JPS5929357A - Manufacturing method of terminal for lead-acid battery - Google Patents

Abstract

PURPOSE:To obtain a lightweighted terminal with high connection reliability by using an alloy with a configuration memory effect as the connection section between a bushing provided with terminals and a post, and restoring the alloy after deforming the alloy, and engaging the bushing provided with the terminals with the post. CONSTITUTION:A cylindrical body 7 prior to its deformation is so designed that its outer diameter d1 can be larger by 4% than the inner diameter d3 of the lower opening section of a bushing 5 provided with terminals and the inner diameter d2 can be smaller by 4% than the outer diameter d4 of the small diameter section 6a of a post 6. Then, the cylindrical body 7 is subjected to pressing process so that the outer diameter d1 can be smaller than d3 and the inner diameter d2 can be larger than d4. In this state, a cylindrical body 7' can easily be inserted in the post 6 and these can also be inserted easily in the bushing. Subsequently, the cylindrical body is restored to the original shape prior to the pressing process by making hot air flow directly in from the liquid port of the cover or by inserting an air tube and spraying hot air directly near the cylindrical body.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method for manufacturing terminals for lead-acid batteries, and more particularly to an improvement in the connection between a bushing with a terminal and a pole pole.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Conventional Structure and Problems A conventional method for manufacturing a terminal in which a terminal bushing and a pole pole of a lead-acid battery are connected will be explained with reference to FIG.

In FIG. 1, reference numeral 1 denotes a bushing with a terminal, which is inserted into the terminal portion 2 during molding of the lid.

Reference numeral 3 denotes a pole post, which is inserted into the shipping 1 from below the lid, and then the upper part of the terminal is welded to form the connecting part 4. Since the bushing and the pole pole are connected by welding in this way, welding equipment is indispensable, and since the lead is melted at high temperatures, harmful lead fumes are generated. Furthermore, since welding is performed at the upper part of the terminal, the length of the pole pole must be at least long enough to reach the connecting part. Here, in order to reliably connect the bushing and pole column, the melting depth must be at least a certain depth, but whether or not the connection has been reliably performed cannot be confirmed from the outside.

SUMMARY OF THE INVENTION It is an object of the invention to provide a lightweight terminal portion with high connection reliability.

Structure of the Invention The present invention uses an alloy with a shape memory effect in the connection portion between the terminal bushing and the pole pole, and after fully deforming the terminal bushing and the pole pole, the alloy is restored. let me,
This achieves a tight fit between the terminal bushing and the pole post.

Here, as an alloy having a shape memory effect, for example, M-
Aluminum-zinc alloy, titanium-21. /Kell alloy is used.

In the present invention, this type of alloy is used to form at least one of the bushing with a bushing and a pole pole, or a cylindrical body interposed between the two, and the cylindrical body is deformed to fit the bushing with a threaded end and a pole pole. After fitting, the alloy portion is restored to its original state, and as shown in FIG. 2, a terminal-equipped bushing with a closed top is inserted into the terminal portion 2 during molding of the lid.

6 is a pole column having a small diameter portion 6a at its upper end.

Both the terminal bushing and the pole post 6 are made of lead or a lead alloy.

7' shows a deformed state of a cylindrical body made of a titanium-nickel alloy with a shape memory effect.
As shown in FIG.
2 is designed to be 4% smaller than the outer diameter d4 of the small diameter portion 6a of the pole column 6.

Next, by pressing the cylindrical body 7, the outer diameter d1 is changed to d3.
The inner diameter d2 is machined to be smaller than d4. In this situation, the cylinders 7' can be easily inserted into the pole posts 6, and it is also easy to insert them into the bushings. After that, the cylindrical body is restored to its pre-pressurized shape by letting warm air directly flow in from the liquid opening of the lid or by inserting a blower pipe and blowing hot air directly near the cylindrical body.
figure).

This hot air promotes the restorability of the shape memory alloy, and a temperature of 100°C or less is sufficient. As mentioned earlier,
Since the outer and inner diameters of the cylindrical body are sized in advance so that the bushing and pole pillar fit tightly together, the connection is secure.

In the above embodiment, a shape memory alloy is used for the hollow cylindrical body, but it can also be used for a pole pole or a bushing and fitted in the same manner as described above.

On the other hand, a shape memory alloy that maintains a transformation temperature considerably lower than room temperature may be used. In this case, after insertion by applying pressure or other deformation at a low temperature, the fitting is restored and completed simply by returning to room temperature.

Effects of the Invention According to the present invention, the following effects can be obtained.

(1) The reliability of the connection between the bushing and the pole pole is significantly improved. (2) There is no lead melting process in the manufacturing process, so no welding equipment is required, and no harmful lead fume is generated. (3) The bushing and pole pole can be connected at the lowest part of the bushing, making it much shorter than conventional pole poles, making it possible to reduce the overall weight of the battery.

[Brief explanation of the drawing]

FIG. 1 is a vertical cross-sectional view showing a conventional terminal part, FIG. 2 is a vertical cross-sectional view showing the state when the pole pole is inserted into the bushing, and FIG. 3 is a vertical cross-sectional view of the cylindrical body before deformation under pressure. FIG. 4 is a vertical cross-sectional view showing a state in which the fitting is completed. 06... Bushing with terminal, 6... Pole column, 7... Cylindrical body. Name of representative Patent attorney Toshio Nakao and 1 other person 1st
Figure 2 Figure 4

Claims (2)

[Claims] (1) At least one of the terminal bushing and the pole pole that fits into this bushing is made of an alloy with a shape memory effect into a shape that fits closely with the other, and this is deformed into a shape that allows both to fit easily. A method for manufacturing a terminal for a lead-1 battery, characterized in that the two are fitted together, and then the terminal made of the alloy is restored. (2) Make a cylindrical body using an alloy with a shape memory effect, the outer diameter and inner diameter of which are large enough to tightly fit into the terminal case bushing and pole pole, respectively, and loosely fit this cylindrical body into the terminal example bushing and pole pole. A method for manufacturing a terminal for a lead-acid battery, which comprises deforming the cylindrical body to a size suitable for fitting, fitting a terminal bushing and a pole post through the cylindrical body, and then restoring the cylindrical body.