CN109818094A - The quasi- pulse container formation charge technology of electric bicycle batteries - Google Patents

The quasi- pulse container formation charge technology of electric bicycle batteries Download PDF

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Publication number
CN109818094A
CN109818094A CN201910131710.0A CN201910131710A CN109818094A CN 109818094 A CN109818094 A CN 109818094A CN 201910131710 A CN201910131710 A CN 201910131710A CN 109818094 A CN109818094 A CN 109818094A
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China
Prior art keywords
current versus
carries out
charging
versus cell
battery
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CN201910131710.0A
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CN109818094B (en
Inventor
包有富
贡全富
周强
周玉星
李福星
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SHANDONG CHAOWEI POWER SUPPLY CO Ltd
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SHANDONG CHAOWEI POWER SUPPLY CO Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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Abstract

The present invention is the quasi- pulse container formation charge technology of electric bicycle batteries, pass through multiple charging and discharging, it is charged using different current versus cells, shorten the time for being internalized into charge technology, battery-heating amount reduces, charge efficiency, save the cost are improved, battery charge is constant, and battery performance is unaffected.

Description

The quasi- pulse container formation charge technology of electric bicycle batteries
Technical field
The present invention relates to battery fields, the in particular to quasi- pulse container formation charge technology of electric bicycle batteries.
Background technique
Internal formation process, also known as " without cadmium internal formation process ", it be by the later battery pole plates of curing and drying after cutting Direct-assembling carries out the formation charging in battery and obtains finished product at battery.Internal formation process eliminates traditional alienation containing cadmium At the pole plate channelization in processing mode at, pole plate washing, redrying, battery boost charge this four be related to consuming energy and main Waste water is wanted to generate process, no cadmium internal formation process compares reduction water 90%, economize on electricity 25.8% with traditional tank formation, reduces cost 15%, the occupational disease hazards of employee reduce 90%.In addition, being internalized into technology also successfully eliminates cadmium, arsenic in traditional handicraft formula Toxic raw materials are newly formulated the industry technology problem for solving innoxious formula in storage battery production with lead-calcium alloy.With lead After calcium alloy new invention formula, the product quality of battery is better than the quality of traditional handicraft formula.
Current is internalized into charge technology, it usually needs and charging 70h-90h, the charging time is long, and charge efficiency is not high, at This increase.
Summary of the invention
In order to solve the above-mentioned technical problems, the present invention provides the quasi- pulse container formation charge technology of electric boosted battery, Technical solution are as follows:
The following steps are included:
Step 1: using 0.1C2The current versus cell of A carries out charging 1h;
Step 2: using 0.15C2The current versus cell of A carries out charging 1h;
Step 3: using 0.25C2The current versus cell of A carries out charging 4h;
Step 4: using 0.4~0.7C2The current versus cell of A carries out 3~5min of charging;
Step 5: no power, static 1min;
Step 6: circulation step 4+ step 5, it is 80-100 times total;
Step 7: no power, static 30min;
Step 8: using 0.4~0.7C2The current versus cell of A carries out 3~5min of charging;
Step 9: no power, static 1min;
Step 10: circulation step 8+ step 9, it is 80-100 times total;
Step 11: no power, static 30min;
Step 12: using 0.25C2The current versus cell of A carries out charging 4h;
Step 13: using 0.2C2The current versus cell of A carries out charging 3h;
Step 14: no power, static 2h;
Step 15: using 0.5C2The current versus cell of A discharges;
Step 16: using 0.2C2The current versus cell of A carries out charging 8h;
Step 17: using 0.05C2The current versus cell of A carries out charging 2h.
Further, in the step 15, voltage is converted as every battery 10.00V.
