RU166947U1 - CHECK VALVE - Google Patents

Abstract

1. The check valve, comprising a housing equipped with inlet and outlet channels and a central blind stepped hole, a seat, characterized in that the channel for the passage of the conductive medium is located in the valve body, made in one piece with the seat, and having contact with the seat in position “Closed” by the spool, the spool being mounted in the housing with the possibility of movement, opening the passage section of the seat, the seat is made coaxially with the guide surface of the body, on the spool there is a coaxial sealing surface A guide surface has been made that has the possibility of contact with the guide surface of the housing, in addition, the spool is equipped with a groove that can equalize the pressure in the cavity under the cover and the cavity of the housing above the shutter, and the cavities are arranged to communicate with each other at any position of the valve. 2. The valve according to claim 1, characterized in that it is equipped with a spring, the ends of which are located in the blind central hole of the spool and sleeve.

Description

The utility model relates to the field of mechanical engineering, in particular valve engineering, and in particular to devices with guided rigid locking elements, and is intended for use in the oil and gas complex as a device that blocks the return flow of the transported medium in various technological pipelines.

Known designs of non-return valves containing a housing with inlet and outlet openings, a shut-off element located in the housing interacting with the seats (Gurevich D.F. Design and construction of pipe fittings: Calculation of pipe fittings. Publ. 5.-M.: Publishing house LKI, 2008. - 460 pp. Electronic resource: http: //truboprovod.rf/static/books/2013/10/23/gurevich-raschyot-i-konstruirovanie-truboprovodnoj-armaturyi.pdf. - P. 117 Fig. 351, P. 199 fig. 390, p. 334 fig. 460).

A non-return valve is known, comprising a valve body in the form of a round leaf, a valve seat for a leaf, an expanding chamber having fluid contact with a hydraulic fluid connection hole, and a piston (4) having a first and second end, wherein the leaf contains a first and second the connection point and is rotatably connected at the first connection point, said leaf can rotate between the closed position, with the formation of tight contact with the valve seat, and the open position in which the liquid can ohodit through the valve piston has a possibility of contact with the expanding chamber (EA 201391060A1. Publ. 30.01.2014).

A known valve comprising a housing in which a locking assembly is located, consisting of a seat and a spring-loaded ball and cage with an internal cavity for the spring and openings for the passage of the medium. In this case, the housing is made with two grooves mirrored relative to the jumper, in the central hole of which there is a ball interacting on one side with a saddle fixed in the groove with a ring nut, and on the other with a spring fixed by a cage (Patent No. 2493355RU. Publish. 09.09.2013 )

A known method and control system with feedback based on the sound pressure level includes a control valve comprising a housing with inlet and outlet openings located obliquely, a cover, a spring (Patent No. 2432513RU. Publ. 27.10.2011).

However, the design of the known valve is quite complex and does not provide high tightness in the shutter during the reverse movement of the medium.

Known check valve containing a housing equipped with inlet and outlet openings, a locking element, a seat, a cover, a cavity filled with a working medium, a blade (Copyright certificate No. 1523817 of the USSR. Publish. 23.11.89).

Known high pressure check valve Z 15.3 containing a housing, spool, pin, cover, seal (Electronic resource: http://www.irimex.ru/files/catalog/rubs/files/676/obr_klapan_zl53.pdf. - C.1, 3).

Known check valve, comprising a housing, cover, spindle, spindle bushing, seat (Electronic resource: http://az-mayak.ru/16s48nzh-kpo-valve-reverse-lifting.html).

However, the known non-return valve does not allow for accurate positioning of the spool on the seat; misalignments and biases are possible, which leads to high leakages in the valve, i.e. it does not have sufficient tightness, is unstable and unreliable in operation, due to the fact that when the check valve is closed, the spool moves along a guide surface made in an intermediate part manufactured separately from the body. In addition, in the open position, it is difficult to communicate between the body cavities under the cover and the passage of the body through which the transported medium flows. If the valve cavities are difficult to communicate, it is possible to create under the cover a pressure region lower than the pressure of the medium, which leads to a freezing of the spool in the open position.

The objective of this utility model is to expand the valve equipment, namely the check valve, with improved consumer properties, the result of which is to increase the tightness of the valve and the reliability of the check valve under pressure, in the possibility of communication of the cavities with each other at any position of the valve.

