DE2705146A1 - Underfloor heating support with insulating and covering layers - has upper aluminium or copper layer and lower felt or asbestos layer - Google Patents

Abstract

An underfloor heating system has heating tubes (4) supported in grooves (6) in a layer (5) made of plastics or wood elements. These are supported by a plaster/concrete layer (3) and an insulating layer (2) on the support layer (1). The open grooves are then covered by a suitable floor covering. Between the floor covering and the grooved elements is an upper layer (7) of e.g. aluminium or copper, which may also form a coating inside the grooves. Between the elements and the plaster/concrete layer is a further insulation layer of e.g. asbestos or felt material.

Description

Procedure for attaching a floor

heating and underfloor heating produced using this method The invention relates to a method for installing underfloor heating, wherein in the Floor a pipe leading to the heating medium is laid and against it an insulating layer is applied in the heating room.

The invention further relates to one according to this method produced underfloor heating with a heating pipe coil laid in the ceiling or the floor, which is insulated against the radiation side.

Conventional underfloor heating is a type of heating in which the floor in living rooms is heated to around 280C. It will be here Coiled pipes at different distances and different diameters in the to be heated area laid and with the help of hot water - to temperatures of heated about 50 to 600. These pipes are laid firmly in the Estrioh lean concrete layer the ceiling or the floor or below this screed. By laying the The entire floor structure must be coiled in the screed lean concrete or below it with the temperatures of the heating medium from 50 to 600C to be heated up with appropriate The outside temperature and the surface to be heated allow a floor temperature of approx. 280C reach. Here, heat is released downwards into the ground or into the ground below Space depending on the floor insulation and the nature of the hollow ceiling. A considerable one The disadvantage of this conventional method or this embodiment is the large heat storage through heating the entire floor and ceiling construction, so that there is poor controllability. This slowed down Controllability is particularly effective when the room temperature drops due to the large Heat storage is disadvantageous due to a long post-heating period. Correspondingly too does it take a relatively long time to heat up a room again, as the entire floor and ceiling construction must be heated.

The invention is based on the object of a method of attachment to design underfloor heating and correspondingly designed underfloor heating in such a way that that with leiohter controllability of the heating, these are used as full heating can.

According to the method according to the invention, this object is achieved by that the pipeline is provided in one with grooves open towards the radiation side Layer is laid and on top of the layer a coating of high thermal conductivity and a layer of thermal insulation is applied to the underside.

Underfloor heating produced by this method is advantageous in that the pipeline is in a heat transfer layer with upwardly open Grooves is arranged, the surface with a coating of high thermal conductivity is provided while the backward.

carries a thermal insulation layer.

Furthermore, it is advantageous that the heat transfer layer is made of composed of individual panel elements and made of plastic or wooden panels consists.

It is advantageous that the surface coating is inclusive within the Hillen made of aluminum, copper or the like.

consists.

Finally, it is proposed that asbestos, Felt material or the like. Is provided.

The invention brings considerable advantages by providing a uniform Heat distribution with a mild floor temperature a pleasant comfort in the rooms to be heated. As full heating is a quick controllability in the event of temperature drops or increases and constant compliance the set temperature can be reached. The heat losses are low, so that the The heating efficiency is optimal. There is another major benefit in that the laying can be carried out easily by means of element construction, where, if necessary, damaged parts can easily be replaced. Leave it lay the conventional pipes, with the known embodiment in Concrete non-stretchable pipes had to be laid in order to avoid cracks in the screed. Cheap plastic pipes can now be laid. Another benefit of the Invention is that the mean temperatures of the heating medium in the pipes at an outside temperature of, for example, minus 180C, be approximately plus 400C need, while with conventional underfloor heating these temperatures are around 550C. This type of heating is therefore also favorable for heating by the so-called heat pump or solar energy because of their low mean water temperature. Another advantage is that a subsequent installation, in particular in old buildings, is possible without great effort.

The invention is in the following description based on a The embodiment illustrated in the drawing is explained in more detail.

The drawing shows a ceiling or floor construction in one Partial cross-section shown, with the reference numeral 1 denotes the raw ceiling is. An insulating layer 2 is applied to this raw ceiling in a conventional manner, on which a layer of screed lean concrete 3 is then applied. On this layer 3, the underfloor heating designed according to the invention is now being laid.

Appropriately, for the arrangement of the pipeline 4 5 individual prefabricated elements are provided within a heat transfer layer, which can be easily transported to the place of use and assembled there. This heat transfer layer 5 has upwardly open grooves 6 in which the pipe 4 runs.

The surface is provided with a coating 7, the one has high thermal conductivity, the grooves 6 also being lined with this layer 7 are. A thermal insulation layer 8 is applied to the rear or towards the bottom, so that the layers of the ceiling underneath are not or only slightly can heat up. Well above is the heat transfer layer 5 with the help of a conventional flooring 9 covered, which is in the form of linoleum, PVC, carpet, Parquet, tiles, marble or the like. May be present.

As a material for the heat transfer layer 5, for example Plastic panels, e.g. B. ausPhenolnärz or wooden panels can be used, with this material expediently does not have a high coefficient of thermal expansion to have should so that the floor covering 9 above does not throw itself. As a top cover this layer 5 can, for example, be an aluminum coating or a corresponding one Copper plating can be provided, these materials in the form of thin Foils or liquid can be applied.

Asbestos is used for the lower insulation layer 8, for example or a felt coating, but any other suitable insulating material can be used.

Claims (5)

Claims 1) Method for installing underfloor heating, whereby a pipe leading to the heating medium is laid in the ground and opposite an insulating layer is applied to the room to be heated, characterized in that that the pipeline is provided in one with grooves open towards the radiation side Layer is laid and on top of the layer a coating of high thermal conductivity and a layer of thermal insulation is applied to the underside. Floor heating according to the method of claim 1 with one in the The heating pipe coil laid on the ceiling or the floor is opposite to the radiation side is insulated, characterized in that the pipe (4) is in a heat transfer layer (5) is arranged with upwardly open grooves (6), the surface with a coating (7) of high thermal conductivity is provided, while the back carries a thermal insulation layer (8). 3) underfloor heating according to claim 2, characterized in that the Heat transfer layer (5) composed of individual plate elements and consists of plastic or wooden panels. 4) underfloor heating according to claim 2 and 3, characterized in that that the surface coating (7) including within the grooves (6) Aluminum, copper or the like. 5) underfloor heating according to claim 2 to 4, characterized in that that asbestos, felt material or the like is provided as the thermal insulation layer (8).