RU111242U1 - THERMAL INSULATION MODULE FOR PIPES - Google Patents

Abstract

 A heat-insulating module for pipes containing a composite heat-insulating shell with a protective cover layer and edges forming longitudinal and transverse thermal locking joints of the protrusion-cavity type, characterized in that it is made in the form of a transformable plate with an insulating layer of extruded polystyrene foam and a protective coating layer of polymer cement with a reinforcing mesh, while in the heat-insulating layer of the plate longitudinal V-shaped notches are made, providing bending of the plate with the possibility of complete turning the plate around the insulated pipe, the radial arrangement of the notches and the formation of a cylindrical shell that is closed by means of a longitudinal thermal lock connection and fixed to the pipe using a polymer or metal tape.

Description

The utility model relates to devices for thermal insulation of pipelines in industrial and civil engineering, in particular for insulation of cold water pipelines, water pipelines and other pipelines with the temperature of the transported products from minus 50 ° С to plus 75 ° С.

Known collapsible heat-insulating coating of the pipeline, including installed on the length of the pipe composite shells fastened with bandages, while the composite shells used monolithic modular elements with two heat-insulating layers and a protective cover, made depending on the diameter of the insulated pipeline in the form of half-cylinders or segments , along the entire contour of the shell, elements of thermal locking joints of the protrusion-cavity type are made, with which the shells are sewn perimeter and length offset by half the length of the shell (RF Patent №2343340, C1, filing date 04.06.2007, publication date 10.01.2009, author Kuzmin SS, RU).

The disadvantages of the known analogue are: increased labor costs during transportation and installation of composite shells, inconvenience when storing them, and low performance, due to the shape of the shells in the form of half-cylinders or segments, the presence of many mounting joints that degrade the quality and durability of thermal insulation , and the need for waterproofing protection of shell joints.

As a prototype, a heat-insulating module for pipes was adopted, containing a semi-cylindrical composite heat-insulating shell with perimeter locking elements made with a protective cover layer, two heat-insulating layers, the outer of which is made of polyurethane foam, and the inner one is made of more heat-resistant material, while the inner one the layer is displaced along the perimeter and along the length of the shell relative to the outer layer to form longitudinal and transverse thermal castle joints (RF Patent 70958, U1, filing date 04.06.2007, publication date 20.02.2008, author Kuzmin SS, RU, prototype).

The disadvantage of the prototype is the increased labor costs during transportation and installation, inconvenience during storage, due to the semi-cylindrical form of the module, the production of such products requires special technological equipment, warehousing takes up a lot of space, which is also inefficient during transportation, and installation is associated with increased use of human resources and time to perform work on docking and sealing joints, the absence of which affects the quality of thermal insulation.

The objective of the utility model is to reduce labor costs during transportation and installation, improve performance and increase durability.

To solve the problem, a heat-insulating module for pipes containing a composite heat-insulating shell with a protective cover layer and edges forming longitudinal and transverse thermal locking joints of the protrusion-cavity type, according to a utility model, is made in the form of a transformable plate with a heat-insulating layer of extruded polystyrene foam and a protective cover a layer of polymer cement with a reinforcing mesh, while longitudinal longitudinal V-shaped notches are made in the heat-insulating layer of the plate, providing bending e plates with the possibility of complete wrapping of the plate around the insulated pipe, the radial arrangement of the notches and the formation of a cylindrical shell, closed by means of a longitudinal thermal lock connection and fixed to the pipe using a polymer or metal tape.

Figure 1 schematically shows a heat-insulating module for pipes in the form of a plate THERMIT SP ROLL, transport position; figure 2 is the same, a top view; figure 3 is a section aa in figure 1; figure 4 - operating position of the module.

The heat-insulating module for pipes is a composite shell made in the form of a transformable flexible plate based on a THERMIT SP ROLL building board, and contains a heat-insulating layer 1 of extruded polystyrene foam and a protective coating layer 2 of polymer cement with a reinforcing mesh 3. In the heat-insulating layer 1, the plates are made longitudinal V-shaped notches 4, providing bending of the plate with the possibility of complete wrapping of one plate around the insulated pipe 5. In this case, the depth and pitch of the V-shaped notches 4 are yayutsya calculated depending on the diameter of the insulated tube plate 5. The edges around the perimeter of formed L-shaped elements 6 with heat of tool joints in the form of protrusions 7 and cavities 8.

