EP0229351B1 - Flat ceramic element - Google Patents

Abstract

1. Flat ceramic body having an electrically conductive resistance coating on the side which faces away from its visible side, characterized in that the electrically conductive resistance coating consists of a flat element of a metallic material having a high resistivity, which is embedded in a ceramic glazing, has break-through openings, and can be connected to a current source, and whose melting point is above the melting point of the ceramic glazing and whose coefficient of thermal expansion is approximatively the same as that of the ceramic glazing.

Description

A flat ceramic body is known from EP-A-0 157 179, which is provided with an electrically conductive resistance coating on the side facing away from its visible side. Such flat ceramic bodies are used, for example, as cladding panels for the design of the walls or the floor or the ceiling of living, business and office spaces, but also of sanitary rooms, sports and swimming pools. They can also be used as shaped stones for swimming pool cladding or the like. Due to their heatability, it is possible to optimally design the radiation surface available on a wall, ceiling or floor surface to be clad, to make do with as few electrical connection and connection elements as possible and to ensure uniform heat radiation.

The connection of the electrically conductive resistance coating to the power source is carried out via attached to the edge of the flat body band-like contacting elements which, for. B. in the form of a strip-shaped Cu application or a baked Ag paste.

However, it has been shown that when using Cu contacting elements it is sometimes not at all possible to connect them to the glaze, but in any case it is very difficult to produce and is at least partially lost relatively soon. Studies have shown that these difficulties are due to the considerably different coefficients of thermal expansion of the copper used for the contacting elements and the resistance glaze covering the flat body.

Even with burned-in strips of silver paste, the adhesion between the silver and the glaze is often insufficient. Here, the invention seeks to remedy this, and proposes that the electrically conductive resistance coating consist of an element embedded in a conventional ceramic glaze, with flat, perforations and connectable to a current source, made of a metallic material with a high specific electrical resistance, the melting point of which is above is the melting point of the ceramic glaze and its coefficient of thermal expansion is approximately equal to that of the ceramic glaze.

It is particularly advantageous if the ceramic glaze is chosen such that its coefficient of thermal expansion is approximately equal to the coefficient of thermal expansion of the flat ceramic body.

In a further development, the material selected for the flat element has a temperature factor of the electrical resistance between 20 and 600 ° C. of greater than 2.

The flat element with openings can be in the form of a meander, a film with holes, or a network with a corresponding mesh size.

The drawing shows in a single figure a section of a flat ceramic body, in which a glaze with an embedded flat element is provided on the side facing away from the visible side.

1 with a ceramic plate is generally designated, the dimensions of z. B. 85 x 125 cm with a thickness of 8 mm. There is a glaze 2 on the visible rear side. 3, 3a, 3b represent three possibilities of flat elements to be embedded in the glaze, via which the electrical resistance heating takes place.

For the breakthrough flat elements certain materials with the required properties and also a temperature factor of the electrical resistance between 20 and 600 ° C of greater than 2 are commercially available, for. B. under the trade name VACON and are offered as smelting alloys for electronic tubes.

The contacting of the sheet-like element with openings makes no discernible difficulties and can be carried out at any or desired location, as indicated at 4, 4a and 4b.

• EP-A1-0 157 179
• DE-A1-34 33 669
• DE-A1-25 34 813
• DE-A-22 44 157
• EP-A1-01 12 922
• DE-A1-33 25 204
• DE-A1-23 29 424
• DE-U-18 83 914

The following are considered as state of the art:

• EP-A1-0 157 179
• DE-A1-34 33 669
• DE-A1-25 34 813
• DE-A-22 44 157
• EP-A1-01 12 922
• DE-A1-33 25 204
• DE-A1-23 29 424
• DE-U-18 83 914

Claims (4)

1. Flat ceramic body having an electrically conductive resistance coating on the side which faces away from its visible side, characterised in that the electrically conductive resistance coating consists of a flat element of a metallic material having a high resistivity, which is embedded in a ceramic glazing, has break-through openings, and can be connected to a current source, and whose melting point is above the melting point of the ceramic glazing and whose coefficient of thermal expansion is approximately the same as that of the ceramic glazing.

2. Flat ceramic body according to claim 1, characterised in that the ceramic glazing has a coefficient of thermal expansion which is approximately the same as the coefficient of thermal expansion of the flat ceramic body.

3. Flat ceramic body according to claim 1 or 2, characterised in that the flat element has a temperature factor of the electric resistance between 20 and 600 °C of more than 2.

4. Flat ceramic body according to one or more of the claims 1 to 3, characterised in that the flat element having breakthrough openings has the form of a meander, of a foil with holes, or of a network having appropriate mesh size.

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