KR100573408B1 - The electric car operation system using non contact supply electric power - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vehicle driving system operable by selectively receiving electric power from a battery mounted on the vehicle itself or from outside of the vehicle in an electric vehicle that runs on electric power.

According to the present invention, a three-phase power transmission line is installed on a road on which a vehicle travels to enable a non-contact power supply by electromagnetic induction, so that an electric vehicle follows a track of a power transmission line in a main road where a three-phase power transmission line is installed. When the electric vehicle is moved, it is possible to drive according to the electric power generated by the electromagnetic induction action, and on the outer road where the three-phase power transmission line is not installed, the vehicle can be driven by the power of its own battery. In driving the installed roads, when the vehicle is driven by the induced power, the self-mounted battery is charged, so that the battery power can be used on a road other than the road where the power transmission line is installed, so a separate charging process is required. Providing a driving system for electric vehicles using a non-contact three-phase power feeding method that allows driving without It would be.

Electric car, electric car

Description

The electric car operation system using non contact supply electric power}

1 is an electric vehicle driving system using the non-contact three-phase power supply system of the present invention, a diagram showing a power supply configuration within the driving road.

2 is a view showing a power supply and demand configuration while driving in an electric vehicle according to the present invention.

3 is a view schematically showing a power supply and demand process in the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vehicle driving system operable by selectively receiving electric power from a battery mounted on the vehicle itself or from outside of the vehicle in an electric vehicle that runs on electric power.

In general, an electric vehicle refers to a vehicle that operates by using electricity as a power supply source, and may be classified into an electric vehicle and an electric vehicle.

Electric cars operate by supplying electric energy to electric vehicles by contacting a dodograph with a line flowing high voltage and current, and electric vehicles are equipped with a battery that can be charged as a power source in the vehicle itself, and the electric power supplied from the mounted battery It will operate using.

In the case of the electric car is moved along the track determined by the wire, it can not only be used as a public transportation means, it is possible to operate only within a given track, it is impossible to move to the local place desired by the driver.

On the other hand, electric vehicles can move freely to the driver's desired position, which is suitable for personal transportation.However, unlike general gasoline vehicles, electric vehicles are powered by batteries. This takes a long time and also limits the distance traveled by a single charge.

In recent years, as the problem of the exhaust gas of automobiles, which is the main culprit of environmental pollution, has been re-examined, each car maker is developing various models of electric vehicles that have improved the disadvantages of the electric vehicles as described above, and are reaching commercialization.

In recent years, electric vehicles that have exceeded the maximum speed of 300 km or more and have a performance of 300 km on a single charge have been developed.

As mentioned above, it is very important to secure high-speed driving and single-charging mileage for electric vehicles, and this capability includes new components such as lithium batteries, magnets for motors, and transistors for new inverters and frame mounting to secure a large space. This is made possible by the development of system technology.

Even so, when considering general specifications, torque is not as low as that of general gasoline vehicles, and driving distance due to power consumption of a battery due to high speed is inevitably considered.

Applicant has already proposed an electric vehicle driving system using a non-contact power supply system by installing a power line on the road to solve such a problem through Patent Application No. 72376 (2003.10.16) in 2003.

In such a system, the power transmission capability through the power line is an important factor in determining the torque of the vehicle in the operation of the electric vehicle.

In the proposed system, the single-phase power supply method is proposed as an embodiment. The single-phase power supply method has a lower power transmission capability than the three-phase power supply method.

The present invention is to provide an electric vehicle driving system using a three-phase power supply method in consideration of the fact that the power transmission capacity is increased (root three times) at the same power supply frequency when using a three-phase power supply method compared to the actual single-phase method. .

As described above, the present invention provides a three-phase power line on a road on which a vehicle is driven to enable non-contact power supply by electromagnetic induction, so that the electric vehicle follows an electric vehicle along the track of the power line in the main road where the power transmission line is installed. When the vehicle is moved, it is possible to drive according to the electric power generated by the electromagnetic induction action, and on the outer road where no power line is installed, the electric vehicle and the non-contact three-phase power supply that enable the vehicle to be driven by the power of the mounted battery. It is to provide an electric vehicle driving system using the method.

