CN109616693B - 6-charging-5-discharging rapid formation process for storage battery - Google Patents

Abstract

The invention aims to provide a 6-charge and 5-discharge rapid formation process for a storage battery, which is used for treating the storage battery through the 6-charge and 5-discharge formation process, improving the quality of the storage battery, shortening the formation time and solving the problem of long time consumption of a common formation process.

Description

6-charging-5-discharging rapid formation process for storage battery

Technical Field

The invention relates to the field of storage battery manufacturing, in particular to a 6 charging and 5 discharging rapid formation process for a storage battery.

Background

At present, when the storage battery is manufactured, the storage battery needs to be repeatedly charged and discharged, a formation process is completed, the service life of the storage battery is prolonged, and in the existing formation process, the charging and discharging time is long, the charging and discharging times are more, so that the production efficiency is not high, and the production quantity of the product is influenced. At present, the rapid formation process of the storage battery can be completed only by charging and discharging for many times. Therefore, it is important to design a rapid formation process.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a 6-charge and 5-discharge rapid formation process for a storage battery, which is used for treating the storage battery through the 6-charge and 5-discharge formation process, so that the quality of the storage battery is improved, the formation time is shortened, and the problem of long time consumption in a common formation process is solved.

The invention provides a rapid formation process for charging and discharging 6 accumulators, which comprises the following steps:

the method comprises the following steps: standing the battery for later use;

step two: charging the battery for 0.5 hour at a current of 2.5A;

step three: charging the battery for 2 hours at a current of 4.5A;

step four: charging the battery for 7 hours at a current of 6.5A;

step five: discharging at 12V and 10A;

step six: charging the battery at a current of 8A for 0.67 hours;

step seven: charging the battery for 0.5 hour at a current of 6A;

step eight: discharging at 11.8V and 10A;

step nine: charging the battery at a current of 8A for 0.67 hours;

step ten: charging the battery for 1 hour at a current of 6A;

step eleven: discharging at 11.5V and 10A current;

step twelve: charging the battery for 1 hour at a current of 8A;

step thirteen: charging the battery for 3 hours at a current of 6A;

fourteen steps: discharging at 11.2V and 10A;

step fifteen: charging the battery for 1.5 hours at a current of 8A;

sixthly, the steps are as follows: charging the battery for 8 hours at a current of 5.5A;

seventeen steps: charging the battery for 4 hours at a current of 4.5A;

eighteen steps: charging the battery for 2 hours at a current of 3.5A;

nineteen steps: carrying out secondary standing on the battery;

twenty steps: the cell was discharged at a current of 10A for 1.67 hours;

twenty one: discharging the battery at a current of 10A for 0.43 hours;

step twenty-two: charging the battery for 2 hours at a current of 8A;

twenty-three steps: charging the battery for 2.5 hours at a current of 5.5A;

twenty-four steps: charging the battery for 2.5 hours at a current of 3.5A;

twenty-five steps: the battery was charged at a current of 0.3A for 3 hours to complete the formation process.

The further improvement lies in that: and the time for standing the battery in the first step is 0.5 hour.

The further improvement lies in that: the time of the secondary standing in the nineteen steps is 0.1 hour.

The invention has the beneficial effects that: the storage battery is treated by the formation process of 6 charging and 5 discharging, the quality of the storage battery is improved, the formation time is shortened, and the problem of long time consumption of the common formation process is solved.

Detailed Description

In order to enhance the understanding of the present invention, the present invention will be described in further detail with reference to the following examples

The invention is to be construed as limited only by the appended claims.

The embodiment provides a rapid formation process for charging and discharging a storage battery 6, which comprises the following steps:

the method comprises the following steps: standing the battery for later use;

step two: charging the battery for 0.5 hour at a current of 2.5A;

step three: charging the battery for 2 hours at a current of 4.5A;

step four: charging the battery for 7 hours at a current of 6.5A;

step five: discharging at 12V and 10A;

step six: charging the battery at a current of 8A for 0.67 hours;

step seven: charging the battery for 0.5 hour at a current of 6A;

step eight: discharging at 11.8V and 10A;

step nine: charging the battery at a current of 8A for 0.67 hours;

step ten: charging the battery for 1 hour at a current of 6A;

step eleven: discharging at 11.5V and 10A current;

step twelve: charging the battery for 1 hour at a current of 8A;

step thirteen: charging the battery for 3 hours at a current of 6A;

fourteen steps: discharging at 11.2V and 10A;

step fifteen: the battery is charged 1 with a current of 8A. 5 hours;

sixthly, the steps are as follows: charging the battery for 8 hours at a current of 5.5A;

seventeen steps: charging the battery for 4 hours at a current of 4.5A;

eighteen steps: charging the battery for 2 hours at a current of 3.5A;

nineteen steps: carrying out secondary standing on the battery;

twenty steps: the cell was discharged at a current of 10A for 1.67 hours;

twenty one: discharging the battery at a current of 10A for 0.43 hours;

step twenty-two: charging the battery for 2 hours at a current of 8A;

twenty-three steps: charging the battery for 2.5 hours at a current of 5.5A;

twenty-four steps: charging the battery for 2.5 hours at a current of 3.5A;

twenty-five steps: the battery was charged at a current of 0.3A for 3 hours to complete the formation process.

And the time for standing the battery in the first step is 0.5 hour. The time of the secondary standing in the nineteen steps is 0.1 hour. The storage battery is treated by the formation process of 6 charging and 5 discharging, the quality of the storage battery is improved, the formation time is shortened, and the problem of long time consumption of the common formation process is solved.

Claims (3)

1. A6-charging and 5-discharging rapid formation process for a storage battery is characterized in that: the formation process comprises the following steps:

the method comprises the following steps: standing the battery for later use;

step two: charging the battery for 0.5 hour at a current of 2.5A;

step three: charging the battery for 2 hours at a current of 4.5A;

step four: charging the battery for 7 hours at a current of 6.5A;

step five: discharging at 12V and 10A;

step six: charging the battery at a current of 8A for 0.67 hours;

step seven: charging the battery for 0.5 hour at a current of 6A;

step eight: discharging at 11.8V and 10A;

step nine: charging the battery at a current of 8A for 0.67 hours;

step ten: charging the battery for 1 hour at a current of 6A;

step eleven: discharging at 11.5V and 10A current;

step twelve: charging the battery for 1 hour at a current of 8A;

step thirteen: charging the battery for 3 hours at a current of 6A;

fourteen steps: discharging at 11.2V and 10A;

step fifteen: charging the battery for 1.5 hours at a current of 8A;

sixthly, the steps are as follows: charging the battery for 8 hours at a current of 5.5A;

seventeen steps: charging the battery for 4 hours at a current of 4.5A;

eighteen steps: charging the battery for 2 hours at a current of 3.5A;

nineteen steps: carrying out secondary standing on the battery;

twenty steps: the cell was discharged at a current of 10A for 1.67 hours;

twenty one: discharging the battery at a current of 10A for 0.43 hours;

step twenty-two: charging the battery for 2 hours at a current of 8A;

twenty-three steps: charging the battery for 2.5 hours at a current of 5.5A;

twenty-four steps: charging the battery for 2.5 hours at a current of 3.5A;

twenty-five steps: the battery was charged at a current of 0.3A for 3 hours to complete the formation process.

2. The rapid formation process for charging and discharging the storage battery 6 according to claim 1, characterized in that: and the time for standing the battery in the first step is 0.5 hour.

3. The rapid formation process for charging and discharging the storage battery 6 according to claim 1, characterized in that: the time of the secondary standing in the nineteen steps is 0.1 hour.