RU199289U1 - Device for sealing the internal cavity of the pipeline - Google Patents

Abstract

The utility model relates to pipeline technology, namely, devices for temporary blocking of the internal cavity of an oil pipeline or oil product pipeline emptied of oil or oil products. The device for sealing the internal cavity of the pipeline contains a hermetically sealed inside hollow metal body with centering rings installed on it and a toroidal hollow shell communicated with a source of compressed air, the hollow metal body is made of three-section collapsible with two centering rings installed on the first section of the body and on the second section with one centering ring, and the toroidal hollow shell is installed on the third section, the centering rings are made of an electrically conductive oil-and-petrol-resistant polyurethane elastomer, and the toroidal hollow shell is made of high-strength fabric material with a double-sided polyurethane coating, while the toroidal hollow shell is placed on the cylindrical wall of the third section of the hollow cylindrical metal body made with flat annular end walls, while the torus-shaped hollow shell and the end walls of the cylindrical body are enclosed by a sealing shell made of a polyurethane electrically conductive oil and petrol resistant elastomer, made in the form of a circular ring with corrugation on the outer cylindrical surface, by means of rings and fasteners, the side walls of the sealing shell are tightly pressed through the layer of electrically conductive polyurethane to the end walls of the hollow cylindrical metal body with the formation of a reliable electrical bridge that provides protection against electrostatic charges, and the cross-section of the hollow cylindrical metal body between the second and third sections is hermetically sealed by a metal disk, pressed by fasteners to the side wall of the sealing shell. As a result, it is possible to improve the reliability of the device when it is reusable. 3 ill.

Description

The utility model relates to pipeline technology, namely to devices for temporarily blocking the internal cavity of an oil pipeline or oil product pipeline, emptied of oil or oil products, in order to prevent the release of explosive and combustible gases, oil or oil products during repair and restoration work at the border of explosive zones, in which formation of vapor and gas-air explosive mixtures is possible.

A device for sealing the internal cavity of a pipeline is known, containing a hollow metal body with two centering wheel devices mounted on it, between which a sealing collar is installed and a toroidal cavity is formed in the central part of the body, communicated with a source of compressed gas and formed by an elastic shell and the body of the device, and outside shells are metal expanding elements for interaction with the inner surface of the pipe (see US patent No. 4852614, class F16L 55/12, publ. 08/01/1989).

However, this device has a complex design, and the use of sectional metal elements does not allow the device to be securely fixed in the pipeline without using a high pressure of a compressed gaseous medium.

The closest to the utility model in terms of the technical essence and the achieved result is a device for sealing the internal cavity of a pipeline, containing a hermetically sealed inside hollow metal body with centering rings installed on it and a toroidal hollow shell communicated with a source of compressed air (see utility model patent RU No. 72300, class F16L 55/12, publ. 10.04.2008).

However, in this device, the torus-shaped hollow shell is directly pressed against the inner surface of the pipeline when it is closed, which reduces the reliability of its operation during repeated use.

The technical problem solved in the utility model is the elimination of the shortcomings identified in the known technical solutions.

The technical result consists in increasing the reliability of the device when it is reusable.

The specified technical problem is solved, and the technical result is achieved due to the fact that the device for sealing the internal cavity of the pipeline contains a hermetically sealed inside hollow metal body with centering rings installed on it and a toroidal hollow shell communicated with a source of compressed air, the hollow metal body is made three-section prefabricated - collapsible with two centering rings installed on the first section of the body and one centering ring on the second section, and a toroidal hollow shell is installed on the third section, the centering rings are made of electrically conductive oil and petrol resistant polyurethane elastomer, and the toroidal hollow shell is made of high-strength fabric material with a double-sided polyurethane coating , while the torus-shaped hollow shell is placed on the cylindrical wall of the third section of the hollow cylindrical metal body, made with flat annular end walls, while toro different hollow shell and end walls of the cylindrical body are enclosed by a sealing shell made of polyurethane electrically conductive oil and petrol resistant elastomer, made in the form of a circular ring with corrugation on the outer cylindrical surface, by means of rings and fasteners, the side walls of the sealing shell are tightly pressed through a layer of electrically conductive polyurethane to the end walls of the hollow metal body with the formation of a reliable electrical bridge that provides protection against electrostatic charges, and the cross-section of the hollow cylindrical metal body between the second and third sections is hermetically sealed by a metal disk, pressed by fasteners to the side wall of the sealing shell.

