RU2651654C1 - Insulating material - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is generally refers to the field of construction, namely to polymeric insulating materials (heat insulating mats, heat retainers) for heat insulation and isolation of various objects, for example, for the heat insulation of hangars of different purposes, in particular metal ones: garages for cars and airplanes, agricultural buildings, workshops and production buildings, grain storages, warehouses and terminals, sports facilities, portable living quarters and alike. Insulating material is the attached or to be attached mats enclosed in a protective sheath. Each mat consists of 2 layers: a “Spanlait” film made of polypropylene + a nonwoven volumetric polyester web, or from 3 layers: “Spanlait” film made of polypropylene + non-woven volumetric polyester web + “Spanlait” film made of polypropylene. Said mats are connected or can be connected to each other using attachment means. Material is also equipped with eyelets.

EFFECT: invention allows to simplify the insulating material installation technique and reduce its load to the object.

5 cl, 7 dwg

Description

Technical field

The invention as a whole relates to the field of construction, namely to polymeric insulating materials (heat-insulating mats, heaters) for warming and insulation of various objects, for example, for warming hangars for various purposes, in particular metal ones: garages for cars and airplanes, agricultural buildings, workshops and industrial buildings, granaries, warehouses and terminals, sports facilities, portable residential premises and the like.

State of the art

Insulation, in particular thermal insulation, are structural elements that reduce the heat transfer process and play the role of the main thermal resistance in the structure. Also, the term may mean materials for the implementation of such elements or a set of measures for their arrangement. Insulating materials by their chemical structure as a whole are divided into three groups: organic (polymer), inorganic (e.g. mineral wool, foam glass, expanded rocks, etc.) and mixed (asbestos board, asbestos paper, asbestos felt).

Since the development of chemical technologies and polymer chemistry is currently under way in a very active way, insulating materials based on organic polymer materials are widely used at present.

Many similar materials are known, for example, patent RU 2279352 C2, publication date 07/10/2006, relates to a two-layer insulation coating for steel pipes, including a layer of foamed (i.e. bulk) plastic material and a layer of polyolefin, in particular polypropylene.

From the source US 5997981 A1, publication date 12/07/1999, a breathable liquid-impervious composite material is known including a pre-bonded non-woven fabric having a bonding pattern in the form of spaced-apart bonding points with unbound filaments or fibers between the bonding points, a film bonded to said non-woven the fabric in places corresponding to the specified binding points and otherwise practically unconnected with this non-woven fabric, where the film may be polypropylene.

From the source RU 132807 U1, publication date 09/27/2013, a non-woven quilted textile material is known in the form of a layer of bulk polyester fiber, duplicated on each side by a layer of polypropylene fabric, for example of the Spanbond type, with at least one of the sides at least one of the layers of the specified fabric applied metallized coating.

From the source RU 155980 U1, publication date 10.27.2015, a non-woven textile insulation material is known in the form of a layer of bulk fiber, duplicated on each side by a layer of polypropylene fabric, while the bulk layer is made of flame retardant synthetic fibers treated with an antistatic agent and each layer of polypropylene the fabric contains flame retardant and antistatic additives, while these layers are connected by a piercing method using an antistatic thread on one side of the material and polyester threads - on the other hand.

The closest in technical essence analogue to the proposed solution is patent RU 2237579 C2, publication date 10/10/2004 (IPC classes: BVB 7/08, D04H 13/00). The invention relates to the textile industry, in particular to the production of non-woven insulation materials. The multilayer thermal insulation material contains at least one layer of nonwoven material connected to at least one layer of the film. Non-woven material consists of a mixture of polyester fibers, solid and hollow, with their mass ratio lying in the range from 3: 7 to 7: 3, respectively. The film is made of polypropylene and is located between the layers and / or on the outside of the nonwoven material and is connected to the last needle-piercing method.

