RU15367U1 - DEVICE FOR AERATION OF LIQUID - Google Patents

Abstract

1. A device for injecting a gas-liquid mixture with a double-acting piston pump, comprising a working cylinder with suction and pressure valves, a piston installed in the working cylinder and dividing it into two chambers communicating with each other through pressure valves with a manifold, a gas-liquid mixture source made in the form ejector, an inlet valve mounted on the front cover of the piston pump, characterized in that at least one double-acting piston pump is made of a two-cylinder, in which th one working cylinder communicates via suction valves to a source of hydraulic fluid, and through injection valves - to an input of the ejector nozzle, a second working cylinder communicates via the intake valves with ejector outlet and through injection valves - with kollektorom.2. The device according to claim 1, characterized in that it is equipped with a pressure compensator communicating with the inlet of the ejector nozzle. 3. The device according to claim 1, characterized in that it contains an additional double-cylinder double-acting piston pump in which both working cylinders communicate through the inlet valves with the ejector exit, and through the discharge valves with the manifold.

Description

The utility model relates to methods of injecting a gas-liquid mixture with a piston pump - 11reim5R, which is ideal for drilling and developing wells.

A known device for injecting a gas-liquid mixture with a double-action piston pump containing a working cylinder) with suction and discharge valves, flushed with a working cylinder and dividing it into two sections, one, the camera communicates through an inlet valve installed on the front cover. a gas-liquid mixture source, made in the form of an ejector, and the second - with a source of working fluid, the chambers are connected to each other through the discharge valves by a collector, in which the gas-liquid mixture is mixed with the working fluid (Utility Model Certificate No. :: 9024 О1о Bl, 116: 61 : 99).

However, the direct supply of working fluid from one pump chamber to the collector, bypassing the ejector, leads to a decrease in the degree of aeration of the liquid-liquid mixture, which limits the technological capabilities of the device.

Solved by the utility model is given - the expansion of the technological capabilities of the known device, the reduction of material costs for the manufacture of "operation.

The technical result that can be obtained by implementing a utility model tag is to increase the degree of aeration of the gas-liquid mixture and expand the technological capabilities of the device.

For the task posed by the first model, with the achievement of the specified technical result — a known device — for a netai of a gas-liquid mixture with a double-acting piston-type melt, containing a working cylinder with suction and discharge valves, a piston.

installed in the working cylinder and dividing it into two chambers communicating with each other through pressure valves with a collector, a gas-liquid mixture source made in the form of an ejector, an inlet valve installed on the back of the piston of a piston pump, according to a utility model, at least one double piston pump the action is performed by a two-cylinder, in which one working cylinder communicates through the suction valves with a source of working fluid, and through the discharge valves - with the inlet of the ejector nozzle, the second working The second cylinder communicates through the inlet valves with the ejector outlet, and through the discharge valves with the manifold.

Additional embodiments of the claimed device are possible, in which it is advisable

-the device was equipped with a pressure compensator, co-connected with the inlet of the ejector nozzle;

-the device was equipped with an additional double-cylinder double-acting double-acting piston pump, in which the cylinders communicate through the inlet valves with the ejector exit, and through the discharge valves with the manifold.

The indicated advantages, as well as the features of the utility model, will be understandable when considering the best variant of its implementation with reference to (ii) the attached figure, which shows a general view of the device for aerating the liquid.

The device contains a double-acting double-acting piston pump 1, an ejector 2, a liquid source 3, a compressor 4, a gas supply from the atmosphere to the ejector, a pressure compensator 5, an additional double-acting double-acting piston pump b,

The pump 1 contains the working cylinders 7 and 8. The working cylinder 7 is equipped with suction and non-genuine 10 valves, a bore 11. The piston 11 divides the working cylinder 7 into two chambers 12 and 13, communicating with each other through the suction valves with the source

working fluid 3, and through the discharge valves 10 with the inlet of the nozzle 14 of the ejector 2. R, in turn, the input of the joint 14 of the ejector 2 is connected to the pressure compensators 5.

The working cylinder is equipped with an inlet valve 1 mounted on the frontal flap 16 of the pump 1, the by-pass valve 17, pressure valves IS, 1yrsh1: 9: 11 a piston 1: 9 divides the working cylinder into two chambers 2 & 21, communicating through the inlet valves 15 and 17 with the outlet 22 of the ejector 2, and through the discharge valves 1 with the manifold 23. The inlet valve 15 is installed so that the gas-liquid mixture is supplied to the part of the chamber 20 rather than under the discharge valve 18.

The device works in a manner.

When you turn on the pumps 1 and 6, the working fluid comes from the source 3 in the suction stroke through the suction valves 9 in the chamber 12 and

13 working shchindra 7. Further in. the discharge stroke through the discharge pipes 4 - to the inlet of the nozzle 14 of the ejector 2. The ejector 2 gas is supplied from the atmosphere with the help of compressor 4. The pressure compensator 5 connected to the inlet of the nozzle 14 of the ejector 2, reduces the pressure irregularity. The gas-liquid mixture formed in the ejector 2 under excess pressure in the suction pump enters from the outlet 22 of the ejector through valves 115 and 17 to the working chambers 20 and 21 of the other workshop 8, and in the discharge stroke, pressure valves 18 to the manifold 23.

The volume of the gas-liquid mixture supplied from the outlet 22 of the ejector 2 under excess pressure% is slightly higher than the volume of the working fluid supplied from the working cylinder 7 to the inlet of the nozzle 14 of the ejector Z in the same time. In this case, the ejector has the highest efficiency.

The gas-liquid mixture from the outlet 22 of the ejector 2 in the suction stroke enters through the inlet valves 26.28 into the working shields 24.25, and in the discharge cycle through the discharge valves 29 into the manifold 23. Then the gas-liquid mixture coming in 8.24.25 is sent to the consumer . the collector 23 of the working cylinders

Claims (3)

1. A device for injecting a gas-liquid mixture with a double-acting piston pump, comprising a working cylinder with suction and pressure valves, a piston installed in the working cylinder and dividing it into two chambers communicating with each other through pressure valves with a manifold, a gas-liquid mixture source made in the form ejector, an inlet valve mounted on the front cover of the piston pump, characterized in that at least one double-acting piston pump is made of a two-cylinder, in which th one working cylinder communicates via suction valves to a source of hydraulic fluid, and through injection valves - to an input of the ejector nozzle, a second working cylinder communicates via the intake valves with ejector outlet and through injection valves - with the collector.  2. The device according to p. 1, characterized in that it is equipped with a pressure compensator in communication with the input of the ejector nozzle. 3. The device according to claim 1, characterized in that it contains an additional double-cylinder double-acting piston pump, in which both working cylinders communicate through the inlet valves with the ejector exit, and through the discharge valves with the manifold.