US20020004166A1

US20020004166A1 - Battery separator with improved shoulders

Info

Publication number: US20020004166A1
Application number: US09/293,046
Authority: US
Inventors: Daniel E. Weerts; Gordon B. Dobbie
Original assignee: Entek International LLC
Current assignee: Entek International LLC
Priority date: 1999-04-16
Filing date: 1999-04-16
Publication date: 2002-01-10
Anticipated expiration: 2019-04-16
Also published as: KR20010110744A; MXPA01010383A; US6410183B2; EP1169742A1; CN1351765A; DE60000929D1; WO2000063983A1; EP1169742B1; CA2370198A1; AU4234100A; ATE229233T1; CN1182603C

Abstract

A battery separator for use in enveloping the plates of a flooded cell type lead acid battery. The separator has improved puncture resistance in the shoulder areas provided by a plurality of improved mini-ribs located therein. The mini-ribs have substantially flat upper surfaces, and the space between adjacent mini-ribs is less than about 0.0225 inch. The separator may also have a plurality of micro-ribs located on the backside.

Description

BACKGROUND OF THE INVENTION

This invention relates to a battery separator for use in flooded cell type lead acid batteries. The separator has a shoulder design that provides improved resistance to puncture.

Separators are used in lead acid batteries to separate the positive and negative plates. Such separators are formed of materials that have sufficient porosity to permit the battery's electrolyte to reside in the pores of the material, thereby permitting ionic current to be established between adjacent positive and negative plates, but not so porous as to allow physical contact between the plates or “treeing” of lead between adjacent plates.

The most commonly used material in flooded cell type lead acid batteries is microporous polyethylene. Such separators and their method of manufacture are, essentially, described in U.S. Pat. No. 3,351,495.

Typically such separators have multiple “major” ribs formed on at least that planar face of the “backweb” which is to face the positive plate. Such major ribs are typically formed parallel to the longitudinal edges of the backweb and typically have a height above the backweb that is greater than the thickness of the backweb.

Although at one time separators were manufactured as sheets which were placed between the plates, the overwhelming configuration currently used is to wrap the separator material around either the negative or positive plates and seal the separators, which has a width greater than the wrapped plates, along both edges to thereby form an “envelope” around each wrapped plate. The separator edges adjacent the plate edges, where sealing of the separator is effected, is known as the “shoulder” area of the separator.

U.S. Pat. No. 4,407,063 discloses the most commonly used method and apparatus for enveloping and sealing separators around plates for lead acid batteries.

One method of making plates for lead acid batteries is to cut, slit, and expand a lead sheet. Such “expanded metal” plates often have sharp metal protrusions, called “bent wires”, which can abrade and puncture the adjacent separator shoulder thereby causing a short circuit and premature failure of the battery. Such punctures can occur during enveloping, during battery assembly, or after manufacture of the battery.

One approach to preventing such punctures is to make the shoulder area thicker than the thickness of the adjacent backweb. This approach is disclosed in U.S. Pat. No. 4,788,113.

Another approach has been to form “mini-ribs” in the shoulder area. Such mini-ribs have a cross-section that is the arc of a circle. The height of such mini-ribs above the backweb is less than that of the major ribs, typically 0.007 inch. Such prior art mini-ribs are also spaced closer together than the major ribs, a typical such mini-rib spacing being 0.0626 inch. The use of mini-ribs is preferable over using a thicker shoulder area because of cost considerations. However, it has been found that many punctures still occur in the shoulder area with separators using current mini-rib configurations.

It is an object of the present invention to provide a separator having an improved shoulder design that greatly reduces puncture by bent wires.

SUMMARY OF THE INVENTION

The present invention is a battery separator having a shoulder design that has improved puncture resistance.

The separator of the invention has a plurality of mini-ribs extending from one planar face of the separator in the shoulder area, the mini-ribs having a flattened upper surface rather than the rounded upper surfaces of prior art mini-ribs. The maximum spacing between the mini-ribs of the invention is 0.0225 inch.

