Chemistry: electrical current producing apparatus – product – and – Current producing cell – elements – subcombinations and... – Cell enclosure structure – e.g. – housing – casing – container,...
Reexamination Certificate
2001-11-14
2004-12-28
Ruthkosky, Mark (Department: 1745)
Chemistry: electrical current producing apparatus, product, and
Current producing cell, elements, subcombinations and...
Cell enclosure structure, e.g., housing, casing, container,...
C429S181000, C429S185000
Reexamination Certificate
active
06835494
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a secondary battery, and more particularly to an improved type thereof which can be manufactured inexpensively.
The increased prevalence of cellular phones is an eye-opener. As power sources of such cellular phones, lithium ion batteries are typically used in place of nickel-cadmium batteries and nickel-hydrogen batteries.
Since lithium ion batteries are higher in working voltage and larger in energy capacity as compared to nickel-cadmium batteries, they are durable and have such electrical properties that they are less likely to deteriorate due to additive charging. Further, lithium ion batteries are lightweight. Due to these properties, lithium ion batteries are advantageous for use in light, thin, short and small devices such as cellular phones and video cameras.
But, while lithium ion batteries have the above-described advantages, a problem is that they are expensive.
An object of the present invention is to provide a lithium ion battery which is less expensive than the conventional lithium ion battery.
SUMMARY OF THE INVENTION
In order to solve the above object, the structure of a lid of a lithium ion battery has been improved in the present invention so that it can be manufactured at a low cost to thereby reduce the cost of the entire lithium ion battery. First, referring to
FIGS. 2 and 3
, the structure of the lid of a conventional square-shaped lithium ion battery will be described.
The lid
10
of the square-shaped lithium ion battery shown in
FIG. 2
has a body
1
formed of an iron plate plated with aluminum or nickel, and has a rectangular shape corresponding to the shape of a housing on which it is placed. To the center of the body
1
, a rectangular terminal member
2
for mounting a lead wire is joined by a rivet
5
through a sealing member
4
together with an insulating member
3
slightly bigger than the terminal member
2
. In the figures, thin-wall portions
6
of the body
1
function as a safety valve if the internal pressure of the housing rises. A hole
7
is provided to pour an electrolyte.
Next, a combined form of these parts of the lid
10
is described with reference to
FIG. 3
, which is an exploded perspective view.
As shown in
FIG. 3
, a hole
1
a
for mounting the terminal member
2
and the insulating member
3
is formed at the center of the body. Through-holes
2
a
and
3
a
are also formed in the center of the terminal member
2
and the insulating member
3
, respectively, to mount the terminal member
2
and the insulating member
3
to the body
1
.
The sealing member
4
mounts the terminal member
2
and the insulating member
3
to the body
1
and is a cylinder having an outward flange at one end thereof. A cylindrical portion
4
b
has such an outer diameter as to be fitted in the mounting hole
1
a
at the center of the body
1
. The sealing member
4
is formed by injection-molding a polypropylene resin. Such members are mounted to the body
1
in the manner described below.
First, as shown in
FIG. 3
, the terminal member
2
and the insulating member
3
are superposed with the insulating member
3
under the terminal member
2
so that the centers of their respective through-holes
2
a
and
3
a
will align. Then, the terminal member
2
and the insulating member
3
are placed on the body
1
with the centers of the respective through-holes
2
a,
3
a
of these members
2
,
3
aligned with the center of the mounting hole
1
a
at the center of the body
1
.
Next, the cylindrical portion
4
b
of the sealing member
4
is inserted into the through-holes
1
a,
2
a
and
3
a
of the three members from the back of the body
1
. The rivet
5
is then inserted into the cylindrical portion
4
b
of the sealing member
4
from the back of the body
1
and joined by caulking. Now the cover
10
is in the state shown in FIG.
2
.
A lead wire (not shown) is mounted by welding the lead wire to the surface of the terminal member
2
, which has thus been mounted to the body
1
. In order to ensure welding, the terminal member
2
requires an area having a large occupying rate relative to the body
1
as shown in the figure.
Due to advancements of welding technology, however, it became possible to reduce the required area to be welded to a value substantially equal to the area of the end face of the rivet
5
after caulking.
Thus, by using the rivet
5
as the terminal and welding lead wire to the rivet, the terminal member
2
can be omitted. This makes it possible to manufacture the lid
10
at a low cost due to a reduction in the number of parts.
Thus, in the present invention, the rivet
5
is also used as the terminal member
2
to reduce the number of parts to four.
Further, by making the sealing member
4
an insulating material and using it also as the insulating member
3
, it is possible to further reduce the number of parts to three (see FIGS.
1
B and
1
C).
Moreover, according to the present invention, the sealing member
4
may consist of a cylindrical portion
4
b
and flange portion
4
a
(FIGS.
1
A and
1
B). Advantages of this arrangement will be described below.
Heretofore, the insulating member
3
was, as described above, formed by injection molding of inexpensive polypropylene resin. But if the housing is made thin to reduce the size (thickness) of the battery, the influence of heat produced in welding the housing and the lid
10
together increases, so that the propropylene resin, which is inferior in heat resistance, cannot withstand the heat. Thus, it was impossible to reduce the size. Instead of polypropylene resin, using a fluororesin, which is superior in heat resistance, is considered.
But a fluororesin is not only expensive but is also difficult to injection mold, so that in order to perform injection molding, a special grade one has to be used. Thus, the cost is high as compared with other materials.
In the present invention, the sealing member
4
comprises the cylindrical portion
4
b
and the flange portion
4
a,
as shown in
FIGS. 1A and 1B
, which are separate from each other and simple in shape.
With this arrangement, disks for such simply shaped cylindrical portion
4
b
and flange portion
4
a
can be manufactured by punching or extruding a sheet material. Such work is inexpensive in cost. Thus, a fluororesin may be used, which is expensive but superior in heat resistance, it is possible to obtain a product more inexpensive than conventional in the end.
Also, in the entire sealing member
4
, the flange portion
4
a
is a portion for which high sealability is not as required as it is for the cylindrical portion
4
b
but insulating properties are mainly required for the flange portion
4
a.
Thus, even if the flange portion
4
a
is deformed under the influence of heat buildup during welding, this will pose no significant problem. Thus, the flange portion
4
a
may be formed, not from an expensive fluororesin, but from a sheet member of inexpensive polypropylene resin by inexpensive punching. This further reduces the manufacturing cost of the lithium ion battery.
The above description has been made with reference to a lithium ion battery. But this invention is not limited to lithium ion batteries but is applicable to other secondary batteries such as nickel-cadmium batteries and nickel-hydrogen batteries if the lid has the same structure for the connection of the lead wires.
Other features and objects of the present invention will become apparent from the following description made with reference to the accompanying drawings, in which:
REFERENCES:
patent: 5586993 (1996-12-01), Saito
patent: 6132900 (2000-10-01), Yoshizawa
patent: 6168879 (2001-01-01), Kim
patent: 11-167909 (1999-06-01), None
Fukumoto Masaaki
Hayashi Toshiharu
Kato Tomohiro
Ruthkosky Mark
Wako Electronics Co., Ltd.
Wenderoth , Lind & Ponack, L.L.P.
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