JPS5929369A - Manufacture of plate for lead storage battery - Google Patents

Abstract

PURPOSE:To simplify the manufacturing process by applying coarse fiber or unwoven cloth made of acid-resistant, oxidation-resistant fibers on an expand grid then filling with battery paste. CONSTITUTION:Coarse cloth or unwoven cloth is applied on an expand grid then filled with battery paste and the cloth or unwoven cloth is barried in the paste to bind between the active substances thus to prevent dropping of active substances. Prevension of dropping is effective for not only the unformed board but even after assembling, thus to prevent deterioration of battery performance during charge/discharge.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in the method for manufacturing temporary structures using an expanded lattice, and simplifies and improves the I# construction process.
The purpose is to provide a two-performance expander.

The production of one dragonfly using an expander grid is different from the conventional process of producing grids, in which the grid is cast one by one and the pace 1 is filled, by supplying a lead alloy sheet. It is possible to continuously manufacture a dynamic grid by forming a band-shaped expanded grid and filling it with paste. Extended lattice has great advantages, such as the fact that thin calcium alloy lattice, which was conventionally difficult to cast, is possible with expanded lattice, and there is less lead contamination in the working environment. However, the expanded lattice has the drawbacks that there are no ribs on the sides of the lattice, the cut surfaces of the lattice beams are smooth, and the filling paste easily falls off. Touch both sides with a pasting pen. This base paper is used only once to prevent the unformed active material from falling off when assembling the battery. After filling, it will prevent the discharge reaction of the battery, and if you repeat charging and discharging, it will stick to the bottom of the battery case. This has negative effects such as precipitation and causing short circuits. Unless the unconverted active material ψ falls off, the base paper is essentially unnecessary.

The present invention eliminates the drawbacks mentioned above, and provides a method for producing an extended-band material in which the active material does not fall off without using base material paper.

In the present invention, a coarse woven fabric or non-woven fabric is brought into contact with an expanded grid, and a storage battery paste 1- is filled from above, and the woven fabric or non-woven fabric is buried in the paste to bond between the active materials. This prevents the substance from falling off afterwards. Preventing this active material from falling off is only possible if it is unformed. The effect persists even after one stand on the battery. Prevents deterioration of battery performance when charging and discharging oil.

Hereinafter, the present invention will be explained in detail based on examples.

FIG. 1 is a schematic diagram showing the manufacturing process of a gamma proboscis using a conventional extended-band grating. In the figure, a band-shaped extended grid feeder 10 supplies a core 11, a pasting pH 12 is brought into contact with the lower surface thereof, and the material is then sent to a filling machine 13.

r filled with paste! The IlI board is manufactured by further abutting pasting paper 12 on its upper surface, pressing both sides of @A with a pair of press rollers 14, and passing through a temporary cutter 15 and a dryer 16.

Figure 2 shows the percentage of expanded excitation in the embodiment of the present invention.
! 1 is a schematic diagram showing a manufacturing device. A conventional example is shown in Fig. 1. The difference from Fig. 1 is that there are no base papers 12 and 11, and instead, a woven or non-woven fabric made of an acid-resistant and oxidation-resistant material (polyester fiber is used in this example). A supply roll 22 is provided, 20.21.28 of FIG.
24.25 and 26 are respectively 10.11. in FIG.
18.14 and 15 were manufactured in this manner and the cross sections of the diamonds according to the present invention were observed and the results are shown in FIG. 31 is the expanded lattice crosspiece, 32 is the filling.
It is one paste. 33 is a coarse non-woven fabric layer made of polyester fiber that comes into contact with the expanded grid, and after filling it with paste, it becomes \F! ! ! ! It is located in the center of the plate and strongly connects the active materials.

Next, we manufactured the N84gZ type using one extra band positive and negative ground temporary fabricated according to the present invention! Assemble one pond. Assembling was good, with no problems such as failure of the active material during battery assembly.
Table 1 compares the service life performance and life performance of a battery using the expanded dynamic material according to the present invention and a conventional product.

Here, A uses an expanded drawing board according to the present invention and f. :
B is a conventional battery. The electric wire according to the present invention is obviously superior in both initial performance and life performance, and the non-woven fabric of polyester fiber is buried inside the paste, and the effect is thick and thin.

The nonwoven fabric used in this embodiment is made of polyester M18, and may be made of polyacrylonitrile, polyethylene, glass, etc. as long as it has acid and oxidation resistance. It can be made of non-woven fabric or woven fabric, and its coarseness is as follows:
When the paste was filled to 11fi, the woven fabric was such that it could easily pass through the eyes of the non-woven fabric, and the opening of the eyes was 01 ~
1,,Ocm preferably 02~0.5 is optimal and r
child. It is preferable that the fiber diameter of the woven fabric is 0.5 to 5 denier and the thickness of the nonwoven fabric is 0.02 to 0.20 denier.

As described in detail above, the present invention contributes to the simplification of the process and the improvement of the performance in many ways in the production of expanded late curds, which is of great value at around the old industrial price point.

[Brief explanation of the drawing]

FIGS. 1 and 2 are schematic diagrams showing a conventional expanded shade temporary manufacturing apparatus and an expanded shade manufacturing apparatus according to the present invention, respectively, and FIG. A tentative cross-sectional schematic diagram. ! ). 10.20...Exband grating feeder, 11
．． 21... Exband lattice, s2.12'...
...Pasting machine +, 22...Woven fabric is non-woven fabric, 18.28...Filling machine. 1
4.24...Roll, 15.25...
F! ! IS temporary cutting machine, 16.26...Drying oven,
3l... Lattice crosspiece, 32... Living object 1, a
a...The first layer of woven fabric is unfinished fabric. -299-

Claims (1)

[Claims] Process of supplying extended band lattice, acid resistance, oxidation resistance tq
- A step of bringing a coarse fiber or non-woven fabric made of fiber into contact with the expanded grid C, and a step of filling M battery space 1 and filling it! A manufacturing method for temporary lead-acid batteries consisting of a temporary drying process.