In addition, in driving the road where the power line is installed, when the vehicle is driven by the induced power generated, the self-mounted battery is charged so that the power of the battery can be used on the road other than the road where the power line is installed. It is an object of the present invention to provide an electric vehicle driving system using a non-contact three-phase power feeding method that enables operation without a process.

The electric vehicle driving system of the present invention is configured to embed a three-phase power line on the driving road of the vehicle, and to install a substation at regular intervals of the road to transmit high frequency alternating current to the three-phase power line embedded in the road,

In the electric vehicle, when driving on a road in which the power line is embedded, it is possible to act as a load power source of the electric vehicle by the voltage generated by the electromagnetic induction action with the high-frequency alternating current flowing through the power line,

A power supply means including a three-phase power line embedded in a driving road of a vehicle and a substation for transmitting high frequency three-phase alternating current to the embedded three-phase power line;

A power supply coil that generates an AC voltage by electromagnetic induction with high frequency alternating current flowing on a three-phase power line buried on the road, and rectifies and smoothes an AC voltage generated from the power supply coil to DC voltage to charge and convert power. An electric vehicle comprising a rectifying and smoothing means for supplying the means, a charging means for charging the battery with a DC voltage supplied through the rectifying smoothing means, and a power converting means for converting and supplying the supplied DC voltage according to the operating voltage of the load. By configuring

In the contactless feeding track where three-phase power lines are embedded, the power of the power supply coil is supplied to the load through charging and power converting means in the battery, and used for driving a car. It is characterized by providing an electric vehicle driving system for supplying power to the power conversion means to be used for the load.

Referring to the embodiment of the present invention having such a feature with reference to the embodiment shown in the accompanying drawings illustrating the configuration and operation as follows.

1 is a view showing a power supply configuration in the driving road in the present invention, Figure 2 is a view showing a power supply and supply configuration while driving the electric vehicle in the present invention.

The power supply means includes a three-phase power line 10 embedded in the road, and a substation for transmitting high frequency three-phase alternating current to the three-phase power line 10,

The power supply coil 110 generating a three-phase AC voltage by electromagnetic induction with the high frequency three-phase AC voltage flowing through the three-phase power line 10 and the three-phase AC voltage generated from the power supply coil 110 The rectifying unit 120 to rectify the voltage, the smoothing unit 130 to smooth the rectified DC voltage, the charging unit 150 to charge the rectified smoothed voltage to the battery 160, and the rectified smoothed DC voltage An electric vehicle including a power conversion unit 140 that is a power supply control means for supplying the electric motor 170 is configured.

Here, the power conversion unit 140 may be an inverter for controlling AC power by a power control device according to a load condition of a load motor, that is, a DC motor or an AC motor, or a chopper for controlling the DC power. ) Can be used and is configured according to the load conditions.

The substation is configured at regular intervals of the road, the rectifier 20 for rectifying the AC voltage supplied from the AC power supply (Vs), the smoothing unit 30 for smoothing the rectified DC voltage, and rectified smoothly in the substation A power supply device including a three-phase inverter 40 that converts a DC voltage into three-phase high frequency alternating current and transmits the same to the three-phase power line 10 is configured.

The rectifier 20 includes a coil L1 and bridge diodes d1 to d4, and the smoothing unit 30 includes a coil L2 and a capacitor C1.

In the electric vehicle, the power supply coil 110 is configured on the bottom of the vehicle in consideration of the distance from the three-phase power line 10 embedded in the road.

The rectifier 120 includes bridge diodes d5 to d10, and the smoothing unit 130 includes a coil L3 and a capacitor C2.

In the present invention system having such a configuration, the electric vehicle uses electric power generated by the electromagnetic induction action with the current flowing in the three-phase power line 10 when driving the road in which the three-phase power line 10 is embedded. To charge the battery 160, which is driven and mounted, and when driving on a road other than the three-phase power line 10 which is not buried, the electric vehicle is driven by using the charged battery 160 power. To be done.

A three-phase power line 10 is embedded in each main road, and a substation is configured to transmit high frequency alternating current to the three-phase power line 10.

The substation is installed at regular intervals of the road in consideration of the voltage drop caused by the attenuation of the line of the three-phase power line (10) buried in the road, and by transmitting a high frequency alternating current to the buried three-phase power line (10) to provide a constant power Keep it.

