RU97477U1 - HEAT-INSULATING SHELL - Google Patents

Abstract

 1. A heat-insulating shell for pipelines that are not exposed to significant temporary and constant loads, made of collapsible and containing a set of N removable segments from extruded foam polymer material, interconnected into a ring by mating protrusions and grooves at the ends of adjacent segments and tightened by metal bandages or polymer tapes, the ends of each of which are placed in the corresponding clamping unit, characterized in that the segments are made of extruded foam polystyrene with a density of not less than 30 kg / m3 and compressive strength at 10% deformation of not less than 0.20 MPa, and the clamping unit of the bandages is made in the form of a closure fastener made of two metal figured frames made in one piece, pressed one into another, and between which stretch the ends of the tape. ! 2. The heat-insulating shell according to claim 1, characterized in that the segments are made of extruded expanded polystyrene foam brand "TEPLEX®". ! 3. The heat-insulating shell according to claim 1, characterized in that it consists of segments painted in yellow by adding pigment to the composition of the material.

Description

The utility model relates to construction, namely, to heat-insulating products made of extruded foam polymer material, for example, polystyrene, and can be used mainly for construction and installation works during the laying and thermal insulation of pipelines in capital housing construction, industrial and commercial construction, individual construction.

The invention is known "Node thermal insulation of pipelines and a device for its installation", application of the Russian Federation, No. 2001111547, publ. 2003.06.20, in which there is a layer of heat-insulating material, an outer sheath, fasteners made of wire or steel tape, fixing sheets of the sheath. However, this thermal insulation has a complex structure of attachment points, is bulky, takes up a lot of space, it cannot be mounted on already welded pipelines.

The invention is known "Collapsible insulation for underground and above-ground channelless pipelines", RF, No.2000106633, publ. 2002.04.10, containing thermal insulation, which is made collapsible in the form of removable elements - shells fastened with bandages. However, this design requires an additional integument shell, which complicates the installation of thermal insulation, does not allow its installation on a welded pipeline.

Closest to the proposed, taken as a prototype, is a heat-insulating structure made of a collapsible of removable elements - shells fastened with bandages, described in the utility model of the Russian Federation, No. 40433, publ. 2004.09.10.

The known heat-insulating structure includes removable elements fastened with bandages and made in the form of segments cut from a plate made of extruded polystyrene foam with a density of at least 33 kg / m ³ and compressive strength at 10% deformation of at least 0.25 MPa, allowing mechanical processing for shaping segments. The segments are combined into a ring forming a heat-insulating shell around the water supply system and consisting of N elements interconnected in the diametric direction into a lock formed by reciprocal longitudinal protrusions and longitudinal grooves made in the radial direction and located on opposite ends of the segment, respectively, the protrusion is a groove at the ends adjacent segments. The bandages are made in the form of tightening tapes secured by a lingering device equipped with a stopper. Along the side surface of the pipe several described thermal insulation shells are laid out.

The known heat-insulating shell is intended primarily for thermal insulation of the outer surface of gas and oil pipelines of underground and elevated laying, which necessitates providing increased strength and density of the material, guaranteeing the required moisture absorption of the shell, reliable protection against frost heaving of saturated soils.

However, the provision of these high thermal insulation and mechanical indicators leads to an increase in the cost of both the production of the shell material and its overall, respectively, financial costs for the construction and thermal insulation of existing and newly built systems and other building structures.

The present utility model is based on the task of reducing the cost of a heat-insulating sheath having stable thermal and mechanical properties and simplifying its installation.

The problem is solved by a heat-insulating shell made of collapsible and containing a set of N removable segments from extruded foam polymer material, interconnected into a ring by reciprocal protrusions and grooves at the ends of adjacent segments and tightened with bandages in the form of metal or polymer tapes, the ends of each of which are placed in appropriate clamping unit, CHARACTERIZED in that the segments are made of extruded polymer material, for example, polystyrene foam with a density of at least it is 30 kg / m ³ and compressive strength at 10% deformation of not less than 0.20 MPa, and the clamping unit of the bandages is made in the form of a locking fastener from two metal figured frames made in one piece, tightened one in another, and between which are stretched the ends of the tape.

It is advisable to use segments made of extruded expanded polystyrene foam of the TEPLEX ^® trademark in the heat-insulating sheath.

The heat-insulating shell consists of segments painted yellow by adding pigment to the composition of the material.

The achievable technical result of the utility model is to reduce energy costs in the manufacture of the material of the segments that make up the heat-insulating shell while providing stable indicators of compressive strength and density, guaranteeing the required terms of reliable operation of pipelines, mainly not subjected to significant temporary and constant loads. The design of the clamping units for the bandages of the heat-insulating sheath provides the simplification and acceleration of its installation both on the restored pipeline in buildings, structures and during outdoor installation, as well as on a newly constructed object, which increases the productivity of work and, in general, reduces the cost of the finished construction complex.

Studies of the physicotechnical properties of the heat-insulating shell showed that the indicated characteristics of the material of the segments are within the limits allowing the use of products for thermal insulation of pipelines operating in various climatic zones.

