JPH046119Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Field of Application The present invention relates to a sealed structure for a sealed lead-acid battery including an outer sheath made of a sheet-like or film-like synthetic resin and a pole lead-out part.

Conventional Structure and Its Problems When a conventional sealed lead-acid battery is composed of two or more single cells, it is mainly adopted that the cells are housed in a container case having a partition.
In this case, the final battery is formed by housing a plurality of sealed lead-acid batteries in separate container cases.
However, in such a case, it is impossible to replace a battery with a 12V output specification, which is a collection of many unit cells, for example, into a battery with a 6V output specification, which is a collection of a small number of unit cells.

Purpose of the invention The present invention eliminates the shortcomings of conventional batteries and develops a sealed lead-acid battery that can freely construct a lead-acid battery consisting of multiple cells with desired voltage output specifications using any combination of single cells. This invention relates to the hermetic structure of the outer sheath and pole part of the battery.

The biggest problem in constructing a unit cell is to extract the poles of the unit cell from the outside of the battery pack material while maintaining airtightness. The present invention provides a unit cell of a sealed lead-acid battery in which the pole pole can be easily pulled out from the outside of the battery pack material while maintaining airtightness between the battery pack material and the battery pack material.

Structure of the invention The present invention maintains airtightness between the unit cell, two pole poles integrally provided thereon, and these pole poles.
It has a seal part made of synthetic resin that partially surrounds a part of the pole column, and an exhaust valve made by butting two synthetic resin sheets or films, and is airtightly joined to the seal part, and the exhaust valve The device is characterized in that the unit cell is airtightly packed almost in accordance with its shape with an outer covering part made of a battery pack material made of a synthetic resin material that maintains airtightness except for the part.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described. In FIGS. 1 and 2, 1 is a unit cell 10 held between two battery pack materials 6, 6' made of, for example, sheet-like or film-like synthetic resin;
Reference numeral 2' designates two pole pillars that partially surround the sealing members 3, 3', and are welded to the positive and negative electrodes 4, 5 of the unit cell at portions 7 and 7', respectively. A portion of the pole columns 2, 2' is drawn out to the outside of the battery pack material while maintaining airtightness with the battery pack material. Reference numeral 8 denotes an exhaust valve constructed by butting two sheets or films together, and is provided at a part of the joint portions 9, 9', 9'', 9 on the periphery of the battery pack materials 6, 6'.
A unit cell is enclosed inside the airtight outer cover 10,
When the pressure of the gas generated during charging exceeds a certain value, it opens and discharges the gas to the outside.

In this embodiment, a lead alloy is used as the material for the pole pillars 2, 2', and a seal portion 3, 3' made of plastic is formed by injection molding to be airtight so as to surround a part of the pole pole. However, the pole pole material does not necessarily have to be a lead alloy, and any acid-resistant conductive material is sufficient.Also, the seal part can be airtightly joined to the pole pole by injection molding directly onto the pole pole. This is preferable because it can be processed in a simpler manner than a method of coating or a method of holding a pre-formed gap-fitting member in an airtight manner. The manufacturing method in this example is carried out in the following order. First, to the unit cell 1, weld 7,
7'. The unit cell 1 to which the pole pillars are connected is placed in the first
Insert the pole pillars 2, 2' into the interior 10 of the sealed battery pack material 6, 6' from the unsealed part 9', with the part shown by the downwardly hatched part 9 on the left in the figure. , 9'', 9 are made to protrude from the interior 10 to the outside, and the sealed portions 3, 3' of the pole pillar are aligned with the unsealed portions 9'', 9 of the battery pack material.
Thereafter, the unsealed parts 9', 9'', and 9 are hermetically sealed by heating or the like to approximately correspond to the shape of the unit cell 1 to form a unit cell.The seal here is a bonding of plastics together, and the So I decided to use heat fusion,
The method is not particularly limited, and a method such as high frequency welding or ultrasonic welding may be used.

Effects of the invention By manufacturing sealed lead acid cells at low cost and with high quality in this way, it becomes possible to easily construct a lead-acid battery by packing multiple unit cells together. The most difficult problem here is to connect the pole poles to the unit cell while maintaining airtightness between them, but it is extremely difficult to directly join the battery pack material to the pole poles while maintaining airtightness. It is difficult to However, as in the present invention, it is very easy to inject and extrude a seal part made of synthetic resin onto the pole pole in advance and make it partially go around the pole while maintaining airtightness. It is also easy to form the outer cover by airtightly joining the battery pack materials. Therefore, the present invention makes it possible to construct a high-quality and inexpensive sealed lead-acid battery.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the configuration of a sealed lead-acid battery according to an embodiment of the present invention, in which the pole lead-out portion is kept airtight;
FIG. 2 is a diagram showing a state in which a seal portion is airtightly formed on the pole pole of the same storage battery. 1...Battery, 2,2'...Pole column, 3,3'...
Seal member, 6, 6'...Battery pack material, 9,
9', 9'', 9...joint part.

Claims (1)

[Scope of utility model registration request] A synthetic resin seal part formed by injection molding that maintains airtightness between the pole pole and the pole pole partially goes around the pole pole, and a battery pack material made of sheet-like or film-like synthetic resin is used to seal the outside. The resin seal part of the pole pillar is airtightly joined to the battery pack material, and an exhaust valve made of two sheets or films butted against each other is provided in a part of the battery pack material. A sealed lead-acid battery that maintains airtightness except for the outer part, with a portion of the pole exposed outside the battery.