EA008404B1 - Profiled membrane - Google Patents

Abstract

The invention relates to a membrane, in particular for use as an insulation layer for building walls and floors, a sandwich panel comprising a base body and a membrane which is disposed on the base body, to a method for the production of a membrane provided with a surface having a reflection degree of more than 0.2 (20 % reflection), in addition to a method for thermally insulating a building. In order to provide a membrane having a high resistance to thermal transmission and to improve the thermal insulation of a sandwich panel, the membrane has a surface which has a high degree of reflection and/or the sandwich plate is provided with a corresponding membrane. The invention also relates to a method for the production of a membrane reflecting infrared radiation, in addition to a method for the thermal insulation of a building, such that a film coated with metal, in particular vacuum-coated metal, runs towards a plastic web of material after extrusion and is subsequently subjected to the formation step of the membranes.

Description

The invention relates to a studded canvas, in particular, for use as an insulating layer for walls of buildings, floors and roofs, to a multilayer slab with a base and studded canvas on the basis, to a method for producing a studded canvas with a surface having a reflection coefficient greater than 0, 2 (20% reflection), in particular, more than 0.35 (35% reflection) or 0.5 (50% reflection), as well as to the method of thermal insulation of the building, in particular, thermal insulation of the floor.

Known studded canvases of the type mentioned at the beginning are usually used to protect the foundation masonry, and they are located between the ground and the outer side of the basement masonry or the insulation used accordingly, and perform a drainage function.

However, currently used studded fabrics have no effect on the thermal insulation of buildings, since their thermal resistance is extremely low, in particular, due to the slight reflective properties of the surface. Thus, the currently prevalent brown or black studded cloths have a reflection coefficient of only 2-5%.

Known multi-layer slabs of the type initially mentioned are used abroad as floor tiles, and they are used between heated residential premises and an unheated base (foundation), for example, a concrete basement of a basement or residential space built at ground level.

In this case, the construction of a multi-layer board has, for example, a base made of particle board or a sheet of plywood and studded on a base. At the same time, the studded fabric serves both as a gas-tight insulation with respect to humidity, which, under certain conditions, could rise from the concrete base, and for the elastic support of the floor tile, so that some damping effect is achieved.

However, the use of such multi-layer plates has the disadvantage that, despite the hollow space between the studded web and the concrete base, as well as in the spikes themselves, only insufficient thermal insulation is achieved. Known solutions to this problem involve the use of an additional layer of insulating material between the studded web and the base. Although, as a result, the insulation can generally improve, however, due to the required thickness of the insulation material, the height of the room decreases, which is problematic, in particular, when using this kind of multi-layer slab in the case of old buildings. In addition, the manufacture of this kind of multi-layer plates with a layer of insulating material is very time consuming and not least extremely expensive due to the additionally required insulating material.

Therefore, the basis of the invention lies in the task of providing studded cloth with high thermal resistance, as well as improving the thermal insulation of a multilayer slab of the type initially mentioned while maintaining the fundamental structure of known multilayer slabs. In addition, the invention is also based on the task of developing a method for manufacturing an infrared reflecting spike web, as well as a method for insulating a building, in particular thermal insulation of the floor.

The invention solves the problem by means of a studded web in accordance with the distinctive features of claim 1 of the claims, by means of a multi-layer plate in accordance with claim 8 of the claims, as well as by the method in accordance with claims 12 and 13. Preferred improvements of the invention are described in the dependent claims.

A distinctive feature of the studded web according to the invention is a surface that has a high reflectance. Moreover, in the framework of the invention, a high reflection coefficient is understood as the reflection of the surface of more than 20%. In this case, the studded web may in principle have hollow spikes formed on one side or on both sides of a plane, and for the manufacture of a multilayered plate according to the invention, mainly spiked blades with spikes formed on one side are used. At the same time, the studded canvas is fixed on the base with its side facing away from the thorns.

The total thermal resistance of both the studded web and the multilayer plate is composed of thermal resistance with respect to the heat of radiation and thermal resistance with respect to convective heat. The total thermal resistance is mathematically calculated from the reciprocal of the sum of the thermal resistances with respect to the heat of radiation and with respect to convective heat. A high reflectance of the surface of the studded web can influence the thermal resistance with respect to the heat of radiation and, as a result, the total thermal resistance.

