KR101103278B1 - Junction box for vehicle - Google Patents

Abstract

The present invention relates to a junction box for automobiles, the object of which is to detect the current value while removing the contact noise by the contact of the relay to cut off the current when the short and overcurrent occurs.
The present invention for achieving this object is a printed circuit board equipped with a plurality of fuses for connecting the various electrical appliances and the battery, and an intermittent member for opening and closing the other circuit when reaching a predetermined value input to the printed circuit board In the junction box for a vehicle comprising a, the intermittent member, characterized in that it comprises an intelligent power switchboard is composed of an auxiliary printed circuit board and a power semiconductor on the printed circuit board.

Description

Junction box for car {JUNCTION BOX FOR VEHICLE}

The present invention relates to a junction box for an automobile, and more particularly, by installing an intelligent power switchboard in a selection box to replace a relay, thereby preventing mechanical contact noise and automatically detecting a short circuit, an overcurrent and a current value to automatically detect a current. It relates to a junction box for a car to block the.

In general, the electric device of the car is a kind of nervous system, and only when the electric device is normally operated can the car exhibit excellent performance. The electric device of the vehicle is variously composed of the electric device of the engine related to the operation of the engine, and the vehicle electric equipment installed in each part of the body other than the engine.

Typically, wiring through a junction box is configured to supply electricity to various electric appliances and motor driving devices of the automobile. In the junction box, for example, a fuse, a relay, or the like is installed as a protection device for preventing overcurrent and overload from occurring in a fuel tank, an engine, an air conditioner, an equalizer, a warning display, and the like.

Such a junction box is used to aggregate electrical circuits such as a fuse or a relay in a vehicle, and a plurality of electrical circuits connected to each electrical apparatus are installed to operate various electrical apparatuses installed in the automobile.

The junction box acts as a distribution center that supplies power to the individual electrical and electronic components of the vehicle. The junction box also provides wiring and vehicle protection from fires caused by short circuits and electrical short circuits through fuses, relays, and diodes. Protect. In addition, the junction box configures circuits such as lamps, electric fans, power modes, and the like to control related electronic devices.

Such a junction box is called a second harness, and its importance is increasing as the vehicle is advanced and lightweight. The junction box treats the wiring from the harness to the fuses or relay terminals with a printed circuit board (PCB), and the wiring on the printed circuit board is electrically connected to the harness via a connector.

Junction boxes installed in the vehicle provide wiring reliability while improving workability, and are mounted around the engine compartment and the driver's seat to protect the circuitry of the wiring.

In the junction box, as shown in FIG. 1, when a current of a predetermined value or more flows through the printed circuit board 4, a fuse (not shown) that is instantaneously melted and cuts off the circuit, and an input value is set to a predetermined value. It is equipped with an intermittent member that is activated when it reaches and opens and closes other circuits. As the interrupting member, a relay 6 is mainly used.

As shown in Figs. 1 to 3, the relay 6 operates when the power is supplied from the battery B and reaches a constant value to open and close the circuit.

The relay 6 includes an electrode rod 12 in which a plurality of coils 10 are wound and installed inside the relay case 8. The electrode 12 is connected to a fixing member 14 having conductor properties.

In addition, an armature 20 having one side hinged by a hinge shaft 16 is installed at an upper portion of the fixing member 14. The armature 20 rotates around the hinge axis 16 when the magnetic force is formed on the electrode 12.

The armature 20 has a first contact switch 22 protruding from the armature 20. One end of the return spring 23 is connected to the armature 20 at a position close to the hinge shaft 16.

The other end of the return spring 23 is connected to the lower pedestal 24 of the fixing member 14 so as to pull the armature 20.

When the armature 20 rotates, the first contact switch 22 comes into contact with the second contact switch 26 formed on the fixed panel 28.

The second contact switch 26 is formed to protrude from an upper portion of the fixed panel 28 to facilitate contact with the first contact switch 22.

The pedestal 24 of the fixing panel 28 and the fixing member 14 is electrically connected to other electrical components at any position of the printed circuit board 4.

Accordingly, when the first and second contact switches 22 and 26 are in contact with each other, another circuit (not shown) electrically connected through the fixing panel 28 and the pedestal 24 of the fixing member 14 is provided. To activate the electrical components.

When the relay 6 reaches an input value, the relay 6 operates another circuit. When the power is supplied from the battery B to the coil 10, a strong N pole magnetic force is generated in the electrode 12. .

Accordingly, the S pole magnetic force different from the polarity of the electrode rod 12 where the N pole is generated is generated in the electric field 20.

As the S pole magnetic force is generated in the armature 20, the armature 20 is lowered while being tensioned by the magnetic force of the electrode 12 around the hinge axis (16).

The first contact switch 22 of the armature 20 lowered by the magnetic force comes into contact with the second contact switch 26 of the fixed panel 28. When the first contact switch 22 and the second contact switch 26 are in contact with each other, the power is energized to operate another circuit.

