RU149152U1 - SUPPORT OF THE OVERLAND PIPELINE - Google Patents

Abstract

1. An overhead pipeline support comprising a hollow body made of cryogenic steel, a clamp with tightening fasteners and made of a cryogen-resistant, friction material, an intermediate element between the pipeline and the clamp, characterized in that a hollow body of cryogenic material and an insert of cryogen-resistant are additionally inserted into it , heat-insulating and slightly deformable material, placed between the base of the main hollow body and the surface of the introduced hollow body and rigidly connected with it and 2. Support according to claim 1, characterized in that the insert is made, for example, of pressing material AG-4.

Description

The utility model relates to the field of pipeline construction and can be used in the construction of fixed and movable supporting structures when laying aboveground pipelines, in particular, pipelines for transporting liquid cryogenic products.

Known adjustable support of the pipeline containing the base and the lodgement, equipped with wedges symmetrically located on the base, connected by a screw pair with the possibility of free movement on the surface of the base. And the lodgement of the pipeline rests on the strips and ribs, while the ribs are connected to the strips at a right angle, and the strips are installed on the inclined surfaces of the wedges (RF patent for utility model No. 64315, IPC F16L 3/00. Publish. June 27, 2007).

Also known is the support of an elevated pipeline containing a hollow box-shaped body, a clamp with tightening fasteners and an intermediate element between the pipe and the clamp (RF patent for utility model No. 122143, IPC F16L 3/10. Publ. 20.11.2012).

However, these supports are not intended for pipelines transporting cryogenic liquids.

Closest to the proposed technical essence is the support of an elevated pipeline, containing a hollow body made of cryogenic steel and a clamp with tightening fasteners, and an intermediate element made of a cryogenic-resistant friction material between the pipeline and the clamp (RF patent for utility model No. 140852, IPC F16L 3/10, F16L 3/00. Published on 05/20/2014).

But this support does not exclude the loss of temperature of the cryogenic working medium passing through the pipeline.

The task to which the claimed utility model is directed is to reduce the temperature loss of the cryogenic working medium passing through the pipeline.

The problem is solved in that in the support of the above-ground pipeline, containing a hollow body made of cryogenic steel and a clamp with tightening fasteners, and made of a cryogenic-resistant, friction material, an intermediate element between the pipeline and the clamp, a hollow body of cryogenic material and an insert are additionally introduced of cryogen-resistant, heat-insulating and low-deformable material, placed between the base of the main hollow body and the surface of the introduced hollow body and rigidly called with them.

The rigidly connected insert of cryogen-resistant, heat-insulating and low deformable material located between the base of the main hollow body and the surface of the inserted hollow body reduces the temperature loss of the cryogenic working medium passing through the pipeline.

The technical result of the utility model is to reduce the impact of the cold bridge.

In FIG. 1 shows the support of an elevated pipeline with an insert rigidly fixed with fasteners, general view; in FIG. 2 - support of the elevated pipeline with an insert rigidly fixed with an adhesive joint.

The support of the above-ground pipeline contains (Fig. 1) made of cryogenic steel, for example 12X18H10T, a hollow body 1, a clamp 2 with tightening fasteners 3 and made of cryogenic-resistant, friction material, for example, PON-B paronite, an intermediate element 4 between the pipeline 5 and with a clamp 2, an inserted hollow body 6 made of cryogenic material with an insert 7 of cryogenic-resistant, heat-insulating and low-deformed material, for example, of AG-4 pressing material, installed between the base 8 of the main hollow body 1 and the surface 9 of the inserted hollow body 6 and the fastening elements 10 rigidly connected with them. The introduced hollow body 6 is mounted by the base 11 on the surface 12 of the building structure (not shown). The fastening elements 10 can be made of low-conductivity, cryogenic-resistant material, for example, fiberglass.

Hollow bodies 1 and 6 are filled with cryogenic, heat-insulating material (for example, basalt wool) 13 to reduce heat influx to the support.

Support can be carried out in two versions:

- like motionless. In this case, the base 11 of the inserted hollow body 6 is rigidly connected to the surface 12 of the building structure;

- like moving. In this case, there is no rigid connection between the base 11 of the inserted hollow body 6 and the surface 12 of the building structure.

A rigid connection of the insert 7 with the base 8 of the main hollow body 1 and the surface 9 of the inserted hollow body 6 can also be carried out using glue 14, for example, cryogenic adhesive "Cryosil" (Fig. 2).

The support of the elevated pipeline works as follows.

A support is mounted on the surface 12 of the building structure and the pipeline 5 is secured in it with a pipe clamp 2 using pulling fasteners 3 and an intermediate element 4.

When the cryogenic working medium passes through the pipeline 5, it is cooled, as well as the cooling of the intermediate element 4 pressed to it by the fastening fasteners 3 fixed on the clamp 2, for example, with cryogenic glue “Cryosil”. Moreover, due to the cryogenic-frictional properties of the intermediate element 4 and due to the tightening fastening elements 3, reliable support of the support on the pipeline 5 is ensured under conditions of cryogenic temperatures.

Due to the separation of buildings 1 and 6, the insert 7 is rigidly connected with them, made of cryogen-resistant, heat-insulating and low-deformed material, as well as due to the thermal cryogen-resistant insulation 15, which covers the housing 1 and insert 7, the bridge is broken (after installing the support on the building structure) cold weather between cases 1 and 6. This minimizes the temperature drop when using fasteners 10 of heat-conducting material (metal), and eliminates when using fasteners 10 of low heat bottom, cryogen-resistant material transfer of cryogenic temperature of the surface 12 of the building structure. This eliminates the formation of ice between the support and the building structure.

The claimed utility model is intended for both movable and fixed supports, and can be used when laying overhead pipelines transporting liquid cryogenic products.

Claims (2)

1. An overhead pipeline support comprising a hollow body made of cryogenic steel, a clamp with tightening fasteners and made of a cryogen-resistant, friction material, an intermediate element between the pipeline and the clamp, characterized in that a hollow body of cryogenic material and an insert of cryogen-resistant are additionally inserted into it , heat-insulating and slightly deformable material, placed between the base of the main hollow body and the surface of the introduced hollow body and rigidly connected with it and. 2. The support according to claim 1, characterized in that the insert is made, for example, of pressing material AG-4.

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