DE202010005189U1 - thermal insulation component - Google Patents

Abstract

Thermal insulation component with a thermal insulation board (20) for insulating building walls, characterized by at least one wire mesh (10) which is arranged parallel to the thermal insulation board (20) and which is connected to the thermal insulation board via connecting webs (12) which run into the thermal insulation board (20) is.

Description

The present invention relates to a thermal insulation component for the insulation of building walls, for example in a thermal insulation composite system.

For thermal insulation of buildings usually applied to the outside of the building walls heat insulation panels are used (facade insulation). The thermal insulation panels, for example, polystyrene panels of a few centimeters thick, can be attached to the building walls with the help of adhesive plaster. The use of plastic-based assembly adhesives is also known for this purpose. To the outside, the thermal insulation panels are usually clad with external plaster (facade plaster), the different thermal expansion coefficients of the thermal insulation panels and the external plaster make a lying between these two materials glass fiber mat necessary to prevent cracking in the exterior plaster. The glass fiber mat is glued to the thermal insulation panels before applying the external plaster. The thermal insulation panels, the glass fiber mat and the external plaster then form an effectively insulating so-called thermal insulation composite system, but due to the multi-layer structure can only be labor-intensive and costly installed on site on the building.

It is therefore an object of the present invention to provide a thermal insulation component for thermal insulation of building walls, which is effectively heat-insulating, can be attached to the building with little effort and allows a good connection of an exterior plaster.

This object is achieved by a thermal insulation component with the features specified in the protection claim 1. Advantageous embodiments and further developments of the invention are specified in the subclaims.

The thermal insulation component according to the invention for the insulation of building walls has a thermal insulation board and two wire mesh, one of which is located on each side of the thermal insulation board. The wire mesh are connected by connecting webs that run through the thermal insulation board.

The wire mesh on both sides of the thermal insulation board allow a secure and resilient attachment of the thermal insulation component with an adhesive or adhesive layer on the building wall and allow a good connection of an external plaster, which is also reinforced and stabilized by the wire mesh. Compared with known thermal insulation composite systems eliminates the application of the glass fiber mat as a primer and as a compensation layer for the different thermal expansion coefficients, whereby the assembly work is reduced on site.

In the following the invention will be explained in more detail using an exemplary embodiment with the aid of three figures.

Show it:

1 a thermal insulation component in a perspective view;

2 the thermal insulation component in a schematic side view; and

3 a side view of the thermal device, attached to a building exterior wall.

1 schematically shows a section of a thermal insulation component in a perspective view. The thermal insulation component has two spaced and parallel to each other wire mesh 10 on and one between these wireframes 10 lying thermal insulation board 20 ,

As a thermal insulation board 20 For example, a commercially available thermal insulation board used in known thermal insulation composite systems can be used. In particular, the thermal insulation board 20 have a thickness in the range of a few centimeters to a few tens of centimeters and from a foamed plastic material, for. As polystyrene (polystyrene) or polyurethane exist.

The wire mesh 10 extending to both sides of the thermal insulation board 20 are made of crosswise superimposed and welded together wires 11 manufactured. As a material here, for example, steel wire or surface-coated, z. B. galvanized steel wire can be used. The mesh size is for example in the range of about 10 to 20 cm.

The wire mesh 10 are via connecting bridges 12 which are transverse, preferably perpendicular, through the thermal insulation board 20 run, connected and used by the connecting bridges 12 held in this way at a distance from each other. The number of connecting bridges 12 can be chosen differently depending on their thickness and length, with a number of a few bars per square meter is sufficient for most cases. The connecting bridges 12 can be made from the same wire material as the wires 11 be made. Due to its geometry (length >> diameter) there is a heat conduction between the wire meshes 10 through the connecting webs 12 only small. In addition, however, can also be provided for further minimization of heat losses, for the connecting webs 12 a less good heat conducting material, eg. As stainless steel, especially chromium-nickel steel, use. For fastening the connecting webs 12 with the wire mesh 10 is a welding method, in particular an electric spot welding method suitable. For example, the connecting webs 12 mechanically through the thermal insulation board 20 pushed through and at both ends with the wire meshes 10 welded.

