KR101838987B1 - Valve driving apparatus - Google Patents

Abstract

A valve drive apparatus is disclosed. A valve driving apparatus according to an embodiment of the present invention includes a battery power measuring unit for measuring battery power output from a battery by a control signal of a controller; And a valve driving signal output from the control device is received by a control signal of the control device. The valve driving signal is selectively switched on by a control signal of the control device to turn on A valve drive signal supply unit selectively supplying the valve to the valve; And a protection circuit for preventing an abnormal signal from being supplied to the valve drive signal supply unit to prevent switching on-drive of the valve drive signal supply unit due to an abnormal signal of the battery power supply when the battery power measurement unit measures the battery power supply. .

Description

[0001] VALVE DRIVING APPARATUS [0002]

The present invention relates to a valve drive apparatus.

Generally, the conventional valve driving apparatus drives the valve to selectively open the valve.

That is, the conventional valve driving apparatus receives the battery power outputted from the battery, receives the valve driving signal outputted from the control apparatus according to the control signal of the control apparatus, and selectively turns on by the control signal of the control apparatus ), The valve driving signal was selectively supplied to the valve.

However, when the conventional valve driving apparatus receives battery power of an abnormal signal such as an overvoltage, the switching element deteriorates at the time of valve driving.

Such a conventional valve driving apparatus has a limitation in preventing the deterioration of the switching element at the time of valve driving, and has a limitation in prolonging the part life.

Therefore, in recent years, researches on an improved valve driving device which can prevent the deterioration of the switching element and prolong the life of parts at the time of valve driving have been continuously carried out.

In recent years, research on an improved valve driving device capable of suppressing an increase in maintenance cost by continuously recognizing the present battery power state and shortening the maintenance time at the time of maintenance for the current battery power state has been continuously carried out It is coming.

In recent years, research on an improved valve driving device capable of suppressing an increase in maintenance cost by continuously recognizing the state of the valve driving signal and shortening the maintenance time at the time of maintenance for the present valve driving signal state has been continuously carried out .

An embodiment of the present invention is intended to provide a valve driving apparatus capable of preventing deterioration of a switching element and prolonging the life of parts.

Also, an embodiment of the present invention is to provide a valve driving apparatus capable of shortening the maintenance time at the time of maintenance for the current battery power state, thereby suppressing an increase in maintenance cost.

In addition, the embodiment of the present invention is intended to provide a valve driving apparatus capable of shortening the maintenance time at the time of maintenance for the current valve driving signal state, thereby suppressing an increase in maintenance cost.

According to an aspect of the present invention, there is provided a battery control apparatus comprising: a battery power measuring unit for measuring battery power output from a battery by a control signal of a controller; The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And an abnormality detection unit for detecting an abnormality in the valve drive signal supply unit when the battery power is measured by the battery power measurement unit, Wherein the protection unit includes a protection unit for protecting the battery from being supplied with the battery power when the battery power is measured by the battery power measurement unit of the battery power measurement unit, And at least one zener diode for interrupting supply of the abnormal signal to the third switching device SW3 so as to prevent switching on of the third switching device SW3.

Also, the battery power measuring unit includes a first switching device SW1 that is selectively turned on by receiving a switching turn-on signal of the first switching signal supply unit among the control signals of the control device, and is supplied with battery power output from the battery; And battery power measuring means for measuring the battery power output from the battery by the switching turn-on driving of the first switching device SW1.

The first switching device SW1 may be a metal-oxide semiconductor field effect transistor (MOSFET), a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn-off thyristor (GTO) , And an SCR Thyristor (Silicon Controlled Rectifier Thyristor).

In addition, the battery power measuring means may include a 7-segment which indicates a current value of the measured battery power.

The battery power measuring means may include a light emitting diode that emits light when the current state of the measured battery power is stable or when the current state is unstable.

