RU2772009C1 - Thermal insulation mat with internal fasteners - Google Patents

Abstract

FIELD: pipeline construction.

SUBSTANCE: technical solution relates to the field of thermal insulation of pipelines, namely to thermal insulation mats, such as lamellar thermal insulation mats. The technical task is to create a means for isolating pipelines with a high degree of installation readiness. The thermal insulation mat includes a flexible shell on which flexible fastening strips and a thermal insulation layer are placed and fixed on its inner side. Flexible fastening strips are located between the thermal insulation layer and the shell, which are also interconnected.

EFFECT: increase in the speed of insulation of pipelines without the use of additionally supplied fasteners, reliable fastening of fastening tapes, an increase in the density of the thermal insulation layer of the mat to the surface of the pipeline, an improvement in the density of the junction of the end sides of the thermal insulation layer, the hidden location of the fastening strips and their protection from external influences and corrosion.

15 cl, 10 dwg

Description

The invention relates to the field of thermal power engineering, namely to devices used for thermal insulation of pipelines, namely to heat-insulating mats.

The prior art heat-insulating products fixed on pipelines with clamps SU 1663253 A1, 1991.07.15; RU 2016348 C1, 1994.07.15 RU 2419737 C2, 2011.05.27.

A heat-insulating module for pipes is known, containing a composite heat-insulating shell with a protective cover layer and edges forming longitudinal and transverse thermal interlocks of the protrusion-cavity type, characterized in that it is made in the form of a transformable plate with a heat-insulating layer of extruded polystyrene foam and a protective cover layer of polymer cement with a reinforcing mesh, while longitudinal V-shaped notches are made in the heat-insulating layer of the slab, providing bending of the slab with the possibility of completely wrapping the slab around the insulated pipe, the radial arrangement of the notches and the formation of a cylindrical shell, closed by means of a longitudinal thermal interlock and fixed on the pipe with polymer or metal tape (RU 111242 U1, 12/10/2011).

From the prior art, heat-insulating products are known that do not require additional fasteners in the form of wire bandages and similar devices RU 198120 U1, 06/19/2020; RU 203703 U1, 04/16/2021.

A heat-insulating coating is formed from segments placed on the outer surface of the pipeline, made of a rigid porous polymeric material with low thermal conductivity, as well as a protective coating made of polymeric material or sheet metal, fixed with clamps placed on the surface of the pipeline. Paired clamps that secure the segments 2 and the protective coating located between them contain separate, interconnected assembly elements made of a polymeric elastic material, containing a base in the form of a strip, on the outer surface of which there are T-shaped protrusions, at one end containing through holes , and on the other, there are protrusions that allow you to connect assembly elements into a clamp. To ensure compression with a clamp) of the pipeline1 between the assembly elements, on opposite sides of the pipeline, connecting inserts made of heat-shrinkable material are installed, which shrink when heated and provide clamp tension.

A known method of implementing a collapsible thermal insulation coating of the pipeline, which consists in applying thermal insulation to the pipeline, made in the form of modular elements of full factory readiness (half-cylinders or segments) with two thermal insulation layers and a protective cover shell, fixed on pipes with bandages. (RU 2343340 C1, 01/10/2009)

Also known is a heat-insulating coating of an underground pipeline for installation in line conditions, including a heat-insulating layer made of rigid segments and fixed to the surface of the pipe with steel bandage tapes, a bitumen-polymer tape applied over the heat-insulating layer, and a protective sheath applied over the bitumen-polymer tape from rock sheets, fixed with steel bandage tapes patent RU 2622727, 06/19/2017.

The closest analogue is a heat-insulating mat with fastening in the form of an external clamp RU 2016348 C1, 07/15/1994.

The technical task is to create a means for insulating pipelines with a high degree of installation readiness.

The technical result consists in increasing the speed of pipeline insulation without the use of additionally supplied fasteners (such as knitting wire, bandage tapes), reliable fastening of the fastening tapes, increasing the density of fit of the heat-insulating layer of the mat to the pipeline surface, improving the joint density of the end sides of the heat-insulating layer, the hidden location of the fasteners strips and protect them from external influences and corrosion.

The technical result is achieved due to the fact that the heat-insulating mat includes a protective flexible shell, flexible fastening strips and a heat-insulating layer, and the fastening strips are located and fixed between the heat-insulating layer and the flexible sheath, each fastening strip on one side has a free end part not fixed on the flexible sheath , protruding from under the heat-insulating layer, while on the other hand, each mounting strip has a mounting pad.

Fastening pads are located between the heat-insulating layer and the flexible sheath along the edge of the flexible sheath and the heat-insulating layer.

