RU76380U1 - CHECK VALVE - Google Patents

Abstract

The utility model relates to petroleum engineering and can be used in well sucker-rod and electric centrifugal pumps, which pump mainly aggressive liquids with a high content of solids. The objective of the utility model is to increase the maintainability of the check valve.

The valve includes a housing, a seat, a locking element made in the form of a ball mounted in a limiter with openings for fluid flow. The limiter is made in the form of a cell fixed with a snap ring. The saddle is fixed with a nut and a sleeve, an o-ring is installed between the sleeve and the body. The sleeve and nut are supplied with turnkey grooves.

Description

The utility model relates to petroleum engineering and can be used in well sucker-rod and electric centrifugal pumps, which pump mainly aggressive liquids with a high content of solids.

Known check valve (according to the patent for utility model RU 70544), containing a cylindrical body, a locking element mounted with the possibility of axial movement inside the body, a saddle mounted in a cage, a limiter with holes for fluid flow. The valve is equipped with a sealing ring installed between the cage and the housing. Saddle secured with threaded sleeve

Known check valves (according to patents for utility models RU 55018, RU 56940), consisting of a cylindrical body with an internal annular protrusion, a locking element mounted with the possibility of axial movement inside the body, a saddle secured with a threaded sleeve, a limiter with holes for fluid flow . The saddle is fixed in the housing using a threaded sleeve.

A common disadvantage of the known valves is that, when operating in an aggressive working environment, corrosion (sticking) of the threads of the bushings fixing the seat occurs. Disassembling the valve for maintenance or repair becomes impossible.

In addition, in the valve according to patent RU 55018 (selected as a prototype of a utility model), the seat is fixed by a threaded sleeve provided with an opening for the gate. During operation of the valve, it is possible to destroy the pipe under the action of a flow of a working medium swirling in the openings under the valve.

The technical task of the utility model is to increase the maintainability of the check valve.

The technical result is achieved in a non-return valve, comprising a housing, a seat, a shut-off element made in the form of a ball, mounted in a limiter with holes for fluid flow. The limiter is made in the form of a cell fixed with a snap ring. The saddle is secured with a nut and

bushing, between the bushing and the housing there is an o-ring. The sleeve and nut are supplied with turnkey grooves.

The invention is illustrated by drawings.

figure 1 - check valve assembly;

figure 2 - sleeve;

The check valve consists of a cylindrical body 1 with an inner annular protrusion 2. At the ends of the body 1 a thread 13 is made for installation in a column. Inside the housing 1 there are installed: a locking element 3 in the form of a ball, a saddle 4, a travel stop for the locking element 3 in the form of a cage 5. The saddle 4, ball 3, cage 5 are made of wear-resistant hard alloys, for example VK-15.

The saddle 4 is installed on one side of the annular protrusion 2, and the cage 5 is fixed on the other side of the annular protrusion 2 using the retaining ring 6.

The locking element 3 is installed in the cell 5 with the possibility of axial movement inside the cell 5, equipped with holes 7 for the flow of fluid.

The saddle 4 is fixed with the help of a threaded nut 8 and a threaded sleeve 9 provided with keyways grooves 10 (Fig. 2).

To protect the thread 11, the sleeve 9 is equipped with a sealing ring 12 mounted in an annular groove made in the sleeve 9 or in the housing 1.

The check valve operates as follows.

When used with submersible pumps, the valve is installed in the tubing.

After turning on the pump, the working fluid enters through the threaded sleeve 8 to the shut-off element 3. Under the action of fluid pressure, the shut-off element 3 rises from the seat 4 and moves inside the cage 5, forming a fluid flow inside the valve. Next, the fluid passes through the holes 7 of the cell 5 and enters the valve outlet.

When the pump stops, the shut-off element 3 under the pressure of the column of working fluid in the column is lowered into the seat 4, thereby preventing the reverse flow of the working fluid and holds the fluid in the string of tubing.

If it is necessary to replace the locking element 3 or the seat 4 in the valve, liquid is drained from the column above the non-return valve using a drain valve. To replace the seat 4 with the locking element 3, unscrew the threaded sleeve 9 with nut 8. The sleeve 9 does not go beyond the dimensions of the housing 1, thereby reducing flow resistance. An o-ring 12 mounted in an annular recess in the sleeve 9 protects the thread 11 on the nut 8 and on the sleeve 9 from the action of aggressive working fluid. Thus, the disassembly of the valve for maintenance or repair is simplified, its maintainability is increased.

Claims (5)

1. Non-return valve, comprising a housing, a seat, a locking element installed in the limiter with holes for the fluid flow, the seat is fixed with a nut and a sleeve, an o-ring is installed between the sleeve and the body. 2. The check valve according to claim 1, characterized in that the limiter is made in the form of a cage fixed with a retaining ring. 3. The check valve according to claim 1, characterized in that the locking element is made in the form of a ball. 4. The check valve according to claim 1, characterized in that the sleeve is provided with keyways. 5. The check valve according to claim 1, characterized in that the nut is provided with keyways.