JPS61277173A

JPS61277173A - Manufacture of lead storage battery

Info

Publication number: JPS61277173A
Application number: JP60117447A
Authority: JP
Inventors: Ichiro Ishiyama; 一郎石山; Tadashi Yoneda; 米田　忠司; Yasunao Wada; 和田　容尚
Original assignee: Shin Kobe Electric Machinery Co Ltd
Current assignee: Resonac Corp
Priority date: 1985-05-30
Filing date: 1985-05-30
Publication date: 1986-12-08

Abstract

PURPOSE:To enable capacity to be greatly increased throughout all of initial, middle, and latter periods in life tests, by performing a discharge by very small current after composing a cell, and then performing initial charge. CONSTITUTION:In order to enlarge a degree of porosity inside a positive electrode plate, a group of electrode plates are put into a battery jar, then discharging them at once by very small current (e.g. 0.001-0.01CA) after solution is poured, and thereafter initial charge is performed on them. Namely, discharge performed by very small current will produce lead sulfate having large particle diameter throughout front and inner layers of the positive electrode plate, which is growing. Performing initial charge and changing the lead sulfate into active material make it possible to manufacture a lead storage battery having a larger degree of porosity all over the electrode plates.

Description

【発明の詳細な説明】産業上の利用分野本発明は鉛蓄電池の製造法に関するものである。[Detailed description of the invention] Industrial applications The present invention relates to a method for manufacturing lead-acid batteries.

従来の技術従来、鉛蓄電池の製造は、ペーストの練合、充填、熟成
、乾燥、化成工程を経て、陰極板−セパレーター陽極板
よりなる極板群を構成し、電槽に入槽したのち、希硫酸
を注液して初充電をかけた後、製品とたっている。Conventional technology Conventionally, lead-acid batteries are manufactured by going through paste kneading, filling, ripening, drying, and chemical conversion processes to form an electrode plate group consisting of a cathode plate and a separator anode plate, and then placing them in a battery container. After injecting dilute sulfuric acid and charging for the first time, the product is ready.

発明が解決しようとする問題点上記の方法によれば、化成後の陽極板内に存在する多孔
度によってその後の容量、特に初期容量が決まってしま
うことから、本発明はこの多孔度を太き（して鉛蓄電池
の容量改善を図ることを目的とするものである。Problems to be Solved by the Invention According to the above method, the subsequent capacity, especially the initial capacity, is determined by the porosity existing in the anode plate after chemical formation. (The purpose is to improve the capacity of lead-acid batteries.

問題点を解決するための手段本発明は上記の目的を達成するもので、陽極板内に存在
する多孔度を大きくするために、極板群を電槽に入槽し
、注液した後、直ちに微小な電流（例えばｏ、ｏｏｔ〜
０．０ｒＯＡ）で放電させ、その後、初充電をかけるこ
とを特徴とするものである。Means for Solving the Problems The present invention achieves the above object, and in order to increase the porosity existing in the anode plate, the electrode plate group is placed in a battery tank and after pouring liquid, Immediately a small current (e.g. o, oot ~
It is characterized by discharging at a current of 0.0 rOA) and then applying an initial charge.

作用本発明は上記の特徴を有することにより、微小ケミ流に
よる放電で陽極板の表層、内層の全体に亘って粒子径の
大きな硫酸鉛か生成し、生長してゆ（。その後に、初充
電を行い、硫酸鉛を活物質に変えることにより、第２図
に示すように、極板金体に亘って多孔度を大きくした鉛
蓄電池を製造することができる。Operation The present invention has the above-mentioned features, so that lead sulfate with a large particle size is generated and grown throughout the surface and inner layers of the anode plate by discharge using a microscopic chemical flow. By carrying out this process and replacing lead sulfate with the active material, it is possible to manufacture a lead-acid battery with increased porosity throughout the electrode sheet metal body, as shown in FIG.

実施例本発明の詳細な説明する。Example The present invention will be described in detail.

ペーストの練合、充填、熟成、乾燥、化成工程を経て、
陰極板−セパレーター陽極板よりなる極板群を構成し、
電槽に入槽したのち、ｏｏｏｔＯＡで放電させ、次いで
常法による初充電を行うことにより、ＥＢＬＯＯ形鉛蓄
電池（本発明品）を製造した。After paste kneading, filling, aging, drying, and chemical conversion processes,
A cathode plate-separator anode plate constitutes an electrode plate group,
After being placed in a battery container, an EBLOO type lead-acid battery (product of the present invention) was manufactured by discharging with oootOA and then performing an initial charge using a conventional method.

この電池（本発明品）と従来法により製造した同形鉛蓄
電池（従来品）についで、寿命試験を行った結果を第１
図に示す。充放電条件は放電：　０．６０．　ｌ　ｈ　
ｒ　（６０４）　、充電：Ｏ，ａａ。The results of a life test were conducted on this battery (product of the present invention) and the same type lead-acid battery (conventional product) manufactured using the conventional method.
As shown in the figure. The charging and discharging conditions are: discharge: 0.60. l h
r (604), charging: O, aa.

２゜７５Ｖ／セル（１２０優）、液温３０±３°Ｃであ
る。本発明品は従来品と比較して約１０優程度の容量増
加が認められる。2°75V/cell (120 excellent), liquid temperature 30±3°C. The capacity of the product of the present invention is increased by approximately 10% compared to the conventional product.

発明の効果上述したように、本発明は電池構成後、微小な電流で放
電し、その後初充電をかけることにより、寿命試験の初
期から中期、後期に亘って大きな容量増加が得られる鉛
蓄電池を製造できる点効果大なるものである。Effects of the Invention As mentioned above, the present invention provides a lead-acid battery that can obtain a large capacity increase from the early to middle to late stages of a life test by discharging with a minute current after battery construction and then applying an initial charge. This has a great advantage in terms of ease of manufacture.

【図面の簡単な説明】第１図は本発明品と従来品の寿命試験結果を示す曲線図
、第２図は電池構成後、流す微小放電電流に対する陽極
板内の多孔度の変化を示す曲線図である。[Brief explanation of the drawings] Figure 1 is a curve diagram showing the life test results of the product of the present invention and the conventional product. Figure 2 is a curve diagram showing the change in porosity within the anode plate in response to a minute discharge current applied after battery construction. It is a diagram.

Claims

[Claims]

A method for manufacturing a lead-acid battery, which comprises injecting dilute sulfuric acid into a lead-acid battery configured using a pre-formed anode plate, immediately discharging the battery with a minute current, and then performing an initial charge.