Further, in the step 16, voltage is converted as every battery 15.30V.
The invention has the benefit that the present invention is the quasi- pulse container formation charge technology of electric bicycle batteries, by more Secondary charging and discharging is charged using different current versus cells, shortens the time for being internalized into charge technology, battery-heating amount drop It is low, charge efficiency, save the cost are improved, battery charge is constant, and battery performance is unaffected.
Specific embodiment
Embodiment 1
The present invention is the quasi- pulse container formation charge technology of electric bicycle batteries, and the processing step is as follows:
Table 1
Stage State Electric current A Time h
1 Charging 0.1C2 1
2 Charging 0.15C2 1
3 Charging 0.25C2 4
Circulation starts    
4 Charging 0.4-0.7C2 3-5 minutes
5 It is static 0 1 minute
6 Circulation   80 times
7 It is static 0 0.5
Circulation starts    
8 Charging 0.4-0.7C2 3-5 minutes
9 It is static 0 1 minute
10 Circulation   80 times
11 It is static 0 0.5
12 Charging 0.25C2 4
13 Charging 0.2C2 3
14 It is static 0 2
15 Electric discharge 0.5C2 10.00V/ is only
16 Charging 0.2C2 Only, 15.30V/ 8h
17 Charging 0.05C2 2
As shown in table 1,
Step 1: using 0.1C2The current versus cell of A carries out charging 1h;
Step 2: using 0.15C2The current versus cell of A carries out charging 1h;
Step 3: using 0.25C2The current versus cell of A carries out charging 4h;
Step 4: using 0.4C2The current versus cell of A carries out charging 5min;
Step 5: no power, static 1min;
Step 6: circulation step 4+ step 5, totally 80 times;
Step 7: no power, static 30min;
Step 8: using 0.4C2The current versus cell of A carries out charging 5min;
Step 9: no power, static 1min;
Step 10: circulation step 8+ step 9, totally 80 times;
Step 11: no power, static 30min;
Step 12: using 0.25C2The current versus cell of A carries out charging 4h;
Step 13: using 0.2C2The current versus cell of A carries out charging 3h;
Step 14: no power, static 2h;
Step 15: using 0.5C2The current versus cell of A discharges;
Step 16: using 0.2C2The current versus cell of A carries out charging 8h;
Step 17: using 0.05C2The current versus cell of A carries out charging 2h.
Step 1~step 3 purpose is first to be filled with part electricity, and battery is enabled to receive larger current charging.
Step 4~step 6 and step 8~step 10 purpose are quasi- stage pulse respectively.
The purpose of step 7, step 11 and step 14 is to play cooling effect.
The purpose of step 12 and step 13 is that the electricity of multiplying power needed for being filled with container formation is (under normal circumstances, electric Pond is internalized into 8-10 times that charge capacity is rated capacity, i.e. 8 C2-10C2).
Further, in the step 15, voltage is converted as every battery 10.00V.Capacity is carried out with 10.5V/ scale Conclude, 25 DEG C reach 2 hours qualifications.
Further, in the step 16, voltage is converted as every battery 15.30V.Battery will be discharged to be full of.
In step 17, battery will be discharged and be full of.
C of the present invention2Indicate the rated capacity of 2 hour rates electric discharge.
A of the present invention indicates electric current.
H of the present invention indicates hour, and min indicates minute.
By multiple charging and discharging, charged using different current versus cells, shorten be internalized into charge technology when Between, battery-heating amount reduces, and improves charge efficiency, and the former charging time, using this technique, only need 48 were small at 60 hours or more When, so that it may complete entire charging process, efficiency greatly improves, and save the cost, battery charge is constant, battery performance not by It influences.
Embodiment 2
Unlike the first embodiment,
Step 4 and step 8 use 0.7C2The current versus cell of A carries out charging 3min.
It has the advantage that: shortening the time for being internalized into charge technology, charge efficiency, save the cost, battery performance are improved It is unaffected.
Specific description is carried out to the application of the invention above, but the invention is not limited to the above institute State, be familiar with one of skill in the art on the premise of not violating the inventive spirit of the present invention and can also make various equivalent changes or Replacement, these equivalent changes or replacement are all included in the scope defined by the claims of the present application.

