DD236361A1 - HEALTHCARE PRODUCT FOR CONSTRUCTION - Google Patents

Abstract

The present invention relates to a component and in particular relates to thermal insulation element for the construction in the form of plates and blocks. The object of the invention was to provide such a heat-insulating product which has stable heat-physical properties and makes it possible to save bottleneck polymer raw materials. The object of the invention is to be seen in the development of such components for the heat-insulating element, by the use of polymer raw materials can be saved. The thermal insulation element for the construction industry contains a housing made of a foamed polymer mixture which forms the outer surface of the element and has at least one insert formed from a heatable heat-insulating material which is housed in a moisture-impermeable, hermetically sealed envelope in which it is formed is compressed to such a state in which a spatial deformation of the insert in the utilization stage of the element is not possible. The volume of the insert is not more than 70% of the volume of the product, and the thickness of the case is not less than 160 of the maximum external dimension of the product. Fig. 2

Description

Field of application of the invention

The invention relates to a building material, preferably a thermal insulation element for the construction industry in the form of plates and blocks. The found in the construction of buildings and facilities of different use determination, are placed on their Umfassungskonstruktionen (walls, roofs, fields) increased requirements for thermal insulation, such as the outer sheaths of industrial cooling halls, in ship wagon and vehicle for heat protection of the hulls and bodies is required. In addition, the invention finds use in road construction and the construction of airfields in areas with permafrost.

Characteristic of the known technical solutions

The most effective thermal insulation products used in construction in recent years are plastic foam, foam polystyrene, foam polyurethane, phenolic and various mixtures based thereon, including those with inactive fillers. However, such products, which have a high dimensional accuracy of manufacture, are capable of being used in the form of blocks or plates or foamed directly in the cavity of the thermally insulated product, but are still used to a limited extent due to the ever increasing shortage of polymer raw materials.

Thermal insulation products are known in which a part of the foam is replaced by various non-polymeric thermal insulation materials (eg by bulk materials of the perlite, vermiculite, foam glass type).

So z. For example, in the SU-copyright No. 557164 describes the construction of a sandwich panel whose middle layer, the thermal barrier coating, a formwork in the form of a grid with double walls, which is mounted on the lower casing of the plate. The cells of this formwork are partially filled with a pourable thermal insulation, while in the cavities of the formwork between their double walls and in the rooms above the pourable thermal insulation in the cells is a foam, which was formed by foaming a liquid mixture (foam polyurethane, phenoplast) is. Such a product does not guarantee stable heat-physical properties of the bulkable thermal insulation material and constant volume at the use stage, since this heat-sinkable foam, when interacting directly with the foamed mixture, adsorbs a portion of the moisture which is preserved when the foam hardens in the cells bounded by the formwork and in the following causes the space shrinkage of the pourable thermal insulation material to form (air-filled) cavities in the thermal barrier coating of the plate.

Thermal insulation products for the construction industry are also known in the form of filled foams, in the formation of which pourable inactive materials in the form of small and / or large granules are introduced into the raw mixture. The use of such materials has shown that at the stage of molding the products of cast foams or foams produced by the action of steam on the granulated starting material also moisture or the starting polymer raw material is taken, whereby the consumption of the bottleneck polymer raw material can not be reduced and the required Thermal insulation properties of the product is not guaranteed on the whole. Attempts to hydrophobicize the pourable granulated materials did not produce the expected result, as the hydrophobic topcoat of the granules is damaged during mixing from the formation of the product.

Object of the invention

The object of the invention is to use a thermal insulation element for the building industry which, with good utility properties, causes a low cost.

Explanation of the essence of the invention

The invention has for its object to provide a thermal insulation element for the construction industry, which contains elements of various building materials whose physical state in the product ensures consistent thermal properties of the product.

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The object is achieved according to the invention in that a thermal insulation element is produced for the building, which contains a housing made of a foamed polymer mixture with a degree of foaming of 10 to 25, which forms the shape of the outer surface of the product, and at least one insert made of a pourable thermal insulation material, which has been formed inside said housing in which according to the invention the pourable thermal insulation material of the insert is housed in a moisture-impervious, hermetically sealed polymer wrapper and compressed to such a condition that spatial deformation of the liner at the stage of use of the product is not possible , wherein the volume of the insert is not more than 70% of the volume of the product and the thickness of the housing walls is not less than % _{a of} the maximum external dimension of the product.

Thanks to the present invention, it is possible to produce heat insulating products for the construction industry with up to 70% reduced consumption of bottleneck polymer raw material with a coefficient of thermal conductivity of this product which exceeds the coefficient of thermal conductivity of products made from a foamed polymer mixture by 5 to 25%.