According to another aspect of the present invention, there is provided a battery control apparatus comprising: a battery power measuring unit for measuring a battery power output from a battery by a control signal of a controller; The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And an abnormality detection unit for detecting an abnormality in the valve drive signal supply unit when the battery power is measured by the battery power measurement unit, Off signal of the valve driving on / off part of the control signal of the control device is selectively supplied to the switching valve, and the switching valve is turned on, And a second switching device (SW2) for supplying the valve to the valve may be provided.

The second switching device SW2 may be a metal-oxide semiconductor field effect transistor (MOSFET), a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn-off thyristor (GTO) , And an SCR Thyristor (Silicon Controlled Rectifier Thyristor).

According to another aspect of the present invention, there is provided a battery control apparatus comprising: a battery power measuring unit for measuring battery power output from a battery by a control signal of a control device; The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And an abnormality detection unit for detecting an abnormality in the valve drive signal supply unit when the battery power is measured by the battery power measurement unit, Wherein the valve driving signal supply unit is selectively turned on by receiving a switching on signal of the second switching signal supply unit of the control signal of the control unit, And a third switching device (SW3) that receives a valve driving signal including a valve driving maintaining signal of the driving holding part and a voltage value of the reference voltage source and supplies the valve driving signal to the valve.

The third switching device SW3 may be a metal-oxide semiconductor field effect transistor (MOSFET), a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn-off thyristor (GTO) , And an SCR Thyristor (Silicon Controlled Rectifier Thyristor).

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The apparatus may further include a valve driving signal measuring unit for measuring a valve driving signal when the valve driving signal supply unit selectively supplies the valve driving signal to the valve.

In addition, the valve drive signal measurement unit may include a 7-segment that indicates a current value of the measured valve drive signal.

In addition, the valve driving signal measuring unit may include a light emitting diode that emits light indicating that the current state of the measured valve driving signal is stable, or emits that the current state is unstable.

According to another aspect of the present invention, there is provided a battery control apparatus comprising: a battery power measuring unit for measuring battery power output from a battery by a control signal of a control device; The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And an abnormality detection unit for detecting an abnormality in the valve drive signal supply unit when the battery power is measured by the battery power measurement unit, Wherein when the valve drive signal is selectively supplied from the valve drive signal supply unit to the valve, the protective unit is configured to selectively supply the valve drive sustain signal of the valve drive holding unit and the voltage of the reference voltage source And the second switching element (SW2) of the valve driving signal supply part is not supplied to the second switching element (SW2) of the valve driving signal supply part.

According to another aspect of the present invention, there is provided a battery control apparatus comprising: a battery power measuring unit for measuring battery power output from a battery by a control signal of a control device; The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And an abnormality detection unit for detecting an abnormality in the valve drive signal supply unit when the battery power is measured by the battery power measurement unit, Off signal of the valve driving ON / OFF part of the control signal of the control device to the second switching device (SW2) of the valve driving signal supply part, the protection part There is provided a valve driving apparatus including at least one zener diode that blocks a turn-on signal from being supplied to the battery.

The valve driving device according to the embodiment of the present invention can prevent the switching elements from being deteriorated and prolong the life of parts.

In addition, the valve driving apparatus according to the embodiment of the present invention can shorten the maintenance time at the time of maintenance for the present battery power state, thereby suppressing an increase in maintenance cost.

In addition, the valve driving apparatus according to the embodiment of the present invention can shorten the maintenance time at the time of maintenance for the current valve driving signal state, thereby suppressing an increase in maintenance cost.

1 is a block diagram showing a state in which a valve driving device according to an embodiment of the present invention is connected to a battery, a control device, and a valve.
FIG. 2 is a block diagram showing an example of the valve driving apparatus and the control apparatus shown in FIG. 1. FIG.
3 is a circuit diagram showing an example of the valve driving apparatus and the control apparatus shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

FIG. 1 is a block diagram showing a state in which a valve driving device according to an embodiment of the present invention is connected to a battery, a control device and a valve, FIG. 2 is a block diagram showing the valve driving device and the control device shown in FIG. FIG.

