JPS60105163A - Manufacture of secondary battery - Google Patents

Abstract

PURPOSE:To bond at the same time terminal posts and a cover, and a container and a cover by installing a cylindrical post inserting part with bottom in a cover of container and filling adhesive in the inserting part, then inserting a post of plate group into it. CONSTITUTION:A cup-shaped cylindrical post inserting part 12 is formed in a cover 1. Adhesive 5 is filled in a groove installed in the inside of the cover 1, in which a U-shaped connector connecting between cells is embedded, and in the inside of the inserting part 12, and in a circular concavity installed in the periphery, to be bonded with a container, of the cover 1. After the cover 1 is placed upside down, a container 2 into which a plate group 3 is inserted is covered on the cover 1, and a terminal post 6 is inserted into the post inserting part 12 with adhesive 5. After adhesive was solidified, the inserting part 12 is cut along the line A-A' to expose the tip of the post, then a lead 10 is connected to the post. Since bonding is performed in one process, assembly is simplified.

Description

DETAILED DESCRIPTION OF THE INVENTION This invention relates to a method for manufacturing storage batteries, and in particular improves the method of bonding terminal poles and lids.

Conventional configuration and problems thereof A specific example of a method of adhering a terminal pole to a lid in a lead-acid battery will be described with reference to the drawings.

As shown in FIG. 1, an adhesive 6 is filled in the recessed part where the U-shaped connecting body 4 connecting the cells placed on the back side of the lid 1 is buried, and in the annular recessed part of the outer peripheral part where it will be bonded to the battery case 2. Next, there is a step of covering the battery case 2 upside down with the lid IK electrode plate group 3 inserted with the back side facing upward and gluing it. At this time, the terminal pole post 6 is not buried in the adhesive 6, but is brought out through the pole post hole 7 of the lid 1. Next, after the step of solidifying the adhesive, the battery is returned to the IE normal position as shown in FIG. After that, to prevent the adhesive 9 for fixing the terminal pole post 6 to the lid IVc from falling from the pole post hole onto the electrode plate group 3 on the back side of the cell, cover the terminal pole post 6 with a rubber bag/glue 8, Solder the tip and lead wire 10. After this, through the process of filling the recess with adhesive 9,
The terminal pole and the lid are bonded together by solidifying the adhesive. The battery is then completed by attaching an upper lid 11 to the lid 1. However, this battery manufacturing method requires the adhesive work to be carried out in two stages: the U-shaped connection part that connects the cells and the terminal pole part, which not only takes a lot of man-hours but also requires hardening of the adhesive. Since it takes about 2 hours to complete the battery, it has the disadvantage that it takes too much time to complete the battery.

Purpose of the Invention The object of the present invention is to bond the terminal pole and the lid at the same time when bonding the battery case and the lid, and to fix the terminal pole to the lid easily and economically. That is.

Components of the Invention The method for manufacturing a storage battery of the present invention is to provide a lid with a bottomed cylindrical pole pole insertion part, fill the outer periphery of the back of the lid and the pole pole insertion part with an adhesive, and a battery case with a pole pole insertion part. This method is characterized by the steps of inserting the poles of the inserted electrode plate group into the pole-post insertion portions, and after solidifying the adhesive, cutting the pole-post insertion portions to take out the terminals.

According to the present invention, it is possible to bond the terminal pole and the lid at the same time as bonding the battery case and the lid.

DESCRIPTION OF EMBODIMENTS Examples of the method of manufacturing the storage battery of the present invention, particularly the method of adhering the terminal pole to the lid, will be described with reference to the drawings. First, as shown in FIG. 3, a cup-shaped bottomed cylindrical pole column insertion part 12 is formed integrally with the lid IVC, and a U-shape connecting the cells is provided on the back side of the lid 1. The adhesive 6 is filled in the recessed portion where the connecting body 4 is buried, the inside of the pole insertion portion 12, and the annular recessed portion on the outer periphery that is bonded to the battery case 2. At this time, the inner diameter of the pole post insertion part 12 has a small clearance between it and the pole post 6, and the thickness of the pole post 6 is made thinner, thereby making the subsequent cutting process easier. In this example, the clearance is 0.11ni, and the wall thickness of the cylinder is i0.
As 3#π, a taper was provided at the entrance of the cylindrical part to facilitate insertion of the pole column.

Next, the battery case 2 with the electrode plate group 3 inserted therein is placed upside down on the lid 1 with the back facing upward, so that the terminal pole post 6 enters into the pole post insertion portion 12 together with the adhesive 5. Pole terminal 6
The amount of adhesive 5 that adheres to the pole terminal 6 is determined by the clearance between the inner diameter of the cylindrical portion and the outer diameter of the pole terminal 6 as described above. In order to reduce this clearance as much as possible, in the embodiment, 0
．． 1#III+, and in order to facilitate the introduction of the pole column 6 into the cylindrical portion, a taper was provided to gradually reduce the diameter.

Next, after a couple of steps to solidify the adhesive, the VC battery is returned to its normal position as shown in FIG. Next, the bottomed cylindrical pole column insertion part 12 provided on the lid 1 is cut along the line A-A' VCG in FIG. 3 to expose the tip of the pole column, and a lead wire 1 of : By soldering and attaching it to the upper lid 11, the battery is completed.

Effects of the Invention As described above, the present invention makes it easy to bond the terminal pole and the lid at the same time when bonding the battery case and the lid, and also makes it easy to expose the terminal pole. It worked.

(1) Adhesion man-hours can be reduced.

(2) The time required to complete the battery can be shortened.

(3) Cost reduction can be achieved.

[Brief explanation of the drawing]

Figure 1 is a cross-sectional view of the conventional storage battery manufacturing method with the battery case facing the other way, and Figure 2 is a cross-sectional view of the battery in its normal position and after the terminal pole and lid have been fixed with adhesive. , FIG. 3 is a cross-sectional view when the battery case is turned upside down and adhered to the lid in one embodiment of the method for manufacturing a storage battery of the present invention, and FIG. 4 is a partial cross-sectional view of the storage battery in its normal position. It is. 1... Lid, 2... Battery case, 3...
... Plate group, 4 ... Connection body, 5 ... Adhesive, 6 ... Terminal pole post, 7 ... Pole post hole, 10. ... Lead wire, 11 ... Upper lid, 12 ... Bottomed cylindrical pole column insertion part. Name of agent: Patent attorney Toshio Nakao and one other person Figure 3 Figure 4

Claims (1)

[Claims] A step of providing a bottomed cylindrical pole pole insertion part on the lid, and filling an adhesive into the outer circumferential recess on the back of the lid and the +tJA pole Jrlj part, and inserting the pole pole of the object board group inserted into the battery case into the pole pole. The terminal pole is inserted into the insertion portion], the step of solidifying the filled adhesive, and the step of removing the terminal pole by cutting the cylindrical pole insertion portion.
:Characteristic storage battery manufacturing method.