The problem is solved in that in the check valve, comprising a housing equipped with inlet and outlet channels and a central blind stepped hole, a seat, a channel for the passage of the conductive medium, is located in the valve body, made in one piece with the seat, and having the ability to contact with the seat in the “closed” position by the spool, the spool being installed in the housing with the possibility of movement, opening the passage section of the seat, the seat is made coaxially with the guide surface of the body, on the spool it is coaxially sealed On the surface, a guide surface is made having contact with the guide surface of the housing, in addition, the spool is equipped with a groove having the ability to equalize the pressure in the cavity under the cover and the housing cavity above the shutter, the cavities being arranged to communicate with each other at any position of the valve.

It is advisable, to create additional effort, to equip the valve with a spring, the ends of which are located in a blind central hole of the spool and sleeve.

The present utility model is illustrated by a detailed description with drawings, in which:

FIG. 1 - shows the main view of the check valve in section without a spring in the closed position;

FIG. 2 - shows the main view of the check valve in section without the spring in the open position;

FIG. 3 - shows the main view of the check valve in section with the spring in the closed position;

FIG. 4 - shows the main view of the check valve in section with the spring in the open position.

The check valve contains a housing 1, equipped with an input 2 and output channels 3 (Fig. 1-4). A blind step hole 4 is made in the housing 1. The inlet channel 2 and the output channel 3 are connected bypass holes 5 and 6, respectively, with a blind step hole 4 made in the aforementioned housing 1. The shutter 7 is installed coaxially in the blind step hole 4. The shutter 7 consists of a seat 10 and a spool 9. At least 2 channels 8 are made in the body of the spool 9. The axis of each of the mentioned channels 8 for the passage of the medium is perpendicular to the axis of the blind stepped hole 4. In addition, each of the channels 8 is located n in the slide valve 9 having the possibility of contact with the valve seat 10 in the position "closed". Moreover, the spool 9 is mounted in the housing with the possibility of movement, opening the bore of the seat 10. The seat 10 is made coaxial with the guide surface of the blind stepped hole 4 of the housing 1. On the shutter 7 coaxially of the sealing surface 11 of the spool 9 there is a guide surface 12 having contact with the guide surface 13 of the blind stepped hole 4 of the housing 1. In addition, the shutter 7 is equipped with a blind hole 15 and a groove 14, which has the ability to equalize the pressure in the cavity of the blind step of the opening 4 of the housing 1 between the pressure sleeve 16 and the bolt 7. Moreover, the cavity arranged to communicate with each other at any position of the spool 9. The compression sleeve 16 has a possibility of contact with the gasket 17. From the pressure sleeve 16 is wound cover 18 by means of the metric thread.

In an embodiment of the valve, a spring 19 is placed in the blind hole 15 of the shutter 7 with the spool 9, the ends of which are located in the blind central hole 15 of the shutter 7 with the spool 9 and the sleeve 16.

The check valve operates as follows.

When the medium moves from below, under the spool 9, the spool 9 moves in the direction of the cover 18, opening the shutter 7 and providing a passage of the medium (Fig. 1-4).

In the reverse flow, the spool 9, due to the pressure of the medium, dead weight and spring force 19 (if any), moves towards the seat 10 and closes the passage section of the housing 1, thereby preventing the flow of the conducted medium.

The proposed utility model allows you to expand the means of valve production, namely the product group of check valves, with improved consumer properties. In addition, the present utility model has increased tightness and reliability of the pressure check valve.

The proposed utility model has a simple design convenient to assemble and operate.

Claims (2)

1. The check valve, comprising a housing equipped with inlet and outlet channels and a central blind stepped hole, a seat, characterized in that the channel for the passage of the conductive medium is located in the valve body, made in one piece with the seat, and having contact with the seat in position “Closed” by the spool, the spool being mounted in the housing with the possibility of movement, opening the passage section of the seat, the seat is made coaxially with the guide surface of the body, on the spool there is a coaxial sealing surface A guide surface has been made that can contact the guide surface of the housing; moreover, the spool is equipped with a groove having the ability to equalize the pressure in the cavity under the cover and the cavity of the housing above the shutter, the cavities being arranged to communicate with each other at any position of the valve. 2. The valve according to claim 1, characterized in that it is equipped with a spring whose ends are located in a blind central bore of the spool and the sleeve.

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