RU2675954C1 - Silencing device for a tightness pipeline overlap - Google Patents

Abstract

FIELD: transportation.SUBSTANCE: invention relates to pipeline transport and can be used to shut off oil pipelines and product pipelines. Silencing device is an elastic chamber 1, which includes a power frame. On the outer cylindrical surface of the elastic chamber there is a group of sealing annular friction protrusions 3 of rectangular cross-section made with non-rounded edges. Height of each friction protrusion 3 does not exceed its width. Also on the outer cylindrical surface of the chamber 1 there is one or two annular sealing protrusions 4 located on one or both sides of the group of friction protrusions 3. Protrusion or protrusions 4 are separated from the extreme friction protrusions 3 at a distance several times greater than the distance between the friction protrusions 3, and have a height greater than the height of the protrusions 3.EFFECT: invention allows to significantly increase the retained pressure of the working environment of the pipeline by increasing the adhesion force of the elastic chamber 1 with the surface of the pipeline 5, and also to improve the reliability of sealing the pipeline 5 by reducing the shear of the sealing protrusion along the pipe, which ensures maximum sealing of large irregularities on the inner surface of the pipe.4 cl, 4 dwg

Description

The invention relates to pipeline transport and can be used to shut off oil pipelines and oil pipelines.

At present, sealants and pneumatic plugs are used, which are a closed cylindrical rubber-cord chamber with a valve for connecting to a source of compressed air.

A damping rubber-cord device for blocking pipelines is known, comprising a sealed cylindrical chamber with rubber walls, one of the end walls of which is provided with a pipe fitting, enclosing a sealed cylindrical chamber made of a cord of rubberized material reinforced with threads of cord, including a cylindrical shell and connected to it located on end walls of the chamber end walls of the power frame made of separate radially directed and parts clearly overlapping one another strips, and placed on the specified power frame rubber cover layer, on the outer surface of which there is a group of protrusions of triangular section for sealing and adhesion to the pipe (see RU 2179682 C2, publ. 02.20.2002).

Closest to the proposed is a silencing device for tightly closing the pipeline in the form of an elastic chamber containing a cylindrical and two end parts and a fitting for supplying compressed air, while on the outer surface of the cylindrical part a group of annular protrusions of a triangular section and a separate annular protrusion of a triangular or trapezoidal section are made located closer than the group of protrusions to the end part, which is exposed in the working state to pressure, and is far from the extreme th protrusion of the group at a distance greater than the distance between the protrusions of the group, and having a height exceeding the height of the protrusions of the group (RU 2484357 C1, 06/10/2013).

The presence of a separate annular protrusion provides sealing of large irregularities on the surface of the pipeline crossing several projections of the group. The protrusions of a triangular section, designed to keep the silencer from shifting under the influence of the working medium of the pipeline and arranged in a group, do not always provide sufficient adhesion to the surface of the pipeline with increased pressure of the working medium of the pipeline on one side of the damper. When the pressure of the medium rises above a certain limit, the silencing device begins to shift relative to the pipeline in the direction of the pressure of the medium. This is due to the fact that when the pressure shell of the medium is exposed, the bases of the deformed triangular protrusions are displaced relative to their vertices, the vertices are tilted and bent, as a result, the contact surface of the triangular protrusions with the pipe surface smoothly passes to the side surface of the protrusions, and the friction force between the smooth rubber surface of the protrusions and the surface of the pipe becomes insufficient to hold high pressure, which leads to the movement of the device along the pipe. In this case, a separate annular protrusion, which provides sealing of large irregularities on the surface of the pipeline, bends and does not provide the necessary sealing of the pipeline.

The technical problem solved by the invention is the creation of a silencing device that is held in the pipe at an increased pressure of the medium and at the same time provides high reliability of sealing the pipeline using a silencing device.

The technical problem is solved due to the fact that a group of annular friction protrusions is made on the outer cylindrical surface of the elastic chamber in a muffler for tightly shutting off a pipeline containing an elastic chamber including a power cage, and an annular one is located on one or on each of two sides of the group of protrusions a sealing protrusion at a distance from the extreme of the friction protrusions greater than the distance between the friction protrusions, having a height exceeding the height of the friction protrusion in accordance with the invention, each frictional projection has a rectangular cross section and is formed with the edges having no fillets, and the height of each frictional projection is less than its width.

Preferably, each of the distances between the protrusions of the group is less than the width of the protrusions.

In addition, it is preferable that the friction protrusions be made of rubber of increased hardness from 65 to 80 conventional units according to Shore A as a single unit with the cover layer of the elastic chamber.

In addition, the cover layer of the elastic chamber and the sealing lip are preferably made of medium hard rubber from 45 to 60 Shore A.

The technical result achieved by the proposed invention, which allows to solve the indicated technical problem, is to increase the adhesion force of the silencing device to the pipe surface due to changes in the geometry of the protrusions of the group and to increase the friction force with the inner surface of the pipe due to the adhesion of the corners (edges) of rectangular protrusions with the microroughnesses of the inner surface of the pipe.

The invention is illustrated by drawings, where:

in FIG. 1 shows the proposed silencing device in its initial state, a front view with a partial section;

in FIG. 2 - place A in FIG. 1 on an enlarged scale;

in FIG. 3 - the proposed silencing device in working condition, under the action of pressure of the working medium of the pipeline;

in FIG. 4 - place B in FIG. 3 on an enlarged scale.