Fig. 3 is a circuit diagram showing the valve driving apparatus and the control apparatus shown in Fig. 2 as an example.

1 to 3, a valve driving apparatus 100 according to an embodiment of the present invention includes a battery power measuring unit 102, a valve driving signal supply unit 104, and a protection unit 106.

The battery power measuring unit 102 measures the battery power output from the battery 10 by the control signal of the controller 30. [

For example, the battery power measuring unit 102 may include a first switching device SW1 and a battery power measuring unit 102a.

The first switching device SW1 may be selectively turned on by receiving the switching on signal of the first switching signal supply unit 34 among the control signals of the controller 30 and may be turned on, Power supply can be supplied.

In this case, the first switching device SW1 is a BJT (Bipolar Junction Transistor) for convenience of description. However, the first switching device SW1 may be a Metal-Oxide Semiconductor Field Effect Transistor (MOSFET), an Insulated Gate Bipolar Transistor (IGBT) , An MCT (MOS Controlled Thyristor), and an SCR Thyristor (Silicon Controlled Rectifier Thyristor).

The battery power measuring means 102a can measure the battery power outputted from the battery 10 by the switching turn-on driving of the first switching device SW1.

At this time, the battery power measuring unit 102a may display the current value of the measured battery power including a seven-segment (not shown) and may include a green light emitting diode (not shown) It is possible to emit light when the measured current state of the battery power source is stable, and when the current state of the battery power source including the red light emitting diode (not shown) is unstable.

Here, the battery power measuring unit 102 may further include at least one resistance for adjusting the voltage level of the switching on signal of the first switching signal supply unit 34, and at least one of the resistors may include a first resistor R1 ).

The valve drive signal supply unit 104 is supplied with the battery power outputted from the battery 10 and receives the valve drive signal outputted from the control unit 30 by the control signal of the control unit 30, And selectively supplies the valve driving signal to the valve 50 in an optional switching turn-on driving by a control signal of the controller 50. [

For example, the valve driving signal supply unit 104 may include a second switching device SW2 and a third switching device SW3.

The second switching device SW2 can be selectively turned on by receiving the switching on signal of the valve drive on-off part 32 of the control signal of the control device 30, Power can be supplied and supplied to the valve (50).

Although the second switching device SW2 is shown as a metal-oxide semiconductor field effect transistor (MOSFET) for the sake of convenience of description, the second switching device SW2 may be a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn- , An MCT (MOS Controlled Thyristor), and an SCR Thyristor (Silicon Controlled Rectifier Thyristor).

At this time, the second switching element SW2 is turned on by the valve driving holding signal of the valve driving holding part 38 supplied by the switching turn-on driving of the third switching element SW3 to be described later and the voltage value of the reference voltage source VCC And the at least one zener diode may be a sixth zener diode ZD6.

Here, the valve driving signal supply unit 104 may further include at least one capacitor for storing battery power output from the battery 10, and at least one capacitor may be connected to the first, second, and third capacitors C1, C2, and C3, and the first, second, and third capacitors C1, C2, and C3 may be smooth capacitors for smoothing while removing a noise signal.

Further, the valve drive signal supply section 104 may further include at least one resistor for adjusting the voltage level for the switching turn-on signal of the valve drive on-off section 32, and at least one resistor may be a second, (R2, R3).

The third switching element SW3 may be selectively turned on by receiving the switching on signal of the second switching signal supply unit 36 among the control signals of the controller 30 and may be turned on, It is possible to supply the valve driving signal including the valve drive maintaining signal of the holding part 38 and the voltage value of the reference voltage source VCC to the valve 50. [

Although the third switching device SW3 is shown as a MOSFET (Metal-Oxide Semiconductor Field Effect Transistor) for the sake of explanation, the third switching device SW3 may be a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn- , An MCT (MOS Controlled Thyristor), and an SCR Thyristor (Silicon Controlled Rectifier Thyristor).

