JPS59177853A - Nonaqueous solution battery - Google Patents

Abstract

PURPOSE:To increase the moisture resistance of a nonaqueous battery by carrying out its sealing after a molecular sieve is inserted into a gasket provided with a penetrating or nonpenetrating hole. CONSTITUTION:A gasket 6 for a nonaqueous solution battery is made by forming a hole 4 with diameter of 2-5mm.phi between a raised section 2 and a raised section 3 which are respectively located outside and inside the seat section 1 of the gasket 6, then inserting a molecular sieve in the hole 4. Assembly of the battery is carried out by attaching a sealing plate 5 and the above gasket 6 to each other, packing a negative active material, pouring a given amount of electrolyte and inserting an electrolyte-holding member (nonwoven fabric) 8 also serving as a separator. On the other hand, a positive tablet agent is packed into an outer can 7. After that, the outer can 7 packed with the positive tablet agent is attached to the above sealing plate 5 to seal the battery. As a result, the moisture resistance of the nonaqueous solution battery is increased. Besides, increase in the resistance can be suppressed and the self deterioration rate can be improved.

Description

[Detailed description of the invention] This is related to suppressing stress and improving self-deterioration rate.

Since non-aqueous batteries are extremely susceptible to the effects of moisture, it is natural that all parts used must be thoroughly dehydrated, but the environment in which these parts are assembled and sealed must also be carefully cleaned. It is necessary to keep it in a dehumidified state close to 100%.Also, it is necessary to completely seal it or take special measures to prevent it from being affected by the outside atmosphere even after it is made into a battery.

If it were possible to perform even one of these battery-making operations in normal atmosphere, it would be a great business advantage. The present invention aims to improve the effect of the above by providing one or more holes into which a K molecular sieve agent can be inserted, and in which a molecular sieve agent with remarkable water absorption effect is provided. It is possible to use a device loaded with . This effectively works to absorb moisture remaining from insufficient dehydration of parts and to trap moisture that diffuses and permeates from the outside air. It also helps secure the pedestal.

Examples will be explained below using figures.

FIG. 1 does not show a sectional view of the gasket actually used. In the figure, 1 is the pedestal part of the gasket, 2 is the rising part on the outside, and 6 is the rising part on the inside.

4 is a hole drilled with the same gas hole (diameter is 2 mm or more) 5
It is preferable to have a diameter of about 96 mm, but it is not limited to this, and the shape is not limited to a cylindrical shape but may be any shape. It should be noted that one or more holes may be provided in a hole other than the pedestal portion 1 as shown in the figure.

It is best to cut a hole in the gasket like 4 in FIG. 1 in advance into the injection mold, but it is also possible to make the hole in the gasket molded product by processing it later.

The mole sieve to be charged into the hole may be in the form of powder, or it is even better if it is press-molded and bound into a suitable shape and then charged into the hole.

As for Molecule Sieve, commercially available product 4L4 shows good results.

FIG. 2 is a cross-sectional view of parts for assembling a non-aqueous battery according to the present invention (
Fig. 3 shows a diagram of the completed battery σ■1 (battery contents are omitted). 5 is the sealing board, 6
7 indicates a gasket, 7 indicates a can, and 8 indicates a separator/electrolyte holding material (non-woven fabric).

To assemble the battery, first, the sealing plate 5 and the gasket 6 are fitted together, a cathode active material is loaded therein, an electrolyte is poured in a fixed amount, and a separator and electrolyte holding material (non-woven fabric) is inserted. On the other hand, Ichigai can 7
The anode tablet is loaded in the holder, and the holder is fitted with the sealing plate to seal it, thereby completing the process as shown in Fig. 3.

The battery assembled and completed according to the present invention is 60゛C19
The rate of self-deterioration and increase in resistance when left standing at 0% relative humidity for 50 days are much lower than those of conventional products.

Additionally, there is little dimensional variation in the finished battery.

Furthermore, the influence of dehydration of the battery contents and deterioration of the battery assembly environment is significantly reduced.

Of course, the shape of the completed battery may be different and the same results can be obtained.

[Brief explanation of drawings]

Fig. 1 is a sectional view of a gasket according to the present invention, Fig. 2 is a sectional view of parts for battery assembly according to the present invention (excluding battery contents)
, FIG. 3 is a sectional view of a completed battery according to the present invention (excluding battery contents). 1...Gasket pedestal part, 2...Outer rising part of the gasket, 6...
・・・Rising part on the same inner side,

Claims (1)

[Claims] A non-aqueous battery characterized in that a Molecule Sieve is inserted into a gasket provided with a hole deep enough to be penetrated or not penetrated.