DE716440C - Flashlight battery - Google Patents

Description

Flashlight battery The invention is based on the observation that the hourly output of a flashlight battery not only increases in a simple ratio with decreasing load, but also increases significantly above it. So z. B. the burning time of a flashlight battery does not change from 3 to E hours when the wattage drops by half, but to about 9 hours. @ With the usual three-cell 4.5 volt batteries, the load is usually 0.7 watts. It is now not easily possible to reduce the load, since lamps which draw less than 0.2 amperes at 2.5 volts are difficult to manufacture and do not constitute a common article of commerce.

It can also be observed that already severely depleted batteries, which have recovered after a long period of storage, when used again in the The voltage drains faster than unused batteries. It can now easily happen that such a rested battery, which gives a good light when testing, z. B. at night marches o. The like., Is put back into use and through the rapid Failure puts the user in dangerous positions.

The invention aims to create a pocket battery in which both the service life is increased as a result of the lower load and a reserve is created which prevents failure after a short period of use.

The essence of the invention is that individual battery cells or groups of battery cells connected in series that are independent of one another, as an option can be switched into the circuit individually or in parallel.

As regards the prior art, it should be noted that it is known to use flashlight batteries to arrange a reserve cell, which supplies the already exhausted, now red light Cells can be switched on or the battery voltage can be switched on or off adapted to the lamp used will. This reserve cell is therefore basically interconnected with the other cells when they are used.

In contrast, the Erfindtixw iron in the optional "switching individual Zellet% or cell groups, according to it engage the already etschöpften cells and harnessing d it - after their recovery delivered flow allows, just as if the user were to perform two complete batteries with it. One group of cells is used until exhaustion, then the second is switched on: after it is exhausted, it is switched to the first one, which has been recovered in the meantime, and so on Failure of the battery can be surprised, because the naturally shorter burning time of the lamp is warned when a group of cells is used repeatedly and can estimate the expected performance of the battery. The lower voltage of a cell group enables a weaker lamp to be used.

However, if the user wants to use all cells at the same time without switching, so the cell groups connected in parallel become fewer due to the weaker lamp loaded, so that because of the aforementioned peculiarity of the flashlight battery a longer burning time is achieved: In the drawing, FIG. B. a circuit diagram and FIG. 2 shows a diagrammatic view of a pocket battery according to the invention.

In the circuit diagram Fig. I, four battery cells i to .I are shown, of which cells i and 2 on the one hand and cells 3 and 4 on the other hand are connected in series. The carbon pole of cell i is connected to contact tongue 5, that of cell 3 to tongue 6, while the zinc pole of cell 4 is connected to tongue 7. The zinc pole of cell i is connected to the carbon pole of cell 2 by means of bridge 8 and the zinc pole of cell 3 is connected to the carbon pole of cell 4 by means of connection 9. Furthermore, the zinc pole of the cell 2 is attached to the tongue 7 by means of the conductor io. When the battery is not in use, according to FIG. 2, the tongue 6 is protected against contact with the tongue 5 by a strip of paper stuck over it or by a paper cap or the like that has been pushed on. The lamp is switched between 5 and 7, so it burns under the voltage of two `` '' cells (e.g. 3 volts). For this lower voltage, much lighter and smaller lamps have to be produced that put the battery under load below your usual value. So are z. B. Commercially available lamps for 2.5 volts. If the two cells i and 2 are exhausted, the reserve is used by bending the tongue 6 open and bringing it into contact with the tongue 5. The tongue 5 can also be bent down, as shown with 5 'in FIG. This gives cells i and a the opportunity to recover, so that they serve as a second reserve.

However, there is also the possibility of time, even with the unused one Battery to bring both tongues 5 and 6 into contact. The cell groups i, 2 and- 3, 4. are then connected next to each other, so that all cells with half the value are loaded and result in more than twice the service life.

According to the invention, not only flashlight batteries, but anode batteries and the like can also be produced.

Claims (2)

PATENT CLAIMS: i. Flashlight battery. characterized in that it has two groups of cells which are independent of one another and which consist of cells connected in series and which can be switched into the circuit alternately for use or simultaneously connected in parallel. 2 . Flashlight battery according to claim i, characterized in that for the purpose of alternating activation of the Cell groups the one battery pole having two homopolar contact springs in a manner known per se a aufstecl; bare insulating cap to isolate the non used contact spring is assigned.