DE925783C - Electric tubular heater with sheet metal fins - Google Patents

Description

Electric tubular heating elements with sheet metal fins They are electrical tubular heating elements became known, the metallic jacket pipe surface enlarged by sheet metal ribs is. The latter are designed so that, for. B. two metal shells into which the radiator tightly enclosed and embedded eats, with the narrow parts of it lying on top of each other are connected parallel to the pipe axis outwardly folded edges. The free wide parts of the edges are bent apart at any angle and serve as ribs.

If you use two sheets of the same size, between which you place the radiator packs up, the sheet metal is badly used from a thermal point of view, since only one side is used the two sheets can give off heat to the surrounding air. It is because of it already It has been suggested to bend the ends of the sheets apart, causing both sides the sheets contribute to the heat dissipation. Such a design has the advantage that Only light objects, especially clothing, placed on the radiator come in contact with the less hot edges of the sheets and not in the vicinity of the radiator rest; can.

However, the design has the disadvantage that the edges of the heater body have a disturbing effect and that such a radiator is not very stable. Are z. B. heavier Objects placed on it, like that. may become the bent ends bent together, and the objects placed on it touch the hotter pipe! acts the objects are flammable or otherwise destructible by temperature, so this is undesirable.

A decisive disadvantage of the design, however, is that such Radiator at the same temperature can only indicate a higher output., when the heating tube axis is arranged vertically. When operated with a horizontal radiator axis the rising air stagnates in the re-entrant corners; and worsened thereby the heat dissipation capacity of the radiator is considerable.

According to the invention these disadvantages are avoided in that a Tubular heating element is embedded between two sheet metal disks, next to the embossing Have ribs shaped like corrugated sheet metal for the insert of the tubular heating element. at perpendicular arrangement of the radiator axis becomes the entire inner and outer surface of the sheet is used for the dissipation of heat to the surrounding air. But by the way Arrangement of the radiator with a horizontal radiator adapter meets the ascending one There was no air in any corners; Rather, it can flow away unhindered anywhere, so that the heat output of the radiator is the best imaginable.

To explain the Erfindung- the waste serve formations. Fig. I and 2 show the well-known Ausfübr-ungs, foTm in upright and horizontal position, in which the radiator a between two equally large. Sheet metal. b, c is packed. In addition, the heat is badly used; because in both positions the air (arrow, tridhe) can get only to a small extent or not at all between the bent-apart ends of the sheets b, c.

Fig. 3 and q. show the training according to the invention in two different ways Locations. In addition to the embossing for the radiator, there are ivellbled-hard-shaped Ribs d provided. The rising air can sweep past all outer surfaces, so that an all-sided extraction of heat occurs. An improvement can occur by that, as Fig. 5 shows, some or all of the rib flanks are perforated, whereby the inner surface of the Wellbledhho'hi rooms also contributes to the heat dissipation. In addition, this shape has great rigidity in the direction of the radiator ox.

The rigidity should be sufficient against forces in the direction of the body d stone, so be. between the outer edges of the corrugated sheet metal strips e (Fig. 6) if necessary, used with a profile. In this way one gets one in all Very stiff box profile directions. With a spatial arrangement as shown in Fig. 3, the re-entrant corners can also be avoided, i.e. the lower sheet metal, accordingly Fig. 7 is executed smoothly. Will have more than one on each side of the radiator Arranged rib (Fig. 8), so the heat would have to follow that on the radiator second and following ribs are made by heat conduction through the ribs. This is inexpedient because the temperature of the first ribs then becomes high, which can be undesirable.

In order to achieve a uniform temperature distribution, this According to the invention, a flat sheet of suitable thickness between the corrugated sheets (Fig.9), that the second and following rib the heat in a direct way. and also gives off heat to the air flowing inside the ribs. When arranging several ribs iis, fi'es @ for ore division of even temperatures at the rib edges useful to make the ribs different heights, so that the The rib that is closest to the radiator is at the highest (Fig. 9).

Claims (3)

PATENT CLAIMS: i. Electric radiator in which the heat emitting Surface of a tubular heater, with a metal jacket connected to it Sheets is enlarged, characterized in that the sheets in the direction of the tubular heater axis Are formed like a corrugated sheet and that two identical sheets are arranged against one another and are connected as metallic as possible to the radiator and to each other. 2. Electric Radiator according to claim i, characterized in that to increase the rigidity in the transverse direction and with the corresponding torsional stiffness, the outer corrugated iron edges be connected by suitably stiffened sheet metal (s) or profiles (Fig. 6). 3. Electric radiator according to claim i, characterized in that only one of the two sheets is designed like sheets, while the other sheet is in the essentially smooth verbilei.bt (Fig. 7). q .. Electric radiator according to claim i büss 3, characterized in that when more than one rib is arranged On one side of the radiator, a flat sheet (f) is inserted between the corrugated sheets and is connected to metal with pipe and corrugated sheet metal.