At the same time, the wide scope of application of studded canvas, for example, for constructing floors, for sealing walls of buildings at or above ground level or for insulation in the roof area, allows buildings to be provided with particularly high thermal insulation, which significantly reduces heating costs.

In order for a high reflectance of the surface of the studded material to substantially improve its thermal resistance relative to the heat of radiation, it is necessary that the air gaps adjoin the surface of the studded web. Use of studded material in accordance with the invention to form corresponding invention.

- 1 008404 multilayer plate ensures the existence of sufficient air gaps, respectively, on the surface of the studded material according to the distribution of spikes and free surfaces.

In the case of the preferred use of studded material with spikes molded on one side in the working position of the multilayer slab, for example when used as a floor tile, the air gaps border the wide part of the studded web. Thus, the air gap is located in the hollow chamber of thorns formed between the spike web and the base. Another labyrinthoid continuous air gap exists between the spikes. These volume areas ensure that the total thermal resistance of the multilayer board increases significantly due to the high reflectance of the studded web.

According to a preferred improvement of the invention, the surface of the studded material has a reflection coefficient of more than 0.2 (20% reflection), in particular, more than 0.35 (35% reflection) or 0.5 (50% reflection). Already with a reflection coefficient of 0.2, the thermal resistance of this studded canvas compared with dark studded canvas with a reflection coefficient of 0.02-0.05 is higher at least 1.2 times. With a reflectance of 0.35 or 0.5, the thermal resistance of the multilayer board corresponds to approximately 1.4 or 1.7 times, respectively, for dark studded canvases. In this way, it can be guaranteed that without the use of additional insulation materials, high thermal insulation is achieved or, correspondingly, the insulating effect is increased.

Studded canvas can in principle be made by any method and can be made with a high reflection coefficient. However, according to one improvement of the invention, the studded fabric is made of reflecting infrared radiation, in particular, a colored polymer material. This kind of studded canvas of polymeric material is distinguished, in particular, by its simple and economical production, as well as its formability and elasticity. These properties also provide the opportunity for particularly inexpensive and trouble-free manufacturing of multi-layer slabs.

In accordance with another embodiment of the invention, the studded web has a smooth surface. As a result of this kind of execution of the surface structure of the studded web, the reflection coefficient of the studded web additionally increases, resulting in an additional increase in thermal resistance with respect to the heat of radiation, so that the overall thermal resistance of the multilayer board is further improved.

The possibilities of making studded canvas with a high reflection coefficient are very diverse. According to one improvement of the invention, the surface of the studded web has a reflective coating. Coating studded canvas, depending on the type of coating, can be applied to the surface of the studded cloth mechanically, by spraying or in another way.

In addition, the coating can be designed so that it is suitable to reflect or at least attenuate electromagnetic radiation. The attenuation is at least 5 dB, preferably at least 10 dB, particularly preferably at least 15 dB. By means of this embodiment of the studded web according to the invention, its field of use is further expanded, and the increasing shielding value of living and working rooms with respect to unwanted electromagnetic radiation is also taken into account.

The coating can also be created, for example, by applying a pigment-containing (coloring) liquid on the surface of the studded web, and pigments after draining the liquid remain on the surface of the studded web and give it its reflective properties.

When using a polymeric material for making studded web, a coating can also be formed by means of a separate film that is fed directly after extrusion of a studded web from a polymeric material and then also undergoes a spike molding process. At the same time, the use of a metal-coated film, with which the reflectance of studded web can be achieved at 5080%, turned out to be particularly preferable.

The surface coating of the studded web in accordance with this improvement of the invention allows the use of any studded web for the manufacture of a multilayer board. The reflection coefficient, regardless of the material of this studded web, can be freely selected by an appropriate choice of coating.

According to a further embodiment of the invention, the polymeric material contains colored pigments (dyes), in particular titanium dioxide, or metallic pigments, for example aluminum. In this embodiment of the invention, the pigments can be mixed into the corresponding polymer melt already before extrusion of the studded web so that it is possible to refuse further processing of the studded web following the extrusion to increase the reflection coefficient. At the same time, titanium dioxide and, in particular, also metallic pigments, for example, aluminum, are distinguished by their property that even in insignificant concentrations in the polymer

- 008404 nom melt provides the possibility of making studded cloth with a high reflection coefficient. At the same time, the presence of titanium dioxide does not adversely affect the positive properties of studded web of polymer material, such as elasticity, impact strength, strength, etc.

