JPS60121668A - Lead storage battery - Google Patents

Abstract

PURPOSE:To save the cost through reduction in amount of solder to be used by providing one or plural recessed portions to a metal plate for bridging on the occasion of brazing the end point of ear part protruded to the upper part of pole plate group to the metal plate for bridging. CONSTITUTION:A pole plate group is inserted into each cell chamber of battery case 1, the pole plate ear part 10 is held downward by rotating it for 180 deg., and the ear part 10 is placed opposing to the metal holding part 6 for bridging providing a high frequency heat coil 5. Moreover, the metal plates 8, 8' for bridging providing one or more recessed portions 11, 12 to the shallow recessed parts 7, 7' at the upper surface of holding part 6 and the solders 9, 9' provides as the brazing material provided thereon are also inverted, the ear part 10 is heated while it is pressed to the solders 9, 9' for connecting the pole plates of the same polarity and the pole plates of different polarities. Accordingly, the fused solder does not flow to the holding part 6 and perfect connection can be accomplished with reduced amount of solder.

Description

[Detailed Description of the Invention] Industrial Field of Application The present invention is achieved by brazing the tips of the ears that protrude above the electrode plate group inserted into each cell chamber of a battery case onto a connecting metal plate. , concerning the improvement of lead-acid batteries in the same cell room.

The configuration of the conventional example and its problems The conventional example will be explained with reference to the drawings. First, as shown in FIG. 1, a group of electrode plates consisting of a positive electrode plate 2, a negative electrode plate 3, and a separator plate 4 is placed in each cell chamber of a monoblock battery case 1 made of synthetic resin, which has a plurality of cell chambers integrated into it. Insert each one, top and bottom 1 as shown in the picture.
8CP inversion is held so that the electrode plate ear part is held downward, and the holding part 6 of the connecting metal plate with the high-frequency heating coil 6 provided at the lower part thereof is opposed to it. A shallow recess 7' is provided on the upper surface of the holding part 6.
is provided. Connecting metal plates 8, 8' made of solder-coated metal are supplied to the recesses 7, 7' on the upper surface of the holding part 6, and solder 9, 9' is further supplied thereon as a brazing material to complete the electrical connection. The edge portion 10 of the electrode plate group inserted into the tank is pressed against the solder 9, 9'. The solder 9.9' and the edge 1o self-heat due to the magnetic field lines of the high-frequency heating coil 5, and the temperature rises, causing the solder 9.9' to melt from the connecting metal plates 8, 8' and the tip of the edge of the electrode plate. The solder metal is bonded to the state. If the high-frequency coil is turned off in this state, the solder will cool and solidify, and as shown in Figure 2, the parallel connection between the ears of the same polarity plates, and the different polarity of adjacent cells across the top of the partition wall. The series connection between the ears of the plates is completed. However, in such a configuration, since the connecting metal is in the form of a plate, molten solder flows into the four parts 7 of the holding part 6, resulting in incomplete joints, and as a result, the expensive halves 1-11 are made into multiple parts. However, it has the disadvantage of being expensive.

Purpose of the Invention The present invention solves the above-mentioned conventional problems.
The purpose is to manufacture lead-acid batteries of excellent quality at low cost and easily.

Structure of the Invention In order to achieve the above-mentioned object, the present invention includes a connecting metal plate that connects the tip of the ear portion of the electrode plate group that protrudes above the battery case.
By connecting =J, the above connection is achieved in a lead-acid battery in which plates of the same polarity are connected in parallel in the same cell room, and plates of different polarity in adjacent cell rooms are directly connected via the battery case partition wall. The percentage mark is that one or more recesses gB are provided on the metal plate for use.

This eliminates the escape of solder, which is molten brazing material,
The connection between the tip of the ear and the connecting metal plate can be ensured.

Description of examples Embodiments of the present invention will be described below with reference to the drawings.