However, since the first contact switch 22 of the armature 20 continuously performs instantaneous contact with the second contact switch 26 of the fixed panel 28, there is a problem in that high contact noise is generated. .

In addition, since the first and second contact switches 22 and 26 are made of metal and are worn by contact impact at each contact point, there is a problem in that contact failure occurs when used for a long time.

A typical relay 6 will reach the end of its life if it is contacted about 1 million times.

In addition, the relay 6 prevents short circuit due to overcurrent occurring at the beginning of the operation of the lamps and the motor, and the life of the relay 6 is shortened due to the overcurrent generated.

In addition, since the first and second contact switches 22 and 26 are exposed to air, short circuits are likely to occur due to foreign substances, and a fuse may be disconnected or a relay may be broken when a short circuit occurs due to a wire connection.

In addition, the conventional junction box, there is a problem that it is impossible to determine whether the failure of the load because there is no over-current blocking function.

In addition, the conventional junction box, there is a problem that can not detect the overload of the current damaging the component.

The present invention has been proposed to solve the above problems of the prior art, an object of the present invention is to prevent the noise generated in the junction box by mounting an intelligent power switchboard instead of a relay that generates mechanical contact noise.

Another object of the present invention is to detect the value of the current flowing in the junction box, it is possible to automatically cut off the current when the short and overcurrent occurs.

Another object of the present invention is to eliminate the relay and to install an intelligent power switchboard having an intelligent power semiconductor on the auxiliary printed circuit board, thereby miniaturizing the junction box.

The present invention for achieving the above object is a printed circuit board equipped with a plurality of fuses for connecting the various electrical components and the battery, and an intermittent member for opening and closing the other circuit when reaching a predetermined value input to the printed circuit board In the junction box for a vehicle comprising a, the intermittent member, characterized in that it comprises an intelligent power switchboard is installed on the printed circuit board consisting of an auxiliary printed circuit board and a power semiconductor.

In addition, the intelligent power switchboard, characterized in that the auxiliary printed circuit board is installed vertically on the printed circuit board in order to reduce the size and cost.

In addition, the intelligent power switchboard, the intelligent power semiconductor installed on the auxiliary printed circuit board is characterized in that the load diagnosis.

According to the present invention, there is an effect that can prevent the mechanical contact noise of the relay.

In addition, there is an effect that can maintain a semi-permanent life by applying the intelligent power switchboard for circuit switching using an intelligent power semiconductor.

In addition, by opening and closing the circuit by an intelligent power switchboard in place of the contact switch of the relay, there is an effect that the structure of the junction box can be made compact.

In addition, large relays can be replaced by intelligent power switchboards, thereby reducing the printed circuit board.

In addition, there is an effect that can maintain a semi-permanent life while speeding up the operation of the intelligent power switchboard.

In addition, there is an effect that can operate the intelligent power switchboard even with weak electricity.

In addition, by installing the intelligent power semiconductor on the auxiliary printed circuit board, there is an effect that can facilitate the load diagnosis.

In addition, by applying the intelligent power semiconductor to the intelligent power switchboard, there is an effect that the opening and closing of the circuit is made electrically without noise.

1 is a view showing a junction box for a vehicle according to the prior art.
FIG. 2 is a side view schematically showing the installation of the relay shown in FIG. 1. FIG.
3 is a diagram schematically showing the structure of the relay shown in FIG.
Figure 4 is a perspective view of a junction box for a vehicle according to an embodiment of the present invention.
FIG. 5 is a side view schematically showing the configuration of the intelligent power switchboard shown in FIG. 4. FIG.
FIG. 6 is a diagram illustrating a circuit configuration of the intelligent power switchboard shown in FIG. 4. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the junction box for a vehicle includes a printed circuit board 4 having a plurality of fuses connecting various electronic devices and a battery B, and a schedule input to the printed circuit board 4. It includes an intermittent member that opens and closes another circuit when the value is reached.

Next, the features of the control member of the junction box for a vehicle according to the present invention will be described in detail with reference to FIGS. 4 to 6.

The intermittent member according to the present invention includes an intelligent power switchboard 50 installed on the printed circuit board 4.

The intelligent power switchboard 50 is provided with an intelligent power semiconductor 52.

The intelligent power semiconductor 52 detects whether or not the current value is a proper current, and sends a signal to the vehicle control module 54. The vehicle control module 54 determines the signal of the intelligent power semiconductor 52 and cuts off the power when the load exceeds a predetermined load. In other words, the intelligent power semiconductor 52 performs the load diagnosis.

The intelligent power semiconductor 52 is provided on the auxiliary printed circuit board 56.

The intelligent power switchboard 50 is installed on the printed circuit board 4 embedded in the case 8 of the junction box via the auxiliary printed circuit board 56. The auxiliary printed circuit board 56 is installed perpendicular to the printed circuit board 4.

