RU141548U1 - CHECK VALVE - Google Patents

Abstract

1. The check valve, comprising a housing, in the central part of which a passage hole with a seat is made, a shutter with a flat working surface, rigidly connected to an axis pivotally mounted in the housing, and a shutter stop, characterized in that the valve seat is made in the form of a groove with an installed into it with a sealing elastic ring, the design of which ensures its immersion in the groove with great effort from the side of the shutter. 2. The non-return valve according to claim 1, characterized in that a rubber ring of a three-sand section is used as a sealing elastic ring. The check valve according to claim 1, characterized in that the hinge hole for the shutter axis in the housing is made in the form of a groove whose width is equal to and the length is larger than the axis diameter by an amount of size error from the center of the axis to the working surface of the shutter, the long side of the groove being perpendicular working plane of the shutter. 4. The check valve according to claim 1, characterized in that the input edge and the edge of the saddle holes in the housing are made radius. The check valve according to claim 1, characterized in that the shutter design provides a displacement of the gravity vector relative to the center of the shutter axis to the side of the working plane.

Description

The inventive utility model relates to valve engineering and is intended to block the return flow of the medium in the pipelines.

A non-return valve is known, comprising a housing in which a saddle, a shutter is pivotally connected to a support, a suspension and a stop of the shutter, the suspension is made in the form of an earring, and the axis of the hinges of the earring are offset from the center of gravity of the shutter (see utility model patent No. 88414 “Check valve” [1], date of supply 02.27.2009, published 10.11.2009)

The disadvantages of this check valve are the complexity of the design of the swivel in the form of an earring, and the shift of the center of gravity of the shutter relative to the axis of the hinges for the initial clamping of the shutter to the valve seat is due to the inclined surface of the seat, which also complicates the design and reduces the manufacturability of the device.

The closest technical solution to the claimed utility model is a gas check valve, comprising a housing in which a saddle with an inclined working surface made of lyophobic material is placed, a shutter pivotally connected to the axis, and an emphasis rigidly fixed in the housing (see patent for useful model No. 105391 "Gas check valve (options)" [2], application submission date 09.02.2011, published 10.06.2011).

The disadvantages of this non-return valve are the complexity of the design of the seat with an inclined working surface and reduced reliability due to possible wear of the working surface of the seat, since with the free movement of the valve in the swivel joint it can be displaced along the working surface, in addition, with a large pressure difference across the valve, the forces acting on the working surface can lead to the destruction of the seal.

The technical result, the achievement of which the claimed utility model is aimed, is to simplify the design, increase the reliability of the valve.

The specified technical result is achieved by the fact that the check valve, comprising a body, in the central part of which there is a through hole with a seat, a shutter with a flat working surface, is rigidly connected to an axis pivotally mounted in the body and the shutter stop, the valve seat being made in the form of a groove with a sealing elastic ring installed in it, the design of which ensures its immersion in the groove with efforts from the shutter side, a three-sand rubber ring with In addition, the hinge hole for the shutter axis in the housing is made in the form of a groove whose width is equal to and the length is larger than the axis diameter by the size error from the center of the axis to the shutter working surface, the long side of the groove being perpendicular to the shutter working plane, the entrance edge and the edge of the hole seat in the housing are made radial, the shutter design provides a displacement of the gravity vector relative to the center of the axis of the shutter away from the working plane.

Technical solutions that coincide with the totality of the essential features of the claimed utility model have not been identified, which allows us to conclude that the claimed utility model meets the condition of "novelty."

The patentability condition “industrial applicability” is confirmed by the example of a manufactured and tested industrial design.

The inventive utility model is illustrated by drawings:

Figure 1 - view of the valve from the side of the shutter,

Figure 2 is a cross section of a valve,

Figure 3 - view of the valve seal with a recessed ring,

Figure 4 - view of the swivel axis of the shutter with the valve body.

