KR102490484B1 - Apparatus and method for diagnosing pantograph failure - Google Patents

Abstract

The present invention relates to a device for diagnosing abnormality of a pantograph, comprising: a charging power output unit for supplying charging power to a vehicle entering a pantograph-type vehicle charger; a first communication unit communicating with a vehicle entered for the charging; and receiving charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and using the power information supplied to the vehicle through the charging power output unit and the charging information received from the vehicle charging unit. and a charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard.

Description

Apparatus and method for diagnosing abnormality of pantograph {APPARATUS AND METHOD FOR DIAGNOSING PANTOGRAPH FAILURE}

The present invention relates to an apparatus and method for diagnosing an abnormality of a pantograph, and more particularly, to diagnose an abnormal state of a pantograph caused by foreign matter attached to a contact part of a pantograph for charging a vehicle, and to remove the cause of the abnormality. It relates to an apparatus and method for diagnosing an abnormality of a pantograph.

Recently, a pantograph-type vehicle charger, as shown in FIG. 1, has been developed for the installation location and large-capacity charging of the charger.

In order to diagnose whether an abnormality occurs in the pantograph due to a cause such as attachment of a foreign substance when charging the vehicle using the pantograph-type vehicle charger, the charging infrastructure side (ie, the pantograph-type vehicle charger side) and A safety test is performed by measuring the contact resistance of the vehicle side.

However, in the case of the existing method of measuring the contact resistance, a method of checking the voltage generated from the contact resistance by mounting probes on both ends of the two specimens of the pantograph and applying a specified current is used. There is a problem in that a separate mechanical device is required to measure both ends of the probe, and an expensive measurement module is required in order to measure the contact resistance.

Therefore, there is a need for a technology capable of diagnosing the abnormal state of the pantograph and removing the cause of the abnormality when the pantograph abnormality occurs, even without a separate mechanical device or expensive measurement module for measuring the contact resistance.

The background art of the present invention is disclosed in Republic of Korea Patent Registration No. 10-11666145 (registered on July 10, 2012, smart station distributed charging system).

According to one aspect of the present invention, the present invention was created to solve the above problems, and diagnoses an abnormal state of the pantograph caused by foreign substances attached to the contact portion of the pantograph for charging a vehicle, and causes the abnormal occurrence Its purpose is to provide a device and method for diagnosing an abnormality of a pantograph, which can remove the.

An apparatus for diagnosing an abnormality of a pantograph according to an aspect of the present invention includes a charging power output unit supplying charging power to a vehicle entering a pantograph-type vehicle charger; a first communication unit communicating with a vehicle entered for the charging; and receiving charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and using the power information supplied to the vehicle through the charging power output unit and the charging information received from the vehicle charging unit. and a charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard.

In the present invention, the first communication unit of the pantograph type vehicle charger is characterized in that it communicates with the second communication unit of the vehicle charging unit in a wireless manner.

In the present invention, the charger control unit subtracts the voltage (B) applied for charging the vehicle battery from the voltage (A) supplied from the charging power output unit and divides the voltage by the charging current, the wire resistance (R ₁ , R 2 ) value to calculate the contact resistance (R _C1 ), where R ₁ is the wire resistance between the pantograph-type vehicle charger and the pantograph charger, and R ₂ is the wire resistance between the vehicle-side current collector and the vehicle battery. It is characterized by being

In the present invention, a camera unit for taking pictures of the vehicle charging unit and the pantograph-type vehicle charger on the top of the vehicle entered for charging, and the charger control unit controls the camera unit when diagnosing a pantograph abnormality It is characterized in that the pantograph-type vehicle charger and the current collector of the vehicle charging unit are photographed or searched at the top of the vehicle entered for the charging.

In the present invention, the charger control unit outputs an alarm through the first alarm output unit when diagnosing a pantograph abnormality, and also outputs an alarm to the second communication unit of the vehicle charging unit through the first communication unit to have an abnormality in charging the pantograph. It is characterized in that the vehicle control unit outputs an alarm through the second alarm output unit by conveying that there is presence.

In the present invention, in case of diagnosing a pantograph abnormality, an image taken through a camera unit is analyzed to detect a portion of a pantograph-type vehicle charger and a current collector of a vehicle charging unit to which a foreign substance is attached, and a portion to which the foreign substance is attached. and a wind output unit configured to output wind to remove foreign substances, wherein the charger control unit adjusts the wind output unit to be directed to a portion to which the foreign matter is attached through a wind direction adjusting unit, and outputs the wind through an air volume adjusting unit. It is characterized in that the strength of the wind output from the unit is adjusted.

