RU126424U1 - UNIVERSAL HEAT-INSULATING BELT - Google Patents

Abstract

A universal heat-insulating belt made by stitching and containing a cover-case, inside of which there is a heat-insulating layer, characterized in that the working surface, which is in direct contact with the surface of the pipeline, the cover-case of the device is made of refractory fabrics having the property of high temperature operation and the insulating layer contains one or more layers of insulating material with a low coefficient of thermal conductivity, while on the outer side of the cover -korpusa arranged opposite each other chain and the hooks and / or straps and buckles, and / or cords, and / or adhesive tapes, whose function is to fix and fixing overlapping on the pipe unit.

Description

The utility model relates to devices for protecting a welded joint and a weld of a pipeline from non-cooling, as well as to protect the insulation coating of pipes from fire and can be used in the construction and repair of pipelines.

Currently, one of the relevant aspects of the development of the transport industry is the transportation of crude oil, natural and associated gas, in which the construction of trunk pipelines plays an important role. When laying this type of piping, an important process is the protection of the welded joint and the weld of the pipeline from non-cooling, as well as the protection of the insulation coating of pipes from fire.

The prior art various devices that are implemented on this basis. For example, there is a known form for applying thermal insulation to a pipeline (SU 832235 A1, F16L 59/14, В29С 45/00, publ. 05.23.1981), including installing a pipe in a mold, filling the annular cavity between the pipe and the mold with heat-insulating material and holding it on structuring. The disadvantage of this device is that it does not provide a sufficient quality coating thermal insulation material due to the fragility of the coating material, because during transportation and laying of the pipe it is prone to destruction. In addition, the device requires immediate coating immediately after cleaning the surface of the pipe, otherwise its surface will be covered with a thin layer of corrosion.

Also known is a method of applying thermal insulation (FR 2043699 A1, F16L 59/04, F16L 59/14, F17C 13/00, publ. 02/19/1971. Improvements in thermal insulation of pipes and the like and method of forming same), which includes installation in the form of a pipe with an elastic shell placed on it with a diameter not exceeding the inner diameter of the mold, filling the annular cavity between the pipe and the elastic shell with a heat-insulating coating and holding the time for its structuring.

The main disadvantage of this method can be attributed to the fact that due to the lack of sealing of the ends of the annular cavity between the pipe and the elastic sheath, part of the heat-insulating material freely goes into the outer space. In addition, for the same reason, the quality of the coating is reduced due to its uneven application over the entire perimeter of the pipe.

The prior art also knows a method of applying a thermal insulation coating to a pipe (RU 2136495 C1, B29C 63/18, B29C 67/20, F16L 59/14, publ. 09/10/1999), which includes placing an elastic sheath on the pipe with a diameter not exceeding the inner diameter of the mold. The ends of the annular cavity to the honey pipe and elastic sheath seal. A pipe with an elastic sheath is mounted in a mold. The annular cavity between the pipe and the elastic shell is filled with a thermally insulating coating material and maintained for its structuring. The disadvantage of this method is the lack of direct possibility of installing a thermal insulation coating on welded pipelines without additional devices, which complicates the process of thermal insulation, requires additional sealing and increases the cost of work in general. The closest analogue is the heat-insulating structure (RU 40433 U8, F16L 59/00, publ. 10.09.2004), which is made collapsible, including removable shells fastened with bandages, characterized in that the removable shell is made in the form of segments of extruded polystyrene foam with a density not less than 33 kg / m3 n compressive strength at 10% deformation of not less than 0.25 MPa, which can be machined to give the necessary shape of the shell, the segments are combined into a structure that forms a heat-insulating shell around the pipeline consisting of N sectors, combined with each other in a diametrical direction in the lock, and bandages are designed as a tie fixed protracted device equipped with a stopper.

