CN107302117B - A kind of charge technology of intermittent positive negative pulse stuffing - Google Patents

Abstract

The present invention provides a kind of charge technologies of intermittent positive negative pulse stuffing, using high current interval multistage charging method, improve charge efficiency, shorten curing time, it realizes energy-saving, save energy consumption 30%, using high current quick charge, realize that battery subsequent charge activity time by pervious 120 hours, is reduced to 73 hours, improve production efficiency 39%, charge volume 20% is reduced, promotes the capacity 13% of battery, this technique not only realizes energy-saving and production efficiency, and formation efficiency is also improved, improve the initial capacity and cycle life of battery；Further, static suction type vacuum has been carried out by the phase before charging and has taken out acid.Charging state suction type, which is carried out, in the mid-term of charging simultaneously takes out acid, terminate to carry out timed vacuum negative pressure pumping acid in charging, it solves the saturation degree of inside battery acid amount and accelerates sulfuric acid to the speed spread inside pole plate, keep pole plate chemical conversion more thorough, reaches the service life and heavy-current discharge performance for improving battery.

Description

A kind of charge technology of intermittent positive negative pulse stuffing

Technical field

The invention mainly relates to the technical fields of battery charging, and in particular to a kind of battery charger of intermittent positive negative pulse stuffing Skill.

Technical background

Quick charge is divided to constant-current charge and two kinds of pulse charge, and constant-current charge is exactly to be charged with constant current to battery, arteries and veins Punching charging is then to be charged first with pulse current to battery.

In existing pulse charge technique, the general charging time between 120-150 hours, due to the charging time compared with It is long, the deficiency of production efficiency is not only caused, in turn, energy consumption consumption is caused greatly, reduces the formation efficiency of battery, reduce electricity The initial heat in pond shortens the service life of battery.

In 201610496165 .1 of application documents, provide a kind of completely new charge technology, come meet reduce energy consumption, The purpose for improving formation efficiency, extending battery.

Based on above-mentioned application documents, the present disclosure provides charge technologies novel altogether, to meet existing pulse work The deficiency of skill.

Summary of the invention

The present invention provides a kind of charge technologies of intermittent positive negative pulse stuffing, propose in above-mentioned technical background to solve , the existing charge technology charging time is long, and leads to the technical problem that the consumption of charging process energy consumption is big, formation efficiency is low.

The present invention solves the technical solution that above-mentioned technical problem uses are as follows: the present invention improves a kind of intermittent positive negative pulse stuffing Charge technology, the charge technology mainly use high current interval multistage charging method, process are as follows:

(1) 10-15 minutes are stood,

(2) use 0.03 C10-0.05 C10, the charging time 5 minutes,

(3) use 0.07 C10-0.09 C10, the charging time 5 minutes,

(4) use 0.12 C10-0.15 C10, the charging time 10 minutes,

(5) use 0.20 C10-0.25 C10, the charging time 30 minutes,

(6) used for 0.30 60 minutes C10 intermittently impulse charging time of C10-0.35,

(7) used for 0.35 8 hours C10 intermittently impulse charging time of C10-0.4,

(8) use 0.4 C10-0.42 C10, the intermittently impulse charging time 6 hours,

(9) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(10) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(11) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(12) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(13) constant-voltage charge 16.8V charges 2 hours,

(14) 0.4 C10 are discharged to 11.5V/ single lattice,

(15) 0.2 C10 are discharged to 11V/ single lattice,

(16) use 0.45 C10-0.50 C10, intermittently impulse charging time 2 h,

(17) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(18) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(19) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(20) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(21) constant-voltage charge 17V charges 2 hours,

(22) 0.5 C10 are discharged to 10.5V/ single lattice,

(23) use 0.45 C10-0.50 C10, intermittently impulse charging time 2 h,

(24) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(25) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(26) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(27) constant-voltage charge 16.0V charges 2 hours；

The phase carries out static suction type vacuum and takes out acid before charging, while carrying out Charging state suction type in the mid-term of charging and taking out Acid terminates to carry out timed vacuum negative pressure pumping acid in charging；

In charging, the ratio normality charging that the peripheral temperature of battery is designed increases by 5 DEG C high；

During battery charging, the acid mist generated in charging process condensed using acid mist purifying processor Filter processing.

Compared with prior art, the invention has the benefit that

1. using high current interval multistage charging method, charge efficiency is improved, shortens curing time, realizes energy saving drop Consumption saves energy consumption 30%, using high current quick charge, realizes that battery subsequent charge activity time by pervious 120 hours, subtracts It is few to improve production efficiency 39% by 73 hours, charge volume 20% is reduced, promotes the capacity 13% of battery, this technique not only realizes section Energy consumption reduction and production efficiency, and formation efficiency is also improved, improve the initial capacity and cycle life of battery；

2. using aeration type vacuum acid extractor structure, negative pressure three times has been carried out during the charging process and has taken out acid, before charging the phase It has carried out static suction type vacuum and has taken out acid, while having carried out Charging state suction type in the mid-term of charging and taking out acid, terminated to carry out in charging Timed vacuum negative pressure takes out acid, solves the saturation degree of inside battery acid amount and accelerates sulfuric acid to the speed spread inside pole plate, makes Pole plate chemical conversion is more thorough, reaches the service life and heavy-current discharge performance for improving battery.

