Electricity: electrothermally or thermally actuated switches – Thermally actuated switches – With bimetallic element
Reexamination Certificate
1999-03-11
2001-07-24
Picard, Leo P. (Department: 2835)
Electricity: electrothermally or thermally actuated switches
Thermally actuated switches
With bimetallic element
C337S343000, C337S380000, C337S053000
Reexamination Certificate
active
06265961
ABSTRACT:
FIELD OF THE INVENTION AND RELATED ART STATEMENT
The present invention relates to a thermal protector and, more particularly, to a thermal protector suitably used for a secondary battery pack incorporated in a portable computer such as a notebook personal computer.
As shown in
FIG. 1
, a notebook personal computer comprises of a main unit
2
and a secondary battery pack BP-
1
. The main unit
2
has a CPU and memories etc, that is, performs fundamental function as a computer. The secondary battery pack BP-
1
incorporates a secondary battery
1
a
and a thermal protector
3
. The thermal protector
3
is interposed between the secondary battery
1
a
and the main unit
2
. This thermal protector
3
operates when an excess current is allowed to flow by a short circuit of a load of the battery
1
a
or when the battery
1
a
runs hot and becomes in an overheating state due to a large discharge current, performing a function of electrically isolating the main unit
2
from the secondary battery
1
a.
FIG. 2
is a sectional view of the thermal protector
3
. The construction and operation of a thermal protector of this type have been disclosed in, for example, Japanese Patent Provisional Publication No. 6-119859 (No. 119859/1994) and Japanese Patent Provisional Publication No. 8-161989 (No. 161989/1996).
Referring to
FIG. 2
, a fixing plate
3
a
consisting of a good electric conductor is formed with a first outside terminal
3
b
connected to an external circuit at one end and is provided with a fixing contact
3
c
at the other end. A movable plate
3
d
, which is a good electric conductor and is made of an elastic material, is provided with a movable contact contactable with the fixing contact
3
c
at one end and is fitted with a second outside terminal
3
f
at the other end. The fixing plate
3
a
and the movable plate
3
d
are insulated from each other by an electrical insulating member
3
g.
The movable plate
3
d
holds a bimetal plate
3
h
on the upper side thereof so that the bimetal plate
3
h
can be deformed inversely. The insulating member
3
g
fixing the fixing plate
3
a
, movable plate
3
d
, bimetal plate
3
h
, and outside terminal
3
f
to each other by penetrating holes formed in these elements.
The bimetal plate
3
h
takes an upwardly convex shape as shown in
FIG. 2
when its temperature is lower than a predetermined value. At this time, the movable contact
3
e
is in contact with the fixing contact
3
c
. When the temperature of the bimetal plate
3
h
becomes higher than the predetermined value, the bimetal
3
h
is instantly deformed inversely so as to take a downwardly convex shape. The bimetal
3
h
having such a property is referred to as a snap-action type bimetal plate.
The distal end of the bimetal plate
3
h
engages with the movable plate
3
d
via a claw
3
i
provided at the distal end of the movable plate
3
d
. Therefore, if the bimetal plate
3
h
is deformed so as to be downwardly convex, the movable plate
3
d
is deformed in the direction so as to go away from the fixing plate
3
a
by the deformation force. As a result, the movable contact
3
e
is separated from the fixing contact
3
c.
The aforementioned thermal protector
3
is provided on at least one of conductors
4
a
and
4
b
connecting the main unit
2
to the secondary battery
1
a.
In the state shown in
FIG. 2
, in which the bimetal plate
3
h
is not inversely deformed, electric current flows in the order of the first outside terminal
3
b
, fixing plate
3
a
, fixing contact
3
c
, movable contact
3
e
, movable plate
3
d
, and second outside terminal
3
f
, or in the order reverse to this. On the other hand, if the bimetal plate
3
h
is inversely deformed and the movable contact
3
e
is separated from the fixing contact
3
c
, the main unit
2
is electrically isolated from the secondary battery
1
a.
Conventionally, a nickel-cadmium battery or a nickel-hydrogen battery has been used as the aforementioned secondary battery
1
a
. These secondary batteries must be protected from an excess current caused by a short circuit. For this reason, the thermal protector
3
is required to operate in response to th e excess current. For the conventional thermal protector
3
, therefore, in order to provide a proper internal resistance, the outside terminals
3
b
and
3
f
, fixing plate
3
a
, and movable plate
3
d
are formed of a material having an electrical conductivity of about 20%IACS (for example, brass). The term IACS is an acronym for International Annealed Copper Standard, and %IACS means a percentage of electrical conductivity with respect to a standard annealed Cu wire.
According to the thermal protector
3
in which the conductive parts thereof are formed of the aforementioned material, when an excess current flows into the secondary battery due to a short circuit etc. of load, the bimetal plate
3
h
is inversely deformed by the self heating action due to the internal resistance. Thus, by the opening action of the contacts
3
c
and
3
e
caused by the inverse deformation of the bimetal plate
3
h
, the secondary battery
1
a
can be released from the short-circuit state.
For the secondary battery, the aforementioned nickel-cadmium battery or a nickel-hydrogen battery has recently been replaced with a lithium-ion battery. This lithium-ion battery requires precise charging/discharging control. Therefore, a control circuit using a semiconductor carries out control including protection against a short circuit.
However, from the viewpoint of safety, it is preferable to provide a safety device of a different type. For this reason, even for a battery pack using the aforementioned lithium battery, the thermal protector has often been used. On the other hand, as the performance of the portable computer is rapidly improved, the necessary current amount tends to increase.
Thereupon, the thermal protector used for such a battery pack requires low sensitivity to electric current in contrast with the conventional thermal protector. Specifically, it is important to decrease the operation sensitivity due to self heating, in other words, to increase the current which can be allowed to flow in an inoperative state (hereinafter referred to as inoperative current).
OBJECT AND SUMMARY OF THE INVENTION
The present invention has been made in view of the above situation, and an object thereof is to provide a thermal protector capable of allowing a high current to flow in an inoperative state.
The above object has been achieved by a thermal protector described in the present disclosure. That is, it has been achieved by preparing conductive parts such as a fixing plate and a movable plate by using a material having an electrical conductivity of 50%IACS and higher.
In order to achieve the object of the present invention, it is necessary that the temperature should not be increased even if a current flows. For this purpose, it is first necessary that the electrical resistance of the movable plate arranged near a bimetal plate be decreased, thereby reducing the self heating amount due to the current flowing in the movable plate.
However, to further decrease the temperature rise of the bimetal plate, it is also essential to rapidly discharge the heat generated even slightly in the movable plate to the outside.
In the present invention, the efficiency of heat discharge is improved by preparing the conductive parts, such as the fixing plate, which are not arranged near the bimetal plate, by using a material having a high thermal conductivity.
Generally, in a metal, free electrons govern the electrical conductivity and thermal conductivity, and Wiedemann-Franz law holds that the ratio of the thermal conductivity to the electrical conductivity is constant. Therefore, by using a material having a high electrical conductivity, a high thermal conductivity can be obtained.
In the present invention, a thermal protector in which the heat generated in the thermal protector is small in amount, the discharge efficiency of generated heat is high, and the inoperative current at room temperatur
Picard Leo P.
Uchiya Thermostat Co., Ltd.
Vortman Anatoly
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