According to another embodiment of the studded web, the surface of the studded web has a metal coating. The metallic coating may, for example, be sprayed or mechanically applied to the surface of the studded web as a film. Metallic coating, which can be made, for example, using aluminum or chromium, allows to increase the reflection coefficient up to 95%.

The studded fabric according to the invention can in principle be used by itself, for example, for thermal insulation in the area of the floor, roof or wall. Moreover, studded fabric can also be combined with other materials or building materials, such as seals or heat insulation, and it is also possible to manufacture, respectively, a prefabricated product, which in this case has the advantages of the studded fabric according to the invention and subsequent / subsequent products.

When using a studded fabric for the manufacture of a multi-layer plate, the base can be freely selected in accordance with the field of application of the multi-layer plate. According to a preferred improvement of the invention, the base is made in the form of a particle board or plywood sheet.

Chipboards and sheets of plywood are distinguished, among other things, by their inexpensive manufacture, their simple processing, as well as their particularly good insulating properties, so that the corresponding properties of the multilayered board according to the invention can be further improved. Additionally, this improvement of the invention allows for a particularly economical production of a multilayer board according to the invention.

Along with the use of a particle board or plywood sheet, well-known heat-insulating materials, such as mineral fiber plates, can also be used as a base to make a multi-layer slab. They can also be used in the roof area or to insulate the walls of a building.

According to another embodiment of the multilayer plate, a metal film or a film of polymer material provided with a metal coating is located on the side of the base facing the studded web or between the studded web and the base. This particularly simple improvement further improves the thermal resistance of the multi-layer body.

According to one improvement of the multi-layer slab, the base has two pairs of parallel edges, with two adjacent edges provided with a connecting element in the form of a groove, and the other edges with a ridge that enters the groove. This improvement has the advantage that the layering of the multi-layer plate is facilitated, and the multi-layer plates used can be connected to one another with a positive fit, which leads to an increase in the stability of the joint of several multi-layer plates.

Essential for a method of manufacturing an infrared reflecting spike web is the supply of metal coated, in particular metal-coated, films, for example, aluminum onto the LEPE film (BERE - low density polyethylene), after extrusion of a web of polymer material, and in the final forming process, in which spikes are molded, coated with a metal attached to a web of polymer material, in particular, provided with metal sputtering, the film is subjected together pressure treatment such that a particularly stable connection between this film and the web of polymeric material.

Characteristic of the method for insulating a building according to the invention, in particular floor insulation, is that first the studded web with a reflection coefficient of more than 0.2 (20% reflection), in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) is placed on the surface to be insulated, in particular on the floor, and then the substrate is applied to the studded web.

This method makes it particularly easy to form thermal insulation on site, for example, right at the construction site. At the same time laying studded canvas is particularly easy due to its elasticity and good processability.

When using a studded fabric made of polymeric material for the manufacture of thermal insulation, a studded fabric made of polymeric material that is usually present in the rolled state should only unfold on the surface to be insulated. After that the basis is fixed on the studded canvas.

Further, one exemplary embodiment of the invention is illustrated by drawing, which shows a cross-section of a multilayer slab located on a concrete base. The drawing shows studded canvas 3 and the base 2, together forming a multilayer plate 1, which is presented in the installation position in the form of a floor plate on a concrete base 5. Multilayer plate 1 has a two-layer structure consisting of studded canvas 3 and the base 2.

- 3 008404

Studded blade 3 consists of a polymer material and has spikes 4 formed on one side and passing diagonally, with end sides 6 that are essentially parallel to the plane of the studded web, which are in contact with the concrete base 5. In the mounting position of the multilayer plate 1 on both sides of the studded 3 canvases are adjacent to it by voluminous air spaces. With its side facing away from the thorns 4, the studded web 3 is glued to the underside 7 of the warp 2. The upper side 8 of the warp 2 forms the surface of the multi-layer slab 1 intended for walking.

