JP2556056B2 - Manufacturing method of sealed lead-acid battery - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method of manufacturing a sealed lead acid battery capable of improving the performance of a charged sealed lead acid battery of a cathode gas absorption type.

Problems to be Solved by the Prior Art and the Present Invention From the viewpoint of improving the electrode plate for the purpose of improving the discharge performance, charge performance, and life performance of lead-acid batteries, investigation of the components and composition of the paste and current collector and those Various studies have been conducted on the manufacturing method of the electrode plate made of, and the manufacturing conditions. Adhesion between the substrate, which is the current collector, and the active material is important in order to fully exhibit the characteristics of the electrode plate produced by these studies.

If the adhesion between the base and the active material is not sufficient, the loss of charge / discharge current becomes large, resulting in poor battery characteristics. Therefore, as a means for improving the adhesion between the base and the active material, there is a step of aging after filling the paste with the base. In this process, the unformed electrode plate after paste filling is usually left in a high-temperature, high-humidity furnace to improve the sealability with the paste by mainly dissolving Pb, which is the base material, and causes the oxidation reaction of Pb in the paste. The purpose is to Since a large number of plates are placed in the aging furnace, the temperature distribution will vary depending on the placement and the number of plates, and the progress of the aging reaction will change for each plate, making it impossible to make a uniform plate. become,
The assembled lead-acid battery has uneven performance. Also,
There is a certain limit in forming an electrode plate in which the base and the paste are sufficiently adhered during the aging process.

It is an object of the present invention to provide a method for manufacturing a sealed lead acid battery, in which the adhesion between the base material of the charged sealed lead acid battery and the active material is sufficient and the performance can be improved.

Means for Solving the Problems The present invention has been made to achieve the above object, and is a method for manufacturing a charged sealed lead acid battery of a cathode gas absorption system, in which a sealed lead acid battery is assembled. It is characterized in that it is charged later, then discharged by 100% or more of the nominal capacity, then left unloaded, and then recharged to be charged.

Action Since a charged sealed lead acid battery of the cathode absorption type has a limited amount of liquid, the pH of the electrolyte becomes close to the neutral range when discharged above 100% of the nominal capacity, and when left in this state it becomes the base material. The corrosion reaction progresses due to the dissolution of Pb, and the longer the standing period, the thicker the corrosion layer. Then, by recharging the battery, a sealed lead-acid battery having sufficient adhesion between the base and the active material can be obtained. For example, even if the base and the active material are not sufficiently adhered in the process of manufacturing the electrode plate, , It is eliminated in the state of the battery, which reduces the current loss,
It is possible to improve the overall battery performance such as discharge performance, charge performance, and life performance.

Example An example of the present invention will be described.

Connect a 2V-4Ah type cathode absorption type charged lead-acid battery that has been charged to a resistance of 1.5Ω, discharge for 24 hours, then remove the resistance and leave it in an atmosphere of 50 ° C for 2 days. 2.45V /
The cell was charged for 16 hours by constant voltage charging with a limitation of 0.3 CA.

FIG. 1 shows the result of comparison of this with the conventional product in terms of cycle life. As can be seen, the product of the present invention has improved cycle life characteristics. This is because the charging efficiency was improved by 4 to 5% by the present invention.

EFFECTS OF THE INVENTION As described above, according to the present invention, it is possible to achieve sufficient adhesion between the base material and the active material in the state of the battery, eliminate problems during the production of the electrode plate, and have excellent battery performance. It is possible to provide a sealed lead acid battery.

[Brief description of drawings]

FIG. 1 is a comparative curve diagram showing the cycle life characteristics of the product of the present invention and the conventional product.

Claims (1)

(57) [Claims] 1. A method of manufacturing a charged sealed lead-acid battery of a cathode gas absorption type, which comprises charging a sealed lead-acid battery and then charging it, then discharging it by 100% or more of its nominal capacity, and then applying no load. A method for manufacturing a sealed lead-acid battery, which comprises leaving the battery in a state of being kept and then recharging the battery to make it fully charged.