To ensure the required values of strength and rigidity of the thermal insulation product according to the invention, it is expedient that the volume of the insert amounts to 50 to 70% of the volume of the product.

To ensure the possibility of varying the strength and rigidity and also the thermal conductivity of the thermal insulation element as a function of standardized codes, it is expedient that according to the present invention, the insert is provided with non-metallic rod elements, which reinforce the housing spatially.

To ensure consistent physico-technical characteristics of the element in the period of use, it is appropriate that according to the invention, the housing is made of a foamed polymer mixture whose volume consists of 40 to 60% of a pourable thermal insulation material.

embodiment

The invention will be explained in more detail with reference to an embodiment. In the accompanying drawing show:

Fig. 1: a Wärmedämmelement for the construction industry; 2 shows a section II-II in Fig. 1st

The thermal insulation element for the construction of its constructive represents a housing (1) through which the shape of the outer surface of the product is due, with at least one inside of this housing (1) shaped insert (2), which consists of a different material than the housing (1). The housing (1) of the thermal insulation element can be made of foamed polymer blends with a degree of foaming of 10 to 25. This condition is met by the following materials: polystyrene, polyurethane and phenolic foams, including those containing various inactive fillers (bulkable thermal insulation material) in the form of expanded perlite, light keramitsand and foamed glass. The content of the mentioned filler may be 40 to 60% of the volume of the housing.

By maintaining this condition, the consumption of bottoms polymer raw materials, the foamed polymer blend can be reduced while increasing the heat resistance of the product and maintaining the required physico-mechanical characteristics.

To ensure the required strength and rigidity of the thermal insulation product for the construction industry, the minimum thickness of the walls of the housing should be 1% ₀ of the maximum outer dimension of the product. An increase in the wall thickness of the housing (1) above said value is useful in the manufacture of products whose housing 1 made of foam with reduced density (density 20 to 25 kg / m ³ ) and whose dimensions are low, ie in which Transport, during assembly and during use, no significant burden.

To ensure a constant minimum initial moisture content of the material, it is appropriate, in order to avoid water absorption in accordance with sanitary hygiene standards and to provide for pre-dosing, that the pourable heat insulation material of the insert 2, expanded perlite sand, light kermasite sand, foam glass, crushed cell concrete waste, vermiculite a moisture-impermeable polymer shell is housed. As a suitable material for the fulfillment of this condition of the present invention, for. As polyethylene or polyamide film can be used with a thickness of 100 to 150 mm.

To prevent a significant spatial shrinkage, pourable thermal insulation materials in their own moisture, but also in the action of Nutzbelastungen including the dead weight of these substances housed in the shell pourable heat insulation of the insert 2 must be pressed to a state known as the level of constant creep in which a spatial deformation of the deposit at the stage of transport and use of the products is not possible.

To ensure the required strength and heat-physical indexes of the manufactured product, the volume of the insert must be 50 to 70% of the volume of the product. With a reduction of said size decreases the economic effectiveness of the solution according to the invention. An increase in the volume of the deposits over 70% leads to a deterioration of the physical-technical characteristics of the product.

The construction of the heat-insulating element for construction also has non-metallic rod elements 3 on which the housing 1 spatially reinforce. The rod elements 3, z. B. are connected by gluing or welding to the shell of the deposits 2, may represent bands of polymer film, cords or strands of glass fibers or polymer materials, glass fiber plastic rods or thin-walled polyethylene tubes of small diameter.

If the construction of the building thermal insulation product contains two or more deposits (2), the latter may be joined together by the non-metallic rod elements 3 mentioned.

The thermal insulation elements for construction mainly have a prism shape and can be designed as blocks and plates. In addition to good thermal insulation properties (coefficient of thermal conductivity 0.050 to 0.60 kcal / m, h degrees), the elements also have sound insulation properties that are not behind dense foams (the sound insulation is in the range of 30 db with a bending strength of the housing material from 0.08 to 0.4 MPa.

In addition to the already mentioned properties, the element has increased heat resistance, by introducing inactive

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limited accessible foams made block products equivalent. Their cost price, however, are significantly lower, thereby achieving a significant economic effect in the mass application of such products in the construction industry

The thermal insulation element for construction can be made in molding equipment used for the manufacture of cellular thermal insulation foams, or in equipment for the production of three-layer panels with a middle layer (the filler) of foams which are foamed in the cavity of the element. The production of the element comprises the following main operations:

- wetting the mold with an anti-adhesion agent or inserting vapor-permeable release films;

- Equipment of the deposits with rod elements 3, z. B. by gluing or welding the latter to the shell of the deposits;

- Installation of the deposits 2 in the mold and filling the mold with an intumescent mixture, by the chemical interaction of the reactants (in polyurethane and phenolic foams) or by the supply of direct, dry steam (for polystyrene foams) inside the with the Polymer raw material filled form, wherein it comes by the expansion of the calculated amount of the intumescent polymer mixture, which is included in the limited volume of the mold with the deposits contained therein, to a compression of the pourable heat insulation of the deposits to a state in which a spatial "change of shape at the stage of use of the products is not possible;

- Remove the product from the mold.

example 1

A three-layered reinforced concrete exterior wall panel is being built for prefabricated buildings with elements of the middle layer of thermal insulation products in the form of prismatic blocks measuring 900 mm χ 650 mm χ 100 mm.