Detailed explanation is carried out to the present invention below with reference to specific embodiment.

Specific embodiment

Embodiment 1,

(1) 10-15 minutes are stood,

(2) use 0.03 C10-0.05 C10, the charging time 5 minutes,

(3) use 0.07 C10-0.09 C10, the charging time 5 minutes,

(4) use 0.12 C10-0.15 C10, the charging time 10 minutes,

(5) use 0.20 C10-0.25 C10, the charging time 30 minutes,

(6) used for 0.30 60 minutes C10 intermittently impulse charging time of C10-0.35,

(7) used for 0.35 8 hours C10 intermittently impulse charging time of C10-0.4,

(8) use 0.4 C10-0.42 C10, the intermittently impulse charging time 6 hours,

(9) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(10) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(11) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(12) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(13) constant-voltage charge 16.8V charges 2 hours,

(14) 0.4 C10 are discharged to 11.5V/ single lattice,

(15) 0.2 C10 are discharged to 11V/ single lattice,

(16) use 0.45 C10-0.50 C10, intermittently impulse charging time 2 h,

(17) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(18) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(19) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(20) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(21) constant-voltage charge 17V charges 2 hours,

(22) 0.5 C10 are discharged to 10.5V/ single lattice,

(23) use 0.45 C10-0.50 C10, intermittently impulse charging time 2 h,

(24) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(25) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(26) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(27) constant-voltage charge 16.0V charges 2 hours.

In the present embodiment, using aeration type vacuum acid extractor structure, negative pressure three times has been carried out during the charging process and has taken out acid, The phase has carried out static suction type vacuum and has taken out acid before charging, while carrying out Charging state suction type in the mid-term of charging and taking out acid, is filling Electricity, which terminates to carry out timed vacuum negative pressure, takes out acid, it solves the saturation degree of inside battery acid amount and accelerates sulfuric acid to expanding inside pole plate Scattered speed keeps pole plate chemical conversion more thorough, reaches the service life and heavy-current discharge performance for improving battery.

In the present embodiment, in charging, the temperature of battery increases high 5 DEG C or so than normality charging, due to charging temperature Promotion, accelerate pole plate Pb02 conversion speed, achieved the purpose that shorten chemical conversion the time and improve formation efficiency.

In the present embodiment, it by using acid mist purifying processor, realizes and dual condensation and double filtration is carried out to acid mist Purification simply and effectively solves the acid mist pollution environmental problem in battery charging process.

Certain embodiment of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Protect range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (1)

1. the charge technology that the present invention improves a kind of intermittent positive negative pulse stuffing, it is characterised in that: the charge technology mainly uses greatly Electric current interval multistage charging method, process are as follows:

(1) 10-15 minutes are stood,

(2) use 0.03 C10-0.05 C10, the charging time 5 minutes,

(3) use 0.07 C10-0.09 C10, the charging time 5 minutes,

(4) use 0.12 C10-0.15 C10, the charging time 10 minutes,

(5) use 0.20 C10-0.25 C10, the charging time 30 minutes,

(6) used for 0.30 60 minutes C10 intermittently impulse charging time of C10-0.35,

(7) used for 0.35 8 hours C10 intermittently impulse charging time of C10-0.4,

(8) use 0.4 C10-0.42 C10, the intermittently impulse charging time 6 hours,

(9) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(10) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(11) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(12) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(13) constant-voltage charge 16.8V charges 2 hours,

(14) 0.4 C10 are discharged to 11.5V/ single lattice,

(15) 0.2 C10 are discharged to 11V/ single lattice,

(16) use 0.45 C10-0.50 C10, intermittently impulse charging time 2 h,

(17) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(18) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(19) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(20) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(21) constant-voltage charge 17V charges 2 hours,

(22) 0.5 C10 are discharged to 10.5V/ single lattice,

(23) use 0.45 C10-0.50 C10, intermittently impulse charging time 2 h,

(24) use 0.35 C10-0.40 C10, intermittently impulse charging time 2 h,

(25) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(26) use 0.35 C10-0.40 C10, the positive negative pulse stuffing charging time 2 hours,

(27) constant-voltage charge 16.0V charges 2 hours；

The phase carries out static suction type vacuum and takes out acid before charging, while carrying out Charging state suction type in the mid-term of charging and taking out acid, Charging terminates to carry out timed vacuum negative pressure pumping acid；

In charging, the ratio normality charging that the peripheral temperature of battery is designed increases by 5 DEG C high；

During battery charging, the acid mist generated in charging process is carried out at condensation filtering using acid mist purifying processor Reason.