The fastening strips are attached to the flexible sheath and/or the heat-insulating layer by means of an adhesive connection and/or fasteners, while the flexible sheath and the heat-insulating layer are connected to each other, preferably by means of a continuous or discrete adhesive connection.

The heat-insulating layer is made of an elastic or resiliently pliable and/or crushable heat-insulating material, preferably of a fibrous material, preferably of mineral wool.

The fastening strips are made in the form of flexible metal or plastic tapes, while the fastening platforms are made in the form of metal or plastic plates, mainly rectangular in shape, located perpendicular to the fastening strips and permanently connected to them.

The fastening area of each fastening strip protrudes beyond the fastening strip, has a greater width or transverse dimension compared to the width of the fastening strip.

The free end parts of each fastening strip fixed on the flexible shell have pre-made holes or core recesses for fastener elements to enter them.

Each fastening platform has pre-made holes or core recesses for fasteners to enter them, while it is preferable that the said holes or core recesses are made, including in the place where each fastening platform overlaps the end part of the fastening tape, as well as in the fastening tape itself in the mentioned place of overlapping of the fixing tape.

Fastening elements are preferably self-tapping screws or screws (self-tapping screws), or are made in the form of self-locking elements, such as rivets or latches.

The heat-insulating mat is a free end outlet of the flexible shell not connected to the heat-insulating layer, the length of which is greater than the length of the free end part of each fastening strip protruding from under the heat-insulating layer.

The heat-insulating layer is located with an offset relative to the flexible shell and has an end outlet, as well as a longitudinal outlet not connected to the heat-insulating layer, and the longitudinal outlet is designed to wrap around the adjacent heat-insulating mat and seal the joints of adjacent mats.

The heat-insulating layer is made continuous, for example, in the form of a flexible mat of heat-insulating material.

The heat-insulating layer is made in the form of elongated heat-insulating elements located close to each other, for example, strips, or elongated bars, or lamellas from a heat-insulating material, preferably from a fibrous heat-insulating material, for example, from mineral wool, or from a porous polymer material, for example, polyurethane foam.

The extreme elongated heat-insulating elements along their entire length have protrusions and/or depressions or ledges, or, most preferably, have bevels to form thermal locks at the junction of the end sides of the heat-insulating layer.

The flexible shell is made of a combined material based on a woven or non-woven fabric, preferably based on fiberglass or fiberglass, sealed, for example, with a polymer layer and/or foil, or impregnated, for example, based on silicone, polyurethane.

The device is illustrated by drawings.

On FIG. 1 shows an isometric view of the device (located with the heat-insulating layer up).

On FIG. 2 shows the device in plan (located with the heat-insulating layer up).

On FIG. 3-4, 7-9 schemes for mounting the device on a pipe.

The heat-insulating mat is made rectangular in plan and includes a protective (insulating) flexible shell 1, flexible fastening strips 2 and a heat-insulating layer 3, and the fastening strips 2 are located and fixed between the heat-insulating layer 3 and the shell 1.

Fastening strips 2 on one end side of the mat have free end parts 4 not fixed on the flexible shell 1, protruding from under the heat-insulating layer 3, and on the other end side, have fastening pads 5 attached to the opposite end parts of the fastening strips 2.

Mounting strips 2 are spaced apart across the width of the mat with a calculated distance between them (pitch) and are approximately parallel to the longitudinal sides of the heat-insulating material.

In the manufacture of a heat-insulating mat, the fastening strips can be fixed to the flexible shell 1 and/or to the heat-insulating layer 3 by means of fasteners and/or adhesive joints (not shown in the drawings). Preferably, the fastening strips 2 with fastening pads 5, with the exception of the free end parts 4 of the fastening strips 2 that are not fixed, are fixed on the flexible sheath 1, and the heat-insulating layer 3 is glued to the flexible sheath 1. Thus, most of the fastening strips, including those fastened to them at the ends, the mounting pads 5 are located between the flexible shell 1 and the heat-insulating layer 3 and are securely fixed between them.

Mounting pads 5 are located between the heat-insulating layer 3 and the flexible shell 1 along the edge 6 of the flexible shell and the heat-insulating layer 3 (Fig. 2).

The flexible shell 1 and the heat-insulating layer 2 can be interconnected by means of discrete adhesive joints or, preferably, by means of a continuous adhesive joint - an adhesive polymerized layer (not shown in the drawings) which improves the insulating properties of the mat.

The heat-insulating layer 3 is made of an elastic or resiliently pliable and/or wrinkled heat-insulating material, preferably from a fibrous material, mainly from mineral (stone) wool.

The flexible sheath 1 is a woven or non-woven fabric based on a polymer, preferably reinforced, for example, with glass fiber and having at least one layer of foil connected to the polymer base and laminated with a polymer film.