The present invention further includes a heater unit for outputting warm air through the wind output unit, and when the foreign material is a foreign material including ice generated according to weather, the charger control unit drives the heater unit to generate warm air. It is characterized by output.

A method for diagnosing an abnormality of a pantograph according to another aspect of the present invention includes the steps of supplying charging power to a vehicle entered for charging by a charging power output unit of a pantograph type vehicle charger; communicating with a vehicle entered for the charging by a first communication unit; and the charger control unit receives charging information applied for charging the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and power information supplied to the vehicle through the charging power output unit and charging received from the vehicle charging unit. It is characterized in that it includes; a charger controller that calculates the contact resistance of the pantograph using the information and diagnoses the pantograph as abnormal when the contact resistance is higher than a standard.

In the present invention, the first communication unit of the pantograph type vehicle charger is characterized in that it communicates with the second communication unit of the vehicle charging unit in a wireless manner.

In the present invention, in the step of calculating the contact resistance of the pantograph, the charger control unit subtracts the voltage (B) applied for charging the vehicle battery from the voltage (A) supplied from the charging power output unit to charge the battery. The contact resistance (R _C1 ) is calculated by subtracting the wire resistance (R ₁ , R2) values from the value divided by the current, where R ₁ is the wire resistance between the current collector of the pantograph-type vehicle charger and the pantograph charger, R ₂ is the wire resistance between the vehicle-side current collector and the vehicle battery.

In the present invention, the step of photographing the vehicle charging unit and the pantograph-type vehicle charger at the top of the vehicle into which the camera unit has entered for charging; further comprising, when diagnosing the pantograph abnormality, the charger controller, It is characterized in that the pantograph-type vehicle charger and the current collector of the vehicle charging unit are photographed or searched at the top of the vehicle entered for the charging by controlling.

In the present invention, when diagnosing the pantograph abnormality, the charger control unit outputs an alarm through the first alarm output unit, and also outputs an alarm to the second communication unit of the vehicle charging unit through the first communication unit. It is characterized in that the vehicle control unit outputs an alarm through the second alarm output unit by conveying that there is an alarm.

In the present invention, in the case of diagnosing the pantograph abnormality, the charger controller analyzes the image taken through the camera unit, detects a portion of the pantograph-type vehicle charger and the vehicle charging unit where foreign substances are attached, and and removing the foreign matter by outputting wind to the part to which the foreign matter is attached through an output unit, wherein the charger controller adjusts the wind output part to be directed to the part to which the foreign matter is attached through a wind direction adjusting unit, It is characterized in that the strength of the wind output from the wind output unit is adjusted through the wind volume controller.

In the present invention, when the foreign matter is a foreign matter including ice generated according to the weather, the step of outputting warm air by the charger control unit driving the heater unit; characterized in that it further comprises.

According to one aspect of the present invention, the present invention diagnoses an abnormal state of the pantograph caused by the attachment of foreign substances to the contact portion of the pantograph for charging a vehicle, and removes the cause of the abnormality.

1 is an exemplary view showing a schematic form of a conventional pantograph-type vehicle charger.
2 is an exemplary diagram showing a schematic configuration of a device for diagnosing an abnormality of a pantograph according to an embodiment of the present invention.
3 is a flowchart illustrating a method for diagnosing an abnormality of a pantograph according to an embodiment of the present invention.
FIG. 4 is a flowchart for explaining a response method when diagnosing an abnormality of a pantograph in FIG. 3;
FIG. 5 is an exemplary diagram for explaining an operation of removing a foreign substance in the case of an abnormality in pantograph charging in FIG. 2; FIG.

Hereinafter, an embodiment of an apparatus and method for diagnosing an abnormality of a pantograph according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

2 is an exemplary diagram showing a schematic configuration of a device for diagnosing an abnormality of a pantograph according to an embodiment of the present invention.

As shown in FIG. 2 , the device for diagnosing an abnormality of a pantograph according to the present embodiment includes a vehicle charging unit 200 mounted on (or attached to) a vehicle, and a contact plate ( and a pantograph-type vehicle charger 100 that performs charging by lowering (not shown).

For reference, the "pantograph type" described in this embodiment is a device that is completely different in its technical meaning and configuration from the current collector (ie, pantograph) attached to the top of the existing railroad car and used for power collection, and is only used in this embodiment. Note that in the example, the term is used to intuitively recognize that the device can perform charging on top of the vehicle.

