SU1675591A1 - Pump-ejector set - Google Patents

Abstract

The invention relates to inkjet technology. The purpose of the invention is to increase efficiency and reliability in operation. The pump-ejector unit contains a separator 1 with lines (L) 2 and 3 for discharge of compressed gas and liquid, a circulation pump 4 connected by an input to L 3 and a discharge pipe 5 through a shut-off element 6 to the active nozzle of a liquid-gas ejector (E) 7, the nozzle 8 of the supply of the passive medium of which is connected to the source of the pumped gas, and the pressure pump 10 connected to the output to the outlet E 7, and the pressure nozzle 9 to the separator 1. The installation is equipped with L 11 and 12 authorities 13 and 14 for communication Accordingly 3 active nozzle 8 and the sleeve 7. A E 3 is provided with a locking body 15 arranged between the connection point A 11 and 12 and the inlet of the pump 4.1 z.p.f BACKGROUND yl 1.

Description

The invention relates to inkjet technology, mainly to installations for the utilization of low-potential associated gas.

The purpose of the invention is to increase the efficiency and 5 reliability of the installation.

The drawing shows a diagram of a pump-ejector installation.

The pump-ejector installation comprises a separator 1 with lines 2 and 3 of the outlet 10 for compressed gas and liquid, a circulation pump 4 connected to the active nozzle of the liquid-gas ejector 7 through the inlet 6 through the shut-off element 6, 15 cuttings 8 for supplying a passive medium which is connected to a source of a gaseous medium, and a discharge pump 9, connected by an input to the outlet of the ejector 7, and a discharge pipe 10 - to the separator 20 ru 1. The installation is equipped with lines 11 and 12 for transferring and supplying liquid with shut-off valves gans 13 and 14 for communication of the liquid drain line 3 with the active nozzle and pipe 8 for supplying a passive 25 medium of the ejector 7. The liquid drain line 3 is provided with a locking member 15 located between the connection point of the liquid bypass and supply lines 11 and 12 and the inlet circulation pump 4. 30

Installation works as follows.

The working fluid from the separator 1 is pumped out along the liquid discharge line 3 by the pump 4. The locking elements 15 and 6 are open, and the locking element 35 is closed. The pump 4 delivers the working fluid to the liquid-gas ejector 7. The shut-off element 14 is closed. A liquid-gas-gas ejector 7 pumps gas from the pipe 8 for supplying a passive medium. In 40 liquid-gas ejector 7 is the formation of a gas-liquid mixture and gas compression. The gas-liquid mixture from the liquid-gas ejector 7 enters the discharge pump 9. The injection pump 45 further compresses the gas, gas-liquid mixture and delivers the gas-liquid mixture to the separator 1. In the separator 1, the compressed gas is separated from the working fluid. The working fluid from 50 separator 1 is again pumped through line 3 by pump 4 and fed to a liquid-gas ejector 7, which pumps gas and delivers a gas-liquid mixture to pressure pump 9, which further carries out the mixture. In the separator 1, the pressure increases and when the required pressure is reached, at which gas is ejected by the liquid-gas ejector 7 (the pressure in the separator 1 can equal the pressure developed by the pump 7), the shut-off element 13 opens and the pump 4 is turned off. In this case, the shut-off elements 6 and 15 are closed. The working fluid from the separator 1 flows through lines 3 and 1'1 to the liquid-gas ejector 7, which pumps out and compresses the gas. From the liquid-gas ejector 7, the gas-liquid mixture is pumped out by the pump 9, compressed and sent to the separator 1. In the separator 1, the compressed gas is separated from the working fluid. Compressed gas from the separator 1 enters the consumer through line 2 of the compressed gas outlet. At the same time, the locking element on line 2 opens, which was previously closed. ’

To start the liquid-gas ejector to pump gas at an overpressure at the outlet of the ejector, it is necessary to open the shut-off element 14 on the liquid supply line 12. In this case, the pressure is equalized in the separator 1 at the outlet of the ejector 7 and in the pipe 8 for supplying a passive medium.

The liquid-gas ejector 7 begins to pump gas. The fluid supply to the pipe 8 for supplying a passive medium allows to reduce the volumetric gas content in the gas-liquid mixture at the inlet to the discharge pump 9, which contributes to its more stable operation during the start-up period. After the resumption of gas pumping by a liquid-gas ejector 7, the shut-off element 14 is closed.

Claims (2)

Claim 1. A pump-ejector installation containing a separator with lines for discharging compressed gas and liquid, a circulation pump connected to the active nozzle of the liquid-gas ejector, the inlet of the passive medium supply is connected to the gaseous source medium, and a discharge pump connected by an input to the ejector outlet, and a discharge pipe to a separator, characterized in that, in order to increase efficiency and reliability in operation, the installation is equipped with lines bypassing and supplying liquid with locking elements for communicating a liquid drainage line with an active nozzle, respectively, and with a pipe for supplying a passive ejector medium. 2. Installation according to claim 1, characterized in that the liquid discharge line is equipped with a shut-off element installed between the connection point of the bypass and liquid supply lines and the inlet to the circulation pump.