Motor vehicles – With means for promoting safety of vehicle – its occupant or... – Responsive to engagement of portion of perimeter of vehicle...
Reexamination Certificate
1998-04-22
2001-12-04
Swann, J. J. (Department: 3611)
Motor vehicles
With means for promoting safety of vehicle, its occupant or...
Responsive to engagement of portion of perimeter of vehicle...
27
Reexamination Certificate
active
06325171
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field of the Invention
This invention relates to a vehicle power supply system, and is applicable to the prevention of a vehicle fire which is caused by the power supply damage which may occur at the time of vehicle collision.
2. Description of the Related Art
Recently, a variety of electronic devices (hereinafter referred to as “loads”, when applicable) have been mounted on vehicles. Power supply lines, control lines, and output lines to those loads are bundled into a wire harness or harnesses so that power is supplied to the loads and the loads are connected to one another.
Electric power is supplied to the load from the battery. In this connection, in order to prevent the occurrence of troubles in the power supply system, a kind of fuse, namely, a fusible link is provided which is longer in fusing time than an ordinary fuse. Through the fusible links, power is supplied to the load from the battery.
If the cover of the power line connected to such a load, is removed and grounded, then large current flows from the battery, so that the part of the power line (wire) thus grounded is heated greatly to set out a fire; however, a large current flows in this manner, the fusible link is fused to interrupt the flow of current from the battery, thereby to prevent the occurrence of a fire, to secure the vehicle.
As was described above, a trouble occurs with the power supply system in a conventional vehicle, the fusible link connected to the battery is fused with the large current occurred by the trouble to secure the vehicle.
On the other hand, in the case where the load is located away from the battery, and its operating current is small, the power supply line is relatively thin, and accordingly high in resistance. Hence, even if the cover of the power supply line is removed and grounded; that is, even if over-current flows through the power supply line, the fusible link is not fused. Accordingly, it is impossible to prevent the occurrence of a fire which is due to the over-heating of the power supply line.
In order to overcome the above-described difficulty, a power supply interrupting system has been proposed in Unexamined Japanese Patent Publication Hei 6-321027. The system is as shown in FIG.
3
. That is, a current detecting section
4
to detect the amount of a current flowing through a fusible link
2
is provided on a power supply line
3
, and a total current calculating section
8
is provided which calculates the value of current used by an electronic device (load) which receives electric power through the power supply line
3
. Furthermore, a control section
9
compares the value of current detected by the current detecting section
4
with the total current value calculated by the total current calculating section
8
, thereby to determine whether or not a power trouble occurs. In the case it is determined where the power trouble has occurred, a control voltage is applied to a silicon controlled rectifier (SCR)
5
.
When the control voltage is applied to the control terminal of the SCR
5
, the SCR
5
is rendered conductive, so that a large current flows through the fusible link
2
and the SCR
5
from the battery
1
. As a result, the fusible link
2
is fused, so that the supplying of electric power to the loads on the vehicle is interrupted; that is, the vehicle is secured.
In
FIG. 3
, a vehicle monitoring control system
6
detects and monitors the operating conditions of the various devices, whether or not electric power is supplied to them, through a state monitoring section
7
. The data thus are supplied to the total current calculating section
8
. The values of currents used for the various devices (when electric power is applied to the devices) are previously stored in the total current calculating section
8
. The total current calculating section
8
calculates the total current value of the devices in which the power is supplied, which is input by the state monitoring section
7
, with reference to the stored current values and applies the total current value to the control section
9
.
Namely, the power interrupting system shown in
FIG. 3
is designed as follows: That is, when a trouble occurs with the power supply system, the current detecting section
4
detects an abnormal current pulse, and the control section determines it as an abnormal pulse and applies the result of determination to the SCR
5
, so that fusible link
2
is fused.
However, in the above-described fire preventing system, the over-current which attributes to the dead short or rare short of the power line is determined from a delicate pulse difference. This determination is considerably difficult, and suffers from a problem which makes it difficult to positively prevent a vehicle fire.
Further, the current detecting section
4
shown in
FIG. 3
is expensive. Hence it is rather difficult to employ it in the power source system.
SUMMARY OF THE INVENTION
In view of the foregoing, an object of the invention is to provide a simple vehicle power supply system which is able to positively prevent the fire which breaks out because of the power line which may be damaged at the time of collision of a vehicle.
According to the first aspect of the present invention, as shown
FIG. 1
showing a fundamental configuration of the system, there is provided a vehicle power supply system, which is constructed that electric power from an electric source section
30
to a load
32
through a power line
31
mounted on a vehicle, comprises: collision detecting section
33
for detecting the collision of the vehicle; a fuse
34
connected to a power line
31
so that it is fused when over-current flows therein; and over-current generating section
35
for causing over-current to flow in the fuse
34
to fuse the fuse
34
when the collision detecting section
33
detects the collision of the vehicle.
Hence, the system functions as follows: When the vehicle collides with something, the collision of the vehicle is detected by the collision detecting section
33
, and the over-current generated by the over-current generating section
35
flows in the fuse
34
. As a result, the fuse
34
is fused, so that the supplying of electric power to the power line
31
and the load
32
which are connected to subsequent stage of the fuse
34
. This feature positively prevents the vehicle fire which attributes to the damage of the power line
31
or the load
32
which may occur at the collision of the vehicle, although the system is simple in arrangement.
According to the second aspect of the present invention, the collision detecting section
33
is an acceleration sensor mounted on the vehicle.
In this manner, the collision of the vehicle can be detected with the acceleration sensor which is generally used with an air bag system or door unlock system. Hence, it is unnecessary to additionally provide the collision detecting section
33
, which furthers simplifies the construction of the vehicle power supply system.
According to the third aspect of the present invention, the over-current generating section
35
is a switch circuit which is closed when the collision detecting section
33
detects the collision of the vehicle, one end of the circuit is connected in the vicinity of the fuse
34
on the power line
31
connecting the fuse
34
with the load
31
, and the other end of the circuit is grounded.
In this manner, upon collision of the vehicle, short-current flows from the power source section
30
through the fuse
34
and the switch circuit, so that the fuse
34
is forcibly fused. Hence, the over-current generating section
35
may be a switch circuit which is simple component, and accordingly the vehicle power supply system may be further simplified in circuitry.
Further, according to the fourth aspect of the present invention, a plurality of loads
32
are connected to subsequent stage of the fuse
34
through the power line
31
.
In this manner, once the one fuse
34
is fused upon collision of the vehicle, the supplying of electric power to all the loads
32
conn
Masunari Shoji
Shimochi Eiji
McClellan James S.
Morgan & Lewis & Bockius, LLP
Swann J. J.
Yazaki -Corporation
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