The fastening strips 2 are made in the form of flexible, predominantly metal or plastic bands or strips, while the fastening platforms 5 are made in the form of, preferably, metal or plastic plates, mainly rectangular in shape, located perpendicular to the fastening strips 2. The fastening platforms 5 are permanently connected with end parts, preferably the ends 4 of the fastening strips 2, for example by welding, punching, riveting, etc.

The most preferred shape of the attachment pads 5 is the simplest rectangular shape, but other shapes can be used, such as round, oval or rectangular shape with rounded edges. It is preferable that the width of each of the mounting pads 5 is at least twice the width of the mounting strip 2 and, just as the length of the platform is selected based on the conditions for saving material and sufficient ease of installation, taking into account the allowable distortions of the mounting strip 2 during installation heat-insulating mat on the pipe 7, which will be described below. Thus, the fastening area 5 of each fastening strip 2 protrudes beyond the fastening strip 2, has a greater width or transverse dimension compared to the width of the fastening strip 2.

It is preferable that the free end parts 4 of each fastening strip 2 not fixed on the flexible shell 1 have pre-made holes 8 or core recesses for fasteners 9 to enter them.

In addition, it is preferable that the mounting pads 5 also have pre-drilled holes 10 or core recesses for inserting fasteners into them. At the same time, it is preferable that the mentioned holes 10 or core recesses are made, including in the place of overlap 11 (crossing) with each fastening platform 5 of the end part of the fastening tape 2, as well as in the fastening tape itself in the mentioned place of overlap 11 (Fig. 2- 6).

Fastening elements 9 are preferably self-tapping screws or screws (self-tapping screws), or are made in the form of self-locking elements, such as rivets or latches.

The heat-insulating mat has a free, not connected to the heat-insulating layer 3, the end outlet 12 of the flexible shell 1, the length of which L is greater than the length l of the free end part 4 of each fastening strip 5 protruding from under the heat-insulating layer 3. This allows the end outlet 12 to cover the joints of the end part 4 tape and mounting pads 5, as well as the joint 13 of the end sides of the heat-insulating layer 3 and seal them, for example, with adhesive and/or tape 14 with a sticky inner layer.

The heat-insulating layer 3 is located with an offset relative to the flexible shell 1 and, in addition to the end outlet 12, has a longitudinal outlet 15, which is also not connected to the heat-insulating layer 3, and the longitudinal outlet 15 is designed to wrap around the adjacent heat-insulating mat and seal the joints of adjacent mats (Fig. 9) .

The heat-insulating layer 3 can be made continuous, for example, in the form of a flexible mat (Fig. 1-4).

It is preferable that the heat-insulating layer 3 is made stacked (Fig. 5-10) in the form of elongated heat-insulating elements 16 located close to each other, for example, strips, or elongated bars, or lamellas from a heat-insulating material, from a fibrous heat-insulating material, preferably from a mineral cotton wool, or from a porous polymeric material, for example, polyurethane foam.

Preferably, the extreme elongated heat-insulating elements 16 along their entire length have protrusions and/or depressions or ledges (conventionally not shown in the drawings). Or, most preferably, they have bevels 17 and 18 (beveled surfaces) for the formation of thermal locks at the junction 13 of the end sides of the heat-insulating layer, which allows the best possible formation of the joint with installation errors.

The device is generally mounted as follows. The heat-insulating mat is wrapped around the pipe 7, ensuring that the heat-insulating layer 3 adheres to the outer surface of the pipe 7, while the fastening strips 2 are located across the longitudinal axis of the pipe 7. After that, the heat-insulating mat is fixed on the pipe with mounting straps or belts (conventionally not shown in the drawings) which provide a sufficiently tight fit of the end sides of the heat-insulating layer 3 and their compression together with the heat-insulating layer 3. After primary fixation and tightening with mounting straps at the locations of the mounting pads 5, fasteners 9 are screwed into the holes at the ends 4 of the mounting strips 2, while lifting the outlet 12 flexible shell 1.

Since the fastening pads 5 are located along the edge of the flexible shell and a plurality of holes 8 are made in each fastening pad 5, even taking into account the displacement of the fastening strips from the transverse position relative to the pipe axis, the fastener 9, when twisting, falls into one of the holes in the pad, fixing the end parts 4 flexible tape 2 to form a butt joint of the ends of the heat-insulating layer 3. On the free end parts 4 of the fastening strips 2, a number of holes 8 are preferably made to provide the necessary tension formed by the fastening strip of the closed belt after the flexible tape 2 is stretched and the heat-insulating mat is securely fixed.

