RU53752U1 - DEVICE FOR HEAT INSULATION OF STRUCTURES MOUNTED ON PIPELINE - Google Patents

Abstract

The utility model relates to means of cryogenic or thermal protection of structures for various purposes, placed on pipelines or built into them, for example, revision nodes, corrosion indicators, etc. The use of the proposed device is especially relevant in the conditions of the far north, where during the maintenance of such structures their thermal insulation is violated and emergency situations arise due to the possibility of freezing of liquid media in the pipeline. The objective of the utility model is to create a removable heat-insulating device that provides reliable thermal and cryogenic protection of structural elements embedded in the pipeline and not protected by thermal insulation installed on the pipeline. The problem is solved in that the device for thermal insulation of structures mounted on the pipeline, comprising a housing with heat insulation placed inside it, forming a cavity for accommodating insulated structural elements, according to the proposed solution, has a base made of rigid thermal insulation material with the possibility of fixing it on the structure and placing on it a housing made removable. The thermal insulation of the case consists of a soft and hard layer, separated by a rigid heat-insulating plate located parallel to the base at a height equal to the height of the cavity for accommodating the insulated elements, while the soft layer is located between the hard heat-insulating plate and the body, and the hard layer is between the heat-insulating plate and the base.

Description

The utility model relates to means of cryogenic or thermal protection of structures for various purposes, placed on pipelines or built into them, for example, revision nodes, corrosion indicators, etc. The use of the proposed device is especially relevant in the conditions of the far north, where during the maintenance of such structures their thermal insulation is violated and emergency situations occur due to the possibility of freezing of liquid media in the pipeline.

Currently, thermal insulation of structures placed on the pipeline is provided by the general thermal insulation of the pipeline. During technological maintenance of the structure, its thermal insulation is violated, which leads to insecurity of structures from environmental influences.

Closest to the claimed is a device for protecting internal volumes for various purposes, made in the form of a protective casing of a layered structure containing an external casing formed from the outer layer and at least two layers of thermal protection placed inside it, the outer casing being made of shockproof, the intermediate layer is made of a dry refractory porous fibrous material, and the inner layer is of the same porous fiber material impregnated with a water-containing component, or of water scored gel. (RF patent №2162189 IPC F 16 L 59/02, G 12 B 17/06, B 64 C 1/38, B 64 G 1/58).

However, this device is not suitable for cryogenic protection of structures due to the presence of a water-containing component in the heat-insulating layer. In addition, the absence of a heat-insulating base does not provide a closed heat-insulating volume with the protected structural elements placed in it.

The objective of the utility model is to create a removable heat-insulating device that provides reliable thermal and cryogenic protection of structural elements embedded in the pipeline.

The problem is solved in that the device for thermal insulation of structures mounted on the pipeline, comprising a housing with heat insulation placed inside it, forming a cavity for accommodating insulated

structural elements, according to the proposed solution, has a base made of rigid heat-insulating material with the possibility of fixing it on the structure and placing on it a housing made removable.

The thermal insulation of the case consists of a soft and hard layer separated by a rigid heat-insulating plate located parallel to the base at a height equal to the height of the cavity for accommodating the insulated elements, while the soft layer is located between the rigid heat-insulating plate and the body, and the hard layer is between the heat-insulating plate and the base.

The utility model is illustrated by drawings, where Figures 1 and 2 show cross-sectional views of a device for thermal insulation, for example, a revision unit integrated in a pipeline (2 variants).

The positions in the drawing indicate: 1 - pipeline, 2 - pipe insulation, 3 - case, 4 - case insulation, 5 - rigid heat-insulating base, 6 - revision assembly cover, 7 - revision assembly flange, 8 - fastening element of the rigid heat-insulating base to the flange revision node, 9 - an element of the housing to the base, 10 - gasket, 11 - a bolt, 12 - a threaded hole in the flange, 13 - a cavity, 14 - the upper layer of thermal insulation, 15 - rigid heat-insulating plate, 16 - the lower layer of thermal insulation, 17 - fasteners for the lower layer and rigid thermal insulation Icing plate.