The pantograph-type vehicle charger 100 includes a charging power output unit 110, a first communication unit 120, a first alarm output unit 130, a charger control unit 140, a camera unit 150, a wind output unit ( 160), a wind direction adjusting unit 161, an air volume adjusting unit 162, and a heater unit 163.

The vehicle charging unit 200 includes a charging power input unit 210, a second communication unit 220, a second alarm output unit 230, and a vehicle control unit 240.

The camera unit 150 takes pictures of a pantograph system (ie, a pantograph-type vehicle charger and a vehicle charging unit) installed on top of a vehicle entered for charging.

The camera unit 150 includes a digital image sensor.

The charging power output unit 110 supplies charging power to the vehicle, and fast charging and low speed charging are possible.

The charger controller 140 controls the voltage and current supplied to the vehicle through the charging power output unit 110 .

The first communication unit 120 communicates with the second communication unit 220 of a vehicle entered for charging. The first communication unit 120 and the second communication unit 220 communicate in a wireless manner, and may communicate in a wired manner in another embodiment.

The charger control unit 140 transmits charging information (eg, voltage and current information) applied to a vehicle battery (not shown) from the vehicle control unit 240 of the vehicle charging unit 200 to the second communication unit 220. is transmitted through

In addition, the charger control unit 140 includes charging information (eg, voltage and current information) received from the vehicle charging unit 200 and supply power information (eg, voltage and current information) output from the charging power output unit 110 . Calculate the contact resistance (R _C1 ) based on

For example, when the voltage generated from the pantograph (that is, the voltage supplied from the charging power output unit) is A and the voltage applied to charge the vehicle battery (not shown) (that is, the voltage applied to the vehicle battery) is B. , When (A-B) is performed, the power lost due to resistance generated in the process of finally transferring power to the vehicle battery (not shown) through the charging power output unit 110 and the charging power input unit 210 A corresponding voltage difference occurs.

For reference, the voltage (B) applied to charge the vehicle battery is used as a value measured by the vehicle's BMS (Battery Manager System), and the voltage (A) supplied from the charging power output unit is the power of the charger. Information may be obtained from a module (not shown). In addition, information output from the power module on the charger side or the BMS side can be used as the value of the flowing current.

Here, the resistance generated in the process of power being finally transmitted to the vehicle battery (not shown) through the charging power output unit 110 and the charging power input unit 210 is R _C1 (contact resistance), R ₂ (internal Resistance: Wire resistance between the current collector on the vehicle side and the vehicle battery), R ₁ (Internal resistance: Wire resistance between the current collector of the pantograph-type vehicle charger and the pantograph charger).

Among the resistors, since R ₁ and R ₂ are resistors already derived through design, the corresponding resistor values are known values.

The charger controller 140 may calculate the contact resistance R _C1 by Equation 1 below.

Accordingly, when the contact resistance (R _C1 ) calculated as described above is equal to or greater than a preset standard, the charger controller 140 diagnoses that there is an abnormality in the pantograph charging, and issues an alarm through the first alarm output unit 130. outputs In addition, the charger control unit 140 transmits that there is an abnormality in the pantograph charging to the second communication unit 220 of the vehicle charging unit 200 through the first communication unit 120, so that the vehicle control unit 240 2 An alarm is output through the alarm output unit 230 .

That is, when there is an abnormality in the pantograph charging as described above, an alarm is simultaneously output through the first alarm output unit 130 and the second alarm output unit 230 .

As described above, in this embodiment, when charging through the pantograph between the pantograph-type vehicle charger 100 and the vehicle charger 200, the current collector (or specimen) of the pantograph-type vehicle charger 100 and the vehicle charger 200 An abnormal state of the pantograph can be diagnosed without a separate mechanical device or an expensive measurement module for measuring the contact resistance between the current collectors (or specimens) of the pantograph.

FIG. 5 is an exemplary diagram for explaining an operation of removing a foreign substance in the case of an abnormality in pantograph charging in FIG. 2 .

Referring to FIG. 5, the charger control unit 140 controls the camera unit 150 when there is an abnormality in the pantograph charging as described above, and the pantograph system installed on top of the vehicle entered for the charging ( That is, the current collector (or specimen) of the pantograph-type vehicle charger and the vehicle charging unit is photographed.

