DE102004002115A1 - Dimpled sheet - Google Patents

Abstract

The invention relates to a dimpled sheet, in particular for use as an insulating layer for building walls and floors, a composite panel having a base body and a dimpled sheet arranged on the base body, a method for producing a dimpled sheet having a reflectance of more than 0.2 (20% reflection). , in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) having surface and a method for thermal insulation of a building, in particular for thermal insulation of a floor. In order to provide a dimpled sheet with a high heat transfer resistance and to improve the thermal insulation of a composite panel, it is provided that the dimpled sheet has a surface having a high reflectance or the composite panel is provided with a corresponding dimpled sheet. In order to further provide a method for producing a Noppenbahn reflecting infrared radiation and a method for thermal insulation of a building, it is provided that a metal-coated, in particular metallized film after the extrusion of a plastic sheet tapers and then also subjected to the molding process of the studs or first with a dimpled sheet a degree of reflection of more than 20%, in particular more than 35% or 50% is arranged on the surface to be insulated, in particular on the floor and then a base body is applied to the dimpled sheet.

Description

The The invention relates to a dimpled sheet, in particular for use as insulation layer for building walls and Floors, one Composite panel with a base body and one on the main body arranged dimpled sheet, a method for producing a dimpled sheet with a reflectance of more than 0.2 (20% reflection), in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) having surface and a method for thermal insulation of a Building, in particular for thermal insulation of a Floor.

Known Pimples of the type mentioned are usually as a foundation wall protection used, being between the soil and the outside the foundation wall or an insulation used there are arranged and also fulfill a drainage function.

On the thermal insulation of building However, the currently used Noppenbahnen have no influence, since their Thermal resistance especially due to the low reflection properties of Surfaces extremely low is. So are currently common brown or black dimpled sheets only a reflectance from 2-5% on.

Known Composite panels of the type mentioned are preferably in Abroad as floorboards it uses between heated living spaces and an unheated one Underground, for example, a concrete floor of a basement room or be used at ground level housing.

Of the Structure of the composite plate has, for example, a base body a chipboard or a plywood board and a mounted on the body Potholing on. The dimpled sheet serves both as a vapor barrier across from Moisture that u.U. could rise from the concrete sole, as also for elastic storage of the floor plate, so that a certain damping effect is reached.

Of the However, use of such composite panels has the disadvantage that despite the cavities between the dimpled sheet and the concrete sole and in the pimples themselves one only insufficient thermal insulation achieved becomes. Known solutions This problem is seen in the use of an additional layer of insulation between the Dimpled sheet and the main body in front. This allows the insulation though Overall, due to the required thickness of the Insulation layer goes but room height lost, especially when using such a composite plate in the Old buildings is problematic. Furthermore, the production is designed Such composite panels with an insulating layer as very expensive and not least because of the additional required insulation material as extremely expensive.

Of the Invention is therefore the object of a dimpled sheet with a high heat transfer resistance provide as well as the thermal insulation of a Composite panel of the type mentioned while maintaining the to improve the basic structure of known composite panels. The invention is also the object of a process for the preparation an infrared ray reflecting dimpled sheet and a method for thermal insulation of a building in particular for the thermal insulation of a floor provide.

The Invention solves the object by a dimpled sheet according to the features of claim 1, by a composite panel according to claim 8 and by a method according to claim 12 and 13. Advantageous developments of the invention are in the dependent claims described.

characteristic for the dimpled sheet according to the invention is a surface which has a high reflectance. Within the scope of the invention under a high degree of reflection while a reflection of the surface of more than 20% understood. The dimpled sheet can basically be one-sided or have hollow nubs formed on both sides of a plane, wherein for the production of the composite panel according to the invention preferably Dimpled sheets are used with one-sided shaped knobs. The dimpled sheet is here with her side facing away from the knobs on a base body attached.

Of the Total heat transfer resistance the dimpled sheet as well as the composite panel is made up of together the heat transfer resistance against radiant heat and the heat transfer resistance against convection heat. Mathematically, the total heat transfer resistance is calculated from the Inverse of the sum of the heat transfer resistances against Convection and radiant heat. Due to the high reflectance of the surface of the dimpled sheet of the Thermal resistance against radiant heat and so that the overall heat transfer resistance is affected.

Thus, the high reflectance of the surface of the dimpled sheet significantly improves their heat transfer resistance to radiant heat, it is necessary that air layers adjacent to the surface of the dimpled sheet. The use of the dimpled sheet according to the invention for Construction of the composite panel according to the invention ensures the existence of sufficient air layers each at the surface of the dimpled sheet according to the distribution of knobs and free surfaces.

in the Case of the preferred use of a dimpled sheet with one-sided formed nubs border in a position of use of the composite plate, for example when used as a floor tile, Air layers on large parts of the dimpled sheet. So there is one Air layer in the formed between the dimpled sheet and the base body Hollow chambers of the pimples. Another labyrinthine coherent layer of air exists between the pimples. Ensuring these extensive areas that yourself the total heat transfer resistance the composite panel due to the high reflectance of the dimpled sheet significantly increased.

