SU875178A1 - Heat insulation structure for pipelines - Google Patents

Description

The invention relates to the insulation of pipelines, mainly working in conditions of a significant temperature difference.

Known thermal insulation design for pipelines, consisting of ⁵ installed with a gap relative to the pipeline thermal insulation shells with elements to reduce friction and the outer casing (1).

A disadvantage of the known design is the possibility of free movement of the pipe in the gap, which can lead to a violation of thermal insulation during transportation. In turn, during the operation period, the weight of the pipeline ¹⁵ with the pumped medium is distributed to the lower part of the insulation, which leads to its wear during longitudinal movements of the pipeline. In addition, _w isolation structure is complicated.

The purpose of the invention is the improvement of operating conditions and the simplification of the insulating structure.

This goal is achieved by the fact that radial holes are made in the heat-insulating shells, in which elements are placed with the possibility of contact on the one hand with the pipeline, and on the other with the outer casing, to reduce friction, and the elements to reduce friction are made of fluoroplastic. In addition, in order to preserve the structure during transportation, fixing belts are installed on the outer casing in the areas of the elements to reduce friction ¹ .

In FIG. 1 shows a pipeline with a heat-insulating structure, cross section; in FIG. 2 - appearance of the structure.

The heat-insulating structure consists of heat-insulating shells 1 with radial holes, in which there are elements for reducing friction 2, which are in contact with the pipeline 3 on one side and the outer casing 4 on the other side, along the perimeter of which 3 fixing belts are installed in the areas of the elements to reduce friction 5.

The device operates as follows.

A casing 4 is put on the pipeline 3 with a gap of the shell 1, with the elements located therein to reduce friction 2, over which the fixing belts 5 are installed in the zones of the elements to reduce the friction 2, as a result of which the pipe is fixed relative to the shell.

During transportation, and then during axial movements during operation, the pipeline does not come into contact with the surface of the insulating shells, since the weight of the pipeline with the medium through the elements and fixing belts is transferred to the ground.

Axial movements of the pipe are carried out on elements with insignificant resistance.

This design protects the thermal insulation from destruction, eliminates the need for internal-protective malfunction on thermal insulation, is easy to manufacture.

Claims (3)

This invention relates to the isolation of pipelines, preferably operating under conditions of significant temperature difference. The known thermal insulating structure for pipelines consists of thermally insulated shells with elements for reducing friction and an outer casing l installed with a gap relative to the pipeline. A disadvantage of the known construction is the possibility of free movement of the pipe in the gap, which can lead to thermal insulation disturbance during transportation. In turn,; during operation, the weight of the pipeline with the pumped medium is distributed to the lower part of the heat insulation, which leads to its wear during longitudinal movements of the pipeline. In addition, the insulation construction is complex. The purpose of the invention is to improve the operating conditions and simplify the thermal insulation design. This goal is achieved by the fact that radial holes are installed in the heat insulating shells, in which they are placed with the possibility of contact with the pipeline from one side and with the outer casing with the outer casing, elements for reducing friction, and elements for reducing friction are made of fluoroplastic. In addition, in order to preserve the structure during transportation on the outer casing, in the areas where the elements are located to reduce friction, locking devices are installed. FIG. 1 shows a pipeline with a thermal insulation structure, a cross section; in fig. 2 - the appearance of the structure. The thermal insulation structure consists of thermal insulating shells 1 with radial openings in which elements of a friction reduction 2 are placed, contacting on one side with the pipeline 3, and on the other with the outer casing 4, around the perimeter of which friction is fixed at ca 5. The device operates as follows. Pipe 3 is fitted with a shell gap 1, with elements arranged in it to reduce friction 2, a casing 4 over which fixing positions 5 are installed in the areas of the elements to reduce friction 2, with the result that the pipe is fixed relative to the shells. During transportation, and then during axial movements during operation, the pipeline does not contact with the surface of the heat insulating shells, since the weight of the pipeline with the medium is transmitted through the elements and fixing surfaces to the ground. The axial movements of the pipe are carried out on the elements with low resistance. This construction prevents the thermal insulation from destruction, allows the internal protection layer to be rejected on the thermal insulation, simple to manufacture. 84 Claim 1. Thermal insulation design for pipelines, mainly operating under conditions of significant temperature difference, consisting of heat-insulating shells installed with a gap to the pipeline with elements for reducing friction and the outer casing, so as to improve the conditions operation and simplification, thermal insulating shells are made with radial holes, in which they are placed with the possibility of contact on one side with the pipeline, and on the other with the outer casing lementy to reduce friction. 2. The design of claim 1, wherein the elements for reducing friction are made of fluoroplastic. 3. The construction according to Clause G., characterized in that, for the purpose of preserving the structure during transportation, fixation plates are installed on the narrg casing in the areas of the elements to reduce friction. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 617024, cl. F 16 L 59/12, 1974. FIG. 2