In addition, the charger control unit 140 analyzes the image captured through the camera unit 150, and in the current collector (or specimen) of the pantograph system (ie, pantograph-type vehicle charger and vehicle charger), : Detects areas where fallen leaves, ice, etc.) are attached.

When the foreign matter is detected as described above, the charger controller 140 adjusts the wind output unit 160 to be directed to the foreign matter attached part through the wind direction adjusting unit 161, and the air volume adjusting unit ( 162) to adjust the strength of the wind output from the wind output unit 160.

At this time, when the foreign matter is a foreign matter generated according to the weather (eg, ice generated in winter), the charger control unit 140 drives the heater unit 163 to supply warm air through the wind output unit 160. The foreign matter is removed by outputting.

If a foreign substance that cannot be removed through the wind output unit 160 is attached, the charger controller 140 stops charging to prevent heat or fire caused by the foreign substance.

3 is a flowchart illustrating a method for diagnosing an abnormality of a pantograph according to an embodiment of the present invention.

Referring to FIG. 3 , when charging of the vehicle entering the pantograph type vehicle charger 100 starts (yes in S101), the vehicle control unit 240 of the vehicle charging unit 200 starts charging the vehicle battery (not shown). The charging information (eg, voltage and current information) applied to the vehicle is delivered (transmitted) to the charger control unit of the pantograph-type vehicle charger 100 through the second communication unit 220 and the first communication unit 120 (S102). .

Accordingly, the charger control unit 140 includes charging information (eg, voltage and current information) transmitted from the vehicle control unit 240 and supply power information (eg, voltage and current information) output from the charging power output unit 110 . Based on the contact resistance (R _C1 ) is calculated (S103).

For example, when the voltage generated from the pantograph (that is, the voltage supplied from the charging power output unit) is A and the voltage applied to charge the vehicle battery (not shown) (that is, the voltage applied to the vehicle battery) is B. , When (AB) is performed, resistances (R _C1 , R ₂ , R ₁ ) causes a voltage difference corresponding to the power lost. At this time, since R ₁ and R ₂ among the resistors are resistors that are already derived through design, and the corresponding resistor values are known values, the contact resistance (R _C1 ) can be calculated by Equation 1 above.

Accordingly, when the contact resistance (R _C1 ) calculated as described above is equal to or greater than a preset standard, the charger controller 140 diagnoses that there is an abnormality in the pantograph charging, and issues an alarm through the first alarm output unit 130. is output (S104).

In addition, in the step of outputting the alarm (S104), the charger control unit 140 informs the second communication unit 220 of the vehicle charging unit 200 through the first communication unit 120 that there is an abnormality in charging the pantograph. In response, the vehicle controller 240 outputs an alarm through the second alarm output unit 230 . That is, when there is an abnormality in the pantograph charging as described above, an alarm is simultaneously output through the first alarm output unit 130 and the second alarm output unit 230 .

FIG. 4 is a flowchart for explaining a response method when diagnosing an abnormality of the pantograph in FIG. 3 .

Referring to FIG. 4 , when the contact resistance (R _C1 ) of the pantograph calculated during vehicle charging is greater than or equal to a preset standard (Yes in S201), the charger controller 140 is responsible for charging the pantograph. Diagnose what is wrong

As described above, when there is an abnormality in the pantograph charging, the charger control unit 140 controls the camera unit 150 to control the pantograph system (ie, pantograph type vehicle charger) installed on top of the vehicle entered for charging. and the vehicle charging part) of the current collector (or specimen) (not shown) is photographed (or searched) (S202).

In addition, the charger control unit 140 analyzes the image captured (or searched) through the camera unit 150 to determine the current collector (or specimen) of the pantograph system (ie, pantograph-type vehicle charger and vehicle charger) ( (not shown), when a foreign substance (eg, fallen leaves, ice, etc.) is detected, the wind output unit 160 is directed to the foreign substance attached portion through the wind direction adjusting unit 161 to blow the wind. output (S203).

In addition, the charger control unit 140 increases the intensity of the wind output from the wind output unit 160 step by step through the air volume adjusting unit 162, and the foreign matter is generated according to the weather (eg, generated in winter). ice), the foreign matter is removed by driving the heater unit 163 and outputting warm air through the wind output unit 160 (S204).

As described above, the present embodiment calculates the contact resistance when charging through the pantograph-type vehicle charger, and uses the contact resistance to solve the abnormal state of the pantograph caused by foreign matter attached to the contact portion of the pantograph for vehicle charging. In the case of a foreign substance that can be diagnosed and removed by wind, cold air or warm air is output to remove the cause of the abnormality, thereby preventing heat generation or fire caused by the foreign substance.

