RU123491U1 - HEAT INSULATION - Google Patents

Abstract

1. Thermal insulation with a shell, which is a thermal insulation made of heat-insulating material and having longitudinal slots extending from the surface facing the pipeline, and partially dividing the thermal insulation into sectors, as well as a shell, characterized in that the shell is connected to the thermal insulation, and at the ends of the shell, projections and depressions are made to accommodate the corresponding protrusion or depression of an adjacent element with mating parts, also projections and depressions can be made at the ends of the thermal insulation to accommodate the corresponding protrusion or depression of an adjacent element with mating parts, and elements are made on the lateral sides of the shell for fastening 2. Thermal insulation with a shell according to claim 1, characterized in that the fastening elements are made in the form of mating elements for fastening of the dovetail type. Thermal insulation with a shell according to claim 1, characterized in that the fastening elements are made in the form of mating protrusions and depressions. Thermal insulation with a shell according to claim 1, characterized in that the shell is made of metal. Thermal insulation with a shell according to claim 1, characterized in that the shell is glued to the thermal insulation. Thermal insulation with a shell according to claim 1, characterized in that the thermal insulation is made of basalt slabs.

Description

The utility model relates to mechanical engineering and construction and can find application as an element of a collapsible shell for thermal insulation of pipes, pipelines, steam pipelines, etc., operating in conditions of a difference in temperature of the transported substance and the environment.

There is a method of creating a protective coating on pipe insulation in which the outer shell covering the insulation is applied to the pipe, heated in a furnace and applied to the end surfaces of the insulation and pipe ends that do not have insulation. The shell is formed from a heat-shrinkable tape wound with an overlap during rotational-translational movement of the pipe, and the tape is glued with heat shrink. The overlap of the tape at the ends of the pipe is increased in comparison with its overlap on the cylindrical part by an amount determined by a given ratio. (RF patent for the invention No. 1837133, IPC F16L 59/18, published: 08/30/1993).

This solution requires a lot of labor when installing thermal insulation, and also makes repair difficult due to the fact that the coating is applied inseparably and lapped, i.e. the dismantling of one site is difficult and low-tech, and also requires relatively large labor costs for installation and dismantling.

A known block for thermal insulation of a pipeline consisting of two rigid elements forming a cavity, one of which is made in the form of a gutter, the inner surface of the bottom of which follows the shape of the surface of the pipeline, and the second element is made in the form of a segment insert installed in the gutter with a possibility of jamming, and the side parts of the gutter are made in the form of flat diverging surfaces, and the second element is installed in the gutter with the possibility of forming a closed cavity. Each end of the block can be made in the form of a castle part, which can be made in the form of a protrusion-trough. (RF patent for the invention No. 2047811, IPC F16L 59/12, published: 11/10/1995)

The disadvantage of this technical solution is the use of fastenings using jamming, which reduces the possibility of reuse of the structure due to the inevitable deformation of the elements, in addition, during long-term operation, deformation of the elements is possible, which will lead to the formation of cracks, or there will be a need to use additional tightening elements.

A known element of the thermal insulation of the pipeline, which is a longitudinally oriented fragment of the shell made of foamed polymeric material, and having longitudinal protrusions and longitudinal depressions on the lateral longitudinal edges to accommodate the corresponding protrusion of an adjacent element that is made of an extruded sheet, has a radially curved surface facing to the pipeline obtained by machining, from this surface, tapering towards the outer surface of the element she slit partially dividing it into sectors (Russian utility model patent №64320, IPC F16L 59/00, published on: 27.06.2007)

The closest in technical essence and the achieved effect is the pipe insulation element, which is a fragment of the shell made of an extruded sheet or plate of foamed polymer material, and having longitudinal slots extending from the surface facing the pipeline and partially dividing the element into sectors, characterized in that the walls of the slots have a shape that ensures the formation of longitudinal channels when the element is applied to the pipeline. (RF patent for utility model No. 73052, IPC F16L 59/00, published: 05/10/2008)

The disadvantage of the two above technical solutions is the lack of connection of the opposite ends of the element, which leads to the need to use external fastening elements, there are also no elements on the end sides for mutual fixation of the elements.

The task to which this utility model is aimed is to ensure high-quality thermal insulation, the production and installation / dismantling of which will be simple, and the quality of thermal insulation will not be inferior to known analogues.

The technical result consists in improving the operational characteristics and, as a result, simplifying installation / disassembly, reducing installation time, increasing the operating life, and simplifying repair effects.