At this time, the third switching device SW3 may further include at least one zener diode for interrupting the switching turn-on signal of the valve driving on-off part 32, and at least one zener diode is connected to the seventh zener diode ZD7, Can be.

Here, the valve drive signal supply unit 104 may further include at least one resistor for adjusting the voltage level for the switching on signal of the second switching signal supply unit 36, and at least one resistor may be connected to the fourth resistor R4 ).

The valve drive signal supply unit 104 may further include at least two resistors for adjusting the voltage level of the voltage value of the reference voltage source VCC and the valve drive holding signal of the valve drive holding unit 38, The two or more resistors may be the fifth and sixth resistors R5 and R6.

The valve driving signal supply unit 104 may further include at least one rectifying diode for rectifying the voltage of the reference voltage source VCC and the at least one rectifying diode may include first and second rectifying diodes D1 and D2, Can be.

The valve drive signal supply unit 104 may further include at least one capacitor for storing the voltage value of the reference voltage source VCC and the valve drive holding signal of the valve drive holding unit 38. At least one capacitor The fourth, fifth, and sixth capacitors C4, C5, and C6 may be the smoothing capacitors for smoothing while removing the noise signal, and the fourth, fifth, and sixth capacitors C4, .

The valve drive signal supply unit 104 is connected to the first switch SW2 to store the voltage value of the reference voltage source VCC and the valve drive hold signal of the valve drive hold unit 38 supplied by the switching turn- At least one capacitor may be a seventh capacitor C7 and a seventh capacitor C7 may be a smoothing capacitor for smoothing while removing a noise signal.

The protection unit 106 is configured to prevent the valve drive signal supply unit 104 from performing the switching turn-on driving by the abnormal signal of the battery power when the battery power measurement unit 102 measures the battery power, And blocks the supply of an abnormal signal to the supply unit 104.

For example, when the battery power measuring unit 102a of the battery power measuring unit 102 measures the battery power, the protecting unit 106 detects the abnormal state of the battery power by the valve driving signal supplying unit 104, And the third switching element SW3 of the second switching element SW2 to prevent the third switching element SW3 from being turned on.

At this time, at least one zener diode may be a first zener diode ZD1.

When the valve driving signal supply unit 104 selectively supplies the valve driving signal to the valve 50, the protective unit 106 supplies the valve driving holding signal of the valve driving holding unit 38 and the voltage of the reference voltage source Vcc And the second switching element SW2 of the valve driving signal supply part 104. The second switching element SW2 may be connected to the second switching element SW2.

At this time, at least one Zener diode may be the second and third Zener diodes ZD2 and ZD3.

The protection unit 106 selectively supplies the switching on signal of the valve driving on-off unit 32 to the second switching device SW2 of the valve driving signal supply unit 104 during the control signal of the controller 30, And may further include at least one zener diode for blocking a switching turn-on signal from being supplied to the battery 10. [

At this time, at least one Zener diode may be the fourth and fifth Zener diodes ZD4 and ZD5.

In addition, the valve driving apparatus 100 according to an embodiment of the present invention may further include a valve driving signal measuring unit 108.

That is, the valve drive signal measurement unit 108 can measure the valve drive signal when selectively supplying the valve drive signal to the valve 50 in the valve drive signal supply unit 104.

At this time, the valve driving signal measuring unit 108 can display the current value of the valve driving signal measured including a seven-segment (not shown), although not shown, and a green light emitting diode (not shown) And the current state of the valve driving signal measured including the red light emitting diode (not shown) is unstable.

The valve driving apparatus 100 according to an embodiment of the present invention may be provided in a brake apparatus (not shown), and a brake apparatus (not shown) may be provided in an electronic stability control (ESC) Can be provided.

The control device 30 may be an ECU (Electronic Control Unit) (not shown) or an MCU (Micro Control Unit) (not shown) although not shown.

