CN101847718A - Negative pole lead plaster for enhancing charging receptivity of lead-acid battery and preparation method thereof - Google Patents

Abstract

The invention discloses a negative pole lead plaster for enhancing charging receptivity of a lead-acid battery and a preparation method thereof. The lead plaster comprises the following components in parts by weight: 100 parts of lead powder, 0.65-0.85 part of barium sulfate, 0.3-0.4 part of carbon black, 0.05-0.07 part of sodium lignosulfonate, 0.6-0.8 part of humic acid, 0.06-0.08 part of polyester staple fiber, 7-8 parts of 51% dilute sulfuric acid and 9-10 parts of deionized water. The preparation method comprises the following steps: mixing barium sulfate, carbon black, humic acid, polyester staple fiber and sodium lignosulfonate, and adding the mixture and lead powder into a plaster mixing machine; starting a plaster mixing machine to stir for 6-8 minutes, evenly adding water after 2-4 minutes, continuing to stir for 5 minutes, and evenly adding the dilute sulfuric acid within 17-20 minutes while starting the draught fan of the plaster machine and circulating cooling water at the controlled temperature of 45-60 DEG C; and continuously stirring for 10-12 minutes to discharge the plaster, wherein the plaster-discharging temperature is not higher than 45 DEG C, and the apparent density of the prepared lead plaster is 4.4+/-0.05g/cm<3>.

Description

Improve cathode lead plaster of lead acid battery charge ability to accept and preparation method thereof

Technical field

The present invention relates to lead acid accumulator, be specifically related to a kind of cathode lead plaster prescription and preparation method who improves the lead acid battery charge ability to accept, be used to solve the problem of charge in batteries ability to accept difference.

Background technology

Charge acceptance is an important performance indexes of lead acid accumulator, and its life-span influence to lead-acid battery is very big, and it intuitively represents the charging efficiency height of battery.If the charge acceptance of battery is poor, battery charge off-capacity just, corresponding discharge capacity is just not enough.Otherwise charge acceptance well then capacity and life-span will correspondingly improve, so charge acceptance is to battery capacity and cycle life important influence in use.And charge acceptance mainly is subjected to the influence of cathode lead plaster component and proportioning, and at present, lead plaster component and proportioning are unreasonable, and the charge acceptance of storage battery generally only can reach the 0.8-0.9 of standard current value.

Summary of the invention

The technical problem to be solved in the present invention is, a kind of cathode lead plaster that improves the lead acid battery charge ability to accept and preparation method thereof is provided, and reaches to improve the lead acid battery charge ability to accept, and then improves the purpose of its cycle life.

The present invention is achieved through the following technical solutions:

Improve the cathode lead plaster of lead acid battery charge ability to accept, form by following material by weight:

Lead powder 100, barium sulfate 0.65-0.85, carbon black 0.3-0.4, sodium lignosulfonate 0.05-0.07, humic acid 0.6-0.8, polyester staple fiber 0.06-0.08, weight concentration is 51% dilute sulfuric acid 7-8, deionized water 9-10.

Described lead powder is d=1.30～1.6g/cm ³PbO%=73～78%.

The preparation method of the cathode lead plaster of above-mentioned raising lead acid battery charge ability to accept comprises the following steps:

By above-mentioned raw material proportioning, after earlier barium sulfate, carbon black, humic acid, polyester staple fiber, sodium lignosulfonate being mixed, in lead powder adds paste mixing machine, start was stirred after 6～8 minutes, evenly added entry at 2～4 minutes, continue to stir 5 minutes, in 17～20 minutes, evenly add dilute sulfuric acid, when adding dilute sulfuric acid, open the air intake machine and the recirculated cooling water of paste mixing machine, 45～60 ℃ of control temperature, after adding the dilute sulfuric acid end, continuous stirring went out cream in 10～12 minutes again, went out the cream temperature and was not higher than 45 ℃;

The lead plaster apparent density for preparing is 4.4 ± 0.05g/cm ³

Lead paste formula replaces the part sodium lignosulfonate with 0.6%～0.8% humic acid, reduced sodium lignosulfonate and when charging, Effect on Performance has been accepted in charging, and determined barium sulfate, the amount ranges of each additive such as acetylene carbon black, humic acid, polyester staple fibers peacekeeping sodium lignosulfonate by test.Wherein barium sulfate mainly is the center that nucleation is provided for the The product sulfur lead plumbate when discharge, plays the nucleus effect; Acetylene carbon black can improve the electric conductivity of active material, improves the porosity of active material and improves charge acceptance; The good restraining effect has been played in " contraction " and " passivation " of humic acid anticathode plate, can significantly improve the charge acceptance of storage battery; Polyester staple fiber guarantees the intensity of negative plate, prevents that lead plaster from coming off; Sodium lignosulfonate can improve the cryogenic property of battery.

