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An Energy Saving Internalization Charging Process

An internalization and process technology, which is applied in the field of energy-saving internalization and charging technology, can solve the problems of no unified standard for electricity and waste of resources in the internalization process, and achieve the effects of saving energy, improving quality and reducing production costs.

Active Publication Date: 2016-05-18
TIANNENG BATTERY WUHU
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There is no uniform standard for the power of the internalization process today, and resources are wasted during charging

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] This embodiment provides an energy-saving internalization charging process, the process steps are as follows:

[0030] Step 1: Let the battery that needs to be internalized and charged stand for 2 hours;

[0031] Step 2: Use 3A current to charge the battery for 5h;

[0032] Step 3: Use 6A current to charge the battery for 7.5h;

[0033] Step 4: Use a current of 6A to discharge the battery for 0.75h;

[0034] Step 5: Use 6A current to charge the battery for 2.5h;

[0035] Step 6: Discharge the battery for 1 hour with a current of 6A;

[0036] Step 7: Use 6A current to charge the battery for 3h;

[0037] Step 8: Use 6A to discharge the battery for 1.4h;

[0038] Step 9: Use 6A current to charge the battery for 3.5h;

[0039] Step 10: Use 6A to discharge the battery for 1.6h;

[0040] Step 11: Use 6A current to charge the battery for 4 hours;

[0041] Step 12: Discharge the battery for 2 hours with a current of 6A;

[0042] Step 13: Use 6A current to charge the ba...

Embodiment 2

[0052] This embodiment provides an energy-saving internalization charging process, the process steps are as follows:

[0053] Step 1: Let the battery that needs to be internalized and charged stand for 2 hours;

[0054] Step 2: Use 3A current to charge the battery for 4h;

[0055] Step 3: Use 6A current to charge the battery for 6h;

[0056] Step 4: Discharge the battery for 0.5h with a current of 6A;

[0057] Step 5: Use 6A current to charge the battery for 2 hours;

[0058] Step 6: Use 6A to discharge the battery for 0.5h;

[0059] Step 7: Use 6A current to charge the battery for 2 hours;

[0060] Step 8: Discharge the battery for 1 hour with a current of 6A;

[0061] Step 9: Use 6A current to charge the battery for 3h;

[0062] Step 10: Discharge the battery for 1 hour with a current of 6A;

[0063] Step 11: Charge the battery for 3 hours with a current of 6A;

[0064] Step 12: Discharge the battery for 1 hour with a current of 6A;

[0065] Step 13: Charge the batt...

Embodiment 3

[0075] This embodiment provides an energy-saving internalization charging process, the process steps are as follows:

[0076] Step 1: Let the battery that needs to be internalized and charged stand for 5 hours;

[0077] Step 2: Use 3A current to charge the battery for 6h;

[0078]Step 3: Charge the battery for 9 hours with a current of 6A;

[0079] Step 4: Discharge the battery for 2 hours with a current of 6A;

[0080] Step 5: Charge the battery for 4 hours with a current of 6A;

[0081] Step 6: Discharge the battery for 2.5 hours with a current of 6A;

[0082] Step 7: Use 6A current to charge the battery for 5h;

[0083] Step 8: Discharge the battery for 2 hours with a current of 6A;

[0084] Step 9: Use 6A current to charge the battery for 4h;

[0085] Step 10: Discharge the battery for 2 hours with a current of 6A;

[0086] Step 11: Use 6A current to charge the battery for 6h;

[0087] Step 12: Discharge the battery for 3 hours with a current of 6A;

[0088] Step ...

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PUM

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Abstract

The invention aims to provide an energy-saving internalized charging process. Through charging and discharging with different currents, the battery service life is improved, the energy is saved, and the cost of production is reduced. Through charging and discharging with the different currents, the battery service life is improved, the energy is saved, the cost of production is reduced, an internalized charging effect is improved, and the storage battery quality is enhanced.

Description

technical field [0001] The invention relates to the field of storage battery manufacturing, in particular to an energy-saving internalization charging process. Background technique [0002] Compared with tank formation, battery formation has many advantages. Its technological process simplifies the processes of plate washing, drying, battery replenishment, and tank formation, such as loading, welding, and sheet removal. A lot of man-hours and energy are saved, and there is no need to purchase formation tank equipment and acid mist prevention equipment, and the battery cost can be reduced to a certain extent. Moreover, the plate is not easily polluted by impurities, which can reduce battery self-discharge, and the battery quality can be better controlled. Therefore, battery formation is worth promoting, and formulating a reasonable battery formation process is the key to battery formation. The formation power is one of the main factors affecting the battery formation. The fo...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M10/12H01M10/44
CPCH01M10/12H01M10/44Y02E60/10Y02P70/50
Inventor 卢晓明疏江洪陈林杨书勇汪振兴
Owner TIANNENG BATTERY WUHU