The experiments showed that a decrease in the density of the material (due to a change in the technological regimes for the manufacture of plates, sheets) leads to a decrease in compressive strength and, accordingly, reliability of protection of pipelines from mechanical damage. On the other hand, an increase in the strength of the extruded polymer material leads to an increase in the heat-insulating properties, but to an increase in the cost of the plates from which the segments are made.

The upper limits of the density and strength coefficients are identified experimentally. A balance has been established between the optimal physical and mechanical properties of the material of the heat-insulating shell - extruded expanded polystyrene foam, known under the brand name "TEPLEX ^® ".

The essence of the utility model is illustrated by the figures of the drawings, which show:

figure 1 is a longitudinal section of a heat-insulating shell;

figure 2 is a cross section of a heat-insulating shell (aa in figure 1);

figure 3 - node clamping ends of the tie-down bandages - tapes, front view;

figure 4 - node clamping ends of the tie-down bandages of tapes, side view, right and left (BB, CC - in figure 3).

The heat-insulating shell is made of collapsible and contains a set of N removable segments of extruded foam material, mainly polystyrene foam, known under the brand name "TEPLEX ^® ". Segments 1 are interconnected into a ring by reciprocal protrusions 2 and grooves 3 formed at the ends of adjacent segments 1, tightened by bandages 4 in the form of metal or polymer bands, the ends of each of which are placed in the corresponding clamping unit 5. The clamping unit 5 of the bandage 4 is made in the form locking fasteners from two metal figured frames 6, 7, made in one piece, pressed one against the other and between which the ends of the tape are stretched - bandage 4. Segments 1 are made with the length of the outer arc, selected on the basis of compliance with the strength conditions compression and thickness, providing reliable thermal insulation of the pipeline. For pipes of small diameter, instead of segments, half-cylinders are made.

Segments 1 are made of extruded material with a density of at least 30 kg / m ³ and compressive strength at 10% deformation of at least 0.20 MPa. It was experimentally established that at a material density of 25-30 kg / m ³ polystyrene foam has a compressive strength at 10% deformation of 0.20 MPa; at a density of 20-25 kg / m ³ - 0.15 MPa; at a density of 15-20 kg / m ^3, the strength index drops to 0.10 MPa, which is unacceptable for the inventive thermal insulation product.

Based on the technological requirements, the segments are made with a length of not more than 2500 mm, the protrusions are grooves longitudinal, and the bandages 4 are evenly distributed along the length of the ring drawn from segments 1 in an amount of at least two tapes.

Each segment 1 (or half cylinder) is made of a given shape from a plate or sheet by cutting with a heated nichrome wire or by extrusion molding through a shaped die, or by milling the plate with a milling cutter. At least two opposite lateral sides perform longitudinal protrusions and grooves, forming connections of adjacent segments, overlapping joints. Similar grooves and protrusions can be made on other opposing sides. The execution of protrusions and grooves unidirectional simplifies their manufacture.

It is preferable to make the plate from which the segments are made yellow by adding pigment to the polystyrene foam composition. The desired yellow color is created by the use of fat-soluble pigments.

During the process of obtaining the plate (sheet), the pigment regulates the structure of the plate by plasticizing the material. To obtain a high-quality plate with a uniform structure, 0.1-0.5% pigment is introduced into the material.

When repairing existing pipelines, the outer surface of the pipe to be coated with a thermal insulating sheath is pre-cleaned of adhering dirt and corrosion products, after which segments 1 or half cylinder are laid on the pipe (depending on the pipe diameter), bandages - tapes 4 are placed under the segments 1 assembled in the ring , the ends of the tapes lead into curly locking fasteners 5, tighten them using a tightening device.

The use of a heat-insulating shell consisting of sets of segments 1 made of TEPLEX ^® material during construction and installation works of newly constructed facilities should be carried out in accordance with the requirements of SNiP41 - 03-2003 and documents approved in the established manner. The installation sequence of the heat-insulating sheath described herein may, for example, be as described in the utility model certificate of the Russian Federation, No. 40433, publ. 2004.09.10.

To ensure thermal insulation of the pipeline, segments 1 (or half-cylinders) are superimposed on its surface with a combination of protrusions - grooves 2, 3, pulled together with bandages 4, which are securely fixed in the clamping nodes 5. Installation is not complicated, high-performance. The heat-insulating shell prevents the destructive effect of environmental factors on the pipeline, which has been experimentally proven.

Claims (3)

1. A heat-insulating shell for pipelines that are not exposed to significant temporary and constant loads, made of collapsible and containing a set of N removable segments from extruded foam polymer material, interconnected into a ring by mating protrusions and grooves at the ends of adjacent segments and tightened by metal bandages or polymer tapes, the ends of each of which are placed in the corresponding clamping unit, characterized in that the segments are made of extruded foam polystyrene with a density of not less than 30 kg / m ³ and compressive strength at 10% deformation of not less than 0.20 MPa, and the clamping unit of the bandages is made in the form of a closure fastener made of two metal figured frames made in one piece, pressed one into another, and between which the ends of the tape are stretched. 2. The insulating sheath according to claim 1, characterized in that the segments are made of extruded expanded polystyrene foam of the TEPLEX ^® trademark. 3. The heat-insulating shell according to claim 1, characterized in that it consists of segments painted in yellow by adding pigment to the composition of the material.