RU175074U1 - PIPELINE WELDED HEAT INSULATION - Google Patents

Abstract

The utility model relates to the thermal insulation of the zone of welded joints of pipelines used for overhead installation. The technical problem solved by the utility model is the elimination of damage to the thermal insulation of the structure for the possibility of reuse of the product after dismantling, performed during the inspection of the welded joint. The essence of the proposal: thermal insulation of the welded section of the pipeline is made in the form of a structure containing a metal body, consisting of two parts 1 and 2, fixed with overlaps 3, 4 along the diameter of the pipeline, and heat-insulating material 5, fixed in the center on the inner surface of the corresponding part 1, 2 buildings. Parts 1 and 2 are connected by fasteners; mating parts of these mounts are welded to the outer edges of adjacent parts of the housing. The fastenings can be made in the form of a spring latch 8 or bolted connection 6 at the corners 7. The size of each part exceeds the size of the fixed heat-insulating material by the size of the overlap 3, 4, which is on the upper part of the body around the perimeter, and on the lower part of the body - only in the radial direction. 6 C.p. f-ly, 3 ill.

Description

The utility model relates to the thermal insulation of the zone of welded joints of pipelines used for overhead installation.

The prototype of the utility model is the heat insulation of the welded joint of a thermally insulated pipeline, made in the form of a billet containing a metal sheath rolled from an appropriate diameter of the pipeline from a sheet with a thickness of 0.7-1.5 mm and an overlap of 40-100 mm along the generatrix and a strip of thermal insulation material made of foam rubber, whose width is equal to the axial length of the zone of the welded joint to be insulated, attached to the inner surface of the middle part of the shell symmetrically with respect to its axial length with indents of 40-100 mm, while the overlap and indentation along the entire perimeter are covered with a sealant 2.5-5 mm thick with a protective tape applied to the surface of the sealant - patent RU 136525, U1, 2014

A disadvantage of the known device is the damage to thermal insulation in the overlap zone when installing self-tapping screws for fixing the metal shell, which eliminates the reuse of the workpiece after repair or internal (under thermal insulation) diagnostics.

The technical problem solved by the utility model is the elimination of damage to the thermal insulation of the structure for the possibility of reuse of the product after dismantling, performed during the inspection of the welded joint.

This problem is solved in the thermal insulation of the welded section of the pipeline, made in the form of a structure containing a metal body fixed with an overlap along the diameter of the pipeline, and heat-insulating material fixed in the center on the inner surface of the body, consisting of two parts connected by fasteners, the mating parts of which are fixed welding on the outer edges of adjacent parts of the body, the size of each body part exceeds the size of the fixed heat-insulating material by the amount of overlap, which is rhney of the housing has on the entire perimeter, and on the lower part of the body - only in a radial direction.

In addition, the device has a number of features that characterize it in particular cases of execution, namely:

- the metal parts of the housing can be made of sheet metal material, for example stainless steel, or galvanized steel, or a steel sheet with a polymer coating, or aluminum and aluminum alloys;

- fastening of parts of the body of the structure can be performed in the form of a spring latch or bolted joints at the corners;

- foam rubber, or foamed polyethylene, or other heat-insulating materials that do not require mechanical fixation on the inner surface of the housing part are used as heat-insulating material;

- overlaps are covered with a sealing compound;

- the housing contains additional parts connected in this manner with a fixed heat-insulating material;

- axial overlap is oriented from top to bottom, “against water”.

In FIG. 1 shows two parts of the housing (front view and side view) with fastenings in the form of a bolted connection, in FIG. 2 - two parts of the housing in two forms with fastenings in the form of a spring latch, in FIG. 3 (a, b) - the location of overlaps for the upper and lower parts of the body.

Thermal insulation in the form of a structure of a metal casing, consisting of two parts 1 and 2, fixed by the diameter of the pipeline (not shown) with an overlap.

