JPH01292749A - Production equipment of lead-acid battery - Google Patents

Abstract

PURPOSE:To increase productivity by distributing lead particles supplied from a weighing mechanism to a comb teeth-shaped casting mold arranged in a strap forming part of a lead-acid battery. CONSTITUTION:Lead particles a made of pure lead or a lead alloy are fed to a weighing apparatus 2 of a weighing mechanism B from a parts feeder 1 of a supply mechanism A. When the weight of the lead particles a reaches suitable weight for forming a strap, the supply of the lead particles a is discontinued. The bottom of the weighing apparatus 2 is opened and the lead particles a drop into a distribution measure 3. The distribution measure 3 is moved with an X-Y table 4 and reaches a comb teeth-shaped casting mold 6, with which lugs c are engaged, on an assembly table 5 on which a plate group b of a lead-acid battery is placed. The bottom of the distribution measure 3 is opened and the lead particles a are supplied into the comb teeth-shaped casting mold 6, a worker melts the surfaces of the lugs with a burner and also melts the lead particles a to form a strap. Productivity is increased.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a lead-acid battery manufacturing apparatus that connects a plurality of electrode plates at their ears to form a pole group. After placing it in the comb-shaped mold,
A so-called connection is made by filling a comb-shaped mold with pure lead, a lead-calcium alloy, or a lead-antimony alloy, and simultaneously melting the surface of the ear part to form a strap. This paper concerns improvements to the burning method.

'r and its. - Traditionally, the method for forming electrode groups for lead-acid batteries is to place the ears in a comb-shaped mold, then melt lead and fill it into the comb-shaped mold.At the same time, the surface of the ears is The so-called burning method, in which the poles are connected by melting, and the so-called cast-on-strap method, in which the poles are held upside down and their ears are immersed in a mold filled with molten lead, are commonly used. There is.

Among these methods, the cast-on-strap method requires the removal of the oxide film on the surface of the ear in advance, and has the disadvantage that the reliability of the joint is poor.

On the other hand, the burning method has the advantage of high reliability because the connection is made while burning the surface of the ear with a burner.

However, in this burning method, the worker works while melting the rod-shaped leg lead, so each time the leg lead becomes shorter, the next leg lead must be joined to it by welding. There is a problem in that it requires a corresponding amount of time, and since lead has a high specific gravity, it is difficult to reduce the number of times of joining by increasing the lead lead.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and its object is to improve production efficiency by performing the work of joining rod-shaped lead leads in the burning method.

The structure of the invention, that is, the invention is a lead-acid battery manufacturing apparatus, which includes a supply mechanism that automatically supplies lead particles, a metering mechanism that automatically measures the lead particles from the supply mechanism to a desired amount, and a metering mechanism that automatically measures the lead particles from the metering mechanism. The present invention is characterized by comprising a distribution mechanism that automatically distributes lead particles to a comb-shaped mold disposed in a strump forming portion of a lead-acid battery.

Example The present invention will be explained below with reference to one embodiment thereof.

That is, FIG. 1 is a schematic diagram of one embodiment of the present invention.

In the drawings, A is a supply mechanism, which is composed of a parts feeder 1. From the parts feeder 1, lead particles a made of pure lead or lead alloy and having a diameter of about 1 to 8 mm are sequentially supplied into a weighing machine 2, which is a weighing mechanism B. The weighing machine 2 is equipped with a load cell, and the weight of the supplied lead particles a is sent as an electric signal to the control unit.
When the weight of the lead grains a in the weighing machine 2 reaches the weight required for forming each individual strump, the supply of the lead grains a from the parts feeder 1 is temporarily stopped.

Subsequently, the bottom of the weighing machine 2 is opened, and the lead particles a fall into the distribution valve 3 located below. The distribution valve 3 is provided according to the number of straps, and the X-Y table 4
As a result, lead particles a are sequentially supplied to the distribution valve 3. After lead grains a have been supplied to all the distribution valves 3, the distribution valves 3 are moved forward by the X-Y table 4, and the ears C of the assembly table 5 on which the pole groups of the lead-acid battery are arranged are engaged. The lead particles a are moved onto the comb-shaped mold 6, and then the lower part of the distribution valve 3 is opened to supply the lead particles a into the comb-shaped mold 6. The distribution valve 3 and the X-Y table 4 described above constitute a distribution mechanism.

After the above steps, a strap can be formed by an operator using a burner to melt the surface of the ear part and then melting the lead grains a. Further, during this burning operation, the next lead grain a is prepared in the distribution valve 3.

Although one embodiment of the present invention has been described in detail above, the present invention can be implemented in various ways without departing from its spirit, such as connecting a lead grain forming mechanism in front of a supply mechanism or automating a burning operation. You can think of various aspects.

Effects of the Invention As described above, according to the present invention, in the burning method, the desired amount of lead is automatically supplied into the comb-shaped mold, so the work of joining the lead legs is not required, and production efficiency can be improved. .

In addition, the worker does not need to hold heavy lead feet and can free up one hand, reducing the burden on the worker and making it easier to automate the burning process if necessary. There are advantages.

Furthermore, since lead grains can be supplied accurately, uniform products can be provided.

In other words, the present invention has extremely great industrial value.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing an embodiment of the present invention. A--Supplying mechanism B----1 Measuring mechanism C----
Distribution mechanism 1-111 parts feeder 2-111 weighing machine 3-111 distribution box 4----
X-Y table 5-11 Assembly table 6----Comb shaped mold a---
-Lead grain b---Unipolar group C---Ear part

Claims (1)

[Claims] A feeding mechanism that automatically supplies lead particles, a measuring mechanism that automatically measures the lead particles from the feeding mechanism to the desired amount, and automatically placing the lead particles from the measuring mechanism in the strap forming part of the lead-acid battery. 1. A lead-acid battery manufacturing apparatus, comprising: a distribution mechanism for distributing the liquid to a comb-shaped mold.