KR0182667B1 - Charging protection circuit of electric vehicle - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery charge protection circuit, which is an important part of an electric vehicle. In particular, the present invention relates to a circuit for determining the operation of other electric devices consumed in an electric vehicle, including a driving motor when the battery is being charged by an external AC power source. The present invention relates to an electric vehicle which drives the operating unit by charging the battery from an AC power supply through a power cutoff switch and supplying the battery charged power to an operation unit including a driving motor of the electric vehicle through an operation cutoff switch. And a switch operation control unit configured to operate the power cutoff switch and the operation cutoff switch opposite to each other. Particularly, the present invention further includes a charging detecting unit for detecting that the battery is being charged when the battery is being charged, and in the case of detecting that the charging sensing unit is being charged, operating the driving motor switch for cutting off a circuit located between the driving motor and the battery. By doing so, the power supply to the traveling motor is cut off.

Description

Charge protection circuit of electric vehicle

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery charge protection circuit, which is an important part of an electric vehicle. In particular, the present invention relates to a circuit for determining the operation of other electric devices consumed in an electric vehicle, including a driving motor when the battery is being charged by an external AC power source. It is about.

The electric vehicle is supplied with electricity from outside to rotate the driving motor, so that the structure to obtain the rotation torque is an essential component, so that each component must be well insulated to prevent damage to the components.

In particular, when the battery of the electric vehicle is charged, if the electric motor including the driving motor is operated, the battery charging circuit may be overloaded, which may damage the electric circuit including the charging circuit. Furthermore, there is a risk of causing a fire in the vehicle. have.

1 is a block diagram showing the flow of electrical energy of a general electric vehicle.

The voltage applied from the AC power source 10 is lowered below a predetermined voltage in the transformer unit 20 and converted to DC voltage again to charge the battery 30. In addition, the vehicle control unit 41 for controlling the operating element of the electric vehicle by using the electric energy charged in the battery 30 and a variety of control targets, including a driving motor 42 controlled by the vehicle control unit 41 The operation unit 40 is operated.

However, in the electric vehicle configured as described above, when the operating unit 40 including the driving motor 42 is operated when the battery is being charged from the AC power source 10, it may be caused by a malfunction of the circuit or by a mistake of the operator. Can be. In this case, there is a fear that each element constituting the transformer unit 20 due to an overload is damaged in the transformer unit 20 for charging the battery 30.

2 is a circuit diagram for illustrating a schematic configuration of a charging circuit centered on a transformer.

After the three-phase voltage applied from the three-phase AC power source 10 is converted into a low voltage by the transformer 21 in the transformer unit 20 and then rectified by the rectifying element 23 under the control of the rectifying controller 22. The battery 30 is charged. In such a circuit, since the rectifier 23 turns on / off the power applied to the rectifier 23 by using a voltage switching action, a shock-absorbing diode is connected in parallel with the switching device.

However, if power is supplied from the battery 30 to the driving motor 42 during charging, the rectifying element 23 that needs to switch the power is overloaded and burned out. If the rectifying element 23 is burned out, the electric power supplied from the AC power source 10 is transmitted to the battery 30 and the operation unit 40 without filtration, causing short-circuits to the component elements. It can cause a failure of the whole system and can even cause a fire.

SUMMARY OF THE INVENTION The present invention has been made in view of such a problem, and is intended to provide a system for allowing the charging unit and the operating unit to operate in reverse so that the operating unit of the electric vehicle does not operate while being charged in the battery.

1 is a block diagram showing the flow of electrical energy of a general electric vehicle.

2 is a circuit diagram for illustrating a schematic configuration of a charging circuit centered on a transformer.

3 is a block diagram showing a charging circuit of the electric vehicle of the present invention.

In order to achieve the above object, the present invention charges the battery from an AC power supply through a power cut-off switch, and supplies the power charged in the battery to an operation part including a driving motor of an electric vehicle through an operation cutoff switch. The electric vehicle driving the operation unit, characterized in that it comprises a switch operation control unit for operating the power cut-off switch and the operation cut-off switch opposite to each other.

