SU1557399A1 - Seal - Google Patents

Abstract

The invention can be used to seal fixed and mobile joints of equipment operating at low temperatures and high pressures. The purpose of the invention is to increase the reliability of compaction and simplify remote maintenance. The sealing part 1 is placed in the housing 2, in which the mobile element (E) 2 is located, with the heating E 4 placed in it in the electrical insulation 5. The E 4 is connected to the power supply. E 3 is made of a composite of the inner part containing the E 4 and the outer part facing the counterpart. The outer part is made of a material with a greater than the material of the inner part, the coefficient of thermal expansion. In the E 3, there is a cooling pipe connected to the cooling system. 5 il.

Description

Fi.T

The text refers to sealing technology and can be used to seal fixed and movable joints of equipment operating at low temperatures and high pressures of the working medium.

The aim of the invention is to increase reliability by using the effect of unequal expansion of materials with different coefficients of thermal expansion and simplifying remote maintenance in the low temperature region.

FIG. 1 shows a seal at the time of a heated electric spiral (a small gap) 4; FIG. 2 - the same, at the moment of cooling the electric spiral (a gap of large size), in FIG. 3 is the same, with the electrical insulation of the electric spiral in FIG. 4 - the same, with a composite movable element; in fig. 5 - the same, with the cooling pipeline.

The sealed part 1 is placed in the housing 2, in which the movable element 3 is located with the heating element 4 placed in it, for example an electric spiral. The heating element 4 is connected to a heat source, for example, a source of electrical energy. The electric coil can be placed in electrical insulation 5. The movable element 3 contains the outer part b, made of a material with a larger coefficient of thermal expansion, such as copper, than that of the inner part. In the movable element 3 there is a cooling pipe 7 connected to the cooling system.

Seal operates as follows.

A heating element 4, for example an electrical coil, is connected to a source of electrical energy. At the same time, the electric coil 4 transfers heat through the electrical insulation 5 to the movable element 3, which expands and seals the housing 2 and the sealing part 1 as a result of the heating. When the thermal element 4 is heated, heat is transferred from the inside of the moving element 3 to the outside part 6 made of a material with a greater than the material of the inner part, the coefficient of thermal expansion, such as copper. Externally, part 6 has the ability of significant thermal deformation. As a result of exposure to heat, the outer part 6 expands and reliably seals the housing 2 and the sealing part 1. When placed in a movable element 3 of the cooling pipe 7 connected to the cooling system, if necessary to depressurize, coolant (liquid or gas), the carrier of cold, and disconnect the electric coil 4 from the source of electrical energy, the movable element 3 as a result of exposure to cold through the walls of the cooling pipe 7 is cooled and defo is compressed (compressed), depressurized the connection.

The application of the proposed seal allows to increase the reliability and tightness of the connection between the housing and the part being sealed. The seal can seal both movable and immobile pilot surfaces. The use of electricity allows you to adjust the moment of activation and deactivation of the seal.

Claims (1)

Invention Formula A seal comprising a housing and a movable element facing the counter part, made in the form of a mass, in which the heating element is placed in electrical insulation, connected to a power source, and a cooling device, the movable element being made integral, characterized in increase reliability and simplify remote maintenance in the low temperature region; the composite movable element is made up of an internal part containing a heating element and an external part facing the response Ali, wherein the outer part is made of a material having greater than that of the material inside, the thermal expansion coefficient. fig 2 .ch hhlchtu ZU I Phia.1