including a casing in the cavity of which a cylinder with a radial groove and a plate installed therein, an eccentric rotor placed in the cylinder with the possibility of constant contact with the plate and the formation of suction cavities and compression, the latter being communicated through a heat exchanger with an internal cavity of the casing, which is filled with coolant, according to the invention, the heat exchanger is equipped with an inlet yawing coolant, which is installed at the inlet to the heat exchanger and communicated with the cavity behind the separation plate by means of a hydraulic line with a valve, heat exchanger and oil separator sequentially installed in it, while the cavity behind the separation plate is connected through the valve to the internal cavity of the compressor casing.

The invention is illustrated in the drawing, which shows a diagram of a compressor installation.

The compressor installation comprises a rotary compressor, on the casing 1 of which is placed a rotor 2, a cylinder 3 and a plate 4, mounted in a groove 5 and dividing the working chamber of the cylinder into compression and suction cavities. In the communication line 6 of the compression cavity and the cavity of the casing 1, a heat exchanger 7 is installed, made in the form of a straight pipe section with a device 8 for injecting coolant installed at the beginning of the gas-liquid mixture flowing through the heat exchanger 7. The gas cavity 5 is connected to the device 8 By means of a hydraulic line 9 with a valve 10 sequentially installed in it, a heat exchanger 11 and an oil separator 12, the valve 13 serves to connect the cavity of the groove 5 with the internal cavity of the casing 1. To supply the consumer with compressed gas from ompressora serves as the communication link 14 mounted thereon with the heat exchanger 15. For podachm gas and liquid in the compressor serves communications link 16 with the throttling device 17.

Compressor installation works as follows.

When rolling the rotor 2 on the surface of the cylinder 3, the movement of the plate 4 in the groove 5. When the movement of the plate 4

down the cooling fluid from the cavity of the housing 1 enters through the valve 13 into the cavity of the groove 5, When the plate 4 moves upward, part of the cooling fluid from the cavity

groove 5 passes through valve 10 via communication line 9, heat exchanger 11. oil separator 12 and throttle device 17 into the working cavity of the compressor for internal removal of heat of compression, mixing with the gas stream;

moving along the communication line 16. And a part of the liquid enters the device 8 and cools the gas-liquid mixture pumped from the compressor to the heat exchanger 7 via the communication line 6, due to direct contact of the cooling and cooling medium at the beginning of its flow. Then the cooled gas-liquid mixture enters under the casing 1 of the compressor, which serves as a coarse oil separator, and along the line

connection 14 and heat exchanger 15 goes to the consumer. The connection of the device for injecting liquid into the heat exchanger with the cavity behind the separation plate, which is connected to the internal cavity of the compressor casing, allows the same liquid to be used as a cooling medium as for the internal removal of heat of gas compression. This preserves the autonomy of the compressor installation and allows expand its scope. Direct contact of the cooling and cooling media leads to a reduction in hydraulic losses and a reduction in power consumption.

Claims (1)

The claims Compressor unit containing a rotary compressor, including a casing, in the cavity of which a cylinder with a radial groove and a dividing plate installed therein, an eccentric rotor placed in the cylinder with the possibility of constant contact with the plate and the formation of suction and compression cavities, the latter being communicated through the heat exchanger with the internal cavity of the casing which is filled with coolant, characterized in that, in order to increase the efficiency. the operation of the compressor unit by reducing hydraulic losses, heat exchanger provided with a device for injecting a cooling medium, which is installed at the inlet of the heat exchanger and communicated with the cavity for the partition plate through hydraulic lines with series mounted therein valve teploobmennikomi an oil separator, the cavity being connected to the inner cavity of the casing by a dividing plate through the valve of the compressor, 6- A l,;,. ,,,,, 7Д, {- - 1 S.1- SI l -.- l.l- 1.VL / s 5