RU174567U1 - CASE FOR THERMAL INSULATION OF OBJECTS OF COMPLEX GEOMETRIC FORM - Google Patents

Abstract

The utility model relates to fast-mounted and dismountable thermal insulation of surfaces of complex geometric shapes and can be used for insulation of engineering communications nodes, for example, welded joints of pipelines, adapters and valves. The technical problem solved with the help of a utility model is to realize the possibility of accelerated replacement of the heat-insulating filler in place, without replacing the entire structure, as well as increasing the reliability of the device by the possibility of visual quality control of the heat-insulating filler, i.e. without additional diagnostic tools. The essence of the device: a cover 1 for thermal insulation of objects of complex geometric shape is made of waterproof technical fabric according to the patterns corresponding to the insulated surface and made in the form of a closed cavity of the coating layer 2 and the inner shell 3, which is hemmed to the surface of the coating layer 2 directly adjacent to the object. Between the cover layer 2 and the inner shell 3 there is a thermal insulation layer 4, and on the outside of the cover layer 2 there are fixedly connected elements 5 for fixing and sealing the cover 1 on the object. The inner shell 3 is provided with a zipper 6 located along the perimeter of the seam connecting the cover layer 2 and the inner shell 3, or on the surface of the inner shell 3 to access the insulation layer 4. In accordance with the shape of the insulated surface, the inner shell 3 may contain additional closed cavities, each of which is formed by a cover layer with a corresponding layer of thermal insulation, while the inner shell of each cavity is supplied with a corresponding additional zipper. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to fast-mounted and dismountable thermal insulation of surfaces of complex geometric shapes and can be used for insulation of engineering communications nodes, for example, welded joints of pipelines, adapters and valves.

A protective cover is known, characterized in that it is made antistatic and is a three-dimensional structure having walls equipped with quick-release fasteners, formed by shells placed one in the other so that each of the walls includes at least three layers - an external chemically resistant a resistant coating layer with water and oil repellent properties, an inner layer made of heat-resistant and heat-reflecting material, as well as a warming layer located between them, made from vibration-proof insulation, while the insulation layer is multilayer with adhesive bonding of its layers and freely placed between the inner and outer layers, which are interconnected, at least by means of adhesive tape, while the walls are connected to each other and the fasteners are connected to the walls with the use of heat-resistant products from non-combustible and / or non-combustible materials - RU 90875 U1, 2010

The disadvantages of the well-known cover are as follows:

- the design of the device "cover in the case" does not imply the replacement of the worn insulation layer in place;

- maintenance of the module in order to control the quality of the insulation is not provided due to the tightness of its internal cavity.

Known protective module comprising a housing consisting of two parts connected by quick disconnect fasteners, each wall of which includes at least three layers - an external wear-resistant coating layer forming the outer shell of the shell, the inner layer forming the inner shell of the shell, and heat-insulating located between them layer, while the outer and inner shells are interconnected by means of quick disconnect fasteners, and the heat-insulating layer is made single-layer and fixed between the outer and inner layers - RU 147289 U1, 2014

A disadvantage of the known module is that the replacement of a worn-out heat-insulating layer or the use of another having better characteristics, due to its fixation between the outer and inner layers, is possible only by replacing the entire device or its parts.

Closest to the claimed utility model is a mobile heat and sound insulating module for objects of complex geometric shape, containing an outer protective shell inside which an inorganic or polymer filler is placed, made in the form of an insert with a thickness of 3 mm to 200 mm, having an expanded configuration depending on the geometry heat and sound insulation object, the outer protective shell is made in the form of a closed cavity, the internal volume of which is 1.1 volumes of the liner, and consists of reinforced glass fiber fabric with a polymer coating on a silicone base, tensile strength of which is 3000 N / 5 cm on the basis, 1600 N / 5 cm on the weft, and thermal conductivity is not more than 0.24 W / (m⋅K), while the outer the protective shell has a shape identical to the configuration of the liner in the unfolded form, stitched with either polyamide, or polyester, or water-repellent polyamide threads, and on the outside of the protective shell there are rigidly connected elements for fixing and sealing the mobile heat and sound insulation module at the object - RU 2489636 C1, 2013

The disadvantages of the known module are as follows:

- replacement in the module of a worn-out heat and sound insulating filler or the use of another having better characteristics is possible only by replacing the entire device due to the fact that the inorganic or polymer filler (insert) is fixed around the entire perimeter of the module;

- maintenance of the module in order to control the quality of insulation is not provided due to the tightness of its internal cavity, therefore, if internal invisible defects develop over time, the insulation is destroyed, which reduces the reliability of the device.