To achieve high thermal resistance of the multilayer plate 1, the polymeric material of studded web 3 has a reflection coefficient of 0.2 (20% reflection). The base 2 is made of chipboard.

The coating of studded canvas not containing lacquer containing metallic pigments, which is not shown here, contributes to shielding 17 dB relative to electromagnetic radiation in the range from 200 kHz to 10 GHz.

Further, approximately two options are presented for making studded web with a surface reflecting infrared radiation.

Production can be carried out by means of extrusion and continuous vacuum deep-drawing of 97% HORE - high-density polyethylene (for example, 8175 HF7625, manufactured by SchSchAuIe AeiisShapb) with 3% aluminum pigment concentrate (for example, MayeshaGe 10203, manufactured by Yeskyay), so that the strength of the aluminum pigment g / m ² . The reflection coefficient of a studded cloth made in a similar way, measured with a photometric ball in the infrared range of 2-20 microns, is 22%.

Manufacturing can also be carried out, for example, due to the fact that, in addition to the aforementioned method, it is preliminarily provided with a 100 μm sputtering aluminum layer of a LOPE film with a density of 15 g / m ² during extrusion, so that the metal side faces the melt. The film is softened and subjected to deep drawing without too much damage to the aluminum layer.

The reflectance of a similarly made studded canvas measured with a photometric ball in the infrared range of 2–20 µm is 22% on the side without a metal film, and 45% on the side with a sprayed film.

Claims (15)

1. A studded sheet for insulating walls of buildings and floors, characterized in that it has hollow spikes molded on one side or on both sides of the plane, and also having a reflection coefficient of more than 0.2 (20% reflection) surface to increase thermal resistance by both sides of the plane. 2. A studded web according to claim 1, characterized in that the surface has a reflection coefficient of more than 0.35 (35% reflection) or 0.5 (50% reflection). 3. Studded fabric according to claim 1 or 2, characterized in that it is made of reflective infrared radiation, in particular, pigmented polymer material. 4. Studded canvas according to one or more of the preceding paragraphs, characterized in that it has a smooth surface. 5. Studded canvas according to one or more of the preceding paragraphs, characterized in that the surface is designed in such a way that reflects or attenuates electromagnetic radiation. 6. Studded fabric according to one or more of the preceding paragraphs, characterized in that the surface attenuates electromagnetic radiation by at least 5 dB, preferably at least 10 dB, particularly preferably at least 15 dB. 7. Studded fabric according to one or more of the preceding paragraphs, characterized in that the surface has a reflective coating. 8. Studded fabric according to one or more of the preceding paragraphs, characterized in that the polymeric material contains colored pigments, in particular titanium dioxide or metal pigments. 9. The studded web according to one or more of the preceding paragraphs, characterized in that the surface of the polymeric material of the studded web (3) has a metal coating. 10. A multilayer plate, in particular, a floor tile forming a hollow space with a base and a studded web located on the base, characterized in that the studded web (3) is made in accordance with one or more of the preceding paragraphs 1-9. 11. A multilayer board according to claim 10, characterized in that the base (2) is made in the form of a particleboard or plywood sheet. 12. A multilayer plate according to one or more of the preceding paragraphs, characterized in that the metal film or equipped with a metal spraying film of a polymer - 4 008404 terial is located on the side of the base (2) facing the studded web (3). 13. A multilayer plate according to one or more of the preceding paragraphs, characterized in that the base (2) has two pairs of parallel edges, with two adjacent edges provided with a connecting element in the form of a groove, and both other edges with a crest that enters the groove. 14. A method of manufacturing a studded web in accordance with one or more of the preceding paragraphs. 1-9, with a reflection coefficient greater than 0.2 (20% reflection), in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) surface, characterized in that coated with metal, in particular, a metal-coated film is supplied after extrusion of a web of polymer material and then also subjected to a spike molding process. 15. A method of thermal insulation of a building, in particular thermal insulation of floors, characterized in that the first studded web (3) in accordance with one or more of the preceding paragraphs. 1-9 with a reflection coefficient of more than 20%, in particular more than 35 or 50%, are placed on the surface to be insulated, in particular on the floor, and then the base (2) is applied to the studded web (3).