DE1291493B - Electrically heated heat storage core - Google Patents

Description

The invention relates to an electrically heated heat storage core with heating conductors arranged in this, for. B. for heat storage space heaters with Heat extraction mainly through convection, which consists of layers of alternately different Material is composed, namely each from a layer of insulating Storage material and a layer of metallic material with high thermal conductivity.

Known heat storage cores of this type have the advantage that the stored heat can be taken almost completely from the storage core, because the metallic layers due to their own high thermal conductivity remove the heat from the relatively poorly conductive storage layers and z. B. forward to the convective heat transfer medium.

In such storage cores, the heating conductors are arranged in channels, which penetrate the layers of the storage core approximately perpendicularly. This requires one some effort to the heating conductor compared to the electrically conductive metallic Isolate layers. In addition, when using air as an isolating agent there is no direct heat transfer from the heating conductors to the storage core. It is also felt to be disadvantageous that when assembling the memory core After completion of the core in the heating conductor in a special operation Storage core are to be introduced.

The invention is based on the problem outlined above to overcome and to create an electrically heated heat storage core on the one hand on complex electrical insulation of the heating conductors the metallic layers can be dispensed with, on the other hand a more direct one Heat transfer to the storage core achieved while avoiding an intermediate air layer will.

This object is achieved according to the invention in that the heating conductors in the layers of storage material, surrounded on all sides by storage material, are embedded.

It is already known to use heating conductors in insulating storage material to embed. However, these are not heat storage cores that consist of Layers of alternately different material are composed. With others known composed of layers of alternately different material Heat storage cores, the layers containing the heating conductors are only used for insulation, but not the heat storage, so that other conditions exist.

Further embodiments of the invention are set out in the subclaims marked. The sub-claims are real sub-claims.

An exemplary embodiment of the invention is shown in the drawing. The figure shows the view of a horizontal, schematic cross-section by an electric heat storage furnace.

The stove has a rectangular plan and is airtight on the outside Sheet metal housing 1, which encloses an insulating jacket 2. This coat is supposed to Prevent heat loss through radiation. Inside the jacket 2 is the actual one Heat storage or storage core 3 arranged in its longitudinal center of a vertical air duct 4 is traversed. This is against the memory core 3 closed off airtight by an elongated tubular sheet metal lining 5. The memory core 3 is composed of individual plates, namely two Types of panels: The first type 6 consists of ceramic material, i. H. cold set waste corundum, and contains an embedded electrical heating conductor 7. The second type 8 consists of iron.

The plates 6 and 8 have the same shape and size. they are stacked in two packages on both sides of the channel 4 and extend with their broad sides perpendicular to the channel plane, so that each individual plate with one of its end faces is adjacent to the channel.

The housing 1 and the jacket 2 and the lining 5 protect the Storage core 3 or its metallic components B.

Claims (6)

Claims: 1. Electrically heated heat storage core with in this arranged heating conductors, for. B. for heat storage space heating stoves with heat extraction predominantly by convection, which consists of layers of alternately different materials is composed, namely each of a layer of insulating storage material and a layer of metallic material with high thermal conductivity, d a d u r c h g e k e n n -z e i c h n e t that the heating conductor (7) is known per se Way in the layers of storage material, surrounded on all sides by storage material, are embedded. 2. Heat storage core according to claim 1, characterized in that that the layers are each formed in a manner known per se as building block-like parts are. 3. heat storage core according to claim 2, characterized in that the block-like Parts (6, 8) either all or the two groups of parts individually are designed to match, preferably a matching shape and Own size. 4. Heat storage core according to claim 2 or 3, characterized in that that the building block-like parts (6, 8) with means for form-fitting one another or layers on top of one another, e.g. B. tongue and groove are provided. 5. Heat storage core according to one of claims 1 to 4, characterized in that this in itself is enclosed in a known manner by an airtight envelope (1). 6. Heat storage core according to claim 5, characterized in that the airtight envelope (1) is constructed in this way is that they flow paths in the form of channels through in a manner known per se the memory core (3) leaves free, the boundary surfaces of the channels each consisting of one tubular sheet metal jacket (5) are formed, which the memory core against the channel space separates.