The disadvantage of the closest analogue, as well as other known solutions, is the limited and low functionality in the use of insulating material, the inability to use the same material repeatedly for structures of various complexity and shape, high thermal conductivity and high density of the material, the difficulty in manufacturing the insulating material .

The task this development is aimed at is to overcome the disadvantages of the prior art, namely, to obtain an insulating material having high physical and mechanical properties, which can be used repeatedly for structures of various complexity and shape.

The technical result of the invention is to obtain highly functional insulation material (insulation), which can be used repeatedly to warm structures of varying complexity and shape (buildings and structures), heat-insulating mats with a low coefficient of thermal conductivity have a low density, which reduces the load on the hangar structure, insulation technology allows the installation of heat-insulating mats both during the construction of the hangar and during its operation, without stop new types of activity, environmental safety.

List of drawings

In FIG. 1 shows a photograph of an insulating material in general.

In FIG. 2, 3, 4 show the means of fastening the mats and the location of the suture insulation during the formation of the material.

In FIG. 5, 6, 7, photographs are shown during the operation of the insulating material, means of fastening the material to the structure and the mats between them.

Disclosure of invention

The technical result of the invention is achieved through the manufacture of an insulating material (FORA thermal insulation system), which is bonded or to be bonded to each other mats, enclosed in a protective shell in which each mat consists of 2 layers (FORA 1 technology): Spunlight film made of polypropylene + non-woven volumetric fabric made of polyester, or of 3 layers (FORA technology 2): Spunlight film made of polypropylene + non-woven volumetric fabric made of polyester + Spanlight film made of polypropylene, while these mats are soy Dinene or can be connected to each other using fasteners, and the material is equipped with eyelets.

More specifically, the material consists of separate (discrete) pieces (mats) that are bonded together to form a single insulating material with a larger area. The number of such individual mats can be unlimited and is determined only by the area of the insulated room.

The concept of "insulating material" includes both assembled material, and in the form of separate mats that are to be bonded to each other.

Spanlight insulation materials are well-known and specially designed for comprehensive protection against moisture, wind and condensate. There are several brands of Spunlight film:

Spunlight A - a membrane that combines the functions of wind protection, vapor permeable waterproofing, is used to protect the insulation and internal elements of the walls from wind, atmospheric moisture, powders, and also provides the removal of water vapor from the insulation in all types of buildings.

Spunlight AM is a three-layer vapor-permeable diffusion membrane used to protect the insulation and elements of the roof and walls from wind, condensate and moisture from the external environment. Due to its structure and the use of modern technology, diffusion membranes have high water resistance and vapor permeability.

Spunlight AR - water vapor barrier with anti-condensation surface, the material has a two-layer structure: one side is smooth, the other with a rough surface to hold condensate droplets and their subsequent evaporation.

Spunlight B - vapor barrier, the material is used as a vapor barrier to protect the insulation and other elements of the building structure from being saturated with water vapor from the inside of the building in all types of buildings. The material has a two-layer structure: one side is smooth, the other with a rough surface to hold condensate droplets and their subsequent evaporation. Spanlight B material allows you to preserve the insulating properties of the insulation, protects the interior of the building from the penetration of particles of fibrous insulation.

Spunlight D - steam waterproofing of increased strength, a two-layer material based on high-strength polypropylene woven fabric, used in construction to protect the building structure from the penetration of water vapor, condensate and moisture.

Spunlight FS - reflective vapor barrier, is a complex material from a polypropylene non-woven fabric, duplicated by a metallized mylar film. Spanlight FS material has the ability to reflect thermal radiation and perform the functions of vapor barrier, i.e. protect insulation and internal elements of the roof and walls from vapors from the inside of the room.

All brands of Spanlight film are made on the basis of polypropylene. You can use any brand depending on the task at hand. So for different types of rooms located in different climatic conditions, and for different types of insulated surfaces, the most suitable brand of film is selected, for example, a 3-layer construction of the type: waterproofing layer (membrane) + non-woven fabric + vapor-permeable layer (membrane), etc. For a specialist, choosing the right materials will not be difficult.