Table 1:(12V65AH) new, the old lead paste formula partial properties index contrast of storage battery:

As can be known from the above table, adopt the storage battery of the 6-CNF-65 of regular convention formula manufacturing, its charge acceptance only reaches 0.84 of standard current value, and the storage battery made from lead paste formula of the present invention, not only its charge acceptance value is higher than more than 1.6 times of national standard requirement, and cycle life also increases the circulation (unit is 150 times) of a unit, and other performance index all can satisfy the requirement of energy storage battery standard.

To sum up, the present invention has higher charge acceptance and cycle life, and its cycle life and charge acceptance can satisfy the performance requirement of energy storage battery fully far above standard-required.

Embodiment

Embodiment 1

Improve the cathode lead plaster of lead acid battery charge ability to accept, form by following material by weight:

Get d=1.4g/cm ³, PbO content is 100 parts in 75% lead powder, 0.7 part of ultra-fine barium sulfate, 0.3 part of acetylene carbon black, 0.05 part of sodium lignosulfonate, 0.6 part of humic acid, 0.06 part of polyester staple fiber, weight concentration is 7 parts of 51% dilute sulfuric acids, 9 parts of deionized waters.In the present embodiment, sodium lignosulfonate is that Norway produces, and humic acid produces for Shanxi Normal University, and polyester staple fiber is 3～5mm.

After earlier barium sulfate, carbon black, humic acid, polyester staple fiber, sodium lignosulfonate being mixed, in lead powder adds paste mixing machine, start was stirred after 6～8 minutes, evenly added entry at 2～4 minutes, continued to stir 5 minutes, in 17～20 minutes, evenly add dilute sulfuric acid, open the air intake machine and the recirculated cooling water of paste mixing machine when adding dilute sulfuric acid, 45～60 ℃ of control material temperature are after adding dilute sulfuric acid and finishing, continuous stirring went out cream in 10～12 minutes again, went out the cream temperature and was not higher than 45 ℃;

The lead plaster apparent density for preparing is 4.4 ± 0.05g/cm ³

Embodiment 2

Get d=1.4g/cm ³, PbO content is 100 parts in 76% lead powder, 0.8 part of ultra-fine barium sulfate, 0.35 part of acetylene carbon black, 0.06 part of sodium lignosulfonate, 0.7 part of humic acid, 0.07 part of polyester staple fiber, weight concentration is 7.5 parts of 51% dilute sulfuric acids, 9.5 parts of deionized waters.The lead plaster of embodiment 2 detects index and sees Table 1.

All the other are implemented as embodiment 1.

Embodiment 3

Get d=1.4g/cm ³, PbO content is 100 parts in 77% lead powder, 0.85 part of ultra-fine barium sulfate, 0.4 part of acetylene carbon black, 0.07 part of sodium lignosulfonate, 0.8 part of humic acid, 0.08 part of polyester staple fiber, weight concentration is 8 parts of 51% dilute sulfuric acids, 10 parts of deionized waters.

All the other are implemented as embodiment 1.

Claims (3)

1. improve the cathode lead plaster of lead acid battery charge ability to accept, it is characterized in that forming by following material by weight:

Lead powder 100, barium sulfate 0.65-0.85, carbon black 0.3-0.4, sodium lignosulfonate 0.05-0.07, humic acid 0.6-0.8, polyester staple fiber 0.06-0.08, weight concentration is 51% dilute sulfuric acid 7-8, deionized water 9-10.

2. the cathode lead plaster of raising lead acid battery charge ability to accept as claimed in claim 1 is characterized in that: described lead powder is d=1.30～1.6g/cm ³PbO%=73～78%.

3. improve the preparation method of the cathode lead plaster of lead acid battery charge ability to accept as claimed in claim 1 or 2, it is characterized in that comprising the following steps:

By the described raw material proportioning of claim 1, after earlier barium sulfate, carbon black, humic acid, polyester staple fiber, sodium lignosulfonate being mixed, in lead powder adds paste mixing machine, start was stirred after 6～8 minutes, evenly added entry at 2～4 minutes, continue to stir 5 minutes, in 17～20 minutes, evenly add dilute sulfuric acid, when adding dilute sulfuric acid, open the air intake machine and the recirculated cooling water of paste mixing machine, 45～60 ℃ of control temperature, after adding the dilute sulfuric acid end, continuous stirring went out cream in 10～12 minutes again, went out the cream temperature and was not higher than 45 ℃;

The lead plaster apparent density for preparing is 4.4 ± 0.05g/cm ³