The technical result is achieved in that the thermal insulation with a shell, which is a thermal insulation made of heat-insulating material, and having longitudinal slots extending from the surface facing the pipeline and partially dividing the thermal insulation into sectors, as well as the shell, has a shell connected to the thermal insulation, and protrusions and depressions are made to the ends of the shell to accommodate the corresponding protrusion or depression of an element adjacent to it with mating parts, also at the ends of the insulation can be The protrusions and depressions are made to accommodate the corresponding protrusion or depression of an element adjacent to it with mating parts, and fastening elements are made on the sides of the shell. Elements for mounting can be made in the form of mating elements for mounting type "dovetail". Elements for mounting can be made in the form of mating protrusions and depressions. The shell may be made of metal. Thermal insulation can be made of basalt plates.

The shell is connected to thermal insulation, which simplifies installation / disassembly and reduces installation time.

At the ends of the shell, protrusions and depressions are made to accommodate the corresponding protrusion or depression of an element adjacent to it with mating parts, which allows simplifying installation, as well as simplifying replacement and increasing the life of the device.

At the ends of the thermal insulation, protrusions and depressions can be made to accommodate the corresponding protrusion or depression of an element adjacent to it with mating parts, which also allows to simplify installation, as well as simplify replacement and increase the service life.

Mounting elements are made on the sides of the shell, which simplifies installation / disassembly.

Elements for fastening can be made in the form of mating elements for fastening such as "dovetail", which will reduce the time of installation / dismantling by reducing the assembly time.

Elements for fastening can be made in the form of reciprocal protrusions and depressions, which will reduce the time of installation / dismantling.

The shell can be made of metal, which will simplify installation / disassembly, as well as increase the life of the unit.

Thermal insulation can be made of basalt plates, which will increase operational characteristics.

The design of the proposed technical solution is shown in:

figure 1 - thermal insulation with a shell mounted on the pipe, a cross section;

figure 2 - thermal insulation with a shell mounted on the pipe, a longitudinal section.

The claimed technical solution can be implemented in the design of thermal insulation with a shell, including thermal insulation 2, longitudinal slots 5, protrusions and depressions 4, fasteners 3, shell 6, protrusions and depressions 7. Pipeline 1.

According to a utility model, a thermal insulation with a shell is a shell 6 made, for example, of metal, joined, for example, by means of glue, with a thermal insulation 2 made of a heat-insulating material, for example, basalt plates. The shell 6 can, for example, be glued with thermal insulation 2. On thermal insulation 2, longitudinal slots 5 are made, extending from the surface facing the pipeline 1 and partially dividing the thermal insulation 2 into sectors. The shell 6 has at the ends of the protrusions and depressions 7 to accommodate the corresponding protrusion or depression 7 of an adjacent element (not shown in the figures) with mating parts. At the ends of thermal insulation 2, protrusions and depressions 4 can also be made to accommodate the corresponding protrusion or depression 4 of an adjacent element with mating parts. On the sides of the shell 6 there are made elements for fastening 3, which can be made in the form of mating elements for fastening, for example, such as "dovetail", and can also be made in the form of mating protrusions and depressions.

Installation of insulation with a shell on the pipeline is as follows.

The sheath 6 is connected (for example, glued) with thermal insulation 2. Then, the resulting structure is installed on the pipe 1, connected using fastening elements 3. Then, take the next thermal insulation block 2 with the glued shell 6 (not shown in the figures) and, aligning the corresponding protrusions and depressions 4 (if they are made) and 7, are fixed with fastening elements 3.

Thus, the application of the utility model, thermal insulation with a shell increases operational characteristics and, as a result, simplifies installation / disassembly, reduces installation time, increases the operating life, and simplifies repair effects by using fastening elements on the side surfaces, as well as protrusions and depressions on the end faces surfaces.

Claims (6)

1. Thermal insulation with a shell, which is a thermal insulation made of heat-insulating material and having longitudinal slots extending from the surface facing the pipeline, and partially dividing the thermal insulation into sectors, as well as a shell, characterized in that the shell is connected to the insulation, and at the ends the shells are made of protrusions and depressions for accommodating the corresponding protrusion or depression of an adjacent element with mating parts, also protrusions and depressions can be made at the ends of the thermal insulation To accommodate the corresponding protrusion or trough of an element adjacent to it with mating parts, and fastening elements are made on the sides of the shell. 2. Thermal insulation with a sheath according to claim 1, characterized in that the fastening elements are made in the form of mating elements for fastening such as "dovetail". 3. Thermal insulation with a shell according to claim 1, characterized in that the fastening elements are made in the form of reciprocal protrusions and depressions. 4. Thermal insulation with a shell according to claim 1, characterized in that the shell is made of metal. 5. Thermal insulation with a shell according to claim 1, characterized in that the shell is glued with thermal insulation. 6. Thermal insulation with a shell according to claim 1, characterized in that the thermal insulation is made of basalt plates.