In addition, since the intelligent power switchboard 50 is installed vertically, the space of the printed circuit board 4 can be used to the minimum, thereby making the device compact. Accordingly, the junction box can be reduced in size to achieve cost reduction.

The auxiliary printed circuit board 56 has a plurality of header pins 58 formed on one side thereof so as to be inserted perpendicularly to the printed circuit board 4.

The intelligent power switchboard 50 can reduce the size of the printed circuit board 4 and the junction box when replacing a large relay.

In addition, since the intelligent power switchboard 50 is electrically controlled by the intelligent power semiconductor 52, mechanical contact noise by the relay does not occur as in the prior art.

 The intelligent power semiconductor 52 of the intelligent power switchboard 50 electrically opens and closes other circuits when reaching a predetermined value input to the printed circuit board 56.

That is, the opening and closing of the circuit by the intelligent power switchboard 50 is performed electrically without noise by the on / off action of the intelligent power semiconductor 52.

Since the intelligent power semiconductor 52 is electrically turned on / off, it is possible to solve the mechanical contact failure of the conventional relay. Therefore, the intelligent power switchboard 50 can be used permanently.

In addition, since the intelligent power switch board 50 using the intelligent power semiconductor 52 is formed in a plate shape, the space on the printed circuit board 4 can be used to a minimum than the conventional relay, which takes up a lot of space. Enables compactization

The intelligent power switchboard 50 can reduce the on / off operation time by using the intelligent power semiconductor 52, so that the operation speed is high.

In addition, the intelligent power semiconductor 52 of the intelligent power switchboard 50 can be operated even with weak electricity, thereby reducing power consumption.

Hereinafter, the effect | action of this invention made as mentioned above is demonstrated.

The intelligent power switchboard 50 is assembled perpendicular to the printed circuit board 4 of the junction box using the header pins 58 of the auxiliary printed circuit board 56.

Accordingly, when the ignition key of the vehicle is turned on, the power of the battery B operates the electronic component through the junction box.

That is, the operation of the junction box is started by supplying the power of the battery B to the intelligent power supply semiconductor 52 through the base 60 of the auxiliary printed circuit board 56.

The intelligent power semiconductor 52 to which the power is applied is operated by the current flowing through the resistor R and the capacitor C. FIG.

That is, the intelligent power semiconductor 52 detects whether the current value supplied to the electronic device is appropriate and then interrupts the current through an on / off operation.

The operation of the intelligent power switchboard 50 in which the intelligent power semiconductor 52 is mounted will be described schematically with reference to FIG. 6.

When an electric signal is applied to the input terminal 70 of the intelligent power semiconductor 52 in the body control module (BCM) 54, the power source B is connected to the two output terminals 71 and 72 through the base 60. Power is applied to the electrical components connected electrically through

Accordingly, the intelligent power semiconductor 52 outputs the value of the current flowing through the electronic component as a voltage through the IS terminal 73, converts the voltage into a digital value (AD), and detects the body control module 54. Do it.

That is, when an abnormality occurs due to short, overload and opening of the current passing through the intelligent power switch board 50 of the junction box, the intelligent power semiconductor 52 detects this and sends an electric signal to the vehicle body control module 54. .

Accordingly, the vehicle body control module 54 allows the power to be cut off when the short, the overload, the opening according to the value set through the signal of the intelligent power semiconductor 52.

Further, in addition to the method of cutting off the power by the signal of the vehicle body control module 54 of the vehicle, the power may be cut off by itself using the intelligent power semiconductor 52 mounted on the intelligent power switchboard 50.

The present invention, by applying the intelligent power switchboard of the plate installed intelligent power semiconductor to the junction box to reduce the occupied space, noise prevention, abnormal current blocking and compaction of the junction box and permanent life, junction box for automobiles It can be widely used in the manufacturing field.

B: Battery 4: Printed Circuit Board
50: intelligent power switch board 52: intelligent power semiconductor
54: Body Control Module 56: Auxiliary Printed Circuit Board

Claims (3)

Printed circuit board (4) equipped with a plurality of fuses for connecting the battery (B) and various electrical appliances provided in the vehicle body of the vehicle, and other circuits upon reaching a predetermined value input to the printed circuit board (4) In the junction box for a vehicle comprising an intermittent member for opening and closing,
The intermittent member, the junction box for a vehicle, characterized in that it comprises an intelligent power switch board 50 is composed of the auxiliary printed circuit board 56 and the power semiconductor 52 installed on the printed circuit board (4). The method of claim 1,
The intelligent power switchboard 50,
Automotive junction box, characterized in that the auxiliary printed circuit board 56 is installed vertically on the printed circuit board (4) to reduce the size and cost. The method of claim 1,
The intelligent power switchboard 50,
The junction box for automobiles, characterized in that the intelligent power semiconductor 52 installed on the auxiliary printed circuit board 56 is subjected to load diagnosis.

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