The length of the connecting webs 12 is chosen and based on the thickness of the insulation boards used 20 matched that the wire mesh 10 from the surface of the thermal insulation panels 20 spaced by a distance d or d '. The distances d, d 'are preferably in the range of a few millimeters to about 1.5 cm. Depending on requirements, however, deviating distances d, d 'can also be used. The distances d and d 'can, as in the in 1 shown case, for both wire mesh 10 be equal. However, it is also possible, different distances d, d 'on both sides of the thermal insulation board 20 to realize.

To a movement of the thermal insulation board 20 between the wire meshes 10 to prevent and the desired distances d, d 'on both sides of the thermal insulation board 20 to comply are on the wire rack 10 spacers 13 attached. The spacers 13 can, as in the embodiment of 1 shown to be wire hanger, which at one end with the wire mesh 10 connected, z. B. are welded, and with their free end to the surface of the thermal insulation board 20 issue. The spacers 13 can be resiliently designed so that they with appropriate spring pressure on the surface of the thermal insulation board 20 abut or even press this easily. In this way, the thermal insulation board 20 well fixed.

2 shows a section of the thermal insulation element of 1 again in a side view.

3 shows the thermal insulation component, again in a side view as in 2 , applied to a building exterior wall 30 , For mounting the thermal insulation component is first an adhesive or adhesive layer 31 on the building wall 30 applied, in which the thermal insulation component with one of its wire mesh 10 is pressed. In the presentation of the 3 is for better clarity the plaster layer 31 hatched and translucent, so that the wire mesh 10 is still visible. The impressions of the thermal insulation component with its wire mesh 10 into the adhesive or adhesive layer 31 leads to a positive interlocking of the thermal insulation component with the adhesive or adhesive layer 31 and so to a solid and resilient connection between the thermal insulation component and the building wall.

The of the building wall 30 pioneering side of the thermal insulation component is in a second step with an outer plaster layer 32 Mistake. Again, the embedding of the corresponding outer wire grid requires 10 in the outer plaster layer 32 a good connection of the outer plaster layer 32 with the thermal insulation component. In that the two wire mesh 10 with each other via the connecting webs 12 are connected, is the outer plaster layer 32 stable with the building wall 30 connected without liability to the thermal insulation board 20 to be instructed. The reinforcement of the outer plaster layer 32 through the wire mesh 10 stabilizes the outer plaster layer 32 also prevents cracking in the outer plaster layer 32 by different thermal expansion coefficients of outer plaster layer 32 and thermal insulation board 20 , Both the adhesive or adhesive layer 31 , as well as the outer plaster layer 32 can be applied to save labor as a spray plaster.

Compared to known thermal insulation composite systems eliminates the application of the glass fiber mat as a primer and as a compensation layer for the different thermal expansion coefficients. The thermal insulation component according to the invention thus reduces the workload at the construction site.

Claims (8)

Thermal insulation component with a thermal insulation panel ( 20 ) for the insulation of building walls, characterized by at least one parallel to the thermal insulation board ( 20 ) arranged wire grid ( 10 ), which is connected via connecting bridges ( 12 ), which enter the thermal insulation board ( 20 ), is connected to the thermal insulation board. Thermal insulation component according to Claim 1, in which two wire meshes ( 10 ), one of which is located on each side of the thermal insulation board ( 20 ), via the connecting webs ( 12 ) passing through the thermal insulation board ( 20 ) are connected to each other. Thermal insulation component according to claim 2, wherein the wire mesh ( 10 ) are aligned substantially parallel to one another, at a distance which is greater than the thickness of the thermal insulation board ( 20 ). Thermal insulation component according to one of claims 1 to 3, wherein on at least one wire mesh ( 10 ) Spacers ( 13 ) are mounted, the a distance (d, d ') of the thermal insulation board ( 20 ) to the wire grid ( 10 ) establish. Thermal insulation component according to claim 4, in which on both wire gratings ( 10 ) Spacers ( 13 ), through which the thermal insulation board ( 20 ) at fixed intervals (d, d ') to the wire meshes ( 10 ) is fixed between them. Thermal insulation component according to one of claims 1 to 5, wherein the connecting webs ( 12 ) and / or the spacers ( 13 ) are made of metal wire and with the wire mesh ( 10 ) are welded. Thermal insulation component according to claim 6, wherein the connecting webs ( 12 ) consist of a relatively poor heat conducting metal, in particular a stainless steel. Thermal insulation component according to one of claims 1 to 7, wherein the thermal insulation board ( 20 ) consists of a foamed plastic, in particular polystyrene or polyurethane.

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