The technical problem solved by the proposed utility model is the possibility of accelerated replacement of the heat-insulating filler in place, without replacing the entire structure, as well as improving the reliability

devices by the possibility of visual quality control of a heat-insulating filler, i.e. without additional diagnostic tools.

The stated technical problem is solved in such a way that a cover for thermal insulation of objects of complex geometric shape, made of waterproof technical fabric according to the patterns corresponding to the insulated surface and made in the form of a closed cavity of the coating layer and the inner shell, which is sewn to the surface of the coating layer directly adjacent to the object, a thermal insulation layer is located between the coating layer and the inner shell, and rigidly connected elements are placed on the outer side of the coating layer Options locking and sealing the cover on the object, wherein the inner envelope is provided with fastener "Lightning", located along a perimeter seam connecting the cover layer and an inner shell.

Private implementations of the proposed device are as follows:

- each fixing element is made in the form of a belt with a ring for connection with the counterpart - textile fastener "Velcro";

- the thermal insulation layer is made of fibrous heat-insulating material or foamed rubber;

- the coating layer is made of silica fabric, or graphite fabric, or fiberglass, or polymer-coated fabric, or silicone-coated fabric;

- the coating layer is made of fabric that is resistant to ultraviolet radiation, or to aggressive environments, or to the effects of petroleum products.

The cover is used for thermal insulation on mechanical process equipment (MTO) above-ground in the following sectors: energy, oil production and refining, petrochemical production, transportation and storage of liquefied petroleum gases.

In FIG. 1 shows the design of a cover for thermal insulation made with a closed cavity in accordance with the desired shape of the insulated object.

The cover 1 is made of waterproof technical fabric according to the patterns corresponding to the insulated surface in the form of a closed cavity of the cover layer 2 and the inner shell 3, which is hemmed to the surface of the cover layer 2 in places directly adjacent to the object.

The coating layer 2 is made of silica fabric, or graphite fabric, or fiberglass, or polymer coated fabric, or silicone coated fabric,

and also - from a fabric resistant to ultraviolet radiation, or to aggressive environments, or to the effects of petroleum products.

Between the coating layer 2 and the inner shell 3 is a thermal insulation layer 4 made of fibrous insulation material or foamed rubber.

On the outer side of the coating layer 2 are placed rigidly connected with it elements 5 for fixing and sealing the cover 1 on the object. The fixing elements 5 can be made, for example, in the form of a belt with a ring for connection with the counterpart - textile fastener "Velcro".

The inner shell 3 is provided with a zipper 6 located along the perimeter of the seam connecting the cover layer 2 and the inner shell 3 to access the insulation layer 4.

The use of zippers 6 increases the reliability of the proposed device, because this provides a more durable fastening of the seam than fastening with Velcro in the prototype; in addition, the zipper does not damage the heat-insulating or coating layer, it is not clogged with fibers of thermal insulation or coating layer. All these fastener properties improve the operation of the device.

After mounting the cover 1 at the facility, after a period determined by the diagnostic instructions, the quality of insulation 4 is required. In this case, this does not require diagnostic devices, because visual control is possible due to the existing zipper fastener 6.

If you identify increased wear or any defects in the insulation 4, which is not fixed by firmware or glue between the layer 2 and the shell 3, it is replaced in place in the case 1.

Thus, in the proposed device, the following positive effects are realized, which determine its advantages over known analogues:

- improving the reliability of the device by the possibility of visual quality control of the insulating filler, i.e. without additional diagnostic tools;

- simple and quick maintenance of the cover with the aim of accelerating the replacement of the insulating filler in place, without replacing the entire structure due to access to its internal cavity.

Claims (5)

1. A cover for thermal insulation of objects of complex geometric shape, made of waterproof technical fabric according to the patterns corresponding to the insulated surface, and made in the form of a closed cavity of the coating layer and the inner shell, which is hemmed to the surface of the coating layer immediately adjacent to the object, between the coating layer and the inner shell is a layer of thermal insulation, and on the outer side of the coating layer are placed rigidly associated with it the elements of fixation and sealing of the cover on the object, from characterized in that the inner shell is equipped with a zipper fastener located along the perimeter of the seam connecting the cover layer and the inner shell. 2. A case according to claim 1, characterized in that each fixation element is made in the form of a belt with a ring for connection with the counterpart - a velcro textile fastener. 3. A cover according to claim 1, characterized in that the thermal insulation layer is made of fibrous heat-insulating material or foamed rubber. 4. A case according to claim 1, characterized in that the coating layer is made of silica fabric, or graphite fabric, or fiberglass, or polymer-coated fabric, or silicone-coated fabric. 5. A case according to claim 1, characterized in that the coating layer is made of fabric that is resistant to ultraviolet radiation, or to aggressive environments, or to the effects of petroleum products.

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