JPH01239762A - Forming method for lead-acid battery terminal - Google Patents

Abstract

PURPOSE:To automatically form an electrode for high rate application by inserting a terminal post into a hollow cylindrical bushing terminal, and passing current with their wide contact surfaces retained for welding them. CONSTITUTION:The bottom of a hollow cylindrical bushing terminal 12 is embed ded in a container cover 1. A post terminal 13 is fitted to the inside of the bushing terminal 12, and the side of its inserted part is in contact with the side wall of the bushing 12 so that the contact surface is allowed to pass required large current after welding. Electrodes 14, 14' are arranged at the top and on the side of the bushing terminal 12 and current is passed between electrodes. By heat generated, the post terminal 13 is welded to the bushing terminal 12 through an insulating tool 15. This process is able to be made automatically and the welded part area is widened so as to be able to pass large current.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to an improvement in a method for forming lead acid terminals.

(Prior art) As shown in FIG. 1, a conventional method for forming a lead-acid battery terminal is to insert a lead-alloy terminal electrode into a lead-alloy hollow cylindrical bushing terminal 2 buried in a V-projecting manner from the surface of a battery case lid 10. After extending the pillar 3 and pressing the insulating mold jig 4 against the side surface of the bushing terminal, the top t of the bushing terminal 2 and the pole terminal 3 is
The two burners are heated and melted by a heat source 5 such as an arc and then welded together to form a terminal 6 as shown in FIG. A lead alloy terminal pole post 3 is inserted into the buried lead alloy hollow cylindrical bushing terminal 2, a hollow cylindrical insulating jig 4 is attached to the top of the bushing terminal, and the bushing terminal is inserted from the top of the jig. Pour all of the bath molten lead 7 into the tops of the terminals 2 and pole terminals 3, and weld them together as shown in Figure 4 to form the terminals 6.
It is completely bottomed.

However, among these methods, in the case of the former method, it is possible to perform automated operation, which improves work efficiency;
Since it is not possible to take up the entire area of the welding area, it is necessary to store large current discharge! There was a problem that it could not be applied to ponds. Also, since the area of the welded part is large when using the latter method, it is necessary to store a relatively large current for discharge. Although it could be used for ponds, there was a problem that it could not be operated automatically and had poor workability.

(Problems to be Solved by the Invention) As a result of extensive research in view of the current situation, the present invention has been developed to facilitate workability and to be applicable to storage X-cells for large current discharge.
A method for forming terminals has been developed.

(Means for Solving the Problems) The method of the present invention involves inserting a terminal pole into a hollow cylindrical bushing terminal whose lower end is embedded in an xm lid, and attaching electrodes to the top and side of the diameter wire bushing terminal, respectively. Attachment is characterized in that an insulating jig is brought into contact with the side surface of the bushing terminal and a current is passed between the electrodes to weld the bushing terminal and the terminal pole post.

(Example) As shown in FIG. 5, a hollow cylindrical bushing terminal 12 made of lead alloy in the cage lid 1J is embedded with its lower end, and the lead is placed inside the bushing terminal at a height approximately equal to the top of the bushing terminal. After fixing the alloy terminal pole J3, fully attach the steel alloy electrodes 14 and 14' to the top and sides of the seven-lunge terminal, respectively, and attach the ceramic holding jig 15 to the side of the bushing terminal 12. By passing a current of about 100 OA for 5 seconds between the diameter wire electrodes J 4 and J 4' that are in contact with each other, the bushing terminal melts, covering the top of the pole pole terminal and separating the bushing terminal and pole pole terminal. By sealing the gap J6, a lead storage terminal noa as shown in FIG. 6 can be formed.

(Effects of the Invention) As detailed above, according to the method of the present invention, it is possible to weld the bushing terminal, the pole terminal, and the part having a large metal area, so that it is possible to apply a large current to the terminal and to automatically The operation in which all the terminals can be formed is extremely simple and the work efficiency is improved.

[Brief explanation of the drawing]

Figures 1 to 8g4 show a conventional method for forming terminals for lead-acid batteries, Figures 1 and 3 are process illustrations, Figures 2 and 4 are terminal illustrations, FIG. 5 is a schematic explanatory diagram showing a method for forming a terminal for a lead-acid battery according to the method of the present invention, and FIG. 6 is an explanatory diagram of a terminal formed by an embodiment of the method of the present invention. 1.11... Tan lid, 2, 12... Bushing terminal, 3.13... Pole terminal, 4, 15... Insulating jig, 5... Heat source, 6. J7...terminal, 7...molten lead, 14, 14'...electrode, 16...gap portion. Applicant's agent Patent attorney Takeshi Suzue Music 1 Figure 2 Figure 3

Claims (1)

[Claims] After inserting the terminal pole into a hollow cylindrical bushing terminal whose lower end is buried in the battery case lid, electrodes are attached to the top and sides of the bushing terminal, and an insulating mold jig is attached to the side of the bushing terminal. A method for forming a terminal for a lead-acid battery, comprising the steps of welding the bushing terminal and the terminal pole by abutting a tool and passing a current between the electrodes.