To an advantageous embodiment of the invention, the surface of the Dimpled sheet has a reflectance of more than 0.2 (20% reflection), in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) on. Even at a reflectance of 0.2, the heat transfer resistance opposite the dimpled sheet dark dimpled sheets with a reflectance of 0.02 to 0.05 at least 1.2 times higher. At a reflectance of 0.35 or 0.5 corresponds to the heat transfer resistance the composite panel about 1.4 or 1.7 times the value for dark Dimpled sheets. Thus, can be guaranteed be that without the use of additional Insulating materials one high thermal insulation achieved is or the insulation performance elevated becomes.

The Dimpled sheet can basically manufactured in any way and with a high degree of reflection be educated. According to a development of the invention is the However, dimpled sheet of infrared radiation reflecting, in particular formed pigmented plastic. Such Kunststoffnoppenbahn is characterized in particular by its simple and inexpensive production as well as their formability and flexibility. These properties enable also a particularly inexpensive and trouble-free production of a Composite panel.

According to one Another embodiment of the invention, the dimpled sheet has a smooth Surface on. By such a design of the surface structure of the dimpled sheet the reflectance of the dimpled sheet is increased in a complementary manner, whereby an additional Increase of the heat transfer resistance against radiant heat is achieved, so that the total heat transfer resistance the composite panel further improved.

The Options, form the dimpled sheet with a high reflectance, are diverse. According to a development of the invention, the surface of the Dimpled sheet has a reflective coating on it. The coating the dimpled sheet can depend on on the type of coating in a mechanical way, by vapor deposition or otherwise applied to the surface of the dimpled sheet become.

The Coating can for example also by applying a pigment-containing Liquid on the surface the dimpled sheet are produced, the pigments after the outflow of the liquid on the surface the dimpled sheet remain and this their reflective properties to lend.

at the use of a plastic to produce the dimpled sheet if the coating can also be produced by a separate film, which tapers immediately after the extrusion of the Kunststoffnoppenbahn and subsequently also subjected to the molding process of the knobs. When The use of a metal-coated has proved to be particularly advantageous Foil exposed, with a reflectance of the dimpled sheet from 50-80% can be achieved.

The Coating the surface the dimpled sheet according to this Development of the invention allows the use of any dimpled sheets for Production of the composite panel. The reflectance can be independent of the material of the respective dimpled sheet by a corresponding Choice of coating freely chosen become.

To In a further embodiment of the invention, the plastic contains color pigments, in particular titanium dioxide or metal pigments, for example aluminum pigments. The pigments can in this embodiment of the invention, even before the extrusion of the Nubpenbahn mixed into a corresponding plastic melt be so on a subsequent to the extrusion finishing of the dimpled sheet can be dispensed with to increase the reflectance. The titanium dioxide , but especially the metal pigments, for example the aluminum pigments characterized by their property, already in small Concentrations in the plastic melt the production of a To allow dimpled sheet with a high reflectance. The positive properties the Kunststoffnoppenbahn, such as flexibility, impact resistance, strength, etc. are not adversely affected by the titanium dioxide.

According to a further embodiment of the dimpled sheet, the surface of the dimpled sheet has a metal coating. The metal coating For example, it can be vapor-deposited or mechanically applied to the surface of the dimpled sheet in the form of a film. The metal coating, which can be produced, for example, using aluminum or chromium, makes it possible to increase the reflectance of the dimpled sheet by up to 95%.

at the use of the dimpled sheet for the production of the composite body can the main body be chosen freely according to the application of the composite panel. According to an advantageous embodiment of the invention, the base body is a chipboard or plywood plate formed.

chipboard and plywood boards are characterized i.a. through their inexpensive production, by their easy processing as well as by their particularly good insulation properties out, so that the corresponding properties of the composite panel according to the invention further improved can be. Furthermore, this embodiment of the invention allows a FITS inexpensive Production of the composite panel according to the invention.

To Another embodiment of the composite panel is a metal foil or metal-coated plastic film facing on the dimpled sheet Side of the main body or arranged between the dimpled sheet and the base body. This particular simple training improves in a complementary way the heat transfer resistance of the Composite body.

To a development of the composite plate, the main body has two Pair of parallel edge on, with two adjacent edges with coupling elements in the form of a groove and the other two provided with a spring are that fits in the groove. This development offers the advantage that the laying of the composite panel is facilitated and the composite panels used with each other form-fitting can be connected to each other, which leads to an increase in stability of the composite of several composite panels leads.

Essential for the Process for producing an infrared radiation reflecting Studded membrane is the infiltration of a metal-coated, in particular metallized foil, e.g. Aluminum on a LDPE film, after the extrusion of a plastic sheet, wherein in the subsequent shaping process in which the knobs are formed, which adheres to the plastic sheet metal-coated, in particular metallized film is mitverformt, so that one particularly stable connection between this film and the plastic web is produced.

characteristic for the inventive method for thermal insulation of a Building, in particular for thermal insulation of a floor is that first a dimpled sheet with a reflectance of more than 0.2 (20% reflection), in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) on the to be insulated Surface, in particular on the floor is arranged and then a basic body is applied to the dimpled sheet.

