RU1828971C - Sealing device for pipeline expansion joint - Google Patents

Abstract

Usage: the invention relates to a sealing technique and can be used, in particular, in compensating devices on pipelines transporting gaseous, liquid and high-temperature media. SUMMARY OF THE INVENTION: in a sealing device including a housing, a permanent magnet equipped with pole pieces forming working gaps with a sealing surface of the inner pipe, filled with a magnetically active sealant composition, as well as a non-magnetic spacer placed between the pole pieces, a permanent magnet mounted on the outside cases, while the outer surfaces of the pole pieces are corrugated, and the spacer is made of a material with a low heat transfer coefficient hydration. 1 s.p. f-ly, 2 ill.

Description

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The invention relates to a sealing technique and can be used, in particular, in compensating devices on pipelines transporting gaseous, liquid and high temperature media.

The purpose of the invention is to increase the reliability of the seal under conditions of high temperatures of the working environment.

Figure 1 shows a longitudinal section of a pipe compensator with a permanent axial magnetization magnet; figure 2 is the same with a magnet of radial magnetization.

The seal of the pipe compensator comprises a housing 1, which can be made of non-magnetic material, on the end surface of which a magnetic system consisting of

a permanent magnet 2 of axial or radial magnetization located on the outside of the housing 1. The permanent magnet 2 is provided with pole pieces 3, 4 made of magnetic material. Part of the pole lugs 3.4, located outside the housing 1, are corrugated, and the second part, overlapping the annulus of the compensator, forms the sealing gaps of the nozzle 5 with the sealing surface 6. The pole lugs 3, 4 in the area of their interface with the nozzle 5 are toothed . Between the pole pieces 3, 4 a non-magnetic spacer 7 is placed, made of a material with a low coefficient of heat conductivity, and having an annular cavity - a pocket 8, filled as well as the working gaps 6 with a magnetically sealing composition.

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The pipe 5 from the side of the sealing medium has a stop 9, restricting the axial movement of the pipe 5. Between the permanent magnet 2 and the non-magnetic spacer 7 there is a heat-insulating strip 10, for example asbestos fiber, mineral wool, etc.

Pipe compensator operates as follows.

A permanent magnet 2 is mounted on the outside of the housing 1. In order to optimize the magnetic circuit, a non-magnetic spacer 7 is installed between the pole pieces 3, 4, so the magnetic flux is closed through magnet 2, pole piece 4, magnetically active composition, pipe 5, pole piece 3, constant magnet 2. In this case, the magnetic flux Φ will hold a magnetically active sealing composition in the working gaps, which under the influence of a magnetic field forms a tightly packed structure, which is a good sealing m working environment. Due to the fact that the permanent magnet 2 is moved outside the housing 1, the non-magnetic spacer 7 is made of material with a low coefficient of thermal conductivity, and between the spacer 7 and the magnet 2 a heat-insulating gasket 10 can be installed, direct contact of the permanent magnet 2 with the zone high temperatures are virtually eliminated. Heat from the high temperature zone, perceived by the pole pieces 0

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3.4 is discharged due to the external corrugated surface of the pole pieces 3, 4. Thus, the design of the sealing device of the pipe compensator allows to increase the reliability of the compensator under conditions of high working medium temperatures by eliminating the effect of these temperatures on the magnet material, which prevents premature aging (demagnetization) of a magnet.

Claims (2)

1. A sealing device for a pipe compensator, comprising a housing, a permanent magnet with pole pieces, forming working gaps with a sealed cylindrical part, filled with a magnetically active sealing composition, as well as a non-magnetic spacer placed between the pole pieces, characterized in that the sealable part is made in in the form of an internal nozzle, a permanent magnet is mounted on the outer surface of the housing, while the surfaces of the pole pieces located outside the housing are made corrugated, and the non-magnetic spacer is made of a material with a low coefficient of thermal conductivity. 2. Device pop. 1, characterized in that it is equipped with a heat-insulating gasket, located between the permanent magnet and non-magnetic spacer. FIG. 2