As shown in FIG. 3, the power supply coil 110 is installed to the bottom of the electric vehicle so as to face the road, thereby generating electric power by electromagnetic induction with high frequency alternating current flowing through the three-phase power line 10 embedded in the road. To do that.

The generated power is charged to the battery 160 through the charging unit 150, and is configured in a non-contact three-phase power supply system to drive by driving the electric motor 170 with the generated power.

The operation of the system according to the present invention will be described in detail as follows.

As shown in FIG. 1, the AC voltage supplied from the AC voltage source Vs in the power supply device of the substation is rectified by the rectifying unit 20 and converted into DC voltage.

This DC voltage is smoothed through the smoothing unit 30 made up of the coil L2 and the condenser C1, and is again converted into a three-phase high frequency AC power supply through the high frequency inverter 40.

The three-phase high frequency AC voltage converted in this way is transmitted to the three-phase power line 10 embedded in the road.

In the electric power supply and demand process while the electric vehicle is driving, when the electric vehicle runs on the road where the three-phase power line 10 is embedded, as shown in FIG. 2, high frequency 3 flowing through the three-phase power line 10 according to the electromagnetic induction action. AC flows through the power supply coil 110 by phase alternating current to generate an AC voltage.

The AC voltage generated as described above is converted into a DC voltage through the rectifying unit 120 formed of the bridge diodes d5 to d10, and smoothed through the smoothing unit 130 formed of the coil L3 and the capacitor C2.

The rectified smoothed DC voltage is supplied to the power converter 140 is converted to the drive power of the motor 170 to drive the motor 170.

In addition, the smoothed DC voltage is supplied to the charging unit 150 to allow the battery 160 to be charged while driving.

Then, when driving on a road where the three-phase power line 10 is not buried, power of the battery 160 is supplied to the power converter 140 to drive the electric motor 170.

Therefore, when the electric vehicle of the present invention drives the road, when driving the road in which the three-phase power line 10 is embedded, the electric vehicle and the battery 160 are driven by using the power generated through the power supply coil 110. Charging is performed, and driving is performed using the power of the battery 160 in other roads.

The present invention is applied to the three-phase power supply method as a cost-effective way to increase the power capacity to be supplied in consideration of the maximum capacity of the current power switching device in the present technology, by applying the present invention as appropriate for each main road 3 When the phase power line is installed, the main road is driven by using the power generated at present, and the charging is performed while the other roads are driven using the power of the battery charged in the main road. You can drive for a long time without it.

In addition, by applying the three-phase power supply method, the power transmission capacity can be increased under the same energized power switching device use conditions compared to the single-phase supply method to increase the load capacity, that is, the transport capacity of the transport vehicle.

Claims (3)

delete Power supply means including a three-phase power line embedded in a driving road of a vehicle and a substation for transmitting high frequency AC to the embedded three-phase power line; Rectification / smoothing to rectify and smooth the three-phase AC voltage generated from the power-supply coil and the three-phase AC voltage generated by the electromagnetic induction with the high-frequency alternating current flowing through the three-phase power line embedded in the road. Means, a charging means for charging the rectified smoothed DC voltage to the battery, and a power conversion means for converting and supplying the supplied DC voltage according to the operating voltage of the load. During operation, the power supply of the power supply coil is supplied to the load through the charging and power conversion means to the battery and used for driving the vehicle.When driving on a road without a feed trajectory, the power of the battery is supplied to the power conversion means for the load. Electric vehicles, preferably; In the electric vehicle driving system is configured to operate by receiving electric power in a non-contact manner through a three-phase power line embedded in the driving road, A rectifier for rectifying the AC voltage supplied from the AC power supply into a plurality of diodes connected in series and parallel; A smoothing unit for smoothing the DC voltage rectified by the rectifying unit with a coil and a capacitor connected in parallel; It includes a high frequency three-phase inverter for converting the DC voltage smoothed in the smoothing unit to a three-phase high-frequency alternating current from a plurality of transistors each coupled in parallel with the diode to be transmitted to the three-phase power line embedded in the road, The rectification / smoothing means included in the electric vehicle includes a plurality of diodes, coils, and capacitors in series and in parallel, and the power conversion means includes a plurality of transistors each having a diode coupled in parallel. Electric vehicle driving system using the method. delete

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