The present invention has been described above with reference to the embodiments shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments. you will understand the point. Therefore, the technical protection scope of the present invention should be determined by the claims below. Implementations described herein may also be embodied in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Even if discussed only in the context of a single form of implementation (eg, discussed only as a method), the implementation of features discussed may also be implemented in other forms (eg, an apparatus or program). The device may be implemented in suitable hardware, software and firmware. The method may be implemented in an apparatus such as a processor, which is generally referred to as a processing device including, for example, a computer, microprocessor, integrated circuit, programmable logic device, or the like. Processors also include communication devices such as computers, cell phones, personal digital assistants ("PDAs") and other devices that facilitate communication of information between end-users.

100: pantograph type vehicle charger 110: charging power output unit
120: first communication unit 130: first alarm output unit
140: charger control unit 150: camera unit
160: wind output unit 161: wind direction adjustment unit
162: air volume adjustment unit 163: heater unit
200: vehicle charging unit 210: charging power input unit
220: second communication unit 230: second alarm output unit
240: vehicle control unit

Claims (14)

A charging power output unit for supplying charging power to a vehicle entering the pantograph type vehicle charger;
a first communication unit communicating with a vehicle entered for the charging; and
Receives charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and uses power information supplied to the vehicle through the charging power output unit and charging information received from the vehicle charging unit A charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard;
The charger control unit,
_Contact resistance ₍ R _C1 ) is calculated,
wherein R ₁ is the wire resistance between the current collector of the pantograph-type vehicle charger and the pantograph charger, and R ₂ is the wire resistance between the vehicle-side current collector and the vehicle battery.
The method of claim 1, wherein the first communication unit of the pantograph type vehicle charger,
An abnormality diagnosis device of a pantograph, characterized in that it communicates with the second communication unit of the vehicle charging unit in a wireless manner.
delete A charging power output unit for supplying charging power to a vehicle entering the pantograph type vehicle charger;
a first communication unit communicating with a vehicle entered for the charging; and
Receives charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and uses power information supplied to the vehicle through the charging power output unit and charging information received from the vehicle charging unit A charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard;
It further includes; a camera unit for photographing the vehicle charging unit and the pantograph-type vehicle charger at the top of the vehicle entered for charging;
The charger control unit,
In the case of diagnosing a pantograph abnormality, pantograph abnormality diagnosis device, characterized in that for controlling the camera unit to photograph or search the pantograph-type vehicle charger and the current collector of the vehicle charging unit at the top of the vehicle entered for the charging.
A charging power output unit for supplying charging power to a vehicle entering the pantograph type vehicle charger;
a first communication unit communicating with a vehicle entered for the charging; and
Receives charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and uses power information supplied to the vehicle through the charging power output unit and charging information received from the vehicle charging unit A charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard;
The charger control unit,
If pantograph abnormality is diagnosed,
An alarm is output through the first alarm output unit, and
Through the first communication unit, it is transmitted that there is an abnormality in the pantograph charging to the second communication unit of the vehicle charging unit,
An abnormality diagnosis device of a pantograph, characterized in that the vehicle control unit outputs an alarm through the second alarm output unit.
A charging power output unit for supplying charging power to a vehicle entering the pantograph type vehicle charger;
a first communication unit communicating with a vehicle entered for the charging; and
Receives charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and uses power information supplied to the vehicle through the charging power output unit and charging information received from the vehicle charging unit A charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard;
If pantograph abnormality is diagnosed,
A wind output unit that analyzes an image captured through the camera unit, detects a portion of a pantograph-type vehicle charger and a current collector of a vehicle charging unit to which a foreign substance is attached, and outputs wind to the portion to which the foreign substance is attached to remove the foreign substance; Including more,
The charger control unit adjusts the wind output unit through a wind direction adjustment unit to direct the foreign matter to the attached portion, and adjusts the strength of the wind output from the wind output unit through an air volume adjustment unit. diagnostic device.
A charging power output unit for supplying charging power to a vehicle entering the pantograph type vehicle charger;
a first communication unit communicating with a vehicle entered for the charging; and
Receives charging information applied to charge the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, and uses power information supplied to the vehicle through the charging power output unit and charging information received from the vehicle charging unit A charger control unit that calculates the contact resistance of the pantograph and diagnoses the pantograph abnormality when the contact resistance is higher than a standard;
