RU2636958C2 - Damping device - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: device consists of a cylindrical and two end walls, a fitting, an internal sealing chamber, an outer rubber shell with sealing annular rubber protrusions, and a reinforcing rubber-cord frame. In the conjugation areas of the cylindrical and end walls, at least, one additional rubber-cord tissue layer is on top of the rubber-cord frame layers. End portions of the additional rubber-cord tissue layer and end portions of the base rubber-cord tissue layer located at the respective radial aimed rubber-cord overlapping bands, have the same width and the same direction of threads with the threads of the radially directed rubber-cord bands. The sealing annular rubber protrusions with a cross section in the form of triangles of radius R smoothly pass to the outer rubber shell.

EFFECT: increasing the reliability of the damping device and increasing the sealing of the pipeline.

2 cl, 4 dwg

Description

The invention relates to auxiliary devices for a pipeline network and is intended to shut off pipes of oil pipelines, water pipes and other pipeline systems during repairs.

Known rubber-damping device for blocking pipelines and a method for its manufacture (patent RU 2037727, IPC F16L 55/12, publ. 06/19/1995), the end walls of which are made of separate, radially directed and partially intersecting each other strips of rubberized cord fabric with bent along axis and thickened ends extending under the cylindrical shell, intersecting in the region of the cylindrical shell with reinforcing layers of the shell so that the outer and inner layers of the shell and bands smoothly bend around adjacent layers, while on the outer surface of the cylindrical part of the device, annular protrusions of triangular and semicircular sections are made.

The disadvantages of the known design are the places of transitions of the annular protrusions of a triangular and semicircular section to the outer cylindrical surface, cracks form in the places of the transitions on the cylindrical surface, for this reason penetration of oil products through the rubber-cord frame into the pressure chamber, which can lead to depressurization of the device and its failure, this drawback reduces the reliability of the device.

The closest in technical essence and the achieved technical result is a plugging device for blocking the pipeline (patent RU 2277661, IPC F16L 55/12, publ. 06/10/2006), containing an inner chamber formed by a cylindrical and two associated end walls, an outer rubber cover the shell and the reinforcing frame located between them, consisting of layers of rubber-cord fabric reinforcing the cylindrical wall of the chamber, and individual radially directed and partially overlapping rubber bands ordnoy fabric reinforcing the end wall of the chamber. The end sections of the layers of rubber-cord fabric reinforcing the cylindrical wall of the chamber are bent, respectively, into strips of rubber-cord fabric located on the end wall. The reinforcing frame includes at least one additional layer of rubber-cord fabric superimposed on the inner sealing rubber chamber and located in the interface between the cylindrical and end walls. One of the end walls is equipped with a pipe fitting located along the axis of the chamber.

A disadvantage of the known silencing device is the insufficient strength of the reinforcing rubber-cord frame in the interface between the cylindrical and end walls when placing an additional layer of rubber-cord fabric on the inner sealing rubber chamber.

The technical result of the claimed silencing device is to increase the reliability of the silencing device and increase the sealing of the pipeline.

The technical result is achieved by increasing the strength of the rubber-cord frame and due to the smooth transition of the annular rubber protrusions on the outer rubber shell. The increase in the strength of the rubber-cord frame is carried out by placing at least one additional layer of rubber-cord fabric on top in the mating zones of the cylindrical and end walls of the device on the layers of the rubber-cord frame, the end sections of the additional layer of the rubber-cord fabric and the end sections of the main layers of the rubber-cord fabric located on the end walls of the device have the same width and one direction of threads with threads of radially directed rubber-cord strips on which they are fixed from above. Improving the reliability of the silencing device is achieved due to the smooth transitions of the annular rubber protrusions of a triangular shape in cross section on the outer rubber shell. The claimed form of annular rubber protrusions, smoothly transitioning to the outer rubber shell (radius R), reduces the stress concentration at the transition points of the rubber protrusions to the outer rubber shell, prevents the appearance of cracks in the transition points and, thus, prevents the destruction of the outer rubber shell.

The essence of the claimed silencing device is illustrated by the following drawings:

FIG. 1 - silencing device with an additional layer of rubber-cord fabric placed on top, general view;

FIG. 2, view A — placement on the end walls of the device of radially directed rubber-cord strips, bent end sections of the main layers of rubber-cord fabric and bent end sections of an additional layer of rubber-cord fabric;

FIG. 3, view B — configuration of the sealing ring rubber protrusions with a smooth transition to the outer rubber shell;

FIG. 4 - silencing device in working position.

