JPS59228369A - Sealed lead-acid battery - Google Patents

Abstract

PURPOSE:To obtain a sealed lead-acid battery having good and stabilized capacity by installing holes on the side of a container and inserting projections into the holes and pressing an electrode plate group by the projections. CONSTITUTION:In a sealed lead-acid battery in which electrolyte is held in positive and negative plates and separators, and free electrolyte is removed, threads are cut in a hole 2 installed on the side of a container and a projection. By screwing the projection, an electrode plate group is pressed. In the battery in which electrolyte is not yet poured, the container 1 and the projection 3 can be fixed and sealed by adhesion with the plate group pressed by the projection 3. In a large scale battery which is difficult to assemble with pressure applied to a plate group, the plate group can be easily pressed from the side of the battery after assembling.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to the improvement of a sealed lead-acid battery, and its purpose is to obtain a sealed lead-acid battery that has improved capacity performance and is stable.

In a sealed lead-acid battery with an electrolyte depletion type in which the electrolyte is held in the positive and negative electrode plates and a separator, unlike a normal tO battery which has an excess electrolyte, the electrolyte is held in the positive and negative electrode active materials and the separator. Electric current is carried through contact with the electrolyte. For this reason, in a sealed lead-acid battery, it is particularly necessary to maintain sufficiently strong contact between the square bar plate and the separator. 1. Glass fiber separators are usually used for the separation of sealed lead-acid batteries, but when immersed in an electrolyte, the sliding between the J mm glass fibers improves and shrinks. (There is a river direction. Therefore, when assembling /< Lake and iE
・When pouring the electrolyte, the glass 41i 11
1 (which may result in poor contact between the rake and the positive and negative electrode active materials. Also, the pressure per unit area of the electrode plate group) is constant, the doll electrode plate has an apparent Surface!Increase the pressure on the electrode plate group I in one row on the blue surface (it is extremely difficult to make a battery while applying sufficient pressure to the electrode plate before it is finished). It is.

The present invention solves the above-mentioned problem by making a hole in the side wall of the battery case and inserting the protrusion 1 into the battery case from the 6a position and pressurizing the electrode plate group. This solves the problem and makes it 4.

Hereinafter, one embodiment of the invention is illustrated in the drawings (column 921).

Figure 1 shows *jq 13 of the design of the sealed lead-acid battery of the present invention, so 1 is the electric current (t!1.2 is the hole in the side wall of the battery case 1, and 3 is the electrode plate group. Projection for applying pressure, 4 is a rose
1, 5 is a backing plate made of a plus deck plate, and 6 is a group of electrode plates. In this example, the holes 2 and protrusions 3 are threaded so that the electrode group 6 can be pressurized by screwing them in. It is also possible to fix and seal the battery case 1 and the protrusion 3 by adhesive while pressing the electrode plate t!Y6 with the protrusion 3.

(f4) Complaint C of this embodiment is such that even if a doll battery is difficult to manufacture while pressurizing the electrode plate group, the electrode group can be easily pressurized from the side of the battery after manufacturing. be able to. It is also possible to apply pressure by injecting the electrolytic solution and heating the C knife fiber pallet by screwing in the protrusion 3.

Table 1 shows the results of an initial 30Δ (10 hr) discharge test of a liquid-solid dry sealed lead battery with a capacity of 30OA11. A is a sealed lead-acid battery manufactured using a conventional manufacturing method, and Note I (the pressing force of the electrode plate group in front of k is approximately 10 K9/CIl+?).

() and C are batteries in which the electrode plate group is pressurized from the side of the battery by the pressurizing structure according to the present invention, and the pressurizing horns before injection are 2, respectively.
0 to 9/ [tn? , 50Kq/mountain 1. d
Doef'; 4 same U< tree R.

10 K9 / d with the pressurized battery (side part of the battery due to the pressure structure)
77/uta on nI and 20. In this test, a capacity test was conducted using 10111.1 batteries for each column (1).Table 1 shows the length of discharge duration and the average duration of discharge.Conventional The average discharge duration of the battery is known, but the variation in battery capacity is very large.This is thought to be due to the unstable contact between the IJ electrolyte and the positive/@polar active material held in the separator. In contrast, it can be seen that the products of the present invention all have stable capacities, and in particular, the capacity stability of the batteries pressurized after injection is excellent.

In addition, is the pressing force of the electrode plate group less than 20Kq/d before injection or 10KCJ/do after injection? If it was less than 1, sufficient contact between the positive and negative electrode plates and the separator could not be obtained, and a sufficient effect in improving and stabilizing capacity performance could not be achieved.

(According to the present invention, the sealed battery, which was conventionally manufactured by rotating the electrode plate group while pressurizing it,
13, it is possible to easily pressurize the electrode plate group, and it is possible to improve the capacity performance and reduce the stabilization. . Also, it is difficult to manufacture batteries with high-voltage horns that have particularly excellent capacity stability! However, the present invention makes it possible to pressurize the liquid after it has been injected after the pressure has decreased, which has great industrial value.

[Brief explanation of drawings]

FIG. 1 is a west view showing a schematic structure of an embodiment of a sealed lead-acid battery according to the present invention. 1... Battery case, 2... Hole, 3... Protrusion, 4... Backing, 5... Plate, 6... Plate group plate 1 child

Claims (1)

[Claims] In a so-called electrolyte dry type sealed lead battery in which the positive and negative electrode plates J3 and the separator are impregnated with electrolyte, a hole is provided in the side wall of the battery case, and a protrusion inserted through the hole is used to separate the electrode plates. A sealed lead-acid battery, characterized in that it is pressurized to 20 K'l/dni or more in an unfilled state or to 10 k'l/dni or more in a filled state.