DE2351080A1 - Electric heating floor panel - has vertically-perforated insulation layer above plane of heating conductor - Google Patents

Abstract

Electrically heatable panel can be laid on the floor and is of hydraulically bound, possibly armoured material, containing a heating conductor and a heat insulation. An insulation layer firmly connected to the material on either side and having vertical perforations is above the plane in which the heating conductor lies, and a closed insulation layer is below this plane. Preferably a foil layer, impermeable to water and vapour, is between the plane of the heating conductor and the closed insulation layer below it. The conductor and the perforated layer above it are embedded in concrete. Faults on laying the panels are excluded and heat economy is maintained.

Description

Werner Leschke, Bennigsen

Electrically heated plate that can be laid on the floor

The invention relates to a deployable check on floors ₉ electrically heatable 'plate ams voraugsweise hydraulically bound and optionally armierbärea material having a heating conductor, optionally a Elek · = trizitätsleiter and includes a heat insulation ₀

In the known electrically beheisbaren plates ₉ oil © but also mn walls are suitable for laying on floors _9, if appropriate, the heat generated in the Holvielter around divides evenly, d _e h _"9 oils-generated heat radiates in all directions in the d © n Hais- = conductor-bearing material, and only the heat that emerges on the groove surface is directly used to heat the room. The rest of the heat flows into the subsurface or into the wall, so that attempts have been made in a known manner, especially in the case of floors, to maintain the radiation of the heat downwards through an insulating layer; prevent the plates from au. However, such an insulating layer is not alone. suitable to achieve the highest possible efficiency for electrically heatable © panels on floors, since the heat generated by heating the room is not dosed in the same way due to the lack of suitable layering of the material ©

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can be submitted *

The object on which the invention is based "exists accordingly, in providing electrically heatable panels which do not have the deficiency mentioned and is also suitable for eliminating errors when laying the panels as far as possible, and that to meet the heat balance intended for the panels as best as possible.

This object is achieved according to the invention for slabs of the aforementioned type characterized in that the upper stop of the plane in which the radiator is embedded ₅ is a perpendicular having a plurality openings · provided and a fixed connection of the both sides lying material permitting insulating layer is arranged. First of all, the insulating layer above the heat conductor will only release a dosed amount of the heat generated in the heat conductor to the wear layer (usable surface) due to the heat conducting bridges embedded in the insulation layer, while the insulation layer underneath the heat conductor largely prevents the passage of heat. At the same time, however, as a result of the openings that are provided in the insulating layer above the heating conductor, an important connection in terms of strength between the work-

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fabric created below this insulating layer and above this insulating layer. The greater permeability the insulation layer above the level determined by the heating conductor is therefore not penetrated created a smaller thickness compared to the insulating layer below the level, but just by the two bridges that take on the function of transferring heat and form a potency bridge. Ever Depending on the thickness of the bridges and their number and distribution, the wear layer can be a small or a obtained very solid connection with the material lying below the insulating layer, so that a vote on the respective load is possible.

A special measure in the production of a plate is seen in the fact that between the plane of the heating conductor and the underlying closed insulating layer, a water- and vapor-tight layer, in particular a film is provided. This prevents any rising damp in the area of the heating conductor or its electrical connections.

The heating conductor and the above-lying, perforations with insulating layer are advantageous in concrete or embedded in a suitable plastic, namely through the

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Plate retains its strength so that it can withstand the static and dynamic loads. However, it can also be advantageous between the concrete layer and receiving the heating conductor and the upper insulation the insulating layer lying below a layer of screed may be provided, that is, under consideration the direction of rising damp above the Foil lies and therefore serves as a heat storage layer, since it is also between the two insulating layers lies. This is used in particular as a heat storage layer but also as a filling layer to be considered screed layer essentially as a buffer zone above the lower insulating layer and may have a lower mechanical strength than the concrete layer resting on it.

In the sense of a buffer and compensation zone, the insulating layer below is expediently made of one layer Rigid foam and a layer of organic fibers are made, taking in the direction of the rising damp the rigid foam layer lies below the layer of organic fibers. Rigid foam layers, such as polystyrene, and closed-pore, and already largely prevent the passage of moisture while the layer of inorganic fibers arranged on it compensates for unevenness and, as mentioned, acts as a buffer zone works.

