DE432160C - Easily assembled battery, especially anode battery - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
AUGUST 2, 1926

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21b GROUP

(E 31688 VIIIj ₂ IbJ

The invention relates to an easily assembled battery, namely an anode battery. The essence of the same lies in the fact that the individual elements, for example dry cells, loosely under a busbar are arranged with a conventional slide and their pole lugs with the contact bridges Establish a conductive connection. The contact bridges or webs are designed in the same way and allow the cells to be connected in series so that with sliders that point to the Busbars run, any voltages can be finely adjusted. Due to the double arrangement of the slider, each of which is on the face of the contact webs running, several voltages can be established at the same time. Really important but it is that the battery according to the invention allows one cell to each To lay busbars and to be able to short-circuit each cell if it is unusable. For this purpose, two busbars with two are on the same face of the contact bars mechanically connected, electrically isolated

43216Ö

Provided slides at a distance between two contact pieces, each with one of the rails electrical Establish a connection and therefore one cell each to the busbars when moving from one contact bridge to the next place. Between the neighboring contact. bridges are insertion openings for plugs, to short-circuit cells that have become unusable as a result of their introduction. ίο An example embodiment of the The subject of the invention is shown schematically in the drawing.

The battery consists of dry elements, such as those used for flashlights, but wet cells can also be used. The individual cells are put together loosely, and one of the pole lugs makes contact with the associated contact bridges a, b, c, d ... Γ Fig. 3)., Between

On top of the pole lug and busbar there is an insulating material χ (Fig. 2). Through the contact bridges, all cells are connected in series, and you can use the on the collector; I, II and III running sliders A, J B and C can fine-tune any desired voltage, thereby reducing the current heat losses of the switching resistors. There is a different voltage between each busbar and one of the contact bridges, so that it is possible to apply different finely adjustable voltages to different circuits without the aid of a second battery. This is of particular advantage when high frequency, low frequency and audio tubes are used at the same time, as this also enables tubes to be used for different working voltages.

Fig. Ι shows the circuit of cells 1, I ^s , 2, 2 ° ... in series. The slide A sits on the contact bridge k, the slide B, which is mechanically connected to the slide C but is electrically isolated, sits on the contact bridge 0. Four anode circles are shown.

The voltage M of cells 1, i ^a ... to 6 ″, 7 prevails between contact bridge A and rail II ; voltage V of cells i, i ^a ... to 4 ° prevails between contact bridge α and rail I , 5; the voltage W of the cells io °, 10 ... to 8 ^a , 8 prevails between the contact bridge w and rail II; between contact bridge w and rail III there is the voltage Z of the cells το ^α , 10 ...

up to 6, 5 ^a . It is easy to see that different cells can be used to supply electricity. In order to test each individual cell for its usability, the slides B and C, which are the distance between two contact bridges, are moved from contact bridge to contact bridge. As a result, a single cell is placed on the busbars I and II and a test device connected to the same, e.g. B. a test lamp and a voltmeter, give conclusions about their usefulness. In Fig. 1 this is done for cell y ^a . Should an individual cell prove to be unusable, it does not need to be discarded immediately, but is short-circuited by a plug which can be inserted into the corresponding opening 0 so that the battery is immediately usable again.

Claims (5)

Patent Claims: 1. Easily assembled battery, in particular anode battery, characterized in that the individual elements, for example dry cells, are loosely arranged under a busbar with a conventional slide, the pole lugs of which establish a conductive connection with the contact bridges (a, b, c ...). 2. Battery according to claim 1, characterized by a number of identically trained Contact bars for producing a series connection of the cells, so that with slides running on busbars any voltages can be set. 3. Battery according to claim 1 and 2, characterized by on both end faces the contact bars moving slider for the simultaneous setting of several voltages. 4. Battery according to claim 1 and 2, characterized by two on the same Front side of the contact pieces located busbars with two median connected, electrically insulated slides at a distance of two contact pieces, which each establish an electrical connection with one of the rails and thereby when a contact bridge is moved Place one cell on each of the busbars to the next. 5. Battery according to claim 1 and 2, characterized by insertion openings between adjacent contact pieces in order to be able to short-circuit cells that have become unusable by means of plugs. 1 sheet of drawings.