Metal working – Method of mechanical manufacture – Electrical device making
Reexamination Certificate
2001-01-04
2004-11-16
Tsang-Foster, Susy (Department: 1745)
Metal working
Method of mechanical manufacture
Electrical device making
C429S094000, C429S161000, C429S211000
Reexamination Certificate
active
06818025
ABSTRACT:
TECHNICAL FIELD
The present invention relates to rechargeable batteries, and in particular to rechargeable batteries wherein an electrode plate group obtained by superimposing a positive electrode plate, in which positive electrode material is attached to a current collector, onto a negative electrode plate, in which negative electrode material is attached to a current collector, with a separator therebetween, is accommodated in a battery container together with electrolyte.
BACKGROUND ART
In recent years, there has been rapid progress in reducing the size and weight of electronic equipment, which has increased demands to reduce the size and weight and increase the capacity of the batteries used as their power sources.
To meet these demands, lithium ion rechargeable batteries employing a carbon-based material as the negative electrode active material and a transition metal oxide containing lithium, such as LiCoO
2
, as the positive electrode active material have been put into practice by various companies. Lithium rechargeable batteries in which metallic lithium or lithium alloy is employed as the negative electrode active material had the problem that the lithium precipitated on the negative electrode as charging proceeded. On the other hand, lithium ion rechargeable batteries are free of such problem and so have excellent cycle characteristics. As a result, there has been vigorous development of lithium ion rechargeable batteries and their use in electronic equipment has become more common.
Lithium rechargeable batteries are studied also as a means for solving global environmental problems or energy problems. As a way of guaranteeing power stability while maintaining a good global environment, implementation of technology for load equalization is desired; considerable benefits in terms of load equalization could be expected if use of small-scale battery power storage devices capable of storing power during the night could be made common in ordinary households etc. In order to prevent atmospheric pollution by car exhaust gases and global warming due to CO
2
, it would also be desirable to extend the use of electric vehicles in which some or all of the motive power is obtained by rechargeable batteries. Large lithium ion rechargeable batteries with a cell capacity of about 100 Ah are therefore being developed for use as battery power storage devices for domestic use and as power sources for electric vehicles.
The construction of such a lithium ion rechargeable battery is shown in FIG.
5
. An electrode plate group
30
constituted by superimposing a positive electrode plate
21
, in which positive electrode material
21
a
is attached to a positive electrode current collector
21
b
, and a negative electrode plate
22
, in which negative electrode material
22
a
is attached to a negative electrode current collector
22
b
, wound in spiral fashion with a separator
23
therebetween are accommodated in a battery container
24
comprising a battery case
25
and a battery closure
26
together with electrolyte. A positive electrode current collector tab
28
with one end joined to a suitable location of the positive electrode current collector
21
b
has its other end connected to the inner surface of the battery closure
26
constituting the positive electrode terminal, while a negative electrode current collector tab
29
with one end joined to a suitable location of the negative electrode current collector
22
b
has its other end connected to the inside bottom surface of the battery case
25
constituting the negative electrode terminal. An insulating packing
27
is interposed between the inner circumference of the top end aperture of the battery case
25
and the outer circumference of the battery closure
26
so as to mutually insulate the battery case
25
and the battery closure
26
and to seal the battery container
24
.
However, since current was extracted from a single location of a positive electrode plate
21
and a negative electrode plate
22
through current collecting tabs
28
and
29
in this structure, the average distance from the positive electrode plate
21
and negative electrode plate
22
to the current collecting tabs
28
and
29
was long. Moreover, the area of current collecting tabs
28
and
29
was small, so their electrical resistance was large and the current collecting efficiency was poor. Furthermore, since the current collecting efficiency was poor, there was the problem that charging and discharging with large currents resulted in increased battery temperatures, which shortens the life of the rechargeable battery.
Laid-open Japanese Patent Application No. 8-115744, for example, discloses an electrode plate group which is directed to solve these problems. In this electrode plate group, current collectors are respectively projected at one side of the electrode plates, with respective leads being attached to the leading ends of these projected portions of the current collectors. Therefore when the electrode plates are wound in spiral fashion, the leads and the end edges of the current collectors respectively form a positive electrode end face and a negative electrode end face at opposite ends of the electrode plate group. Both terminals are connected to the positive electrode end face and the negative electrode end face respectively. However, such structure is subject to the problem of high cost, since leads are required and the manufacturing steps are complicated.
Laid-open Japanese Patent Application No. 10-21953 discloses an arrangement in which current collectors of both electrode plates project respectively on opposite sides and their tips make resilient pressure contact with the positive electrode terminal and negative electrode terminal. However, the connection between the current collectors and the terminals is only effected by the elastic restoring force of the tips of the current collectors, which are bent at an acute angle within a certain range of elasticity. Therefore, the electrical connection is unstable, and the output of the battery also lacks stability under conditions of use in which it is subjected to vibration.
In view of the above problems of the prior art, an object of the present invention is to provide a rechargeable battery wherein the efficiency of current collection is high, the rise in temperature during charging/discharging can be reduced, and in which charging/discharging can be achieved in a stable fashion with an inexpensive construction.
DISCLOSURE OF THE INVENTION
A rechargeable battery according to the present invention comprises: an electrode plate group including a positive electrode plate, in which a positive electrode material is attached to a current collector, a negative electrode plate, in which a negative electrode material is attached to a current collector, the positive and negative electrode plates being superimposed with an intervening separator therebetween, wherein the current collector of one or other of the positive electrode plate and the negative electrode plate is projected on at least one side of the electrode plate group for forming by itself a flat plane on one side of the electrode plate group; an electrolyte; a battery container in which the electrode plate group and the electrolyte are accommodated; and a current collecting plate joined to the flat plane formed at one side of the electrode plate group. Since the current collecting plate is joined to the flat plane formed by a side portion of the current collectors, the current collection efficiency is high and the rise in temperature during charging/discharging can be kept small. Furthermore, since the flat plane is formed by the current collector itself, the construction can be made inexpensive. Moreover, the construction is stable with respect to vibration etc since the current collecting plate is welded to the flat plane of the current collector, so charging and discharging can be effected in a stable fashion.
If the positive electrode plate and the negative electrode plate are wound in spiral fashion with the separator interpo
Jordan and Hamburg LLP
Matsushita Electric - Industrial Co., Ltd.
Tsang-Foster Susy
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