In the operating position, the heat-insulating module for pipes forms a cylindrical shell with a radial notch arrangement, closed by means of a longitudinal thermal lock connection 9 and fixed to the pipe 5 using a polymer or metal tape (not shown conventionally). Transverse thermal lock joints are formed during installation during the docking of insulating modules along the pipeline (not shown conditionally).

The manufacture of a heat-insulating module for pipes is carried out on the basis of a THERMIT SP ROLL building board. For its manufacture, an extruded polystyrene foam plate is used, forming a heat-insulating layer 1. A reinforcing fiberglass mesh and a polymer-cement composition are applied to the plate to form a protective coating layer 2 on one side of the plate. On the other hand, longitudinal V-shaped notches 4 are made in the plate in accordance with the calculated values of the depth and pitch of the notches, depending on the diameter of the insulated pipe 5. The edges of the plate along the entire perimeter are processed and made L-shaped 6 with the elements of the thermal locking joints in the form of protrusions 7 and troughs 8.

The efficiency of using extruded polystyrene foam in THERMIT SP ROLL boards is based on the fact that it has the lowest thermal conductivity of all heaters used in construction, which makes it possible to reduce the thickness of the insulation and, therefore, to reduce the thickness of the heat-insulating shell of the pipe, as well as use a transformable plate as its bent due to the implementation of V-shaped notches.

The advantage of the embodiment of the heat-insulating module for pipes in the form of a plate in comparison with the semi-cylindrical form of execution is as follows:

firstly, in reducing labor costs during storage and transportation;

secondly, in improving the conditions of storage and transportation;

thirdly, in reducing labor costs during installation due to its simplification and reduction in connection with this, the working personnel and the duration of the work, since the installation can be carried out by one person, takes a little time and lies in the fact that the entire insulated pipe is covered with one plate, closed it with the formation of one joint and is fixed to the pipe, for example with a strap-tape, and for access to the pipe in case of repair, the heat-insulating sheath can be easily removed without damage and installed back.

The use of a polymer-cement coating reinforced with a reinforcing fiberglass mesh as a protective coating layer provides hydroprotection and resistance to mechanical, vibration and thermal stresses, since the coating material is rigid, strong, ductile under thermal deformation, moisture and vapor impermeable, and, moreover, it is not sensitive to ultraviolet radiation, does not deteriorate in the open air and in the ground for many years, which positively affects the durability of thermal insulation.

The rigid and strong structure of the material of THERMIT SP ROLL boards ensures shape stability and allows the pipe's insulation shell to keep its shape, not to slip and not caking over time under vibration, mechanical and temperature influences, which indicates its high performance, as well as the possibility of installation in any weather and at any time of the year, since the range of permissible temperatures for using THERMIT SP ROLL boards is from minus 50 ° С to plus 75 ° С, and there is no need for additional protection against logs, soil, wind both when the pipeline is open, and when laying it in the ground.

In addition, the THERMIT SP ROLL slabs are also biologically safe, because the material does not rot, does not emit toxic substances, does not pollute indoor air, and the outer polymer-cement layer is non-combustible. Thanks to this, THERMIT SP ROLL meets all the requirements and standards for thermal insulation of structures in industries where technological processes require high purity: pharmaceutical, food, microbiological industries, and the production of high-precision radio electronics.

THERMIT SP ROLL boards can be used for thermal insulation of pipes with diameters from 57 to 1420 mm for external, semi-buried and fully buried laying.

Thus, the inventive heat-insulating module for pipes ensures the achievement of a technical result, which consists in reducing labor costs during transportation and installation, improving performance and increasing durability.

Claims (1)

A heat-insulating module for pipes containing a composite heat-insulating shell with a protective cover layer and edges forming longitudinal and transverse thermal locking joints of the protrusion-cavity type, characterized in that it is made in the form of a transformable plate with an insulating layer of extruded polystyrene foam and a protective coating layer of polymer cement with a reinforcing mesh, while in the heat-insulating layer of the plate longitudinal V-shaped notches are made, providing bending of the plate with the possibility of complete turning the plate around the insulated pipe, the radial arrangement of the notches and the formation of a cylindrical shell that is closed by means of a longitudinal thermal lock connection and fixed to the pipe using a polymer or metal tape.