A heater unit for outputting warm air through the wind output unit;
The pantograph abnormality diagnosis device, characterized in that, when the foreign matter includes ice generated according to the weather, the charger control unit drives the heater unit to output warm air.
supplying charging power to a vehicle entered for charging by a charging power output unit of a pantograph-type vehicle charger;
communicating with a vehicle entered for the charging by a first communication unit; and
The charger control unit receives charging information applied for charging the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, power information supplied to the vehicle through the charging power output unit, and charging information received from the vehicle charging unit. Calculating the contact resistance of the pantograph using and diagnosing the pantograph abnormality when the contact resistance is higher than a standard;
In the step of calculating the contact resistance of the pantograph,
The charger control unit,
_Contact resistance ₍ R _C1 ) is calculated,
wherein R ₁ is the wire resistance between the current collector of the pantograph-type vehicle charger and the pantograph charger, and R ₂ is the wire resistance between the vehicle-side current collector and the vehicle battery.
The method of claim 8, wherein the first communication unit of the pantograph type vehicle charger,
An abnormal diagnosis method of the pantograph, characterized in that for communicating with the second communication unit of the vehicle charging unit in a wireless manner.
delete supplying charging power to a vehicle entered for charging by a charging power output unit of a pantograph-type vehicle charger;
communicating with a vehicle entered for the charging by a first communication unit; and
The charger control unit receives charging information applied for charging the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, power information supplied to the vehicle through the charging power output unit, and charging information received from the vehicle charging unit. Calculating the contact resistance of the pantograph using and diagnosing the pantograph abnormality when the contact resistance is higher than a standard;
Further comprising: photographing the vehicle charging unit and the pantograph-type vehicle charger at the top of the vehicle in which the camera unit has entered for charging;
If diagnosed with the pantograph abnormality,
The pantograph abnormal diagnosis method, characterized in that the charger control unit controls the camera unit to photograph or search a pantograph-type vehicle charger and a current collector of the vehicle charging unit at the top of the vehicle entered for charging.
supplying charging power to a vehicle entered for charging by a charging power output unit of a pantograph-type vehicle charger;
communicating with a vehicle entered for the charging by a first communication unit; and
The charger control unit receives charging information applied for charging the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, power information supplied to the vehicle through the charging power output unit, and charging information received from the vehicle charging unit. Calculating the contact resistance of the pantograph using and diagnosing the pantograph abnormality when the contact resistance is higher than a standard;
If diagnosed with the pantograph abnormality,
The charger control unit,
An alarm is output through the first alarm output unit, and
Through the first communication unit, the second communication unit of the vehicle charging unit is informed that there is an abnormality in the pantograph charging,
An abnormal diagnosis method of a pantograph, characterized in that the vehicle control unit outputs an alarm through a second alarm output unit.
supplying charging power to a vehicle entered for charging by a charging power output unit of a pantograph-type vehicle charger;
communicating with a vehicle entered for the charging by a first communication unit; and
The charger control unit receives charging information applied for charging the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, power information supplied to the vehicle through the charging power output unit, and charging information received from the vehicle charging unit. Calculating the contact resistance of the pantograph using and diagnosing the pantograph abnormality when the contact resistance is higher than a standard;
If diagnosed with the pantograph abnormality,
The charger control unit analyzes the image captured through the camera unit, detects the portion to which the foreign matter is attached in the pantograph type vehicle charger and the current collector of the vehicle charging unit, and outputs wind to the portion to which the foreign material is attached through the wind output unit Further comprising; removing foreign matter;
The charger control unit,
A method for diagnosing abnormality of a pantograph, characterized in that the wind output unit is adjusted to direct the foreign matter attached portion through a wind direction controller, and the strength of the wind output from the wind output unit is adjusted through an air volume controller.
supplying charging power to a vehicle entered for charging by a charging power output unit of a pantograph-type vehicle charger;
communicating with a vehicle entered for the charging by a first communication unit; and
The charger control unit receives charging information applied for charging the vehicle battery from the vehicle charging unit of the vehicle through the first communication unit, power information supplied to the vehicle through the charging power output unit, and charging information received from the vehicle charging unit. Calculating the contact resistance of the pantograph using and diagnosing the pantograph abnormality when the contact resistance is higher than a standard;
If the foreign matter is a foreign matter containing ice generated by the weather,
The method for diagnosing abnormality of the pantograph, characterized in that it further comprises; outputting warm air by driving the heater unit by the charger control unit.

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