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The heat generated in the heating conductor, which radiates into the beaeichneten middle part of the plates, is appropriate controlled by the fact that between the insulating layers, preferably adjacent to the plane of the heating conductor a temperature of the same regulating thermostat is arranged. It becomes accordingly between the insulating layers in the material of the concrete and the screed a maximum temperature controlled by the thermostat Maintain a stored amount of heat even in the event of a temporary failure of the electricity supply able to surrender the usable area. However, the thermostat only regulates the highest temperature, so that in the heating conductor and no damage can occur to its feed lines, while the one desired or required on the usable area Amount of heat from periodic interruption of electricity s feed takes place. The heatsealing band can therefore be operated in an alternating sequence using automatic control devices loaded for ten minutes and switched off for five minutes or, for example, loaded for five minutes and for switched off for ten minutes. These differences will result in a considerably different temperature set on the usable area, while the storage capacity between the insulating layers in the ratio, will never be discounted less.

An embodiment of the subject matter of the invention is illustrated by the drawing.

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In the direction of the rising damp and also in the In the sense of the heat flow according to arrow 1, an insulating layer 3 rests on a base 2 of conventional manufacture Styrofoam and on it an insulating layer 4 made of inorganic fibers, such as rock wool, glass wool or dpr ^ l. On this insulating layer 4, a film 5 impermeable to water and also water vapor is applied, once prevents the rise of moisture and .but also allows the application of a further layer 6 of screed, since that required to produce the screed layer Moisture cannot migrate down into the insulating layer 3, 4. Especially for this reason the film 5 lies above the insulating layer 4 and not approximately below this.

On the foil is a concrete layer 7, which has a heating conductor 8 embedded in the lower area and in the central area is penetrated by a perforated insulating layer 9, in the holes of this insulating layer 9 bridges between the lower part and the upper part of the concrete layer 7 are present. Through these bridges a limited amount of heat generated in the heating conductor 8 migrates in the direction of arrow 1. The upper one Area serves as a usable area 11 that can be walked on or, in halls, as a drivable area, which also transfers the heat to the area above it Air zone emits. As a result of the overall thickness, the plate receives the required mechanical strength.

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The illustrated layer structure is independent of the size of the individual panels. A slab can be room-sized, for example in smaller rooms (Toilets or the like), but it can also be composed of many identical elements to form a floor. The subject matter of the invention is also not abandoned, if the layers 3 »4, 5 and 6 are room size and the layer 7 is made up of panels placed next to one another is firmly connected to the aforementioned layers. Any joints between the panels 12 are closed by suitable seals 13. There are switch boxes for the electrical connection of the individual plates 14 are provided, in which suitable terminal strips are arranged, and which are accessible from the usable area 11 are. In the concrete layer 7 can sur management of Electricity can be arranged from one plate to another electrical conductor 15, while the heating conductor 8 through Lead supply lines 16 to the switch box 14. Finally, a thermostat 17 is directly above the heating conductor arranged and passed through an electrical connection 18 to control box 14. In each case between two plates a conductor 19 is used to establish an electrical connection through suitable openings in the Concrete layer 7 is led from a switch box 14 to the neighboring switch box 14 of the adjacent slab

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Claims (1)

Patent claims: Electrically heated plate, preferably hydraulically bound, that can be laid on floors and optionally a material that can be reinforced, a heating conductor, optionally an electricity conductor and contains thermal insulation, characterized in that above the plane in which the Heating conductor (8) is embedded, one provided with a large number of perpendicular openings (1o) and a firm connection of the material on both sides allowing the insulating layer (9) and below a closed insulating layer (3, 4) is arranged on the plane « ?. Plate according to claim 1, characterized in that between the plane of the heating conductor (8) and the underlying closed insulating layer (3; 4) a water- and vapor-tight layer (5), in particular a film, is provided. 3. Plate according to claims 1 and 2, characterized in that the heating conductor (8) and the above lying, perforations (1o) having insulating layer (9) are embedded in concrete. 4. Plate according to claims 1 to 3, characterized in that between the concrete layer (7) and the 509-8 ^ 7- / 0093 lower insulating layer (3; 4) one layer (6) from screed is provided. 5. Plate according to speeches 1 to 4, characterized in that that the underlying insulating layer ("5; 4) consists of a layer of rigid foam and a layer consists of inorganic fibers. 6. Plate according to claims 1 to 5, characterized in that between the insulating layers (3; 4 + 9) preferably adjacent to the plane of the heating conductor (8) a thermostat (17) regulating the temperature of the same is arranged. 509817/0093 AO Blank page