JPS63231872A - Manufacture of lead-acid battery - Google Patents

Abstract

PURPOSE:To increase productivity by inserting the lugs of a plate group and a partition for forming slits in a mold for uniting straps which connect lugs of anodes and cathodes and a connector which connects the straps, and uniting the connector. CONSTITUTION:Lugs 2 and 4 of cathode plates 1 and anode plates 3 are connected with straps 5, then the straps 5 are connected with a connector 6 to form a storage battery. A mold having a cathode side recess 9, an anode side recess 10, and a connector recess 11 is produced, and molten lead 8 is filled in the mold, then the lugs 2, 4 and a partition 13 are immersed in the molten lead 8. After solidifying the molten lead, the mold and the partition 13 are removed. Thereby, the strap 5 and the connector 6 are bonded with no casting fins formed. Therefore, productivity and reliability are increased.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method for manufacturing lead-acid batteries, and more particularly to an improvement in the method for manufacturing straps and connectors for monoblock lead-acid batteries.

Conventional technology and its problems Conventionally, in monoblock lead-acid batteries, the straps and poles are simultaneously formed by welding the ears of the pole group with molten lead in a mold, and then chamber holes are formed in the cell partition wall in advance. However, a manufacturing method was adopted in which the cathode and anode columns placed through the partition wall were resistance welded at the positions of the holes. Also, a manufacturing method was used in which the poles were welded at the top of the bulkhead. Both manufacturing methods required a post-step process after strap formation to weld the poles together and an inspection process to confirm the reliability of the welded parts. This has the problem of complicating the process, requiring more man-hours, poor productivity and increasing battery production costs.

OBJECTS OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and it is an object of the present invention to provide a highly productive, inexpensive, and highly reliable lead-acid battery.

Structure of the Invention In order to achieve the above-mentioned object, the present invention includes a mold in which a mold is filled with molten lead, which integrates a strap that connects the ears of each negative and anode plate group of a cell to be shielded, and a connecting body that connects each strap. , by immersing the ears of the electrode plate group in molten lead, and closely inserting a splitter plate forming a slit into the inner surface of the connecting body mold, and integrally forming the strap and a connecting body having 7 holes. Embodiment One embodiment of the present invention will be described with reference to the drawings.

Fig. 1 is a perspective view of the main parts formed by integrating a strap and a connecting body having a slit according to the present invention, and Fig. 2 is a side view showing the recess of the mold that will become the strap and the connecting body filled with molten lead. Figure 3 is a front view of Figure 2, Figure 4 is a side view of a state in which the electrode plate group and the dividing plate are tightly inserted into the wall of the mold recess that will serve as the strap and connecting body, and Figure 5 is the front view of Figure 4. FIG. 6 is a perspective view of a main part of a mold formed by integrating a strap and a connecting body.

Here, 1 is the anode plate, 2 is the lug of the anode plate, 5 is the cathode plate, and 4 is the anode plate.
is the cathode plate ear, 5 is the strap, 6 is the connection body, 7 is the slit, 8 is the molten lead, 9 is the anode side strap mold recess, 10
11 is a mold recess serving as a connecting body, 12 is a wall surface of the mold recess, 13 is a dividing plate, and 14 is a dividing plate wall surface.

A concave mold was used to form a strap that serves as a current collector and a connecting body that connects adjacent cells.

The recess is filled with molten lead. Immediately after that, the negative and anode plates of each of the adjacent cells are connected to each other through a dividing plate forming a slit for forming a connecting body with a connecting part at the upper part of the partition wall in the upper direction of the recess. Place the ears. These supporting plates and the ears of the negative and anode plate groups are moved downward and immersed in the molten lead. In this case, the supporting plate has the same cross-sectional shape as the recessed portion serving as the connecting body, and is brought into close contact with the recessed portion to push the molten lead apart. Further, the ear portion of the mold concave portion which becomes the strap is immersed in the molten lead and is bonded to the molten lead and welded. After the molten lead has solidified, it is separated from the mold and the support plate is removed. This results in
A connection body with a strap and a slit without flash could be formed.

In this way, the molten lead filled in the recess that will become the connection body is pushed apart by the dividing plate that is in close contact with both inner walls of the recess that will become the connection body, and the molten lead that is in close contact with both walls of the recess and both sides of the division plate is separated. Some molten lead is pulled back to the molten lead side by surface tension, and the slit portion of the connection body can be formed without any residual lead.

Furthermore, it is effective to apply, for example, carbon-based fine particles to the supporting plate in order to improve the surface tension.

The integrated strap and connection body according to the present invention can form a connection body with flash-free slits, so there is no need to remove flash and the process of welding the poles between cells is simple. This is unnecessary, and furthermore, an inspection process for confirming the reliability of the welded part is unnecessary.

Effects of the Invention As mentioned above, the present invention can provide a highly productive, inexpensive, and highly reliable lead-acid battery.
Its industrial value is extremely large.

[Brief explanation of drawings]

Fig. 1 is a perspective view of the main part showing one embodiment of the present invention, Fig. 2 is a side view of the mold recess filled with molten lead, Fig. 3 is a front view of the same, and Fig. 4 is an electrode plate in the mold recess. FIG. 5 is a front view of the same, and FIG. 6 is a perspective view of the main parts of the mold. 1... Anode plate 2... Lug of the anode plate 3...・Cathode plate 4... Cathode plate ear 5...
Strap 6... Connection body 7... Slit
8... Molten lead 9t10... Strap mold recess 11... Connector mold four parts 12... Wall surface of mold recess

Claims (1)

[Claims] A mold that integrates straps that connect the ears of each negative and anode plate group of adjacent cells and a connecting body that connects each strap is filled with molten lead, and the ears of the electrode plate groups are placed in the molten lead. A method for manufacturing a lead-acid battery, comprising: immersing the strap in a mold, closely inserting a supporting plate forming a slit into the inner surface of a connecting body mold, and integrally forming the strap and a connecting body having the slit.