FIG. 1 shows a general view of the device for sealing the internal cavity of the pipeline.

FIG. 2 shows a longitudinal section of a device for sealing the internal cavity of the pipeline.

FIG. 3 shows a fragment of the third section of the hollow metal body in the place where the toroidal hollow shell is installed.

The device for sealing the internal cavity of the pipeline contains a hermetically sealed inside hollow metal body 1 with centering rings 2 installed on it and a torus-shaped hollow shell 3 communicated with a source of compressed air (not shown).

The hollow metal body 1 is made three-section collapsible with two centering rings 2 installed on the first section 4 of the body 1 and one centering ring 2 on the second section 5, and the toroidal hollow shell 3 is installed on the third section 6.

Centering rings 2 are made of electrically conductive oil-and-petrol resistant polyurethane elastomer, and the toroidal hollow shell 3 is made of high-strength fabric material with a double-sided polyurethane coating, while the torus-shaped hollow shell 3 is placed on the cylindrical wall of the third section 6 of the hollow cylindrical metal body 1, made with flat annular end walls 7.

The toroidal hollow shell 3 and the end walls 7 of the hollow cylindrical body 1 are enclosed by a sealing shell 8 of a polyurethane electrically conductive oil and petrol resistant elastomer made in the form of a circular ring with corrugation 9 on the outer cylindrical surface.

By means of rings 10, 11, 14 and fasteners 12, the side walls of the sealing shell 8 are tightly pressed through the layer of electrically conductive polyurethane to the end walls 7 of the hollow cylindrical metal body 1 to form a reliable electrical bridge that provides protection against electrostatic charges, and the cross-section of the hollow cylindrical metal body 1 between the second 5 and third 6 sections, it is hermetically sealed by a metal disk 13, pressed by fasteners 12 to the side wall of the sealing shell 8.

The device for sealing the internal cavity of the pipeline operates as follows.

Before installation in the pipeline, the device for sealing the internal cavity of the pipeline is inspected and the device is inserted into the pipeline.

Then, the toroidal hollow shell 3 is filled with compressed air from a source of compressed air, while it inflates and hermetically presses the sealing shell 8 to the inner wall of the pipeline and thus closes it, isolating the inner space of the pipeline from the environment.

After the completion of the repair and restoration work, the pressure is released from the torus-shaped hollow shell 3, bringing the device for sealing the internal cavity of the pipeline to its original state.

The repaired section of the pipeline is filled with the medium transported through it, for example, oil or oil product. The device for sealing by the flow of oil or oil product is transported inside the pipeline and received in the nearest chamber for receiving cleaning and diagnostic tools.

After removing the device for sealing the sealing of the internal cavity of the pipeline, it is inspected and, if necessary, damaged structural elements are replaced, for example, the sealing shell 8.

Claims (1)

A device for sealing the internal cavity of a pipeline, containing a hermetically sealed inside hollow metal body with centering rings installed on it and a toroidal hollow shell communicated with a source of compressed air, characterized in that the hollow metal body is made of three-section collapsible with two centering rings and one centering ring on the second section, and a torus-shaped hollow shell is installed on the third section, the centering rings are made of an electrically conductive oil-and-petrol resistant polyurethane elastomer, and the toroidal hollow shell is made of high-strength fabric material with a double-sided polyurethane coating, while the toroidal hollow shell is placed on the cylindrical wall of the third section of a hollow cylindrical metal body, made with flat annular end walls, while the toroidal hollow shell and end walls of the cylindrical body by means of rings and fasteners, the side walls of the sealing shell are tightly pressed through a layer of electrically conductive polyurethane to the end walls of the hollow cylindrical metal casing with the formation of a reliable electrical bridge, providing protection from electrostatic charges, and the cross-section of the hollow cylindrical metal body between the second and third sections is hermetically closed by a metal disk, pressed by fasteners to the side wall of the sealing shell.

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