DE8308318U1 - Charger for batteries and the like. - Google Patents

Description

The invention relates to a charger for batteries and accumulators.

Chargers of the type mentioned are known. As a rule, the input side is connected to a 220 V AC voltage source connected and supply a DC voltage of approx. 2.75 V per on their output side

'loading cell. This is achieved with interposition of transformers and rectifiers and if necessary of electronic control elements such as thyristors for current control.

The chargers can be designed for different capacities, i.e. for batteries with very different Capacities in terms of their ampere-hour number (A / h). This charging power is decisive for the size of the used Transformer. The greater the charging power, the larger the transformer must be, and the larger must also be the whole charger.

However, large chargers with large transformers are unwieldy and heavy. They also contain large transformers more copper than smaller ones, so they are disproportionately expensive because of the high price of copper.

It is therefore an understandable endeavor in the manufacture of a charger, with as little as possible

Transformer get along and get the greatest possible performance out of this smaller transformer.

However, this is opposed to the fact that a transformer heats up during operation to the extent to which the The performance demanded from him increases. The extraction of power from a transformer is therefore due to this warming set a natural limit.

However, the power required can be increased if the transformer is cooled. Or in other words: with constant power to be demanded, the transformer can be made smaller, the better he's chilled.

The invention is therefore based on the object of creating a charger for batteries in which the transformer and other electrical components that heat up are subjected to good cooling in a simple manner.

This object is achieved by a charger which has the features specified in the claims.

The most important feature of the invention can be seen in the fact that the transformer is in good spatial contact is arranged with a housing outer wall. This works

this housing wall as a heat dissipation plate with high efficiency, so that the transformer is correspondingly small can be held.

To do this, it is proposed to use the transformer cut, i.e. to choose the spatial design so that there is a flat transformer shape. Through this 'Particularly good physical contact can be established between the transformer and the housing wall, see above that a good heat dissipation is guaranteed.

In particular, it is proposed to attach the transformer to a side wall of the housing and in the floor and to attach air slots in the cover of the housing, which additionally allow the flow of a cooling air stream enable.

If the transformer in the charger is divided into several parts, i.e. if several smaller transformers are used instead of one large transformer, which often happens So it is proposed to attach each of these partial transformers to an outer wall of the housing.

In addition, the idea of the invention can also be applied to other Components are used that heat up during operation. This is especially true for those in the charger included thyristor / diode modules that are used for current control.

These thyristor / diode modules can also be attached to the inside of an outer wall of the housing and thus experience good cooling in a simple way.

In the drawing, the invention is in a schematic P perspective view shown. The figure shows a charger with the front and cover removed. A charger is shown in which the transformer is divided into a first and a second sub-transformer and several electronic components, e.g. thyristor / diode modules, to control the charging current be used.

1 with the bottom of the housing is referred to in the figure, on which the housing walls 2, 3 and 4 are placed. The transformers are marked with 5 and 6, and the thyristor / diode modules with 7, 8, 9 and 10 »

It can be clearly seen from the figure that each of the partial transformers 5 and 6 is attached to a respective housing wall 2 or 4 is attached. These housing walls therefore serve as good heat conducting plates for the developed by the transformers Warmth.

The thyristor / diode modules 7, 8, 9 and 10 are attached to the housing wall 3 in the same way. This case wall therefore serves to derive the from the thyristor / diode modules developed heat.

The slots 11, 12 and 13 are made in the floor 1 below the transformers and thyristor / diode modules. These are used to supply air. The same slots are made in the cover, not shown, of the housing, so that good air circulation and thus further good heat dissipation is achieved.

'As already stated, these measures serve, namely attaching the heat-generating building elements directly to the outer walls of the housing to the heat quickly derive. As a result, higher heating of these components, especially the transformers, can be accepted be taken. This means that the transformers are dimensioned smaller for a given line can be than was previously possible according to the prior art. Therefore the whole charger can be smaller, can be produced more easily and cheaply.

Claims (3)

Expectations . 1.) charger for batteries and the like is characterized by at least one transformer, a rectifier and further warming during the operation of electrical or electronic components, d ABy marked 5 in that the transformer (5; 6) of the charger on the inside Housing outer wall (2; 3; 4) is fixed and this housing wall acts as a heat dissipation plate. 2.) Charger according to claim 1, characterized in that the transformer (5; 6) is specially flat in its spatial configuration (= transformer section) to enable good physical contact with the housing wall (2; 3; 4). 3.) Charger according to claim 1, characterized in that the thyristor / diode modules (7-10) for current control are also fixedly arranged on the inside of a housing wall (3). -ΊΑ.) 'Charger according to claims 1-3, characterized. that the transformer (5; 6) or the thyristor / diode modules (7-10) are arranged on in the position of use of the charger approximately vertical side walls (2; 3; 4) and in the bottom (1) and / or in Cover next to the c ^ n transformer, or side walls (2; 3; 4) carrying the thyristor / diode modules, air slots (11; 12; 13) are attached. • ι · · t