Claims (3)

1. the quasi- pulse container formation charge technology of electric bicycle batteries, which comprises the following steps:
Step 1: using 0.1C2The current versus cell of A carries out charging 1h;
Step 2: using 0.15C2The current versus cell of A carries out charging 1h;
Step 3: using 0.25C2The current versus cell of A carries out charging 4h;
Step 4: using 0.4~0.7C2The current versus cell of A carries out 3~5min of charging;
Step 5: no power, static 1min;
Step 6: circulation step 4+ step 5, totally 80 times;
Step 7: no power, static 30min;
Step 8: using 0.4~0.7C2The current versus cell of A carries out 3~5min of charging;
Step 9: no power, static 1min;
Step 10: circulation step 8+ step 9, totally 80 times;
Step 11: no power, static 30min;
Step 12: using 0.25C2The current versus cell of A carries out charging 4h;
Step 13: using 0.2C2The current versus cell of A carries out charging 3h;
Step 14: no power, static 2h;
Step 15: using 0.5C2The current versus cell of A discharges;
Step 16: using 0.2C2The current versus cell of A carries out charging 8h;
Step 17: using 0.05C2The current versus cell of A carries out charging 2h.
2. the quasi- pulse container formation charge technology of electric bicycle batteries as described in claim 1, which is characterized in that the step In 15, voltage is converted as every battery 10.00V.
3. the quasi- pulse container formation charge technology of electric bicycle batteries as described in claim 1, which is characterized in that the step In 16, voltage is converted as every battery 15.30V.
CN201910131710.0A 2019-02-22 2019-02-22 Quasi-pulse container formation charging process for battery of electric moped Active CN109818094B (en)

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Citations (7)

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US4188268A (en) * 1978-06-26 1980-02-12 Mizusawa Kagaku Kogyo Kabushiki Kaisha Process for an electrode for a lead battery
CN101615696A (en) * 2009-07-16 2009-12-30 江苏富朗特新能源有限公司 Formation process of flexible-package lithium ion secondary battery
CN102820487A (en) * 2012-07-23 2012-12-12 深圳市海太阳实业有限公司 Lithium ion battery
CN106058347A (en) * 2016-06-30 2016-10-26 济源市万洋绿色能源有限公司 Container formation pulse charging method for lead-acid storage battery
CN107331902A (en) * 2017-06-16 2017-11-07 江苏海宝电池科技有限公司 A kind of lead-acid accumulator pulse container formation technique
CN107369854A (en) * 2017-05-23 2017-11-21 天能电池(芜湖)有限公司 A kind of fast battery pulse formation charging method
CN108963367A (en) * 2018-08-24 2018-12-07 江苏超威电源有限公司 Colloid power lead-acid accumulator chemical synthesis technology

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4188268A (en) * 1978-06-26 1980-02-12 Mizusawa Kagaku Kogyo Kabushiki Kaisha Process for an electrode for a lead battery
CN101615696A (en) * 2009-07-16 2009-12-30 江苏富朗特新能源有限公司 Formation process of flexible-package lithium ion secondary battery
CN102820487A (en) * 2012-07-23 2012-12-12 深圳市海太阳实业有限公司 Lithium ion battery
CN106058347A (en) * 2016-06-30 2016-10-26 济源市万洋绿色能源有限公司 Container formation pulse charging method for lead-acid storage battery
CN107369854A (en) * 2017-05-23 2017-11-21 天能电池(芜湖)有限公司 A kind of fast battery pulse formation charging method
CN107331902A (en) * 2017-06-16 2017-11-07 江苏海宝电池科技有限公司 A kind of lead-acid accumulator pulse container formation technique
CN108963367A (en) * 2018-08-24 2018-12-07 江苏超威电源有限公司 Colloid power lead-acid accumulator chemical synthesis technology

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
潘孝坤等: "铅酸电池脉冲内化成的研究", 《电池》 *

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