The upper part 1 of the body has an overlap 3 around the entire perimeter, and the lower part 2 has an overlap 4 only in the radial direction. Parts 1 and 2 of the housing are made of sheet metal material, for example stainless steel, or galvanized steel, or polymer coated steel sheet, or aluminum and aluminum alloys.

The heat-insulating material 5 is fixed centrally on the inner surfaces of the housing parts 1, 2 and is connected by fixtures, the mating parts of which are welded to the outer edges of the adjacent housing parts 1, 2. In FIG. 1, the bolted connection 6 is made using welded corners 7, in FIG. 2 shows a mounting option in the form of a spring latch 8. As a heat-insulating material 5, foam rubber, or foamed polyethylene, or other heat-insulating materials that do not require mechanical fixing on the inner surface of the housing part can be used.

The size of each part 1, 2 of the housing exceeds the size of the fixed heat-insulating material 5 by the amount of overlap, as shown in FIG. 3: on the upper part 1 of the housing, an overlap 3 is provided along the entire perimeter (a), and on the lower part 2, an overlap 4 is only in the radial direction.

The overlaps 3, 4 are covered with a sealing compound for their connection with each other and ensuring tightness in order to isolate the inner part of the heat-insulating structure from environmental factors. The axial overlap of each joint is oriented downward, “against water”. The presence of overlaps 3, 4 allows us to guarantee the sealing of the longitudinal and transverse joints, and also allows us to provide protection against moisture under the shell.

There may be several parts of the case, depending on the geometric parameters of the insulated area.

These additional parts are connected in the same way as the two parts 1, 2, i.e. using fasteners on the outer edges of adjacent parts. Thermal insulation material on additional parts is placed and fixed in the same way - centered on the inner surface of the corresponding part.

Installation of the workpiece on the pipeline is as follows.

On the prepared pipeline, the upper and lower parts 1, 2 of the structure with the heat-insulating material 5 are sequentially installed. After centering the parts 1, 2 of the heat-insulating structure on the welded section of the pipeline, they are fixed using either bolt connection 6 or a spring latch 8. During the fixing process, damage to the insulating material 5, because neither the soldered corners of the bolt joint 6, nor the soldered bases of the spring latch 8, placed outside parts 1 and 2, are in contact with it.

After that, overlays 3, 4, covered with a sealing compound, are pressed to secure them.

Thus, the use of the proposed design for thermal insulation of the welded joint of the pipeline will allow to exclude damage to the thermal insulation during its installation on the pipeline, which makes it possible to reuse the product after dismantling performed during the control of the welded joint.

Claims (7)

1. Thermal insulation of the welded section of the pipeline, made in the form of a structure containing a metal casing, fixed with an overlap in diameter of the pipeline, and heat-insulating material fixed in the center on the inner surface of the casing, characterized in that the casing of the structure consists of two parts connected by fasteners, the counterparts of which are fixed by welding on the outer edges of the adjacent parts of the casing, the size of each part of the casing exceeds the size of the fixed heat-insulating material by an amount whip, which is on the entire perimeter on the upper part of the body, and only in the radial direction on the lower part of the body. 2. Thermal insulation according to claim 1, characterized in that the metal parts of the housing can be made of sheet metal material, for example stainless steel, or galvanized steel, or a steel sheet with a polymer coating, or aluminum and aluminum alloys. 3. Thermal insulation according to claim 1, characterized in that the fastening parts of the housing can be made in the form of a spring latch or bolted joints at the corners. 4. Thermal insulation according to claim 1, characterized in that foam rubber, or foamed polyethylene, or other heat-insulating materials that do not require mechanical fixation on the inner surface of the housing part are used as thermal insulation material. 5. Thermal insulation according to claim 1, characterized in that the overlaps are coated with a sealing compound. 6. Thermal insulation according to claim 1, characterized in that the housing contains additional parts connected in this manner with a fixed heat-insulating material. 7. Thermal insulation according to claim 1 or 5, characterized in that the axial overlap is oriented downward, “against water”.

Images