RU2416050C2 - Back gate - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: back gate consists of case with inlet and outlet channels, of seat with disk installed in inlet channel, also, disk comes beyond its projection, of support and of disk rest. The rest is located on the seat beyond projection of the disk and has internal conic cavity. A conjugated with it finger swings on an eye ring. The eye ring is hinged both with the support and with the disk.

EFFECT: raised reliability of gate operation due to damping device preventing collision of packing fields of disk and seat at back flow of transported medium.

4 cl, 5 dwg

Description

The invention relates to the engineering industry, namely to valve engineering, and can be used to shut off the reverse flow of the medium in pipelines.

Known check valve (see application No. 2008118872), comprising a housing with input and output channels, a seat located in the input channel, a support hinged to the plate mounted in the annular groove of the saddle.

The disadvantages of the known shutter include the absence of cushioning elements to soften the shock of the sealing fields of the plate and seat when closing the shutter, as well as plates and cases when opening the shutter, which reduces the reliability of the shutter.

Also known is a check valve (see RU 2237211 C2 F16K 15/03), a prototype comprising a housing, input and output channels located in the input channel of a saddle with a plate, located outside the projection of the last support hinged to the plate and the stop plate with oriented damping plane parallel to the axis of the support and equipped with discharge openings.

The disadvantages of this shutter include the absence of damping elements when the plate is closed with a reverse flow of the medium, which also reduces the reliability of the shutter due to the collision of the sealing fields of the plate and the seat.

The aim of the present invention is to increase the reliability of the shutter by creating a damping device that prevents the collision of the sealing fields of the plate and seat during the reverse flow of the medium.

This goal is achieved by the fact that the emphasis is located on the saddle outside the projection of the plate and is provided with an internal conical cavity, and the mating finger is mounted with the possibility of swinging on the earring, articulated both with the support and with the plate, and the stops are made two symmetrically arranged relative to the vertical axis of the shutter, and the conical cavity of the abutment is connected to the outer surface by radial channels, or mutually intersecting helical grooves are made on the outer surface of the finger and either the emphasis or the finger is made of elastomeric material such as polyurethane.

Figure 1 shows a longitudinal section of a backward shutter in a closed state; figure 2 shows a longitudinal section of the shutter in the open state; figure 3 shows a section along aa in figure 1; figure 4 shows a view of B in figure 1; figure 5 shows a section along bb in figure 4.

The backstop includes a housing 1, an input channel 2 and an output channel 3, a saddle 4 mounted in the input channel 2, a support 5 located in the annular groove 6 of the saddle 4 and pivotally connected by an axis 7 to a pivoting earring 8, which is also pivotally through an axis 9 fixed plate 10.

Fingers 11 are mounted on the earring 8 with the possibility of swinging, interacting with the outer surface with the response cavity 12 of the stops 13 fixed on the saddle 4 symmetrically with respect to the vertical axis of the shutter. The stops 13 are provided with radial channels 14. In this case, either the stops 13 or the fingers 11 can be made of an elastomeric material, for example polyurethane.

The earring 8 has shoulders 15 interacting with the restrictive surfaces 16 of the plate 10.

The check valve operates as follows.

When the conducted (working) medium is supplied in the direction of arrow D, the plate 10 under the pressure of the medium takes a horizontal position, while the surface 16 interacts with the shoulders 15 of the earring 8 and the latter also takes a horizontal position. The shutter is open. The working medium enters through the output channel 3, and the finger 11 leaves the inner cavity of the stop 13.

When the medium is supplied to the plate 10, in the direction of arrow G, the plate 10 together with the earring 8 rotates relative to the axis 7, while the finger 11 enters the internal cavity 12 of the stop 13 and begins to squeeze the working medium out of the cavity 12 through the annular gap formed between the finger 11 and the inner cavity 12 of the stop 13, and the radial channels 14. The smaller the gap and the smaller the diameters of the radial channels, the higher the damping resistance created, which is maintained until the sealing fields of the poppet 10 and the seat 4 come into contact.

The execution of one of the elements of either the stop 13 or the finger 11 of elastomeric material allows to self-install the ring 11 to soften its first contact with the stop 13, which also helps to improve the damping characteristics.

The execution on the fingers 11 of the mutually intersecting helical grooves 15, and the stop 13 without grooves 14 practically does not change the damping properties of the device.

Thus, due to the fact that on the saddle outside the plate projection, stops with a conical internal cavity are installed, from which, when the shutter is closed, the conducted medium is squeezed out with a finger movably fixed on the earring connecting the support installed outside the annular groove of the saddle and the plate, and the medium is extruded ( which means it creates resistance to plate closure) through the annular gap between the ring and the inner conical cavity of the stops and through the radial channels connecting the cavity with the outer surface of the stops. Moreover, the smaller the diameter of the radial channels, the higher the resistance created to the closure of the plate. This solves the problem of eliminating the collision of the sealing fields of the saddle and the plate when closing the backstop.

Claims (4)

1. A check valve comprising a housing with input and output channels, a seat in the input channel with a plate located outside the projection of the latter, a support, and a plate stop, characterized in that the stop is located on the saddle outside the plate projection and is provided with an internal conical cavity, and the mating finger is mounted with the possibility of swinging on the earring pivotally connected to both the support and the plate. 2. The backstop according to claim 1, characterized in that the stops are two symmetrically arranged relative to the vertical axis of the shutter. 3. The backstop according to claim 1, characterized in that the conical cavity of the stop is connected to the outer surface by radial channels, or mutually intersecting helical grooves are made on the outer surface of the finger. 4. The backstop according to claim 1, characterized in that either the emphasis or the finger is made of an elastomeric material, for example polyurethane.

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