First, as shown in Fig. 3, a group of electrode plates consisting of a positive electrode plate 2, a negative electrode plate 3, and a separator plate 4 is inserted into each cell chamber of a monoblock battery case 1 made of synthetic resin, and the upper and lower electrode plates 18d:) are inserted as shown in the figure.
The electrode plates are inverted and held with the electrode tabs facing downward, and the connecting metal plate holding portion 6 having the high-frequency heating coil 6 provided at the bottom thereof is rotated so as to face each other. A shallow concave portion 7' is provided on the upper surface of the holding portion 6.

This holding portion 6 is heavy when constructed of a non-metallic, heat-resistant material such as ceramic. The concave portion 7° 7' on the upper surface of the holding portion 6 is covered with solder or tin, and a connecting metal plate 8 is provided with one or more four portions 11° 12 as shown in FIGS. 4A and 4B. , 8', and further solder 9. as a brazing material thereon.
9' is supplied, and the high-frequency heating coil 5 is energized with the tip portion 10 of the ear portion of the electrode plate group inserted in the battery case being pushed away from the solder 9, 9'. The connecting metal plates 8.8', the solder 9.9' as a brazing material, and the ears 10 self-heat due to the magnetic field lines of the high-frequency heating coil 6, and the temperature rises, causing the connection metal plates 8, 8' and the pole plate to heat up. If the tip of the ear part 10 is half melted.
(9,9' connects to the low (=J) state.

If the high frequency coil is de-energized in this state, 'F.
III is cooled and solidified, and as shown in Figure 5, the polar plates of the same polarity l]:
Parallel connection between the parts and series connection between the ear parts of different polarity plates of adjacent cells are completed with the upper part of the partition wall left unused. The length of time the current is applied to the coil, or the current applied, varies depending on the material and thickness of the connecting metal plates used, the composition of the solder 9, 9', the shape of the tip of the electrode plate ear, etc., but it is easy to set a constant value. 0 In this way, if the connecting metal plate is recessed only in the soldering ear part, the connection will be complete without any melted solder flowing into the holding part 6, and The amount of solder required is also extremely small, making it possible to lower costs and make it more economical.

Effects of the Invention - As described above, the present invention has the first feature that, in a lead-acid battery using a monoblock battery case, it is possible to connect the polar plates of the same polarity outside the battery case in parallel with each other in the cell chamber, and to connect the battery case partition wall. When making a series connection between electrode plates of different polarity in adjacent cell chambers, the connecting metal plate has multiple recesses of one size each, so that the tip of the electrode plate ear of the connecting metal plate can be connected in series. The amount of solder used for soldering to the battery is extremely small, which reduces the weight of the battery (Fig. J1), which has the advantage of reducing costs.

[Brief explanation of drawings]

Fig. 1 is a cross-sectional view showing a conventional method of connecting a connecting metal plate to the pole ears of a lead-acid battery, Fig. 2 is a front view showing the battery when the connection is completed and the battery is in an inverted state, and Fig. 3 4A is a cross-sectional view showing a method of connecting a connecting metal plate to the electrode plate ears of a lead-acid battery according to an embodiment of the present invention, FIG. 4A is a perspective view of the Bi4 connecting metal plate, and FIG. FIG. 3 is a front view showing the storage battery in an inverted state with the connection completed by the plates. 1... Monoblock battery case, 2...° positive electrode plate,
3... Negative electrode plate, 4... Separation plate, 5...
... High frequency heating coil, 6... Holding part, 7...
... recess, 8... metal plate for connection, 9,9'...
...Solder as brazing material, 1o... Electrode plate [1 part, 11.12... Four parts of the metal plate for connection. Name of agent: Patent attorney Toshio Nakao Haga 1st person
1 Figure 2 Figure 51! il

Claims (1)

[Claims] By brazing the tips of the ears that protrude above the electrode plate group onto the metal plate for connection, it is possible to connect the electrode plates of the same polarity in parallel within the same cell chamber, and to connect adjacent cell chambers through the cell partition wall. 1. A lead-acid battery in which polar plates of different polarities are connected in series, characterized in that the connecting metal plate is provided with one or more four parts.