The device (figure 1, 2) is intended for cryogenic protection of structural elements of the outlet of the pipeline, for example, the audit site, not protected by thermal insulation, embedded in the pipeline. Structural elements requiring protection include a cover 6 and a flange 7 of the revision assembly, which protect the exit from the revision and may be under fluid pressure. Currently, there are no removable devices providing cryogenic and thermal protection of these structural elements. Known methods of protection are provided, as a rule, by general insulation 2 of the pipeline 1 after installation of embedded structures. Thus, the need to open the lid of the audit site for technological maintenance of the pipeline, in turn, necessitates to break the thermal insulation of this site, which at low temperatures leads to rupture of the pipeline at the installation site of the audit. The inventive device provides cryogenic protection of these elements and allows you to remove the cover of the audit for technological maintenance of the pipeline with the subsequent restoration of thermal insulation due to the removable housing. The inventive device consists of a housing 3, mounted on a rigid heat-insulating base 5 using fasteners 9. In the housing 3 is placed insulation 4

with the formation of a cavity 13 for accommodating the protected structural elements, for example, the cover 6 of the audit node connected to the flange 7. The thickness of the thermal insulation surrounding the protected elements must be at least the calculated thermal insulation thickness for a given diameter of the pipeline 1. The base 5 is attached to the flange 7 of the audit node on its lower side, for example, by bolt 8. The flange 7 is made with threaded holes 12 for fastening the bolt 11 and gasket 10. The execution of the body of a rounded shape is determined by the technology of its manufacture, for example, stamping. The thermal insulation 4 of the housing 3 can be made as a single layer, for example, of polyurethane foam (Fig. 1), or multilayer (Fig. 2), for example, consist of two layers - the upper soft 14 and the lower hard 16, separated by a heat-insulating rigid plate 15. The upper layer of thermal insulation 14, between the body 6 and the plate 15, can consist, for example, of mineral wool (GOST 4640-90), the lower layer of thermal insulation 16, located between the plate 15 and the base 5, is made of FASAD BATTS mineral wool plate ( TU 5762-002-457557203-99), and a rigid heat-insulating plate 15 can yt performed, for example, of fiberglass or PCB. In this case, the lower layer 16 and the rigid heat-insulating plate 15 can be fixed to each other and attached to the walls of the housing 3 using fasteners 17 or mounted on glue. To increase the effectiveness of cryogenic protection of structures, the outer surface of the housing 3 can be painted black.

The installation of the inventive device, it is advisable to carry out before installing the main insulating coating 2 on the pipeline 1 with a built-in protected node, for example, revision. At the same time, through the threaded hole 12 in the flange 7, a rigid heat-insulating base 5 is fastened with bolts 8. On the base 5, the housing 3 is insulated using fastening elements 9. After that, the installation of thermal insulation 2 is carried out. For technological maintenance of the structure mounted on the pipeline, it is necessary to remove the housing 3 from the base 5 and remove the bolts 11 from the threaded hole 12 of the flange 7.

The inventive device provides reliable thermal and cryogenic insulation of structures built into the pipeline, as well as easy access for their technological maintenance without violating thermal insulation.

Claims (2)

1. Device for thermal insulation of structures mounted on the pipeline, comprising a housing with heat insulation inside it, forming a cavity for accommodating insulated structural elements, characterized in that it has a base made of rigid heat-insulating material with the possibility of fixing it on the structure and placing it on it case made removable. 2. The device according to claim 1, characterized in that the thermal insulation of the housing consists of soft and hard layers separated by a rigid heat-insulating plate located parallel to the base at a height equal to the height of the cavity for accommodating the insulated elements, while the soft layer is located between the hard heat-insulating plate and body, and hard - between the insulating plate and the base.