DE423509C - Electric furnace with cells made from sheet metal bodies - Google Patents

Description

Electric furnace with cells formed from sheet metal bodies. object The present invention is an electric heat storage furnace. There are already ovens he known, which are heated electrically and formed from sheet metal bodies Have cells that serve to conduct the egg warmed air.

In these known exercises, according to the present invention, every second The cell can be filled with a substance that accumulates heat, while the cells lying between them serve to conduct the air, "-which through the first Cells are heated. In this way, the stove can be used as a heat storage stove will. The arrangement of the cells is made so that they are concentric around the electric radiators are arranged. There is a channel between the two to pass the air directly past the radiator. The individual airways, which They stretch along the storage cells, open into two chambers, starting from «-o the regulation of the heat emission is done by a slide that opens the (,) can shut off or expose. The furnace on which the invention is based is thereby a stove with double heating. On the one hand, the air is heated directly the radiator instead of when the electric current flows through it, on the other hand a second heating of the air takes place when the electricity is switched off and the slides are opened after the individual cells, so that these are the in can give them stored heat.

The figures show an embodiment of the invention, and although Fig. i shows a vertical section through the electric furnace with two Heating devices.

Fig. 2 is a section along the line x-x (he abts. I.

Fig.3 is a further section along the line v-v in Fig. I.

Fig.4 is a piece of the sheet metal from which the individual storage elements are composed.

Fig. 3 shows a second embodiment of the storage elements, E. is a jacket in which any number of heating devices (according to example two pieces) are introduced. These heating devices consist of metal sheets that have the triangular fold shown in Figure 4 in cross section. By this according to Fig. 4 made sheets in the shape of a cylinder and then the abutting When the edges are welded together, the chambers 2 and: the gaps are created 3. The end plates .f are attached to both ends of the cylinder, which the Have incisions 5, the shape of which corresponds to the cross section of the spaces 3 correspond. So the rooms 3 with the symmetrically designed carriages 6 and 7 connected at both ends of the cylinder. Between the sheets 4 are the heating devices with one that does not let the heat through. Enclosure 8.

The interior of the chambers 2 is well-absorbing the heat Material filled in, such as B. kaolin, sand, etc. The chambers 6 and 7 are through a ring-shaped bent sheet metal 9, which inside also with a heat non-conductive layer is provided. The sheet 9 carries the openings io, which can be opened or closed by a slide ii, which consists of a second sheet lying above the sheet 9. Because the top and bottom Chamber are of the same shape, you can slide the two chambers at the same time operate by a handle 12. The latter leads through an opening in the frame E. through. 13 are sleeves which are attached to the. End plates 4 are attached and with communicate with the interior of the furnace. The one of these two sleeves communicates with the outside air, while the other two are connected to one another by a pipe 14.

The passage of air takes place as if through a single vessel with free Entry at one end and free exit at the other end. Inside one Each heating device is provided with an electric heater 15, which is attached to the is suspended upper end plate 4 of each heater.

The stove works as follows: When the air flow at the Radiator 15 passes, it will heat up immediately. The warmth will however at the same time notify the storage elements. If you now during this process keeps the openings 1o closed by the slide i i, the heat is in the Store inside the storage elements and from the one located in the chambers 2 iil aterial be recorded. The heat cannot be radiated outwards take place because the heating elements are surrounded by the heat-impermeable envelope 8 are.

If the electrical current is switched off, the radiator 15 no longer radiate heat. But by opening the slide you can gradually and after releasing the heat stored inside the storage elements. .

In Fig. 5 is another embodiment of a memory element shown in which the sheet metal forming the chamber has much narrower folds. The cross-section of the chamber would be here for the absorption of the heat accumulating Material has become too small. So you put the material here in the gaps, formed by the sheet metal and the protective casing 8. Also be Tubes introduced into this material, which end in the end plates 4 and perform the same work as the gaps 3 of the embodiment according to Fig. 3.

Claims (3)

PATENT CLAIMS: i. Electric furnace with formed from sheet metal bodies Cells which serve to conduct the heated air, characterized in that each second cell is filled with a heat accumulating substance and the one between to them Hegetiden cells for the conduction of the air heated by the former cells to serve. 2. Oven according to claim i, characterized in that, which store the heat Cells are arranged concentrically with respect to the electric radiator, so that the channel between the two is used to carry air through the radiator is heated immediately. 3. Furnace according to claim i, characterized in that that the airways, which extend along the storage elements, in two chambers. (6, 7) open, which are provided with openings (1o) that can be shut off by slide (1i) * are.