RU2271494C1 - Insulating coupling - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: insulating coupling comprises thickened branch pipes which are cut in the pipeline over their outer diameters. The inner side of the branch pipes is provided with thin-walled sealing members arranged with a spaced relation to each other. The insulating coupling is mounted in the split coupling. The spaces between the split coupling and branch pipes receive the reinforced dielectric material.

EFFECT: enhanced reliability.

2 cl, 2 dwg

Description

The invention relates to techniques for the construction of steel underground pipelines, and in particular to devices for protecting underground metal communications from corrosion, in particular to insulating compounds.

A device for electrical insulating pipe joints, consisting of two metal pipes with threads and gaps filled with insulating material (Japanese application No. 2053672, 1984).

A device for electrical insulating pipe joints, consisting of two metal pipes with threads and gaps filled with insulating material (Russian patent No. 2147099 from March 27, 2000).

The disadvantages of these designs are complexity, lack of strength.

Closest to the proposed invention (prototype) is an insulating compound RU 2200896 C2, 03.20.2003, consisting of two metal pipes, a ring of insulating material and a coupling, consisting of segments with gaps between the coupling and pipes filled with insulating material.

The disadvantages of this product are increased consumption of materials, an increase in the mass and overall dimensions of the joint, a decrease in the tightness of the product at high pressures and bending loads.

The essence of the invention is to eliminate these disadvantages, which is achieved by the design of the insulating connection, which allows to obtain reliable electrical separation of pipelines, high strength and tightness of the connection at high pressures and bending loads without increasing weight and overall dimensions and material consumption.

The design of the proposed insulating compounds are presented in figure 1. Each of the nozzles 1 and 2 has one end prepared for insertion into the pipeline, and at the other end there are thickenings along the outer diameter.

The coupling 3 has a longitudinal section (s) and inside the annular cavity.

Structurally, the coupling and the nozzles are designed so that during assembly a gap is obtained over the entire surface of the part connection (τ), while the presence of an overlap (δ) prevents the joint from breaking when axial force is applied.

To increase the tightness of the connection at high pressures and bending loads from the inside, the nozzles 1 and 2 have thin-walled sealing elements 5 and 6, between which there is a gap.

All gaps are filled with reinforced dielectric polymer material 4 having high adhesion to the connected elements.

After assembly, the sleeve 3 is crimped and a longitudinal section (s) are welded so that there is no heating of the insulating material in the gap between the elements 5 and 6.

The action of the sealing elements is that when the pressure in the pipeline increases, the force increases, compressing the dielectric material in the gap between elements 5 and 6, which is also a sealing material. In this case, bending forces acting on the pipeline are not transmitted to the sealing elements 5 and 6.

For pipelines that do not experience significant bending loads, it is possible to make a connection without element 6, as shown in figure 2. In this case, the thin-walled element 5 will be pressed by the pressure of the medium to the pipe 1 and compress the sealing dielectric material.

Claims (3)

1. An insulating connection for electrical separation of pipeline communications and preventing leakage of protective current, comprising nozzles for tapping into a gas pipeline, a split sleeve and a reinforced dielectric material located in the gap between the sleeve and nozzles, characterized in that at least one of the nozzles with the inner side is made with a thin-walled sealing element, which is located with a gap relative to the other nozzle, while the said gap is filled with a reinforced dielectric material scarlet. 2. The insulating connection according to claim 1, characterized in that the pipes on the inside are made with thin-walled sealing elements, the gap between which is filled with reinforced dielectric material. 3. The insulating connection according to claim 1, characterized in that the split sleeve is connected by welding.

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