The main disadvantages of this device are the inability to protect the coating of the pipes from fire, the complexity of installation, due to the presence of several segments and additional tightening tapes, while assembling the structure, as well as the inconvenience of transportation to the assembly site of the structure due to the bulkiness of the main components of the device as a whole.

The technical result of this utility model is to realize the possibility of protecting the welded joint and the weld of the pipes of the main pipeline from both non-mode cooling and fire exposure, while ensuring the convenience of mounting / dismounting and transportation to the assembly site on the main pipeline of the device as a whole.

The claimed technical result is achieved in that the heat-insulating belt is universal, made by stitching and contains a cover-case, inside which there is a heat-insulating layer, characterized in that the working surface, which is in direct contact with the surface of the pipeline, the cover-case of the device is made of refractory fabrics, having the property of operation in high temperature mode, and the insulating layer contains one or more layers of insulating material with a low coefficient heat conductivity, while on the outer side of the case-shell opposite each other there are chains and hooks and / or belts and buckles, and / or cords, and / or adhesive tapes, the function of which is to fix and fix the device with an overlap on the pipeline.

The essence of the utility model is illustrated by drawings: in Fig. 1 shows views of the device front and top in an embodiment with chains and hooks for fixing, Fig. 2 is a sectional view of the device, Fig. 3 is a front and top views of the device in an embodiment with straps and buckles for fixing, figure 4 - diagram of the installation of the device on the pipeline.

The universal heat-insulating belt made by the stitching method contains a case-shell 1, inside which a heat-insulating layer 2 is located. A working surface consisting in direct contact with the surface of the pipeline 3, the case-case 1 of the device can be preferably made of refractory fabrics with high-speed operation temperatures, and the insulating layer 2 contains one or more layers of insulating material with a low coefficient of thermal conductivity. At the same time, on the outer side of the case-housing 1, chains 4 and hooks 5 and / or belts 6 and buckles 7 are located opposite each other, the function of which is to fix and fix the device with an overlap on the pipeline 3.

Moreover, fixing the device to the pipeline can also be performed by means of a system of cords and / or tapes on sticky bases.

The device operates as follows: the device is mounted on the pipe 3 so that the weld is located in the center of the cover-housing 1. Then the belt is fixed and tightened by chains 4 and hooks 5 and / or belts 6 and buckles 7i / or a system of cords and / or tapes on sticky bases on the pipe with an overlap of the working surface to the pipeline 3. The working surface of the cover-housing 1, consisting in direct contact with the surface of the pipeline 3 and made of refractory fabrics with the possibility of operation in high temperature mode, allows protect the pipeline from fire, and the thermal insulation layer 2 protects the weld and the joint of the pipeline from non-cooling.

In general, the device provides the possibility of protecting the welded joint and the weld of the pipes of the main pipeline from both non-mode cooling and fire exposure, while at the same time ensuring the convenience of mounting / dismounting and transportation to the assembly site on the main pipeline of the device as a whole. This is explained by the fact that the heat-insulating belt has a small mass and dimensions, and the materials from which it is made allow the device to be easily folded into several layers or twisted, as a result of which the installation / dismantling and transportation of the device to the assembly place on the main pipeline is convenient. In addition, the constructive solution provided by the implementation of the cover-case of the device from refractory material and the heat-insulating layer of heat-insulating material with a low coefficient of thermal conductivity fully protects the welded joint and the weld of the pipes of the main pipeline from both non-mode cooling and fire exposure.

Claims (1)

A universal heat-insulating belt made by stitching and containing a cover-case, inside of which there is a heat-insulating layer, characterized in that the working surface, which is in direct contact with the surface of the pipeline, the cover-case of the device is made of refractory fabrics having the property of high temperature operation and the insulating layer contains one or more layers of insulating material with a low coefficient of thermal conductivity, while on the outer side of the cover -korpusa arranged opposite each other chain and the hooks and / or straps and buckles, and / or cords, and / or adhesive tapes, whose function is to fix and fixing overlapping on the pipe unit.

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