As a material for the housing 1 of these blocks foam polystyrene is used with a bulk density of 30 kg / m ³ , the insert consists of expanded perlite sand with a bulk density of 60 kg / m ³ , in a hermetically sealed, moisture-impermeable envelope of a 120 μπι thick polyethylene film is included. The deposits occupy 65% of the volume of the block. Diemimale wall thickness of the housing 1 is 15 mm, the coefficient of thermal conductivity of this block 0.05 kcal / m, h. Degree, the bending strength of the housing material 0.12 MPa.

Example 2

A three-layer reinforced concrete external wall panel is being produced for prefabricated buildings with elements of the middle layer of thermal insulation elements in the form of prismatic blocks measuring 900 mm x 650 mm x 100 mm.

As the material for the casing 1 of these blocks, modified foamed polystyrene having a puffed perlite sand filler in an amount of 40% of the volume of the raw mixture is used. The bulk of the foam polystyrene is 80 kg / m ³ . The insert 2 consists of expanded Perlitsand with a bulk density of 60 kg / m ³ , which is enclosed in a hermetically sealed, moisture-impermeable envelope of a 120 μπι thick polyethylene film.

The deposits occupy 55% of the volume of the block. The minimum wall thickness of the housing 2 is 20 mm, the coefficient of thermal conductivity of this block 0.058 kcal / m, h. Degree, the bending strength of the housing material 0.2 MPa.

Example 3

A three-layer reinforced concrete exterior wall panel is being produced for prefabricated buildings with elements of the middle layer of thermal insulation elements in the form of prismatic blocks measuring 900.mm x 650 mm x 100 mm.

As a material for the housing 1 of these blocks foam polyurethane is used with a bulk density of 60 kg / m ³ , the insert consists of foam glass with a bulk density of 25 kg / m ³ , in a hermetically sealed, moisture-impermeable envelope of a 120 μπι thick polyethylene film is included.

Deposits 2 occupy 65% of the volume of the block. The minimum wall thickness of the housing 1 is 15 mm, the thermal conductivity coefficient is 0.051 kcal / m, h. Degree, the bending strength of the housing material 0.4 MPa.

Example 4

A three-layered reinforced concrete exterior wall panel is being produced for prefabricated building with elements of the middle layer of thermal insulation products in the form of prismatic blocks measuring 900 mm x 650 mm x 100 mm.

As a material for the housing 1 of these blocks phenolic foam with a volume of 60 kg / m ³ has been used, the insert 2 consists of expanded perlite with a bulk density of 60 kg / m ³ , in a hermetically sealed, moisture-impermeable envelope of a 120 μιη thick polyethylene film is included.

Deposits 2 occupy 65% of the volume of the block. The minimum wall thickness of the housing 1 is 15 mm, the coefficient of thermal conductivity of this block is 0.053 kcal / m, h. Degree, the bending strength of the housing material 0.09 MPa.

Claims (4)

Invention claim: A thermal insulation element for building, comprising a housing of a foamed polymer mixture with a degree of foaming of 10 to 25, which forms the shape of the outer surface of the product, and at least one insert of a pourable thermal insulation, which has been formed inside the housing, characterized in that the pourable thermal insulation material of the insert (2) is arranged in a moisture-impermeable, hermetically sealed polymer shell and compressed to such a degree that spatial deformation of the insert in the supporting stage of the element is not possible, the volume of the insert (2) not more than 70% of the volume of the element and the thickness of the casing walls is not less than Y _{60 of} the maximum external dimension of the element. 2. Thermal insulation element for the construction according to item 1, characterized in that the volume of the insert (2) is 50 to 70% of the volume of the element. 3. thermal insulation element for the construction according to the points 1 and 2, characterized in that the insert with non-metallic rod elements (3) is provided, which reinforce the housing (1) spatially. 4. thermal insulation product for the construction according to claims 1, 2, 3, characterized in that the housing (1) is made of a foamed polymer mixture whose volume consists of 40 to 60% of a pourable thermal insulation material. For this 1 page drawings