In another embodiment of the invention, a plurality of micro-ribs extend from the planar surface of the separator opposite the planar surface from which the mini-ribs extend.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a partial end view of one embodiment of the battery separator of the invention; [0014]
FIG. 2 is an enlarged end view of one shoulder portion of the battery separator illustrated in FIG. 1; [0015]
FIG. 3 is an enlarged end view of two adjacent mini-ribs of the invention; and [0016]
FIG. 4 is a partial end view of another embodiment of the battery separator of the invention using micro-ribs.[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The battery separator [0018] 10 of this invention is comprised of a backweb 12 having a first (upper) planar surface 13, a second (lower) planar surface 14, a first edge 16, and a second edge 18. Lower planar surface 14 will also be referred to as the “backside”.
A plurality of major ribs [0019] 20 are located across the width of separator 10, only the two major ribs 20 a and 20 b closest to edges 16 and 18, respectively, being shown in FIG. 1. Major ribs 20 are typically disposed longitudinally along the length of separator 10, parallel to each other and to edges 16 and 18. However, major ribs 20 may be located at an angle to edges 16 and 18 (i.e., be diagonally disposed), or may be sinusoidal rather than straight.
Major ribs [0020] 20 may have any cross-sectional configuration used in the art, including those configurations disclosed in U.S. Pat. No. 5,679,479. Additional ribs located in that portion of the separator where the major ribs are located, such as disclosed in U.S. Pat. No. 5,789,103, may also be used.
Located between the end ribs [0021] 20 a and 20 b and the edges 16 and 18, respectively, are the shoulder areas of separator 10. A plurality of mini-ribs 30 are located in the shoulder areas. Mini-ribs 30 are longitudinally disposed along the length of separator 10, and are substantially evenly spaced from each other. Although it is preferred that mini-ribs 30 extend from only one planar face of separator 10, they may extend from both planar faces in the shoulder area, and may be staggered so that a mini-rib on one planar surface is located between two mini-ribs located on the other planar surface.
Mini-ribs [0022] 30 are preferably disposed substantially parallel to each other and to edges 16 and 18. However, mini-ribs 30 may have other configurations, such as being at an angle to the edges 16 and 18 of separator 10, or be sinusoidal rather than straight.
FIG. 3 is an enlarged end view of two adjacent mini-ribs [0023] 30 a and 30 b. As can be seen, mini-rib 30 a has a flat apex or upper surface 31 a. Flat upper surface 31 a is bounded by two upper edges 32 a and 33 a. The base of mini-rib 30 a is bounded by two lower edges 34 a and 35 a, located at the juncture of mini-rib 30 a and backweb 12. Mini-rib 30 a has sloping side walls 36 a and 37 a which extend between upper edges 32 a and 33 a and lower edges 34 a and 35 a, respectively. Upper edges 32 a and 33 a and lower edges 34 a and 35 a are, preferably, rounded as shown in FIG. 3.
Likewise, mini-rib [0024] 30 b, which is identical to mini-rib 30 a, has a flat apex or upper surface 31 b bounded by upper edges 32 b and 33 b, lower edges 34 b and 35 b, and sloping side walls 36 b and 37 b.
Currently used mini-ribs have rounded apexes, i.e., the cross-section of such prior art mini-ribs is solely the arc of a circle, typically having a radius of 0.007 inch. [0025]
The height of the flat upper surface [0026] 31 of mini-ribs 30 above the upper planar surface 13 of the backweb 12 of separator 10 is between about 0.003 and about 0.006 inch, preferably between about 0.003 and about 0.004 inch. Currently used mini-ribs typically have a height of about 0.007 inch.
The width of the flat upper surface [0027] 31 is between about 0.008 and about 0.018 inch, preferably between about 0.010 and about 0.012 inch.
The spacing between adjacent upper edges of adjacent mini-ribs [0028] 30, i.e., the distance between edges 33 a and 32 b as seen in FIG. 3, is critical to minimizing puncture resistance in the shoulder area. The present inventors been found that if that spacing is less than about 0.0225 inch, and preferably between about 0.018 and about 0.020 inch, the vast majority of grid wires will not be able to contact the thinner backweb 12 where puncture resistance is low, but will contact the thicker area occupied by a mini-rib 30, thereby minimizing the ability of the wire to penetrate through the separator 10 in the shoulder area.
Currently used mini-ribs typically are spaced apart a distance of 0.0626 inch, which the current inventors have found is much greater than the cross-sectional size of many grid wires, thereby more easily permitting the grid wire to come into contact with the backweb where penetration is more easily achieved. [0029]
Another preferred embodiment of the invention is one wherein a plurality of “micro-ribs” [0030] 40 extend from the backside 14 of the separator.
Micro-ribs [0031] 40 are preferably substantially evenly spaced apart across the entire width of the backside 14 of separator 10, and run longitudinally along the length of the separator 10, substantially parallel to each other and to edges 16 and 18. However, the micro-ribs 40 may be disposed at an angle to edges 16 and 18, i.e., be diagonally disposed, or be sinusoidal rather than straight.
The cross-section of micro-ribs [0032] 40 is preferably the arc of a circle, as can be seen in FIG. 4 which illustrates four adjacent micro-ribs 40 a, 40 b, 40 c, and 40 d. The height of micro-ribs 40 above the backside is between about 0.003 and about 0.006 inch, preferably between about 0.003 and about 0.004 inch.
The distance between micro-ribs [0033] 40, measured center-to-center, is less than about 0.0225 inch, preferably between about 0.018 and about 0.020 inch.
Example 1 below describes a specific configuration for a battery separator having the mini-rib configuration of this invention. [0034]

