SU1498954A1 - Screw compressor - Google Patents

Abstract

The invention relates to screw compressors with an adjustable, internal compression ratio and allows to reduce the energy consumption for compression of gases or vapors when the external compression ratio changes. A system of self-acting injection valves (K) 2, 3, and 4, installed along housing 1, connects various working cavities formed by screws 5 to the injection line (L) 7. The arrangement of K 2, 3 and 4 and their connection to the L 7 injection allows gas to pass through K 4

K 3 and 4

K 2, 3 and 4, etc. in L 7 when reaching the compressor in any area along the length of housing 1 in the process of compressing the pressure equal to the pressure in L 7. It is not necessary to expend work on additional compression of the gas to a pressure exceeding the pressure in L 7. Thus, saving consumption Energy consumed by the compressor occurs in all modes in which the geometric compression ratio of the compressor exceeds the external one. 1 il.

Description

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The invention relates to a compressor (|) and can be used in screw compressors in refrigeration technician and other areas of national economy.

The purpose of the invention is to reduce the energy consumption for compressing gases or vapors by ensuring that the internal compression ratio is external.

La drawing shows a compressor circuit.

In case 1, a system of self-acting injection valves 2, 3, and 4 is installed. Inside case 1, screws 5 are shown one), which are compressor rotors. The hollows of the screws 5 form with the body 1 a pair of working cavities. The compressor is equipped with a suction line 6 and a discharge line 7. The valves 2-4 are located along the housing 1 or, which is the same, through screws 5 and connect the working cavities with the pressure line 7 with the pipeline 8.

The compressor works as follows.

Gas or steam flows through line 6 into the suction cavity of the compressor and is trapped by the pair of working cavities formed during rotation of screws 5 in housing 1. Upon further rotation of the screws 5, the working cavities are cut off {: from suction, the pressure is compressed g; a by decreasing the volume of the working cavity and then pumping into line 7 by: - netting and then to the consumer. Shaping: different paves working along the length of the body; 5 working cavities, separated by the engagement of the screws, the teeth of the screws and the body 1 1 moving from suction to discharge, contain compressed gas of different pressure, and the pressure in the working cavities increases to discharge. .

; In the case of coincidence of a geometric strut (compression squeeze (determined by the geometrical parameters of the screws, suction and discharge windows of the housing) with the external one (determined by the ratio of pressures in the injection line 7 and in the suction line 6) and if the external compression ratio exceeds Geometrical - valves 2-4 close.

When the pressure drops in the injection line 7 (for example, in the case of a drop in temperature). with a decrease in the external compression ratio, depending on the size

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the pressure drop opens either valve 4, or valves 3 and 4, or valves 2, 3 and 4, etc. The opening of the valves occurs as a result of the pressure drop across them. In the process of compressing gas or vapor in the compressor, the pressure along the length of the housing 1 reaches a pressure equal to the pressure in the injection line 7, monitored on all valves 2-4 as the backpressure to the compressible gas. For example, this occurs in a steam chamber located in the region of the valve 3, which partially opens bypassing the compressed gas through conduit 8 to the injection line 7. The remaining gas in the working cavity is pressed in the compressor until the steam working cavity reaches valve 4, at which the same gas pressure in the injection line 7 is monitored. The valve 4 is opened, also the gas passes into the injection line 7. The remaining gas is pressed and finally pushed into the injection line 7.

Thus, the average internal compression ratio only slightly exceeds the external one. This reduces the consumption of energy consumed by the compressor, since it is not necessary to compress the gas or steam to the maximum pressure (determined by the geometry of the screws and the housing), which, when exiting the compressor, drops to pressure in the discharge line 7.

Similarly, it is more economical to operate the compressor in the start-up mode, in which the pressure in the injection line 7 increases as the compressor runs from some initial value to the operating one. In this case, first all valves 2, 3 and 4 are open, then valve 2 is closed, then valve 3 and finally valve 4.

Claims (1)

Invention Formula A screw compressor comprising a housing with a system of self-acting injection valves, inside of which are located screws with the formation of working cavities, and a discharge line, characterized in that, in order to reduce the energy consumption for compression of gases or vapors by ensuring that the internal compression ratio is compatible with the external compression, self-acting pressure valves installed along the body and connecting the working cavities with the injection line.