The valve driving apparatus 100 according to an embodiment of the present invention includes the battery power measuring unit 102, the valve driving signal supplying unit 104, the protecting unit 106, and the valve driving signal measuring unit 108 do.

Therefore, the valve driving apparatus 100 according to the embodiment of the present invention controls the valve driving signal supply unit 104 by the abnormal signal of the battery power when the battery power measuring unit 102 measures the battery power, The first switch SW3 is turned off so that the first switch SW3 can be turned off by the first Zener diode ZD1 to prevent the third switch SW3 from being turned on by the third switch SW3.

The valve driving apparatus 100 according to the embodiment of the present invention is configured such that when the valve driving signal is selectively supplied to the valve 50 from the valve driving signal supply unit 104, The second and third Zener diodes ZD2 and ZD3 can prevent the valve driving signal including the signal and the voltage value of the reference voltage source Vcc from being supplied to the second switching device SW2 of the valve driving signal supply unit 104 .

The valve driving apparatus 100 according to an embodiment of the present invention may be configured such that the second switching element SW2 of the valve driving signal supply unit 104 is connected to the valve driving ON / OFF unit 32 of the control signal of the controller 30 The fourth and fifth Zener diodes ZD4 and ZD5 can prevent the switching turn-on signal from being supplied to the battery 10 when selectively supplying the switching turn-on signal.

The valve driving apparatus 100 according to an embodiment of the present invention further includes a valve drive holding signal of the valve drive holding unit 38 supplied by the switching turn on drive of the third switching device SW3, It is possible to block the valve drive signal including the voltage value of the sixth Zener diode ZD6.

Also, the valve driving apparatus 100 according to an embodiment of the present invention can block the switching turn-on signal of the valve driving on / off unit 32 from the seventh zener diode ZD7.

Accordingly, the valve driving apparatus 100 according to the embodiment of the present invention can prevent deterioration of the switching elements at the time of valve actuation, thereby extending the service life of the parts.

In addition, the valve driving apparatus 100 according to an embodiment of the present invention can measure the battery power output from the battery 10 in the battery power measuring unit 102.

Therefore, since the valve driving apparatus 100 according to the embodiment of the present invention can recognize the current battery power state, it is possible to shorten the maintenance time at the time of maintenance for the current battery power state, Can be suppressed.

In addition, the valve driving apparatus 100 according to the embodiment of the present invention can measure the valve driving signal when the valve driving signal is selectively supplied to the valve 50 in the valve driving signal supply unit 104.

Therefore, since the valve driving apparatus 100 according to the embodiment of the present invention can recognize the current valve driving signal state, it is possible to shorten the maintenance time at the time of maintenance for the current valve driving signal state, Can be suppressed.

Claims (15)