EXAMPLE 1

A microporous polyethylene battery separator was made having the following characteristics, all dimensions being in inches:



	Separator width:	6.4
	Backweb thickness:	0.006
	Major ribs:
	Number:	20
	Height:	0.019
	Width:	0.015
	Spacing:	0.263
	Mini-Ribs:
	Number:	18 (each shoulder)
	Height:	0.004
	Width:	0.010
	Spacing:
	Upper edges:	0.0225
	Centers:	0.0325
	Lower edges:	0.0066
	Other:	0.131 (distance between centers
		of adjacent major rib and mini-
		rib

EXAMPLE 2

Separators having the configuration described in Example 1 were tested for puncture resistance. The method used for testing for puncture resistance was a modified BCI Test Method 3.214. The modification consisted of substituting a pin having cross-sectional dimensions of 0.0225 inch×0.0325 inch for the pin size specified in the original test method. The reason for the substitution of pins was to use a pin which more closely approximated smaller grid wires. The puncture resistance of a large number of Example 1 separators averaged 0.75 pound. [0036]

Comparative Example 1

Prior art separators were also tested for puncture resistance using the same modified test procedure used in Example 2. These prior art separators had the same dimensions of the Example 1 separators with the exception that the mini-ribs of such prior art separators were spaced apart a distance of 0.0626 inch (center-to-center) and the cross-section of the mini-ribs was the arc of a circle having a radius of 0.007 inch. The average puncture resistance of a large number of such prior art separators was 0.62 pound. [0037]
While specific embodiments have been described, it is not intended that they restrict the scope of the invention beyond that set forth in the appended claims. [0038]

Claims

The invention claimed is:

1. A battery separator comprising:

a backweb of porous, acid resistant material, said backweb having first and second planar surfaces, first and second edges, and first and second shoulder areas located adjacent said first and second edges, respectively; and

a plurality of mini-ribs extending from at least the first planar surface of said backweb in said first and second shoulder areas, said mini-ribs being spaced apart a distance less than about 0.0225 inch.

2. The separator of claim 1 wherein said mini-ribs are spaced apart a distance of between about 0.018 and about 0.020 inch.

3. The separator of claim 1 wherein each of said mini-ribs has a flattened upper surface.

4. The separator of claim 1 wherein the height of said mini-ribs above the adjacent planar surface of said backweb is between about 0.003 and about 0.006 inch.

5. The separator of claim 4 wherein the height of said mini-ribs above the adjacent planar surface of said backweb is between about 0.003 and about 0.004 inch.

6. The separator of claim 3 wherein said substantially flat upper surface of said mini-ribs is between about 0.008 and about 0.012 inch in width.

7. The separator of claim 1 wherein a plurality of major ribs extend from at least one planar surface of said backweb in the area of said backweb located between said first and second shoulder areas.

8. The separator of claim 1 wherein a plurality of micro-ribs extend from the second planar surface of said backweb.

9. The separator of claim 8 wherein said micro-ribs are substantially evenly spaced across the entire width of said second planar surface.

10. The separator of claim 8 wherein the distance between the centers of said micro-ribs is less than about 0.0225 inch.

11. The separator of claim 8 wherein the distance between the centers of said micro-ribs is between about 0.018 and about 0.020 inch.

12. The separator of claim 8 wherein the height of said micro-ribs above the second planar surface of said backweb is between about 0.003 and about 0.006 inch.

13. The separator of claim 12 wherein the cross-section of said micro-ribs is the arc of a circle.