DE19501580A1 - Thermal insulation for a concrete base, e.g. a steel concrete base for well - Google Patents

Abstract

Thermal insulation for a concrete base (1), esp. a steel concrete base for a wall (2), consists of a foamed material (3) with good insulation and resistance to compression. The foamed material is located on a base comprising a foundation of, e.g. gravel (6) and a clean layer (5). The insulation layer (3) is seamless and its material can be foamed at low temperatures. The concrete base is located on the insulation layer. The insulation layer pref. consists of a water bound tertiary component polyurethane foam material, which is pref. 80-120 mm thick, esp. 100 mm thick. A film (4) is pref. located under the insulation layer.

Description

The invention relates to thermal insulation for a concrete base, in particular reinforced concrete sole of a masonry.

For thermal insulation of non-basement living rooms, heated cellars or heated industrial halls, etc., it is already known on the concrete floor of the masonry to apply an insulation layer. However, this has the disadvantage that the heat insulation in the area of the wall guides is interrupted. If the insulation layer is a has greater strength, this also requires a particularly stable screed leadership, possibly even with a reinforcement, to the unstable behavior of the Compensate foam material existing insulation layer and compensate for stress cracks shut down.

The invention has for its object to avoid the disadvantages mentioned and a To create cost-effective, highly effective thermal insulation.

This object is achieved by the features of claim 1. Thereby, that a cleanliness layer is applied to the surface, that to the cleanliness  layer a foam material with high foamability, even at low temperatures Insulation value and high compressive strength is applied seamlessly over the entire surface and a joint loose insulation layer and that the concrete base lies on the insulation layer, is a excellent thermal insulation achieved with comparatively little effort.

This is prevented by means of the insulating layer sealingly resting on the cleanliness layer changes that moisture reaches the concrete base. Because the insulation layer without joints is applied, it is also prevented that cold bridges form, over the heat in the soil drains away. In particular, compared to conventional solutions avoid that heat flows away in the area of the wall guides. The full-surface insulation layer insulates the entire concrete base in one piece.

According to a preferred embodiment of the invention, the insulation layer is one water-bonded three-component polyurethane foam material. It has been shows that the foam materials mentioned are also quite suitable, the high pressure load below the concrete floor.

As has been shown, it is advantageous if the insulation layer has a thickness of approximately 80-120 mm, preferably 100 mm. Such a strength is suitable, all requirements changes with regard to thermal insulation. Due to the arrangement of the Insulation layer below the concrete base of a masonry basically results in Advantage of a low floor construction height and a stable that can be achieved inexpensively Construction of the floor. Since the insulation layer covers the entire sole surface, a seamless thermal insulation also achieved in the area of the wall guides. A cost-effective Constant building also results from lower wall heights due to the smaller footboard the heights. Underfloor heating results in more economical screed structures.

An embodiment of the invention is shown in the drawing and is in fol described in more detail.

The drawing shows a concrete base provided with the thermal insulation according to the invention of masonry.

In the drawing, 1 denotes a concrete base on which masonry 2 is arranged. Below the concrete base 1 , which can also be designed as a reinforced concrete base, there is an insulation layer 3 , which is applied over the entire surface without joints and is foamed up from foam material. Below the insulation layer 3 , a film 4 is spread out, which covers a cleanliness layer 5 . The cleanliness layer 5 consists for example of a gravel layer and is placed on the substrate 6 .

The insulation layer 3 is formed seamlessly, the below the insulation layer 3 arranged film 4 primarily facilitates the application of the insulation layer 3 . This ensures highly effective, continuous thermal insulation. It has surprisingly been found that it is possible to arrange an insulating layer 3 below the reinforced concrete base 1 of a masonry 2 . So far, it did not appear possible to absorb the high load of a concrete base 1 or reinforced concrete base or of masonry 2 resting on the concrete base 1 in the insulation layer 3 . As has now been shown, light allows the use of a three-component polyurethane foam material with the properties described be the extremely advantageous arrangement of the seamless insulation layer 3 under the concrete base. 1

Claims (4)

1. Thermal insulation for a concrete base ( 1 ), in particular reinforced concrete base of a masonry ( 2 ), characterized in that a cleanliness layer ( 5 ) is applied to the substrate ( 6 ) that on the cleanliness layer ( 5 ), even at low temperatures foamable foam material with high insulation value and high compressive strength is applied seamlessly over the entire surface and forms a seamless insulation layer ( 3 ) and that the concrete base ( 1 ) rests on the insulation layer ( 3 ). 2. Thermal insulation according to claim 1, characterized in that the insulating layer ( 3 ) is formed by a water-bound three-component polyurethane foam material. 3. Thermal insulation according to claims 1 and 2, characterized in that the insulating layer ( 3 ) has a thickness of 80 to 120 mm, preferably 100 mm. 4. Thermal insulation according to claim 1, characterized in that a film ( 4 ) is arranged below the insulation layer ( 3 ).