A battery power measuring unit for measuring battery power output from the battery by a control signal of the control unit;
The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And
The abnormality signal is supplied to the valve driving signal supply unit to prevent the switching valve from being turned on by the valve driving signal supply unit due to an abnormal signal of the battery power when the battery power is measured by the battery power measuring unit And a shielding portion for shielding,
The protection unit includes:
When the battery power is measured by the battery power measuring unit of the battery power measuring unit, the third switching device (SW3) of the valve driving signal supply unit is prevented from being turned on by the abnormality signal of the battery power source And the third switching element (SW3) to prevent the abnormal signal from being supplied to the third switching element (SW3). The method according to claim 1,
The battery power measuring unit includes:
A first switching device (SW1) which is selectively turned on by receiving a switching on signal of a first switching signal supply part among control signals of the control device and is supplied with battery power outputted from the battery; And
And battery power measuring means for measuring battery power output from the battery by switching on of the first switching device (SW1). 3. The method of claim 2,
The first switching device SW1 may be a metal-oxide semiconductor field effect transistor (MOSFET), a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn-off thyristor (GTO), a MOS controlled thyristor (MCT) , And a SCR Thyristor (Silicon Controlled Rectifier Thyristor). 3. The method of claim 2,
Wherein the battery power measuring means comprises a seven segment (7-segment) for indicating a current value of the measured battery power. 3. The method of claim 2,
Wherein the battery power measuring means includes a light emitting diode that emits light indicating that the current state of the measured battery power is stable or that the current state is unstable. A battery power measuring unit for measuring battery power output from the battery by a control signal of the control unit;
The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And
The abnormality signal is supplied to the valve driving signal supply unit to prevent the switching valve from being turned on by the valve driving signal supply unit due to an abnormal signal of the battery power when the battery power is measured by the battery power measuring unit And a shielding portion for shielding,
Wherein the valve drive signal supply unit includes:
And a second switching device SW2 which is turned on by selectively receiving a switching on signal of a valve driving on / off part of the control signal of the control device and supplies the battery power to the valve by receiving battery power outputted from the battery . The method according to claim 6,
The second switching device SW2 may be a metal-oxide semiconductor field effect transistor (MOSFET), a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn-off thyristor (GTO), a MOS controlled thyristor (MCT) , And a SCR Thyristor (Silicon Controlled Rectifier Thyristor). A battery power measuring unit for measuring battery power output from the battery by a control signal of the control unit;
The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And
The abnormality signal is supplied to the valve driving signal supply unit to prevent the switching valve from being turned on by the valve driving signal supply unit due to an abnormal signal of the battery power when the battery power is measured by the battery power measuring unit And a shielding portion for shielding,
Wherein the valve drive signal supply unit includes:
A control signal of the control unit is supplied to the second switching signal supply unit to selectively turn on a switching on signal of the second switching signal supply unit, And a third switching element (SW3) for receiving a driving signal and supplying the driving signal to the valve. 9. The method of claim 8,
The third switching device SW3 may be a metal-oxide semiconductor field effect transistor (MOSFET), a bipolar junction transistor (BJT), an insulated gate bipolar transistor (IGBT), a gate turn-off thyristor (GTO) , And a SCR Thyristor (Silicon Controlled Rectifier Thyristor). delete The method according to claim 1,
And a valve drive signal measuring unit for measuring the valve drive signal when the valve drive signal supply unit selectively supplies the valve drive signal to the valve. 12. The method of claim 11,
Wherein the valve drive signal measuring unit includes a 7-segment that indicates a current value of the measured valve drive signal. 12. The method of claim 11,
Wherein the valve driving signal measuring unit includes a light emitting diode that emits light indicating that the current state of the measured valve driving signal is stable or that the current state is unstable. A battery power measuring unit for measuring battery power output from the battery by a control signal of the control unit;
The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And
The abnormality signal is supplied to the valve driving signal supply unit to prevent the switching valve from being turned on by the valve driving signal supply unit due to an abnormal signal of the battery power when the battery power is measured by the battery power measuring unit And a shielding portion for shielding,
The protection unit includes:
A valve drive signal including a voltage value of a reference voltage source and a valve drive holding signal of a valve drive holding unit of the control apparatus is supplied to the valve drive signal supply unit And at least one zener diode for blocking supply to the second switching element (SW2). A battery power measuring unit for measuring battery power output from the battery by a control signal of the control unit;
The battery is supplied with power from the battery and is supplied with a valve drive signal output from the control device by a control signal of the control device and is selectively turned on by a control signal of the control device A valve drive signal supply unit for selectively supplying the valve drive signal to the valve; And
The abnormality signal is supplied to the valve driving signal supply unit to prevent the switching valve from being turned on by the valve driving signal supply unit due to an abnormal signal of the battery power when the battery power is measured by the battery power measuring unit And a shielding portion for shielding,
The protection unit includes:
On signal of the valve-driving ON / OFF part of the control signal of the control device is selectively supplied to the second switching device (SW2) of the valve driving signal supply part, at least one A valve drive apparatus comprising a zener diode.

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