DE954891C - Housing filled with hot air for heating accumulators and other heat-sensitive objects - Google Patents

Description

ISSUED DECEMBER 27, 1956

B 26884 IFa / 2i b

The invention relates to a housing charged with hot air for heating accumulators and other heat-sensitive objects.

It is known / that the capacity of accumulators to a large extent depends on the temperature in particular the electrolyte and lead plates. When it's very cold, the collectors have one significantly reduced power compared to their nominal power at room temperature. Especially when it is deep Temperatures, however, are the requirements for the accumulator, for example when starting motor vehicles, very high because the cold machine parts are difficult to turn. It is therefore in the Winter months when starting vehicles

great importance to increase the capacity of the collector. In order to warm up the engine, a Warming up the accumulator or collector come. It has already been proposed to turn the collector into a Use housing that is closed on all sides and air preheated in the direct current on ao the top inflate, which exits through an opening located on the underside of the housing. at However, this known arrangement occurs local overheating of the collector, so that it is damaged can be. For example, the heat-sensitive potting compound can melt in places, so that the collector is destroyed. There can also be stresses in the generally glass or hard rubber existing collector container.

which may cause this container to crack or burst. It is also already known to carry out the heating of the collector cells in such a way that they are in a special space below or Air heated to the side by the collector is passed through the collector box. This arrangement however, does not yet provide a complete solution to the problem on which the invention is based, because local overheating can occur here too, which can be achieved by lowering the temperature accordingly the incoming air and thus the corresponding slowing down of the warm-up process must avoid.

In addition to the problems already mentioned, there is also the further problem that the lead plates and the electrolyte of the collector is surrounded on five sides by the hard rubber or glass housing, the top is closed by an asphalt-like potting compound. These walls are extraordinary poor thermal conductivity and prevent even heating of the collector during Blowing in hot air, as is done in the known arrangements.

The disadvantages indicated above are made according to the invention by a housing charged with hot air for heating batteries and other heat-sensitive objects, which by introducing the hot air into the housing in such a way that it is in a closed circuit, namely preferably several times, around the object flows, is characterized.

The housing expediently has the shape of a cuboid box, with the feed the hot air near one edge of the box

35. takes place through a slot-shaped inlet opening. This inlet opening extends essentially Over the entire width of the edge and is therefore arranged on the upper edge, because that's where the hot air is first flows over the connection elements of the collector, which have a much greater thermal conductivity have than the walls of the collector box. In this way the hot air gets in particularly effectively first through these connections into the interior of the collector and envelops it at yours Circuit with an essentially uniform air cushion.

It is particularly advantageous to have the inlet opening for the hot air in the form of a into the interior of the Box extending and circulating the hot air to form the nozzle introducing the collector. In An inlet opening for cold air can also be arranged near the inlet opening for the hot air, with the nozzle-like design of the hot air inlet, the conveyance of the cold air by entrainment the same takes place through the injector action of the nozzle. Around the temperature of the water flowing around the collector The inlet openings for the hot air and the cold air were to be able to move the air flow briskly together and / or made independently controllable. IW formation of the hot air inlet . As a nozzle, it is particularly useful to change the entry gap by changing the position a mouth lip of the nozzle.

The air outlet nozzle is preferably arranged so that its axis is essentially perpendicular to the direction of circulation of the heating air. In this way it is achieved that the blown hot air exits through the nozzle only as a result of the corresponding overpressure in the housing, whereby it is expedient can be, the outlet still through a corresponding sealing disk on the outlet nozzle steer.

The drawings show an embodiment of the subject matter of the invention, namely in

Fig. Ι a section through a collector box with inserted collector, in

2 shows an individual illustration of a control device for the hot air inlet into the collector box.

According to Fig. 1, the collector 1 is on, for example two supports 2, 3 housed in a housing 4 surrounding it on all sides, optionally with a Thermal insulation 5 is coated. The inlet 6 for the hot air is located on one of the upper narrow edges, which can be regulated by a slide 7, for example. This lead 6 runs in a wide Nozzle 8, the lower lip 9 of which is rotatably mounted at 10 in the outlet end of the supply line 6 and through a Control device can be adjusted in height.

In Fig. 2, the adjusting device is shown schematically. The lower lip 9 is for example suspended by means of a cord 11 or a small chain and is via this by a thermostat, which is not shown in the drawing, adjusted in height. If necessary, the upper lip 12 to be attached to the cord 11, so that an adjustment of the lip g simultaneously with an adjustment the lip 12 leads. If necessary, the arrangement can be made so that both lips are independent are adjustable from each other. The lip 12 delimits the inlet nozzle 13 for the cold air, the cross section of which can also be changed by a control device 14. The hot air in the Channel 6 is preferably introduced into container 4 under pressure and ruptures when it emerges from the nozzle 8 air from the channel 13 with. This air, which is mixed in the container 4, now flows around it in one closed circuit the collector 1. Of course, the supports 2 and 3 for the collector be provided with appropriate passages. The air is discharged through the nozzle 15, the is essentially perpendicular to the direction of flow of the circulating air. In general, therefore, the air through the nozzle 15 only as a result of the overpressure in the housing 4, if necessary, the Cover nozzle 15 by a circular disk or the like.

Of course, the connection tabs between the poles of the individual collector cells can also be provided with heating fins, so that the surface and thus also the heat absorption capacity of these connections is increased.

Claims (6)

PATENT CLAIMS: i. Housing filled with hot air for heating accumulators and other heat-sensitive ones Objects, characterized by Introduction of the hot air into the housing in such a way that it is in a closed circuit, namely preferably several times around the object. 2. Housing according to claim i, characterized in that it is in the shape of a cuboid Has box and the supply of hot air near an edge of the box through a slot-shaped inlet opening takes place. 3. Housing according to claim 1 or 2, characterized in that the inlet opening for the Hot air in the form of a into the interior of the box (4) extending and the circulation of the Hot air is formed around the object (1) introducing nozzle (8). 4. Housing according to one of the preceding claims, characterized in that in the vicinity the inlet opening (6) for the hot air is arranged an inlet opening (13) for cold air. 5. Housing according to claim 3 or 4, characterized in that for regulating the entry a mouth lip of the nozzle is adjustable by hot and / or cold air. 6. Housing according to one of the preceding claims, characterized by an air outlet nozzle (15), the axis of which is essentially as perpendicular to the direction of circulation of the heating air is arranged. Considered publications: German Patent Nos. 118 6f6, 717389;
U.S. Patent No. 2,273,244. 1 sheet of drawings © 609 546/152 6.56 (609 723 12.56)