The silencing device 1 for blocking the pipeline (Fig. 1) consists of a cylindrical and two end walls, on one of which a pipe fitting 2 is located along the axis of the device, contains an internal sealing chamber 3, an outer rubber shell 4, a rubber cord frame located between them, consisting of of at least two main layers of rubber-cord fabric 5 on the cylindrical wall of the device 1, the filaments of which are located at an angle α from 2 ° to 20 ° to the longitudinal axis of the device 1, and separate on the end walls of the device 1 unidirectionally and partially overlapping rubber-cord strips 6 with a longitudinal arrangement of threads, the number of layers of radially directed rubber-cord strips 6 on the end walls is equal to the number of main layers of rubber-cord fabric 5 on the cylindrical wall of the device 1 and at least one additional layer of rubber-cord fabric 7 located in the mating zones of the cylindrical and end walls of the device, on the layers of the rubber-cord frame, and the end sections of the main layers of fabric 5 reinforcing the cylindrical The device’s hench and the end sections of the additional layer of rubber-cord fabric 7 are bent to the corresponding radially directed rubber-cord bands 6, while the width of the end sections of the rubber-cord fabrics 5 and 7 has the same width and one direction of threads with the threads of the radially directed rubber-cord bands 6 (Fig. 2), which provides a reduction in stresses and an increase in strength in the mating zones of the cylindrical and end walls of the rubber-cord frame, and also increases the reliability of the damping device 1.

The silencing device 1 (Fig. 3) contains sealing ring rubber protrusions 8 having a cross-section in the form of a triangle with an angle at the vertices β equal to 60-90 °, and the height of the protrusions H equal to 5-20 mm, smoothly transitioning the radius R to the outer rubber the shell 4, comprising 0.3-0.5 of the height H of the rubber protrusion 8. The claimed shape of the sealing ring rubber protrusions 8 with an angle β at the apex and the ratio of the height H of the sealing ring rubber protrusion 8 and the radius R ensures the stability of the protrusions 8 when pressed by the working pressure gas to int the lower surface of the pipeline 9 (Fig. 4), as well as with large axial loads on the damping device 1 from the working medium, prevents the damping device 1 from shifting in the pipeline 9, which increases the reliability of sealing the pipeline 9, reduces stress concentrations at the points of transition from the sealing ring rubber protrusions 8 to the outer rubber sheath 4. Due to the smooth transition of the sealing ring rubber protrusions 8 to the outer rubber sheath 4, the reliability of the silencing device 1 is increased.

The inventive silencing device 1 operates as follows.

A gas supply hose (not shown) is connected to the nozzle 2 of the silencing device 1 (Fig. 4) and the silencing device 1 is introduced into the pipeline 9. Gas is supplied under the sleeve through the pipe fitting 2 to the silencing device 1 under operating pressure.

In the process of working under gas pressure, the diameter of the silencing device 1 increases, the rubber-cord frame under the action of gas perceives the arising load, an additional layer of rubber-cord fabric 7 located on top of the layers of the rubber-cord frame in the mating zones of the cylindrical and end walls of the silencing device 1 reduces the voltage in these zones of the rubber-cord frame. Placed on the end walls of the silencing device 1, the end sections of the additional layer of rubber-cord fabric 7 and the end sections of the main layers of rubber-cord fabric 5 located on the respective radially directed rubber-cord strips 6 with overlap have the same width and one direction of the threads with the threads of the radially directed rubber-cord strips 6 provide uniform distribution load on the layers of the rubber-cord frame in these zones, which increases the strength of the rubber-cord frame of the silencing device 1 and, therefore, increases the reliability of the damping device 1.

When the working gas 10 is supplied to the pipeline 9, the sealing ring rubber protrusions 8, made in the cross section in the form of triangles with an angle β at vertices equal to 60-90 °, reliably seal the pipeline 9, and smooth transitions with a radius R of the protrusions 8 to the outer rubber shell 4 prevent the appearance of cracks on the outer rubber shell, which increases the sealing of the pipeline.

Thus, the claimed silencing device provides the claimed technical result: improving the reliability of the silencing device and increasing the sealing of the pipeline.

Claims (2)

1. A silencing device consisting of a cylindrical and two end walls, a pipe fitting, an internal sealing chamber, an outer rubber shell with sealing ring rubber protrusions and located between the inner sealing chamber and the outer rubber shell of a reinforcing rubber cord carcass containing at least two main layers of rubber cord fabric on the cylindrical wall of the silencing device, individual radially directed rubber-cord strips on the end walls of the device, exl at the top on the layers of the rubber-cord frame in the mating zones of the cylindrical and end walls of at least one additional layer of rubber-cord fabric, while the end sections of the additional layer of rubber-cord fabric and the end sections of the main layers of rubber-cord fabric located on the corresponding radially directed rubber-cord strips with overlap have the same the width and one direction of the threads with the threads of radially directed rubber-cord strips, the sealing ring rubber in mortars with a cross section in the shape of triangles radius R smoothly into the outer rubber sheath. 2. A silencing device according to claim 1, characterized in that the height H of the sealing ring rubber protrusions is from 5 to 20 mm, and the radius R of the smooth transition of the sealing ring rubber protrusions to the outer rubber shell is 0.3-0.5 of height N.

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