The silencing device for tight shutoff of the pipeline is an elastic chamber 1, which includes a power frame in the form of a reinforcing cord web and has a cylindrical part and two end parts, on one of which a fitting 2 for supplying compressed air is fixed.

On the outer cylindrical surface of the elastic chamber 1, a group of annular friction protrusions 3 of rectangular cross section is made (Fig. 2). The height b of each friction protrusion 3 should be less than its width a. Preferably, each of the distances c between the friction protrusions 3 is less than their width a. The closer the friction protrusions 3 are located to each other, the more of them and, accordingly, the angles of the rectangular friction protrusions 3 (edges) will fit on the contact surface of the elastic chamber 1 with the inner surface of the pipe, the greater will be the adhesion force of the device to the inner surface of the pipe.

The edges connecting the faces of the friction protrusions 3 should not be rounded so that when the protrusions 3 are deformed, the edges cling to the microroughness of the inner surface of the pipe.

Also on the outer cylindrical surface of the chamber 1 is made one or two annular sealing protrusions 4 located on one or both sides of the group of friction protrusions 3 (two protrusions 4 are shown in FIG. 1). The sealing protrusion or protrusions 4 are separated from the extreme friction protrusions 3 by a distance several times greater than the distance c between the friction protrusions 3 and have a height d exceeding the height b of the friction protrusions 3. In addition, the height d of the sealing protrusions must exceed the dimensions of possible irregularities the inner surface of the pipe, such as a longitudinal seam, sinks, etc.

The sealing projections 4 preferably have a trapezoidal cross-sectional shape (FIG. 2). Preferably, the sealing protrusions 4 were made integrally with the cover layer of the elastic chamber 1 from the same material — rubber of average hardness from 45 to 60 conventional units according to Shore A.

When performing two annular sealing tabs 4 increases the reliability of the sealing of the pipeline.

The friction protrusions 3 are preferably made of rubber of increased hardness from 65 to 80 conventional units according to Shore A as a single unit with the cover layer of the elastic chamber 1.

Muffler works as follows.

An elastic rubber-cord chamber 1 is installed in the pipeline 5 in a place located in front of the repair zone and is brought into working condition in order to prevent the transported medium and its vapors from the repair zone, for which purpose compressed air is pumped into the chamber 1 through a pneumatic pipeline. The chamber 1 is inflated, adjoins its cylindrical surface with protrusions 3, 4 to the wall of the pipeline 5, hermetically closes the internal cavity of the pipeline 5 and is fixed in the pipe (Fig. 3). Under the influence of the pressure of the working medium of the pipeline on one side, the elastic chamber 1 tends to move. Since the height b of each friction protrusion 3 does not exceed its width a, and the protrusions 3 of a rectangular shape have increased hardness, they are deformed (bent) by an angle a and becomes less than 20 ° from their initial position (Fig. 4). The edges of the rectangular friction protrusions 3 penetrate into the microroughness of the pipe, which provides a friction force (adhesion) greater than the friction force of the elastic chamber with triangular protrusions on the pipe wall, due to the engagement of the edges of the friction protrusions 3 due to microroughness of the inner surface of the pipe. In addition, when the friction protrusions 3 are densely placed (at distances with as small a width as possible) when they are deformed by the pressure of the working medium of the pipeline on the elastic chamber 1, the angle a does not exceed 10 °, since the friction protrusions 3 limit the deformation of the side walls of adjacent protrusions 3, which helps to increase the adhesion force of the edges of the protrusions 3 with microroughnesses of the pipe.

As a result of the interaction of the friction protrusions with the microroughness of the pipe wall, the silencing device is held in place. The increased hardness of the friction protrusions 3 helps to reduce their deformation and preserve the edges of the protrusions. Reliable adhesion of the friction protrusions 3 with the pipe surface, in turn, increases the reliability of sealing the pipeline 5 with the proposed device by reducing the shear of the elastic chamber 1 and, accordingly, the longitudinal deformation of the sealing protrusion 4 or protrusions 4 while maintaining their maximum deformation towards the pipe surface, having surface defects, which ensures the penetration of the rubber of the sealing lip 4 to the entire depth of the defect.

Claims (4)

1. A silencing device for tightly shutting off a pipeline containing an elastic chamber including a power cage, a group of annular friction protrusions is made on the outer cylindrical surface of the elastic chamber, and on one or on either of the two sides of the friction protrusions and at a distance from the extreme of the friction protrusions, greater than the distance between the friction protrusions, there is an annular sealing protrusion having a height greater than the height of the friction protrusions, characterized in that each fr ktsionny protrusion has a rectangular cross section and is formed with the edges having no fillets, and the height of each frictional projection is less than its width. 2. The device according to claim 1, in which each of the distances between the friction protrusions is less than the width of these protrusions. 3. The device according to claim 1, in which the friction protrusions are made of rubber with a hardness of 65 to 80 conventional units according to Shore A as a single unit with the cover layer of the elastic chamber. 4. The device according to claim 1, in which the cover layer of the elastic chamber and the sealing lip are made of rubber with a hardness of 45 to 60 conventional units according to Shore A.

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