Building insulation (i.e. a two-layer or three-layer construction) is located between two layers of fabric of polyvinyl chloride (PVC) as a protective sheath or any other material suitable by mechanical and operational properties for the protective sheath of the insulation.

Thermal insulation material made by technology 1 consists of two layers: Spunlight film + non-woven three-dimensional polyester fabric. It is made individually for the constructive (size) of the object. The heat-insulating layer uses non-woven polyester material of various densities and heights, depending on customer requirements. Moisture protection and ventilation are provided.

Polyesters for the manufacture of nonwoven webs for use as insulation are widely known in the art and one skilled in the art can choose any polyester based on the purpose and purpose of the insulation.

The film is attached to the nonwoven material in any known manner, using glue or adhesive, needle-punched, etc.

Fasteners, such as zippers, eyelets (can be pierced through the entire mat), or braid or any other means that ensure reliable fastening of parts of the material (depending on the customer's choice) are installed at the edges of the outer Spanlight film at the edges, then we fasten the resulting product with a non-woven fabric and among themselves (see Fig. 2-4). Also, the material must be equipped with eyelets for attaching to an insulated surface (see Fig. 5, 7). The protective shell may also contain the indicated means of fastening (Fig. 6).

Ready-made heat-insulating mats are attached to the structure of the hangar using, for example, twine, rope or the like. A twine (rope) is threaded into the eyelet hole, after which it is attracted to the hangar structure and fixed (see Fig. 5, 7). Between the mat and the construction, a suture heater is laid to eliminate cold bridges (see Fig. 2).

Technology 2 consists of 3 layers: Spanlight film + non-woven bulk polyester fabric + Spanlight film, and implies a similar use and fastening of heat-insulating mats to the structure. Technologies differ only in the assembly of insulating layers.

The technology provides for the insulation of residential and industrial premises, in particular hangars for various purposes: garages for cars and aircraft, agricultural buildings, workshops and industrial buildings, granaries, warehouses and terminals, sports facilities.

The implementation of the invention

Tests of the claimed material showed that it surpasses analogues known to the applicant in its properties and functionality.

This technology is significantly different from existing ones. The uniqueness lies in the method of insulation and the manufacture of insulation.

Warming with the proposed technology has the following advantages:

- heat-insulating mats can be used repeatedly for structures of any complexity;

- heat-insulating mats can be disassembled and transported without deterioration of the operational properties of the material;

- heat-insulating mats are fastened together and can cover a whole span of a hangar of any length;

- heat-insulating mats with a low coefficient of thermal conductivity (up to 0.031 W / m ² * K) have a density of not more than 10-12 kg / cubic meter, which reduces the load on the insulated structure;

- the insulation technology allows the installation of heat-insulating mats, both during the construction of the hangar and during its operation, without stopping the type of activity,

- insulation technology and work with heat-insulating mats do not require personal protective equipment (respirators, special clothing, goggles);

- heat-insulating mats are odorless, do not emit harmful substances into the environment over time.

Claims (5)

1. Insulation material, which is bonded or to be bonded to each other mats, enclosed in a protective shell, in which each mat consists of 2 layers: Spunlight film of polypropylene + non-woven three-dimensional fabric of polyester, or of 3 layers: polypropylene Spanlight film + polyester non-woven bulk fabric + polypropylene Spanlight film, wherein said mats are connected or can be connected to each other using fastening means, and the material is equipped with eyelets. 2. The insulating material according to claim 1, which as a protective sheath contains layers of fabric polyvinyl chloride (PVC). 3. Insulation material according to claim 1 or 2, in which suture insulation is laid at the junction of the mats to each other to eliminate cold bridges. 4. Insulation material according to claim 1 or 2, in which lightning and / or braid and / or eyelets are used as fastening means. 5. Insulation material according to claim 3, in which lightning and / or braid and / or eyelets are used as fasteners.

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