Furthermore, the present invention further includes a charging detecting unit for detecting that the battery is being charged when the battery is being charged, and in the case of detecting that the charging sensing unit is being charged, operating the driving motor switch for cutting off the circuit located between the driving motor and the battery. By doing so, the power supply to the traveling motor is cut off.

Hereinafter, the features of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram showing a charging circuit of the electric vehicle of the present invention.

The power supplied from the AC power source 10 is converted into a low low voltage DC power source in the transformer unit 20. The voltage output from the transformer 20 is supplied to the battery 30 through the power cutoff switch S1. Power is supplied from the battery 30 to the operation unit 40 through the operation cutoff switch S2. The operation unit 40 includes elements that consume various electric energy, including a driving motor 42, various lights, air conditioners, and the like, and a vehicle control unit 41 for controlling these elements.

In addition, since the switch operation control unit 52 is connected to the power cutoff switch S1 and the operation cutoff switch S2, the power cutoff switch S1 and the operation cutoff switch S2 are simultaneously turned on or off at the same time. Do not That is, the power cut-off switch S1 and the operation cut-off switch S2 are controlled by the switch operation controller 52 to reversely interlock so that one is turned off when the other is turned on.

The charge detecting unit 50 is connected between the transformer unit 20 and the battery 30 to detect the state of charge, and if the charge amount of the battery 30 is insufficient, turn on the alarm lamp and the battery is being charged. In this case, a signal informing that the amplifier 51 is being charged is output. After the signal is amplified by the amplifier 51, the motor blocking unit 53 operates the driving motor switch 43 to cut off the power supplied to the driving motor 42.

Hereinafter, the operation of the present invention will be described in detail with reference to the accompanying drawings.

First, when the power cutoff switch S1 is inputted, the operation cutoff switch S2 is turned off because the reverse operation is performed by the switch operation controller 52 with the power cutoff switch S1. At this time, power is applied to the transformer unit 20 from the AC power source 10, and a low voltage of DC is generated from the transformer unit 20 to be charged in the battery 30. When the battery is being charged by the operation control of the switches, the power is not applied to the operation unit 40, so that it does not adversely affect other electric devices including the driving motor 42.

On the contrary, when the operation cutoff switch S2 is inserted, the power cutoff switch S1 is turned off by the switch operation control unit 52. At this time, since the operation unit 40 is in the process of controlling the electric elements of the vehicle under the control of the vehicle control unit 41 and is in operation, if the battery is charged, the transformer unit 20 is overloaded so that the operation switch S2 is performed. On the contrary, the power cutoff switch S1 should be cut off.

In addition, the driving motor switch that can cut off the power to the driving motor 42, which is the load of the most important, regardless of the operation of the operation switch (S2) during charging in case of an error caused by the switch operation control unit 52 ( 43). That is, if power is applied to the battery 30 in the transformer unit 20 and is being charged, the charge detecting unit 50 detects the charge, and amplifies it in the amplifier unit, and then the driving motor switch 43 in the motor blocking unit. To block. The blocking of the driving motor switch 43 is independent of the operation of the power switch S1, the operation blocking switch S2, and the switch operation control unit 52, so that the driving motor 42 is not operated when it is being charged. do.

According to the configuration and operation of the present invention as described above, the charging circuit is not overloaded according to the operation of the electric devices including the driving motor during the conventional charging, and the operation unit 40 is not operated during the charging. This prevents the transient voltage from entering various electrical devices, thereby protecting the electrical device from the transient voltage.

Claims (2)

An electric vehicle which drives the operating unit by charging a battery from an AC power source through a power cut-off switch and supplying the battery charged power to an operating unit including a driving motor of the electric vehicle through an operation cutoff switch. Charging control device for an electric vehicle, characterized in that it comprises a switch operation control unit for operating the cut-off switch and the operation blocking switch opposite to each other. According to claim 1, wherein when the battery is being charged, the charging sensing unit for detecting that the charging and the charging sensing unit in the case of detecting that the charging is a driving motor switch for cutting off the circuit between the driving motor and the battery Charge control device for an electric vehicle, characterized in that it further comprises.