This Procedure allows in a particularly simple manner, the construction of a thermal insulation on site, for example right on the construction site. The laying of the dimpled sheet designed because of their flexibility and good processability especially easy.

at the use of a Kunststoffnoppenbahn must for the production of thermal insulation usually in the rolled-up state plastic knob sheet only on the to be insulated surface be unrolled. Subsequently becomes the basic body attached to the dimpled sheet.

One embodiment The invention will be explained below with reference to the drawing. In the drawing shows:

1 a cross section through a arranged on a concrete sole composite plate.

1 shows a dimpled sheet 3 and a body 2 , which together form a composite panel 1 form, in a mounting position as a floor plate on a concrete floor 5 is shown. The composite panel 1 has a two-layer structure consisting of the dimpled sheet 3 and the body 2 on.

The dimpled sheet 3 It is made of plastic and has one-sided, diagonally shaped nubs 4 with substantially parallel to Noppenbahnebene end faces 6 on top, with the concrete sole 5 stay in contact. In the installation position of the composite panel 1 borders on both sides of the dimpled sheet 3 extensive layers of air on the dimpled sheet 3 , With her the pimples 4 opposite side is the dimpled sheet 3 with a bottom 7 of the basic body 2 bonded. A top 8th of the basic body 2 forms a tread surface of the composite panel 1 ,

To achieve a high heat transfer resistance of the composite panel 1 has the plastic of the dimpled sheet 3 a reflectance of 0.2 (20% reflection). The main body 2 is made of a chipboard.

Below are two examples of processes for producing a dimpled sheet with a Infrared radiation reflecting surface shown.

The production can be carried out by extrusion and continuous vacuum deep-drawing of 97% HDPE (eg Stamyland HD 7625, Stamylan Germany) with 3% aluminum pigment concentrate (eg Mastersafe 10203, Eckhart), so that a basis weight of 600 g / m ^{2 is} achieved. The reflectance of a dimpled sheet produced in this way, measured in the infrared range of 2-20 μm with an integrating sphere, is 22%.

The preparation can, for example, also take place in that, in addition to the abovementioned process during extrusion, a 15 g / m ² LDPE film which has previously been vapor-deposited with a 100 μm aluminum layer is tapered such that the metallic side faces the melt. The film softens and is deep-drawn without destroying the aluminum layer too much.

Of the Reflectance of a dimpled sheet produced in this way measured in Infrared range of 2-20 microns with a Ulbricht sphere is on the side without metal foil 22% and on the side with steamed Foil 45%.

Claims (13)

1. dimpled sheet, in particular for use as an insulating layer on building walls and floors, characterized in that it has a high reflectance having a surface to increase the heat transfer resistance. A dimpled sheet according to claim 1, characterized that the surface a reflectance of more than 0.2 (20% reflection), especially more as 0.35 (35% reflection) or 0.5 (50% reflection). A dimpled sheet according to claim 1 or 2, characterized that these from an infrared radiation-reflecting, in particular pigmented plastic is formed. Dimpled sheet according to one or more of the preceding Claims, characterized in that this a smooth surface having. Dimpled sheet according to one or more of the preceding Claims, characterized in that the surface having a reflective coating. Dimpled sheet according to one or more of the preceding Claims, characterized in that the Plastic color pigments, in particular titanium dioxide or metal pigments contains. Studded membrane according to one or more of the preceding claims, characterized in that the plastic surface of the dimpled membrane ( 3 ) has a metal coating. Composite panel, in particular a cavity-forming floor panel having - a base body and - a nubbed sheet arranged on the base body, characterized in that the dimpled sheet ( 3 ) is formed according to one or more of claims 1 to 7. Composite panel according to claim 8, characterized in that the basic body ( 2 ) Is designed as chipboard or plywood. Composite panel according to one or more of the preceding claims, characterized in that a metal foil or metal-coated plastic foil on the dimpled sheet ( 3 ) facing side of the body ( 2 ) is arranged. Composite panel according to one or more of the preceding claims, characterized in that the basic body ( 2 ) has two pairs of parallel edges, wherein two adjacent edges are provided with coupling elements in the form of a groove and the other two with a spring which fits into the groove. Process for producing a dimpled sheet with a a reflectance of more than 0.2 (20% reflection), in particular more than 0.35 (35% reflection) or 0.5 (50% reflection) Surface, characterized in that a metal-coated, in particular metallized film after the Extruding a plastic sheet tapers and then also subjected to the molding process of the nubs. Process for the thermal insulation of a building, in particular for the thermal insulation of a floor, characterized in that - first a dimpled sheet ( 3 ) is arranged with a reflectance of more than 20%, in particular more than 35% or 50% on the surface to be insulated, in particular special on the floor and - then a base body ( 2 ) on the dimpled sheet ( 3 ) is applied.