JPH0359954A - Combined battery apparatus - Google Patents

Abstract

PURPOSE:To make a dead space small and make the title apparatus compact by forming at least one of flat-type batteries, which are to be combined, to be in a different shape from others and producing a predetermined space. CONSTITUTION:A plurality of first and second flat-type batteries 1 are connected each other in series and a desired voltage is put out. In this case, the first flat battery 1 and the second flat battery 2 are made to have the same volume and the same capacity. The second flat battery 2 is so formed as to have, for example, the same length L as the first flat battery 1, but has larger width W2 and lower height H2 than the first flat battery 1. In this way, while retaining the same capacity, the space 11 is formed. As a result, a thermal protector 4 and thermistor 5 can be put in the space and thus dead space becomes small and the size of the apparatus becomes compact.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an assembled battery device suitable for use as a power source for electronic still cameras and the like.

[Conventional technology]

FIG. 2 is a perspective view showing the configuration of an example of a conventional assembled battery device.

In the figure, reference numeral 2 denotes a flat battery, and 2 a connecting portion that connects a plurality of (5 in this example) flat batteries in series. Reference numerals 3a and 3b are output terminals that output voltage (terminal 3b is disposed on the rear end face of the leftmost flat battery 1 in the figure and is not shown). 4 is a thermal protector, and 5 is a thermistor, which are bonded to the side surface of the rightmost flat battery 1.

These are further entirely surrounded by metal, synthetic resin, etc., and are ready for use.

The thermal protector 4 is connected in series with the flat battery 1 for short circuit protection. Further, the thermistor 5 outputs a signal corresponding to the temperature of the flat battery 1 in order to correct the voltage at the end of charging.

In this way, upon completion of charging, a voltage corresponding to the number of flat batteries 1 is output between the terminals 3a and 3b.

[Problem to be solved by the invention]

Since the thermal protector 4 and thermistor 5 are attached to the side of the conventional assembled battery device, the dead space becomes large and the device becomes bulky, which is particularly disadvantageous for use in portable electronic devices. Ta.

This invention was made in view of this situation,
This reduces dead space and realizes a compact device.

[Means to solve the problem]

The assembled battery device of the present invention includes a first flat battery having a predetermined length, a width, and a height, and having at least two of the lengths, widths, and heights of the first flat battery. One or more second flat batteries that are different from the battery and have the same volume as the first flat battery, and a connecting part that connects the first or second flat batteries to each other in series. Be prepared.

[Effect]

In the assembled battery device having the above configuration, a plurality of first and second
flat plate batteries are connected in series to output the desired voltage. The first flat battery and the second flat battery have the same volume and the same individual capacity.

However, the second flat battery may have, for example, the same length as the first flat battery, but a width greater than that of the first flat battery, and a height greater than that of the first flat battery. smaller, each set.

This ensures the same capacity (volume) and creates space.

This makes it possible to place a thermal protector or thermistor in that space.

Therefore, the dead space becomes smaller and the device can be made smaller.

〔Example〕

FIG. 1 is a perspective view showing the configuration of an embodiment of the assembled battery device of the present invention, and parts corresponding to those in FIG. 2 are given the same reference numerals.

As shown in FIG. 1, in this embodiment, the four flat batteries 1 on the left side are formed in the same shape, and their lengths are as follows.
The height is set to H□, and the width is set to W.

On the other hand, on the one flat battery on the far right, its length is L, the height is H2 smaller than Hl (H2<H□), the width is W, and the width is W2, which is larger. (W
.

>W□).

As a result, a space 1 is generated in the height direction, and a thermal protector 4 and a thermistor 5 are arranged therein.

In this way, the thermal protector 4 and thermistor 5 can be brought into contact not only with the rightmost flat battery l, but also with the flat battery next to it, and the temperature of the flat battery l can be detected more accurately. can do.

The thermal protector 4 and thermistor 5 are connected to the flat battery 1
is connected to the terminal as shown in FIG.

That is, five flat batteries 1 are connected in series by a connecting portion 2, and the output voltage thereof is outputted to the outside via a thermal protector 4. Therefore, if a short circuit accident occurs, the current increases, and the temperature of the flat battery 1 rises above a predetermined reference value, the thermal protector 4 is turned off. This cuts off the output.

When the short circuit is removed and the temperature drops, the thermal protector 4 self-resets and turns on again. As a result, voltage is output again.

On the other hand, during charging, the temperature of the flat battery 1 is monitored by the thermistor 5. In the flat battery 1, the voltage at the end of charging changes depending on the battery temperature during charging (when the temperature is low, the battery voltage increases, and conversely, when the temperature is high, the battery voltage decreases). When the battery voltage reaches the end-of-charge voltage corrected by the output of the thermistor 5 (temperature of the flat battery 1), it is determined that charging is complete.

If the capacities of the flat batteries 1 are different, the states during charging will be different, which is not preferable. Therefore, each flat battery 1 is formed to have the same volume so that the capacity is the same. Therefore, in this example, the width,
The height and length are set so that WiH1L=W2H2L.

FIG. 4 is a perspective view showing the configuration of another embodiment of the assembled battery device of the present invention, and parts corresponding to those in FIG. 1 are given the same reference numerals.

In this embodiment, the height H3 and width W3 of the two flat plate battery holes on the right side are set to different values from the height H height and width W1 of the #3 flat plate battery holes on the left. Of course, in this case as well, the dimensions are set so that the volume of each flat battery l is the same.

Thereby, a wider space 11 can be generated. This space 11 is asymmetric (3W1
≠2W3), this asymmetry can be used to attach the battery to the main body (not shown) in only one direction. In this way, incorrect attachment is prevented.

〔Effect of the invention〕

As described above, according to the assembled battery device of the present invention, at least one of the flat batteries to be combined is shaped differently from the others to create a predetermined space, and a thermal protector or thermistor is installed there. etc., and the occurrence of dead space can be reduced. Therefore, the device can be downsized, which is particularly advantageous when used in portable electronic equipment.

7-Furthermore, when this space is generated asymmetrically, it is possible to utilize this space to unify the mounting direction for the electronic device and prevent incorrect mounting.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing the configuration of an embodiment of the assembled battery device of the present invention, FIG. 2 is a perspective view showing the configuration of an example of the conventional assembled battery device, and FIG. FIG. 4 is a perspective view showing the configuration of another embodiment of the assembled battery device of the present invention. Engineering...Flat battery 2...Connection parts 3a, 3b...Output terminal 4...Thermal protector 5...Thermistor...Space

Claims (1)

[Scope of Claims] One or more first flat batteries having predetermined lengths, widths, and heights; and at least two of the lengths, widths, and heights of the first flat batteries. one or more second flat batteries that are different from the above and have the same volume as the first flat battery; and a connecting portion that connects the first or second flat batteries in series. An assembled battery device comprising: