CN106972214B - A kind of internal formation process of lead-acid battery - Google Patents

Abstract

The invention discloses a kind of internal formation process of lead-acid battery, the following steps are included: acid adding, the acid adding into lead-acid battery, internal temperature of battery increases, recirculated water refrigerated with ice battery is used later, temperature is controlled at 25-45 DEG C, stand 1-4 hours, it is tentatively charged to battery, using electric current reverse charging 3-5 hours of 0.01-0.15C, battery is carried out positive charge 1-2 hours using the current value of 0.2-0.5C, using electric current reverse charging 1-2.5 hours of 0.2-0.3C, battery carries out discharge treatment, discharge operation is carried out to battery using the current value of 0.4-0.6C, discharge time is 1-3 hours.The invention internal formation process time, the time used was reduced compared with traditional handicraft, so as to shorten the production cycle, is reduced the labor intensity of staff, is improved production efficiency, reduce production cost, reduce power consumption, improve productivity effect.

Description

A kind of internal formation process of lead-acid battery

Technical field

The present invention relates to battery technology field more particularly to a kind of internal formation process of lead-acid battery.

Background technique

Environmental protection and labor protection policy constantly put into effect (such as: " lead-acid accumulator industry access condition " Middle regulation, internal formation process need to be used by starting within 2013 the battery manufacturers founded the factory), it is meant that lead-acid storage battery production enterprise is raw The formulation of production. art should meet environmental-friendly requirement.No matter using being internalized into or alienation during existing storage battery production At technique, the problem of chemical conversion there is opening, the chemical conversion of battery opening has meant that a large amount of acid mist generates, and influences environment.

In the manufacturing process of battery, need to swash positive and negative anodes substance inside pole plate by certain charge and discharge system It is living, it is changed into state-of-charge, improves this chemical reaction process of the comprehensive performances such as charge-discharge performance and self discharge, storage of battery Referred to as chemical synthesis technology process, container formation are that after the assembly is completed, dilute sulfuric acid, chargingization is added in green plate assembled batteries At making the conversion positive/negative plate substance of green plate.Be internalized into lead-acid accumulator all and be by the way of quantitative rich solution into Row Battery formation proposes extra free acid in the latter stage of battery charging, to prevent battery from leaking the generation of sour phenomenon.By Be in lead-acid battery used under lean solution state, once free acid excess, will result in the sour phenomenon of leakage.

Electric bicycle in recent years and it is very universal, main power source is lead-acid accumulator, lead-acid accumulator There are mainly two types of formation regime: one is battery tank formation, plates polarizing being carried out supplement electricity at being assembled into after battery, another kind is Then container formation, green plate direct-assembling are being melted at finished battery；And acid of the tank formation than being internalized into discharge Liquid, sewage and dust are relatively more, seriously pollute environment, so lead-acid accumulator is mostly using being internalized at present, however mesh Preceding existing lead-acid accumulator is internalized into that the time is especially long, charge volume is big, not only causes very big energy waste, but also pole plate Formation effect is bad, and battery with two side terminals is poor

Summary of the invention

Technical problems based on background technology, the invention proposes a kind of internal formation process of lead-acid battery.

A kind of internal formation process of lead-acid battery proposed by the present invention, comprising the following steps:

Step 1: acid adding, the acid adding into lead-acid battery, internal temperature of battery increase, and use recirculated water refrigerated with ice later Battery, temperature are controlled at 25-45 DEG C, stand 1-4 hours；

Step 2: tentatively charging to battery, using electric current reverse charging 3-5 hours of 0.01-0.15C；

Step 3: battery is carried out positive charge 1-2 hours using the current value of 0.2-0.5C；

Step 4: battery is carried out positive charge 1-3 hours using the current value of 0.1-0.3C；

Step 5: battery is carried out positive charge 1-2 hours using the current value of 0.2-0.4C；

Step 6: using electric current reverse charging 1-2.5 hours of 0.2-0.3C；

Step 7: using current value positive charge 2-5 hours of 0.1-0.2；

Step 8: battery is carried out positive charge 2-3 hours using the current value of 0.2-0.5；

Step 9: battery standing processing stands 1-2 hours；

Step 10: carrying out discharge treatment to battery, carries out discharge operation, electric discharge to battery using the current value of 0.4-0.6C Time is 1-3 hours；

Step 11: battery standing processing stands 1-2 hours；

Step 12: discharge operation is carried out to battery using the current value of 0.05-0.1C, discharge time is 1-2 hours；

Step 13: battery is carried out positive charge 2-4 hours using the current value of 0.05-0.2C；

Step 14: battery is carried out positive charge 1-2 hours using the current value of 0.1-0.3C, measures final voltage Value.

Preferably, in step 3, current value positive charge 1-2 hours of 0.2C are first used, the electricity for the 0.5C that converts later Flow valuve charges 2 hours.

Preferably, electrolyte is added in acid solution in step 1, electrolyte is the concentrated sulfuric acid, and the density of the concentrated sulfuric acid is 1.25- 1.3g/cm³。

Preferably, it is first charged 2 hours using the current value of 0.2C to reverse battery in step 6, later using 0.3C's Current value charges to reverse battery 1-1.5 hours.

Preferably, doping in the electrolytic solution, additive are the anhydrous sodium sulfate of 0.6%-1.2%, 0.3%-0.5% Potassium sulfate and 0.05%-0.15% stannous sulfate.

It is in the present invention that the utility model has the advantages that the invention internal formation process time is compared with traditional handicraft, the time used is reduced, from And the production cycle is shortened, the labor intensity of staff is reduced, production efficiency is improved, production cost is reduced, reduces Power consumption improves productivity effect,

Before Battery formation, reverse charging twice is taken, the service life for being able to extend battery has, and has to the conversion of active material Facilitation improves battery initial capacity, carries out multiple positive charge and standing later, be internalized into battery preferably, interior Change effect is good, and acid liquor overflow is few, improves the security performance of battery.

Specific embodiment

Combined with specific embodiments below the present invention is made further to explain.

Reference table one

Embodiment 1

A kind of internal formation process of lead-acid battery, comprising the following steps:

Step 1: acid adding, the acid adding into lead-acid battery, internal temperature of battery increase, and use recirculated water refrigerated with ice later Battery, temperature control at 25 DEG C, stand 1 hour, electrolyte is added in acid solution, electrolyte is the concentrated sulfuric acid, and the density of the concentrated sulfuric acid is 1.25g/cm³, doping in the electrolytic solution, the anhydrous sodium sulfate that additive is 0.6%, 0.3% potassium sulfate and 0.05%；

Step 2: tentatively charging to battery, using electric current reverse charging 3 hours of 0.01C；

Step 3: carrying out battery positive charge 1 hour using the current value of 0.2C, first positive using the current value of 0.2C The current value of charging 0.5 hour, the 0.5C that converts later charges 0.5 hour；

Step 4: battery is carried out positive charge 1 hour using the current value of 0.1C；

Step 5: battery is carried out positive charge 1 hour using the current value of 0.2C；

Step 6: it using electric current reverse charging 1 hour of 0.2C, is first charged using the current value of 0.2C to reverse battery It 0.5 hour, is charged 0.5 hour using the current value of 0.3C to reverse battery later；

Step 7: using current value positive charge 2 hours of 0.1；

Step 8: battery is carried out positive charge 2 hours using 0.2 current value；

Step 9: battery standing processing stands 1 hour；

Step 10: carrying out discharge treatment to battery, carries out discharge operation, discharge time to battery using the current value of 0.4C It is 1 hour；

Step 11: battery standing processing stands 1 hour；

Step 12: discharge operation is carried out to battery using the current value of 0.05C, discharge time is 1 hour；

Step 13: battery is carried out positive charge 2 hours using the current value of 0.05C；

Step 14: battery is carried out positive charge 1 hour using the current value of 0.1C, measures final voltage value.

Embodiment 2

A kind of internal formation process of lead-acid battery, comprising the following steps:

Step 1: acid adding, the acid adding into lead-acid battery, internal temperature of battery increase, and use recirculated water refrigerated with ice later Battery, temperature are controlled at 45 DEG C, are stood 4 hours, are added electrolyte in middle acid solution, electrolyte is the concentrated sulfuric acid, the density of the concentrated sulfuric acid For 1.3g/cm³, doping in the electrolytic solution, additive is the anhydrous sodium sulfate of .2%, 0.5% potassium sulfate and 0.15% Stannous sulfate；

Step 2: tentatively charging to battery, using electric current reverse charging 5 hours of 0.15C；

Step 3: carrying out battery positive charge 2 hours using the current value of 0.5C, first positive using the current value of 0.2C The current value of charging 1 hour, the 0.5C that converts later charges 1 hour；

Step 4: battery is carried out positive charge 3 hours using the current value of 0.3C；

Step 5: battery is carried out positive charge 2 hours using the current value of 0.4C；

Step 6: it using electric current reverse charging 2.5 hours of 0.3C, is first charged using the current value of 0.2C to reverse battery It 1 hour, is charged 1.5 hours using the current value of 0.3C to reverse battery later；

Step 7: using current value positive charge 5 hours of 0.2；

Step 8: battery is carried out positive charge 3 hours using 0.5 current value；

Step 9: battery standing processing stands 2 hours；

Step 10: carrying out discharge treatment to battery, carries out discharge operation, discharge time to battery using the current value of 0.6C It is 3 hours；

Step 11: battery standing processing stands 2 hours；

Step 12: discharge operation is carried out to battery using the current value of 0.1C, discharge time is 2 hours；

Step 13: battery is carried out positive charge 4 hours using the current value of 0.2C；

Step 14: battery is carried out positive charge 2 hours using the current value of 0.3C, measures final voltage value.

Embodiment 3

A kind of internal formation process of lead-acid battery, comprising the following steps:

Step 1: acid adding, the acid adding into lead-acid battery, internal temperature of battery increase, and use recirculated water refrigerated with ice later Battery, temperature control at 30 DEG C, stand 2 hours, electrolyte is added in acid solution, electrolyte is the concentrated sulfuric acid, and the density of the concentrated sulfuric acid is 1.25-1.3g/cm³, doping in the electrolytic solution, additive be 0.8% anhydrous sodium sulfate, 0.4% potassium sulfate and 0.09% stannous sulfate；

Step 2: tentatively charging to battery, using electric current reverse charging 4 hours of 0.1C；

Step 3: battery is carried out positive charge 1.5 hours using the current value of 0.4C, is first using the current value of 0.2C just To charging 0.5 hour, the current value for the 0.5C that converts later charged 1 hour；

Step 4: battery is carried out positive charge 2 hours using the current value of 0.2C；

Step 5: battery is carried out positive charge 1.5 hours using the current value of 0.3C；

Step 6: using electric current reverse charging 2 hours of 0.25C, first using the current value of 0.2C to reverse battery charging 1 Hour, it is charged 1 hour using the current value of 0.3C to reverse battery later；

Step 7: using current value positive charge 3.5 hours of 0.15C；

Step 8: battery is carried out positive charge 2.5 hours using 0.4 current value；

Step 9: battery standing processing stands 1.5 hours；

Step 10: carrying out discharge treatment to battery, carries out discharge operation, discharge time to battery using the current value of 0.5C It is 2 hours；

Step 11: battery standing processing stands 1.5 hours；

Step 12: discharge operation is carried out to battery using the current value of 0.08C, discharge time is 1.5 hours；

Step 13: battery is carried out positive charge 3 hours using the current value of 0.12C；

Step 14: battery is carried out positive charge 1.5 hours using the current value of 0.2C, measures final voltage value.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Discharge type	It charges within 10 hours	1C electric discharge
			Reversely charging 2 times	12h6min	50min30s
Reversely charging 1 time	11h30min	36min9s
			Not reversely charging	10h35min	28min54s

Table one: charged form result statistical form

Claims (2)

1. a kind of internal formation process of lead-acid battery, which comprises the following steps:

Step 1: acid adding, the acid adding into lead-acid battery, internal temperature of battery increase, and use recirculated water refrigerated with ice battery later, Temperature is controlled at 25-45 DEG C, stands 1-4 hours；

Step 2: tentatively charging to battery, using electric current reverse charging 3-5 hours of 0.01-0.15C；

Step 3: battery is carried out positive charge 1-2 hours using the current value of 0.2-0.5C；

Step 4: battery is carried out positive charge 1-3 hours using the current value of 0.1-0.3C；

Step 5: battery is carried out positive charge 1-2 hours using the current value of 0.2-0.4C；

Step 6: using electric current reverse charging 1-2.5 hours of 0.2-0.3C；

Step 7: using current value positive charge 2-5 hours of 0.1-0.2C；

Step 8: battery is carried out positive charge 2-3 hours using the current value of 0.2-0.5C；

Step 9: battery standing processing stands 1-2 hours；

Step 10: carrying out discharge treatment to battery, carries out discharge operation, discharge time to battery using the current value of 0.4-0.6C It is 1-3 hours；

Step 11: battery standing processing stands 1-2 hours；

Step 12: discharge operation is carried out to battery using the current value of 0.05-0.1C, discharge time is 1-2 hours；

Step 13: battery is carried out positive charge 2-4 hours using the current value of 0.05-0.2C；

Step 14: carrying out battery positive charge 1-2 hours using the current value of 0.1-0.3C, measure final voltage value, In step 3, current value positive charge 0.3-1 hours of 0.2C are first used, the current value charging 0.5-1 for the 0.5C that converts later is small When, it is first charged 1 hour using the current value of 0.2C to reverse battery in step 6, later using the current value of 0.3C to battery Reverse charging 1-1.5 hours.

2. a kind of internal formation process of lead-acid battery according to claim 1, which is characterized in that in step 1 in acid solution Electrolyte is added, electrolyte is the concentrated sulfuric acid, and the density of the concentrated sulfuric acid is 1.25-1.3g/cm³。