After all flexible tapes 2 are fixed by fasteners 9 with the formation of belts, the inner side of the outlet 12 of the flexible sheath 1 is coated with adhesive and the joint 13 and the end parts 4 of the fastening strips are covered with it, pressing the outlet to the outer surface of the flexible sheath. The longitudinal edge of the release 12 is additionally sealed with adhesive tape 19, for example, mounting tape. The next mat is mounted in a similar way, joining it with the already mounted mat, covering the joint with a longitudinal outlet 15, if necessary, pro-gluing it and fixing it with adhesive tape 20.

The flexible shell 1 can be made of a combined material based on a woven or non-woven fabric, preferably based on fiberglass or glass canvas, sealed, for example, with a polymer layer and/or foil, or impregnated, for example, based on silicone, polyurethane.

As a result of field tests, an improvement in the insulating and operational properties of the mat was recorded, ensuring ease of installation by equipping the product with fasteners, ensuring a tighter fit of the heat-insulating layer to the insulated pipe, compared with fixing known mats with wire or tape, increasing the heat-insulating properties of the mounted device by providing tighter coverage of the pipe provided by the strips, and as a result of the absence of sagging, the fastening is hidden and prevents corrosion of the fasteners.

Claims (15)

1. Heat-insulating mat, characterized in that it includes a protective flexible shell, flexible fastening strips and a heat-insulating layer, and the fastening strips are located and fixed between the heat-insulating layer and the flexible sheath, each fastening strip on one side has a free end part not fixed on the flexible sheath , protruding from under the heat-insulating layer, while on the other hand, each mounting strip has a mounting pad. 2. The heat-insulating mat according to claim 1, characterized in that the mounting pads are located between the heat-insulating layer and the flexible sheath along the edge of the flexible sheath and the heat-insulating layer. 3. Heat-insulating mat according to claim 1, characterized in that the fastening strips are fixed to the flexible shell and/or to the heat-insulating layer by means of an adhesive connection and/or fasteners, while the flexible shell and the heat-insulating layer are connected to each other preferably by means of a continuous or discrete adhesive connections. 4. Heat-insulating mat according to claim 1, characterized in that the heat-insulating layer is made of an elastic or elastically compliant and/or crushable heat-insulating material, preferably of a fibrous material, preferably of mineral wool. 5. Heat-insulating mat according to claim 1, characterized in that the fastening strips are made in the form of flexible metal or plastic tapes, while the fastening pads are made in the form of metal or plastic plates, mainly rectangular in shape, located perpendicular to the fastening strips and permanently connected to them . 6. Thermal insulation mat according to claim 1, characterized in that the mounting area of each mounting strip protrudes beyond the limits of the fastening strip, has a greater width or transverse dimension compared to the width of the fastening strip. 7. The heat-insulating mat according to claim 1, characterized in that the free end parts of each fastening strip not fixed on the flexible shell have pre-made holes or core recesses for fasteners to enter them. 8. The heat-insulating mat according to claim 1, characterized in that each mounting platform has pre-made holes or core recesses for fasteners to enter them, while it is preferable that the said holes or core recesses are made, including in the place where each mounting platform overlaps the end part of the fastening tape, as well as in the fastening tape itself at the said point of overlapping of the fastening tape. 9. Thermal insulation mat according to claim 7, characterized in that the fasteners are preferably self-tapping screws or screws (self-tapping screws) or are made in the form of self-locking elements such as rivets or latches. 10. The heat-insulating mat according to claim 1, characterized in that it has a free end outlet of the flexible shell not connected to the heat-insulating layer, the length of which is greater than the length of the free end part of each fastening strip protruding from under the heat-insulating layer. 11. The heat-insulating mat according to claim 1, characterized in that the heat-insulating layer is located with an offset relative to the flexible shell and has an end outlet, as well as a longitudinal outlet, not connected to the heat-insulating layer, and the longitudinal outlet is designed to wrap the adjacent heat-insulating mat and seal the joints of adjacent mats. 12. Heat-insulating mat according to claim 1, characterized in that the heat-insulating layer is made continuous, for example, in the form of a flexible mat of heat-insulating material. 13. The heat-insulating mat according to claim 1, characterized in that the heat-insulating layer is made in the form of elongated heat-insulating elements located close to each other, for example, strips, or elongated bars, or lamellas from a heat-insulating material, preferably from a fibrous heat-insulating material, for example, from mineral wool, or from a porous polymer material, such as polyurethane foam. 14. The heat-insulating mat according to claim 1, characterized in that the extreme elongated heat-insulating elements along their entire length have protrusions and / or depressions or ledges, or, most preferably, have bevels to form thermal locks at the junction of the end sides of the heat-insulating layer. 15. The heat-insulating mat according to claim 1, characterized in that the flexible shell is made of a combined material based on a woven or non-woven fabric, preferably based on glass fabric or fiberglass, sealed, for example, with a polymer layer and / or foil, or by impregnation, for example, on based on silicone, polyurethane.

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