SU1495513A1 - Vacuum pump unit - Google Patents

Abstract

The invention can be used for pumping a gas-liquid mixture with a low content of the gas phase. The purpose of the invention is to increase the reliability of the vacuum unit. In the housing 3 of the vacuum pump 2 with the formation of the working chambers 5 are placed shaped rotors 4. The receiver 1 has nozzles 8.9 for draining liquid and gas. The liquid level control device consists of a float 10 and a kinematically connected actuator installed in the pipe 9, which also has radial holes 12-14, hole 14 is in line with pipeline 15 with pump 6 inlet 6, hole 13 is with atmosphere, hole 12 is located in the cavity of the receiver 1. The actuator is made in the form of a spool 11 installed with the possibility of alternately blocking the holes 12-14. 3 il.

Description

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The invention relates to pump engineering, namely to vacuum installations, and can be used for pumping out gas from a liquid mixture with a low content of the gas phase.

The purpose of the invention is to improve the reliability of the vacuum unit when pumping gas-liquid mixture.

FIG. 1 shows a vacuum unit; in fig. 2 - a device for regulating the level of a liquid when the nozzle for the discharge of gases from the receiver is blocked; in fig. 3 - the same, when the inlet of the vacuum pump with the atmosphere is communicated.

The vacuum unit consists of a receiver 1 and a vacuum pump 2, the latter comprising a housing 3 and profiled rotors 4 therein, which form working chambers 5 with the housing 3. The vacuum pump 2 is equipped with an inlet 6 and an outlet 7 that is rigidly connected with a receiver 1, which is provided with a drain nozzle 8 for draining a liquid and a nozzle 9 for evacuating the gas, as well as a liquid level regulating device made in the form of a float 10 connected kinematically to the spool 11 installed in the last is made three holes 12-14. The lower hole is located in the cavity of the receiver 1, the middle port communicates the pipe 9 with the atmosphere, and the top hole communicates with the pipe 15, the second end of which is connected to the inlet pipe 6 of the pump. The receiver 1 is provided at the bottom of the safety valve 16.

Vacuum installation works as follows.

After turning on the vacuum pump 2, the gas-liquid mixture flows through the inlet pipe 6 into the working chambers 5, and then into the receiver 1, where the gas and liquid phases are separated. The liquid is exhausted through the drain pipe 8, and the gas is discharged to the atmosphere through the pipe 9, which is provided by the spool II. With an increase in the level of oil in the receiver 1, the float 10 rises and pushes up the spool 11, while the hole 12, which communicates the cavity of the receiver 1 with the atmosphere,

overlaps. As a result, the pressure in the cavity of the receiver 1 rises, which leads to an increase in the rate of flow of fluid through the drain pipe 8. When an emergency pressure rises

Q safety valve 16.

In the case of pumping a mixture containing a small fraction of the gas component, there is practically no increase in pressure in the cavity of the receiver I with increasing liquid level. With a further rise, the pop shop 5, and accordingly the spool 11, opens an opening -14, and the inlet 6 of the pump 2 communicates via the pipeline 15 to the atmosphere. The amount of gas constituent in the mixture increases, which leads to the operation of the vacuum unit.

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in the described mode.

Claims (1)

Invention Formula A vacuum installation, including a receiver and a vacuum pump, the latter comprising a housing and profiled rotors placed in it to form working chambers, and the receiver has nozzles for discharging liquid and gas, a liquid level control device containing a float and A kinematically coupled actuator mounted in the gas outlet nozzle, the pump outlet communicating with the receiver, characterized in that, in order to increase reliability when pumping the gas-liquid mixture, at least three radial holes are made in the gas outlet nozzle which are communicated by pipeline with the pump inlet, the lower one is located in the cavity of the receiver, and the middle is communicated with the atmosphere, while the actuator is designed as a spool, installed with the possibility of alternating overlap of holes. f3 eleven FIG. 2 li