KR20150094850A - Lead-acid battery separator rib for improved electrolyte supply and diffusion negative plate - Google Patents

Abstract

The present invention relates to a lead-acid battery having a separator wherein a rib for negative plate electrolyte supply and diffusion is formed. In the lead-acid battery including a plate group wherein a positive plate and a negative plate are arranged across a separating plate, the present invention includes the separator wherein the rib for negative plate electrolyte supply and diffusion having a charge and discharge support rib which is separately arranged on one side of the separating plate touched with the surface of the negative plate at regular intervals and supplies and diffuses an electrolyte through an electrolyte moving path is formed. Therefore, the growth of an anode material can be suppressed by maintaining a compact rib distance and the charge and discharge efficiency of a negative pole can be improved by easily supplying and diffusing the electrolyte through the small space between ribs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a lead-acid battery separator, and more particularly, to a lead-acid battery separator having an electrolyte-

The present invention relates to a lead-acid battery having a separator formed with ribs for supplying and dispersing a negative electrode plate electrolyte, and more particularly, to a lead-acid battery comprising a negative electrode plate, (Rib), it is possible to maintain the tight rib spacing to suppress the growth of the negative electrode active material, and to easily supply and diffuse the electrolyte through a small space between the ribs, thereby improving the charging / discharging efficiency of the negative electrode. To a lead-acid battery having a rib for improving the supply of the electrolyte.

In general, Lead Storage Battery is one of the rechargeable batteries that uses peroxide peroxide (Pbo ₂ ) as an anode, lead (Pbo ₂ ) as a cathode, and a dilute sulfuric acid solution as an electrolyte, and has excellent impact resistance and excellent corrosion resistance to sulfuric acid A battery jar and a cover which are made of a PP material and store the electrode plate and the electrolyte.

The basic structure of the lead-acid battery is to prevent physical shorting between the positive electrode plate and the negative electrode plate, the current collector which draws electricity from the electrode, the positive electrode plate and the negative electrode plate, and to maintain the respective potentials, and to prevent the diffusion movement of the electrolyte supplied to the positive electrode and the negative electrode And a separator for separating the liquid.

Such a lead-acid battery has i) an electrode plate assembly in which a positive electrode plate is laminated between separator plates, ii) a negative electrode plate is provided on one surface of the electrode plate assembly, and a certain number of battery plates are stacked. → ⅳ) Apply the flux to the bipolar plate and the negative plate to dry → ⅴ) Perform the COS molding to bond the positive and negative plates to each other at the same pole → vi) Take out the cell from the jig and completely work on the case And the like.

In the case of the lead-acid battery according to the related art, the thickness of the electrode plate group is suitably maintained when the electrode plate group 10 is inserted into the cells at predetermined intervals on one side of the sheet type PE film, And a rib 42 contacting the positive electrode plate 20 to assist in the movement and diffusion of the electrolyte solution. The negative electrode plate 30 contacts the surface of the negative electrode plate 30 on the opposite side where the ribs 42 are formed, And a separator 40 made of a flat sheet that physically restrains the sheet from being damaged.

However, according to the conventional lead-acid battery, the diffusion of sulfate ions discharged from the active material during the discharge reaction may not be smoothly performed with respect to the negative electrode plate 30 in planar contact with the separator 40, Diffusion of sulfate ions required when the active material is discharged may not be sufficient, which may lead to problems such as charging of the negative electrode plate, deterioration of discharge efficiency, and deterioration of the life of the battery.

Examples of the prior art related to the above-described lead-acid battery are disclosed in Patent No. 10-1165511, No. 10-1321371, and the like.

Disclosure of the Invention The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a charge / discharge support rib for supplying and discharging an electrolyte, which is spaced apart from a rear surface of a separator, And the electrolyte can be easily supplied and diffused through a small space between the ribs while suppressing the growth of the negative electrode active material to improve the charging and discharging efficiency of the negative electrode. .

According to an aspect of the present invention, there is provided a lead-acid battery having a rib for improving the supply of an electrolyte solution to a negative electrode plate, the lead-acid battery having a positive electrode plate and a negative electrode plate disposed with a separator interposed therebetween, And a charge / discharge support rib disposed on the opposite surface of the separator at a predetermined interval to supply and diffuse the electrolyte solution through the electrolyte solution passage.

Wherein the charge / discharge support rib is formed of either a linear shape or a wave shape.

And the charge / discharge support rib is formed of R0.09 to R0.11.

And the height of the charge / discharge support rib is 0.09 mm to 0.11 mm.

And the gap between the charge and discharge support ribs is 0.74 mm to 0.76 mm.

As described above, according to the lead acid battery having the separator formed with the anode plate electrolyte supply and diffusion ribs according to the present invention, the charge / discharge support for electrolyte supply and diffusion, which is disposed at a certain distance from the rear surface of the separator, By providing the ribs, it is possible to maintain the tight rib spacing and to suppress the growth of the negative electrode active material, and to easily supply and diffuse the electrolyte through a small space between the ribs, thereby improving the charging / discharging efficiency of the negative electrode .

FIG. 1 is a perspective view illustrating a rechargeable battery having a separator formed with ribs for supplying and discharging a negative electrode plate electrolyte according to the present invention.
2 is a cross-sectional view showing an electrode plate group according to the present invention.
3 is an enlarged view of the "A" part of FIG.
FIG. 4 is a comparative graph showing the life extension of the conventional separator versus the separator according to the present invention.
5 is a cross-sectional view showing a separator according to the prior art.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The term is synonymous with the generic meaning of the term as understood by those of ordinary skill in the art to which the present invention pertains and if the term used herein conflicts with the general meaning of the term, And the same reference numerals throughout the specification denote like elements.

