DE606308C - Electric heating element, in particular hotplate - Google Patents

Description

Electric heater, in particular hotplate The invention relates to an electric heater, in particular a hotplate, with resistance wires not very high melting temperature, e.g. B. Chrome-nickel wires.

There are known hot plates in which heating wires by means of mica or completely fired ceramic mass from the iron base or cover plate are isolated. The cover plate has the task to fulfill the wires and to seal the intended insulation against moisture, which is only possible in this way imperfectly succeeds.

It is also known to use electrical heating wires in a ceramic mass @bedding and burning the whole thing. To get a tight shard, you have to either expensive heating wires, e.g. B. Molybdenum wires, are used, as ordinary Wires, such as chrome-nickel wires, are unusable at the required firing temperatures would. But if the cheaper chromium-nickel wires are to be used, so would have to the ceramic mass in which they are embedded remain highly porous because they can only be heated to 8oo to goo °. For example, clay was used for this purpose, which, however, cannot be fired tightly.

There is also a suggestion that the heating wires in powdered carbides are embedded, which with a binding agent such as sodium silicate, is interspersed. Panels constructed in this way must first be kept at a low temperature prebaked and then heated to a high temperature for cooking.

In contrast, the invention has an electric heater, in particular a hotplate, to the object that, when using ordinary resistance bodies, like chrome-nickel wires, and a low-silica ceramic mass at lower Firing temperature is tightly fired and still remains temperature-resistant.

Despite the low sintering temperature, they are made from such masses Manufactured radiators in terms of thermal technology completely flawless, and as a result of the dense body is a cover of the radiator by iron covering against Contact and especially for protection against splashing of liquid dispensable, because the mass is so dense that water cannot penetrate. Sao can, for example A saucepan can be placed directly on the ceramic plate for the better Temperature transfer can also be ground or metallized.

The electrical resistance wires are exclusively low in silica embedded in ceramic masses that are below the melting temperature of the resistor body and below the temperature at which chemical reactions between resistance wire and ceramic mass can occur disruptively, to (a dense body completely fired are. .

The radiators obtained in this way have the greatest resistance against temperature fluctuations, because the heating during operation is never like that can rise higher than at the completion in the Garbrand, so that in the Heat-stretching heating wires never reach their volume during the cooking process and exceed and thereby burst the covering ceramic mass.

The manufacture of such radiators can also be done in any other way take place. So you can, for example, first a lower part, the grooves or grooves owns, and shape a top and finish firing and then, after application a glaze and inserting the heating wires both parts simply by heating the Connect the glaze (glaze together). One does not even need to do such a thing to use masses that burn at low temperature, but also those that Can be fired at higher temperatures if only the melting temperature the glaze is low.

One can of course to get air pockets between the radiator and the surrounding envelope to avoid putting any fillers between the radiators and introduce the preformed receiving groove, which. when glazing together too provide additional protection for the metal wires against inadmissible heating can. It goes without saying that these ramming compounds as well as those parts should also be used of the radiator, which are used for heat transfer, have favorable conductivity: It has been shown that additions of corundum or similar substances to the offset increase the thermal conductivity.

Manufactured in this way, possibly also at least at the points when putting on cooking vessels, glazed bodies show sufficient density to allow the Penetration of moisture into the interior and thus any damage to the radiator to prevent. Iron security fittings of any kind are regularly not necessary, and the saucepan or the like can be placed directly on the ceramic plate.

Instead of: or next to a metallization or grinding an enamel can also be applied at a higher or lower temperature, regularly but at such a temperature which is higher than the later use temperature the covered surface. .

In addition, the invention is not limited to the whole Radiator is made according to the invention; rather @es is enough if the Heating wires immediately enclosing part of the radiator manufactured according to the invention is.

It is within the scope of the invention to design the radiator as a cooking pot and to be wrapped with a resistance body on the outside, which is covered by a glaze is, which preferably melts at low temperature and thus the action the atmosphere, especially prevents oxidation. So it will be preferred a completely fired saucepan made of ceramic material, especially porcelain, the be provided on its circumference with grooves for the resistance wires can, provided with the development of resistance and then glazed as a whole or enamelled or only in the places where resistance wires are embedded are. ;

Claims (1)

PATENT CLAIMS: i. Electric heating element, in particular hotplate, which consists of electrical resistance elements (resistance wires) not unusually high melting temperature my ceramic body, characterized in that for the construction of the heating element; but at least to connect heater parts, exclusively a low-silica ceramic compound or glaze, which is used below the melting temperature of the resistance body (e.g. made of chrome-nickel) and below the temperature at which chemical reactions between the resistance and the ceramic compound can occur to a disruptive extent , sintered to a dense body. z. A method for producing a heater according to claim i, characterized in that the optionally insulated heater (heating wire) is inserted into the ceramic mass and the latter is then fired to form a dense body. 3. A method for producing a radiator according to claim i, characterized in that resistance bodies (wires) are installed between two: or more bodies made of ceramic material and fired at any temperature, and then the parts are glazed together in the heat. q .. Heating element according to claim 3, characterized by its ceramic ramming compound between heating wires and ceramic body. 5. A method for producing a radiator according to claim 2: or 3, characterized in that one preferably aftertreated heat-emitting surfaces, in particular: special grinds or they with a metallic (for example by metallizing) or vitreous as dense as possible. (for example by burning on enamel) layer covered. 6. Heater according to claim i or the following, characterized in that the ceramic mass contains additives which increase the thermal conductivity after the cooking firing, for example corundum.