RU137591U1 - REVERSE SHUTTER - Google Patents

Abstract

1. Reverse shutter, comprising a housing covered on both sides by flanges, the passage channel of which is blocked by a round plate placed in a housing niche and connected to a retaining element installed in a T-shaped recess of the housing, characterized in that the retaining element is made in the form of a rectangular or square a bar equipped with through channels in which flexible threads are placed, also passed through reciprocal longitudinal channels made in a plate. 2. The reverse gate according to claim 1, characterized in that the number of channels in the retaining element and the plate is made of at least two symmetrically located relative to the axis of the latter. The backstop according to claim 1, characterized in that the plate is made of an elastomeric material, for example polyurethane with an internal rigid frame.

Description

The utility model relates to the engineering industry, namely to valve manufacturing and can be used to shut off the reverse flow of the working medium in process pipelines.

A known reverse valve (see RU No. 2250406, F16K 15/14), comprising a housing located between two flanges, in the center of which a flexible membrane is fixed by means of a perforated disk, overlapping the perforation depending on the direction of flow in the housing or in the disk.

The disadvantages of the known solutions include a sharp narrowing of the bore of the shutter inherent in any perforation, which is due to the large coefficient of hydraulic resistance.

A reverse valve is also known (see RU No. 2455545, F16K 15/03), a prototype comprising a housing covered on both sides by flanges, the passage section of which is overlapped by a plate located in a housing niche and mounted on an axis placed in a T-shaped groove with recesses at the ends of the latter, in which the rectangular ends of the axis with bending cut are placed.

The disadvantages of the prototype include the low cyclic resistance of the mounting plate with the housing due to the presence of constantly operating alternating directional loads on the axle and eyelets of the plate.

The technical problem of the present utility model to be solved is to increase the cyclic stability of the plate mounting unit with the housing.

The problem is solved in that the gate contains a housing enclosed on both sides by flanges, the passage channel of which is blocked by a round plate located in a recess of the housing and connected to a retaining element installed in a T-shaped recess of the housing and the retaining element is made in the form of a rectangular or square bar equipped with through channels in which flexible threads are placed, also passed through the reciprocal longitudinal channels made in the plate, while the number of channels in the holding element and the plate is made as min two symmetrically arranged relative to the axis of the latter, and the plate is made of an elastomeric material, for example polyurethane with an internal rigid frame.

In FIG. 1 shows a cross section of a reverse shutter; in FIG. 2 section разрез-A of FIG. one; in FIG. 3 (option) layout of flexible threads; in FIG. 4 (option) layout of flexible threads.

The reverse shutter consists of a housing 1 with an input channel 2, which is blocked during the reverse flow of the medium by a round plate 3 made of an elastomeric material, for example polyurethane, the basis of which is a frame 4 containing a shell 5, a perforated disk 6 and channels 7 through which the flexible thread 8 is passed through, for example , "Kevlar" connecting the plate to the retaining element 9 with the corresponding plate by the number of channels 10 connected by a recess 11. The element 9 is placed in a T-groove 12 of the housing 1, gaskets are installed on both sides of the latter and 13, for example, from paronite, and on the outside on the vertical axis of the housing there is a blind threaded hole 14 for mounting the return shutter between the flanges 15.

Reverse shutter assembly.

The thread 8, depending on the connection scheme of the plate 3 with the holding element 9, is passed through the channels 7 of the plate 3 and the channels 10 of the holding element 9, maintaining the size "B" depending on the nominal pass of the return shutter. Then place the element 9 in the T-groove 12 of the housing 1 and fill it with a self-curing composition, for example based on epoxy resins. Then, gaskets 13 are installed or glued on both sides of the casing and, using a blind threaded hole 14, a backward shutter is placed between the pipeline flanges.

The reverse shutter is ready for operation.

Reverse shutter operation.

When the conducted medium flows “under the plate”, the pressure of the latter opens channel 2 of the housing 1 and the medium enters the consumer. In this case, the plate 3 tends to take a horizontal position as much as the walls of the pipeline allow, and a flexible thread 8 made of high-strength material holds the plate in the flow of the medium. In this case, depending on the properties of the medium, threads from various materials such as Kevlar, Zylon, Arlan, Basalt and others can be installed, and the number of threads connecting the plate 3 with the holding element 9 depending on the pressure of the medium should be performed as a multiple of two, as the minimum.

In the reverse flow of the conducted medium, the plate 3 freely returns to its original position and blocks the channel 2 of the housing 1.

Thus, due to the implementation of channels in the retaining element and plate through which a flexible high-strength thread is passed, which withstands both tensile and bending loads, it allows to increase the cyclic stability of the plate mounting unit with the case.

Claims (3)

1. Reverse valve, comprising a housing covered on both sides by flanges, the passage channel of which is blocked by a round plate located in a housing niche and connected to a retaining element installed in a T-shaped recess of the housing, characterized in that the retaining element is made in the form of a rectangular or square a bar equipped with through channels in which flexible threads are placed, also passed through mating longitudinal channels made in a plate. 2. The reverse gate according to claim 1, characterized in that the number of channels in the retaining element and the plate is made of at least two symmetrically located relative to the axis of the latter. 3. The backstop according to claim 1, characterized in that the plate is made of an elastomeric material, for example polyurethane with an internal rigid frame.

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