The check valve contains a housing 1, in the central part of which there is a passage hole with a seat, a shutter 2 with a flat working surface, rigidly connected to an axis 3 pivotally mounted in the housing, and a stopper of the shutter 6, and the valve seat is made in the form of a groove with it with a sealing elastic ring 5, the design of which ensures its immersion in the groove with great effort from the side of the shutter, for example, a rubber ring with a triple-sand section, which ensures minimal deformation of the rubber seal without causing it azrusheniya with sufficient sealing force.

The hinge hole for the axis in the housing is made in the form of a groove whose width is equal to and the length is greater than the diameter of the axis 3 doc by the size error from the center of the axis to the working surface of the shutter 2, and the long side of the groove is perpendicular to the working plane of the shutter, which ensures a snug fit of the working surface to the seal 5, at the same time reduces wear by preventing the shutter from moving along the working surface.

The inlet edge and the saddle edge of the hole in the housing 1 are made radial, which provides minimal resistance to flow passing through the valve.

The design of the shutter 2 is made in such a way that the gravity vector is offset relative to the center of the axis 3, which ensures a snug fit of its working surface at zero pressure drops.

The shutter comprises a stop 6, made in the form of an elastic rod protruding above its surface, for example, a rubber rod, with a spherical stop surface, which ensures limitation of maximum opening and reduction of shock loads when opening the valve.

The valve operates as follows. In the absence of a difference in the pressure of the working medium before and after the valve, the shutter 2 due to the moment created by its gravity shifted relative to the axis of rotation away from the working plane, fits tightly with its working surface to the seal 5 of the seat. The tightness on does not depend on the size error from the center of the axis to the working surface of the shutter 2, since the axis 3 has the ability to move in the hinge perpendicular to the working surface, due to the groove. In addition, the shape of the groove does not allow the shutter to move along the working surface, providing reduced wear of the mating surfaces. When the pressure of the return flow increases, the force of pressing the shutter against the seal 5 increases, ensuring the tightness of the joint and preventing the return flow of liquid. With a large pressure difference, the pressing force of the shutter reaches large values, while the seal 5 is buried in the groove without causing large deformations of the seal material and its destruction.

When the pressure of the direct flow exceeds the return, the valve opens, due to the rotation of the shutter 2, ensuring the flow of the working medium. To reduce the resistance to flow through the valve, the edges of the inlet channel and the seat are made radial. An increase in the flow rate of direct flow leads to an increase in the angle of rotation of the shutter, which is limited by an abutment 6 with a spherical abutment surface made of an elastic material that provides a reduction in shock loads when the valve is opened.

Thus, the claimed utility model has advantages over the known non-return valves, namely, a simple and technologically advanced design with increased reliability. In addition, due to the radial inlets and outlets during operation of the valve, a minimum resistance to flow is created, which reduces the energy loss for pumping the medium.

Information sources

1. Patent for utility model No. 88414, IPC F 16/03 Check valve. / V.V. Kotenkov, O.N. Poletaev, A.F. Sins, I.A. Sturgeon. Publ. 11/10/2009, BI No. 31.

2. Patent for utility model No. 105391, IPC F16K 15/03. Gas check valve (options). / A.V. Butakov, V.V. Kudryashov. Publ. 06/10/2011.

Claims (5)

1. The check valve, comprising a housing, in the central part of which a passage hole with a seat is made, a shutter with a flat working surface, rigidly connected to an axis pivotally mounted in the housing, and a shutter stop, characterized in that the valve seat is made in the form of a groove with an installed into it a sealing elastic ring, the design of which ensures its immersion in the groove with great effort from the side of the shutter. 2. The check valve according to claim 1, characterized in that a rubber ring of a three-sand section is used as a sealing elastic ring. 3. The check valve according to claim 1, characterized in that the hinge hole for the shutter axis in the housing is made in the form of a groove whose width is equal to and the length is larger than the axis diameter by an amount of size error from the center of the axis to the working surface of the shutter, the long side of the groove located perpendicular to the working plane of the shutter. 4. The check valve according to claim 1, characterized in that the input edge and the edge of the saddle holes in the housing are made radial. 5. The check valve according to claim 1, characterized in that the shutter design provides a displacement of the gravity vector relative to the center of the shutter axis to the side of the working plane.

Images