DE7407884U - Heatable concrete slab - Google Patents

Description

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Dipl.Ing «Fritz Armbruster 7016 Gerungen - Stuttgart Seifertatr. Heatable concrete slab

The present invention relates to electric radiators in the form of Panels and molded bodies used as flooring and wall cladding.

They are made of plastic concrete, which is made up of sand, gravel or other mineral Components and a preferably curable synthetic resin composed as a binder. It has a porous, scaffold-like structure beg. The feature of the present invention is that in said Components or an electrically conductive medium in colloidal form introduced into the cavities after the production of the plastic concrete body and that the particles in a chain or lattice shape are in contact within the plastic concrete body a three-dimensional electrical Form management structures. The radiators are electrically conductive Contact wires or the like embedded, which are connected to the power source and between which the current flow and the Joule Heat generation takes place. Said electrically conductive plastic concrete body is covered on the outside with insulating cover layers. The latter consist of a resin coating or of laminated layers Foils. They can also be made of non-conductive plastic concrete, the outer surface of which has a waterproof resin skin. Electrically heatable and foil-shaped heating elements made of plastic with embedded, colloidal and electrically conductive particles are in different versions known. A disadvantage for such radiators is that they are used as floor and wall coverings due to their low thickness and low mechanical resistance to external Damage is very susceptible, with electrical contact and car shots being the most unpleasant consequences. Since such Radiators mainly made from thermoplastic plastics their heat resistance is limited and in the event of any temperature increases Material decomposition and fire hazard must be expected. Because of the thin film cross-sections, there is a homogeneous distribution

The production of the conductive substances is very difficult and expensive in terms of technology. Especially the homogeneous distribution of the conductive media within

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the foil is crucial for an even flow of current; flow and the avoidance of heat accumulations with their thermal | Follow. In the case of film-shaped radiators, the fixed one also remains; Ά connection problems with the structural base of mortar or concrete always because the latter has a much lower ^thermal: has elongation over the heating foils.

In the case of the plastic concrete radiators according to the invention, these are described Disadvantages eliminated or at least greatly reduced. The distribution of the conductive substances within the available larger cross-sections is technically easier to manage something. The thermal expansion corresponds to the aforementioned carrier materials in construction. For the preferably as plastic concrete binders / .ttteln The thermosetting plastics used and the special structure of the electrical conductor structure in the concrete will cause the decomposition of the thermally relatively highly resilient synthetic resin and the risk of fire is reduced to a minimum. The mechanical strength of the In addition, the concrete radiator is considerably high and there is little wear and tear during use. As one of the distinguishing features of the invention Plastic concrete radiators can be shown to be mechanical when used in the construction sector Exercise a proper and heating function. The risk with Installation of plastic concrete slabs and bodies with electrical heating according to the invention in slopes, bridges, terraces, etc. is because of the low susceptibility to changes in electrical conductance or interruption of the passage of current is reduced to a minimum, such as this has not been achieved with any known plastic-based heating system will.

The plastic concrete slabs and molded bodies according to the invention can be used in of any transportable size. The construction of the heating plates already described above can, however, also be supplemented in that additional decorations in the form of ceramic plates or the like are permanently applied to the visible surface. Farther can the heating plates on their underside with a lining made of heat-insulating and sound-insulating hard foam layers be provided.

With larger plates and thus also greater distances along the way The contact conductors inserted into the plate edges can be fitted with additional compensating conductors perpendicular to the river flow as required the electrically conductive concrete body inserted, but not

connected to the power source and providing the steady current promote flow. _

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The accompanying drawings show several schematic examples

of plastic concrete heaters according to the invention.

In Fig. 1, a flooring plate is shown, the cross section is three-shift. The upper and lower roofing layer consists of non-conductive plastic concrete, each of which has an insulating layer on the outside Have resin skin. The electrically conductive middle layer is encased on all sides and insulated in a watertight manner. The contact line running along the edge of the plate inside the conductive shoe with connection to the power source is drawn in section. Fig. 2 shows a variant of Fig.l, which is only differs in that insulating plastic concrete layers through film-shaped resin layers are replaced, This illustration also shows his heating plate, which is laid in the floor wall edge. In Fig. 3 larger floor heating plates according to Fig.l and 2 are shown, the arrangement of the current-carrying contact lines schematically is shown. The front edges of the three-dimensional panel are visible in section with their three-layer structure. Of the It can be seen from the drawing that the contact lines in the conductive concrete layer are not based on an arrangement along the plate edges needs to be limited if the electrical conditions so require. The one between the two äüssersteti on the plate edges running contact conductors used additional Xontakt Irritations can also be used as a compensating ladder if they not connected to the power source and isolated from the outside we ** «- ', the.

Fig. 4 shows a plastic concrete radiator with decorative or mechanically particularly strong cover plates on its surface and with a heat- and sound-insulating lining, for example from Hartsch um is equipped. These radiators have in turn on two opposite edges one each in the conductive shaft embedded contact conductor that will be connected to the power source From Fig. S heating elements according to FIG. 4 can be seen, which are too large en deck areas are designed. In the schematic and spatial The visible front edges of the panels are shown in the

Section drawn * The Zulsitur.gskabel sur power source are bsi In this embodiment, laid in the Stoeefugen. The connections -4 connections of the contact lines are located at diagonal plate corners instead of in such a way that in a row of plates all left and rush right plate edges resp. the local contact lines with each

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connected to a + or - pole of the power source. Naturally, all left and right contact conductors of the plates can also be used in a row directly with each other and the last plate connected to the power source. The advantages of the invention listed in the above description Plastic concrete radiators compared to other and known designs of plastic radiators prove that the present Invention represents a technical and economic advance represents in the heating sector. The following protection claims are asserted:

Claims (1)

Protection claims Electrically heated concrete slab made of sand, gravel and other mineral components and synthetic resin as a binding agent characterized in that the concrete contains additional, electrically conductive and homogeneously distributed colloidal particles i and that there are electrical current conductors with connections embedded in the conductive concrete layer on opposite slab edges for the power source and that said: conductive Concrete layer of a comprehensive and laminate-shaped coating;: an electrically insulating and waterproof synthetic resin skin or a non-conductive plastic concrete layer with a waterproof synthetic resin skin having. i according to 1 · characterized in that said current conductors or rails embedded in the conductive concrete layer are preferably additionally coated with electrically conductive, colloidal particles. according to 1. and 2. characterized in that i # the conductive Concrete layer »additional, especially with larger panel dimensions Conductors are embedded across the flow of current without direct connection to the power source. 8/25/74. 7417814 Rfl. 7 *