It is noted that the lead-acid battery having the separator formed with the negative electrode plate electrolyte supply and diffusion ribs described in this specification may be implemented in various embodiments and is not limited to the embodiments described herein.

The lead-acid battery 100 provided with the separator formed with the electrolyte solution supply and diffusion ribs according to the present invention includes a plate assembly 110 in which the positive electrode plate 112 and the negative electrode plate 114 are disposed with the separator 116 interposed therebetween And a charge / discharge support rib 116a is provided on one surface of the separator 116, which is in contact with the surface of the cathode plate 114, and spaced apart at regular intervals.

The electrode plate assembly 110 has a structure in which a positive electrode plate 112 coated with a positive electrode active material and a negative electrode plate 114 coated with a negative electrode active material are stacked with a separator 116 interposed therebetween.

The separator 116 is made of an insulating material to insulate the positive electrode plate 112 and the negative electrode plate 114 from each other to prevent a short circuit from occurring, because the separator 116 contains an electrolyte that mediates a chemical reaction between the positive electrode and the negative electrode active material.

The charge / discharge support ribs 116a are disposed at regular intervals on the opposite surface of the separator 116 on which the surface of the separator 116 is in contact with the surface of the cathode plate 114, that is, the surface on which the ribs 116b that contact the anode plate 112 are formed .

The charge / discharge support rib 116a forms an electrolyte solution transfer path 116c between the ribs and serves to supply and diffuse the electrolyte solution through the electrolyte solution path 116c.

The charge / discharge support rib 116a may be selectively provided in accordance with the electrolyte supply and diffusion environment of the linear or wave (wave type).

The charge / discharge support rib 116a may be formed in various shapes such as R0.09 to R0.11 so that the outer surface of the charge / discharge support rib 116a forms a half-shape.

The height H of the charge / discharge support rib 116a is preferably 0.09 mm to 0.11 mm.

The gap D between the charge and discharge support ribs 116a is preferably 0.74 mm to 0.76 mm for smooth supply and diffusion of the electrolyte solution.

As described above, the charging / discharging support ribs 116a that maintain a closely spaced gap can smoothly supply and diffuse the electrolyte while maintaining the effect of suppressing the growth of the negative electrode active material.

The effect of the separator 116 having the charging / discharging support rib 116a as described above was evaluated by the DOD 17.5% lifetime test method, and the test method thereof is as follows.

The lead-acid battery 100 according to the present invention was placed in a constant-temperature water bath maintained at a temperature of 25 ° C to 27 ° C and subjected to the following charge / discharge cycle.

b) 14 minutes, 20 minutes, 7 times the current of 20 hours, 40 minutes, c) 20 times the current of 7 times the current of 30 minutes discharge, d (b) and (c) 85 cycles of charging and discharging (reaching 10.0 V or less), e) 16.0 V for 18 hours of equalization, f) 20 hours of full charge 5 times, 24 hours), g) Charging and discharging from a to f are performed one week.

As shown in the table below, when the conventional separator is used, the lifetime is prolonged to about 18 weeks, which is improved by about 2 times from about 9 weeks.

week Conventional separator The invention separating plate 1W 11.30 11.48 2W 11.55 11.69 3W 11.77 11.83 4W 11.84 11.90 5W 11.85 11.92 6W 11.81 11.93 7W 11.73 11.93 8W 11.54 11.92 9W 11.00 11.90 10W End 11.89 11W 11.87 12W 11.84 13W 11.81 14W 11.75 15W 11.68 16W 11.58 17W 11.35 18W 10.00 19W End

- Extension of the separator of the present invention compared to the conventional separator table -

According to the lead-acid battery 100 provided with the separator formed with the ribs for supplying and dispersing the electrolyte for the anode plate, the separator 116, which is in contact with the surface of the anode plate 114, Discharge support ribs 116a for supplying and spreading the electrolyte solution can be provided so as to maintain the tight rib spacing and to suppress the growth of the negative electrode active material and to easily supply and diffuse the electrolyte solution through the small space between the ribs, There is an advantage that charging and discharging efficiency can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, As shown in FIG.

100: lead storage battery,
110: Plate group,
112: positive electrode plate,
114: cathode plate,
116: separator plate,
116a: charge / discharge support rib,
116b: positive plate contact rib,
116 c: electrolyte flow path,
H: charge / discharge support rib,
D: Spacing between charge and discharge support ribs.

Claims (5)

A lead-acid battery comprising a positive electrode plate and a negative electrode plate disposed with a separator interposed therebetween,
A negative electrode plate provided with a charge / discharge support rib that is spaced apart from the one surface of the separator plate at a predetermined interval to supply and diffuse the electrolyte through the electrolyte solution passage, Battery.
The method according to claim 1,
Wherein the charge / discharge support rib is formed of a linear shape or a wave shape.
3. The method of claim 2,
Wherein the charge / discharge support rib is formed of R0.09 to R0.11.
3. The method of claim 2,
Wherein the charge / discharge support rib has a height of 0.09 mm to 0.11 mm.
3. The method of claim 2,
Wherein the spacing between the charge / discharge support ribs is 0.74 mm to 0.76 mm.

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