KR20220165701A - Charging safety device for eco-friendly vehicle and control method thereof - Google Patents

Abstract

The present invention relates to a charging door module of an eco-friendly vehicle including a plug-in hybrid vehicle and an electric vehicle, a charging safety device for an eco-friendly vehicle embedded in an inlet, and a control method thereof. In addition, the charging safety device for an eco-friendly vehicle comprises: a foreign substance inspection unit which detects a foreign substance containing moisture existing in an inlet terminal provided in an inlet and a terminal hole when a charging door of the inlet is opened for charging an eco-friendly vehicle; a foreign substance removal unit which is connected to the terminal hole of the inlet to emit wind outward from an inside of the terminal hole; and a control unit which stops a charging process by a charging controller by transmitting a notification for notifying existence of foreign substances to the charging controller of the eco-friendly vehicle and operates the foreign substance removal unit to remove foreign substances in the terminal of the inlet and the terminal hole. Accordingly, the present invention may check whether foreign substances containing moisture exist in the inlet, which causes defective charging or accidents during a charging process, and effectively remove foreign substances containing moisture existing in the inlet.

Description

Charging safety device for eco-friendly vehicle and control method thereof

The present invention relates to a charging safety device for an eco-friendly vehicle mounted on a charging door module and an inlet of an eco-friendly vehicle including a plug-in hybrid vehicle and an electric vehicle, and a control method thereof.

In general, eco-friendly vehicles including plug-in hybrid vehicles and electric vehicles are provided with an inlet for supplying charging power, and a charge door module (CDM) is provided adjacent to the location where the inlet is installed. .

Here, the above-described charging door module can display information on the charge amount and charge status of the high-voltage battery installed in the eco-friendly vehicle through a charge amount indicator, and if immediate charge is possible in the state of charging reservation, it can display the state of immediate charge. there is.

In addition, the charging door module wakes up when the charging door provided outside the inlet is opened, transmits information on whether the charging door is opened or closed to the Integrated Body Control Unit (IBU), and starts/parks from the Vehicle Control Unit (VCU). Receives status information and VCU IG3 relay status information, transmits information requesting immediate charging to the VCU, receives charger connection status information and OBC IG relay status information from OBC (On Board Charger), and receives BMS ( It is provided to receive information on the charge amount of the high-voltage battery from the Battery Management System) and to receive vehicle speed information from the iBAU (Integrated Brake Actuation Unit).

On the other hand, the conventional charging door module can check the charging status or immediate charging without directly checking the cluster of the eco-friendly vehicle. There is a problem that cannot be provided.

For example, if moisture or foreign matter exists in an inlet adjacent to a conventional charging door module, an arc may be generated by moisture or foreign matter when charging current is supplied by connecting the outlet to the inlet, and even if no arc is generated, Charging failure may occur. As a result, burnout of the inlet may occur, and a large amount of cost may be incurred while replacing the burnt inlet, as well as human injury due to a safety accident.

However, the conventional charging door module cannot inform the driver whether charging can be normally performed by checking whether there is moisture or foreign matter in the inlet, and cannot provide a function of removing moisture or foreign matter present in the inlet.

The present invention has been made in view of the above problems, and at least a part is provided in the charging door module, and a charging safety device for an eco-friendly vehicle that can check whether foreign substances containing moisture are present in the inlet before performing the charging process, and Its purpose is to provide the control method.

In addition, an object of the present invention is to provide a charging safety device for an eco-friendly vehicle and a control method thereof that enable a normal charging process to be performed by removing foreign substances including moisture present in an inlet.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention for achieving the above object is a foreign matter inspection unit for inspecting foreign substances including moisture present in an inlet terminal provided in the inlet and a terminal hole when the charging door of the inlet is opened for charging of an eco-friendly vehicle; A foreign matter removal unit connected to the terminal hole of the inlet and discharging wind from the inside of the terminal hole to the outside; and when the foreign matter is confirmed by the foreign matter inspection unit, a notification is sent to the charging controller of the eco-friendly vehicle to inform the charging controller of the presence of the foreign matter to stop the charging process by the charging controller, and the foreign matter removal unit is operated to operate the foreign matter terminal and the foreign matter in the terminal hole. A control unit for removing the; including, wherein the foreign material inspection unit is provided with a plurality of sensing terminals connected to a predetermined position of the inlet terminal; a test current supply unit connected to the sensing terminal through a power line having at least one resistor and supplying a test current for measuring a change in resistance of an inlet terminal; It is connected to the sensing terminal through a sensing line equipped with at least one resistor, calculates the resistance of the inlet terminal through the sensing line after the test current is supplied, and compares the difference between the calculated resistance of the inlet terminal and the reference value. a resistance change calculation unit that calculates a resistance change of the inlet terminal; and a charging current provided on a power line and a sensing line, respectively, to block charging current from flowing into the test current supply unit and the resistance change calculator before charging of the eco-friendly vehicle starts and the charging current is supplied through the inlet terminal. and a blocking unit, wherein the foreign material inspection unit determines whether a foreign material is present based on a resistance change of an inlet terminal, and identifies a type of foreign material based on whether or not the resistance of the inlet terminal increases or decreases from a reference value, The charging current blocking unit is turned on / off under the control of the control unit, and is provided with any one of a relay, a power MOSFET, a photo transistor, and an isolated detector It provides a charging safety device for an eco-friendly vehicle.

In addition, the present invention is a control method of a charging safety device for an eco-friendly vehicle performed by a charging safety device for an eco-friendly vehicle, wherein (1) when the control unit of the charging safety device for an eco-friendly vehicle opens the charging door of the inlet for charging the eco-friendly vehicle, Checking the inspection result of the foreign matter including moisture present in the terminal and the terminal hole; (2) If there are no foreign substances in the terminal of the inlet and the terminal hole, before charging of the eco-friendly vehicle starts and the charging current is supplied through the inlet terminal, blocking the charging current from flowing into the internal circuit including the resistor step; (3) when the foreign substance is identified, sending a notification notifying whether or not there is a foreign substance to the charging controller of the eco-friendly vehicle to stop the charging process by the charging controller; (4) controlling a foreign matter removal unit that is connected to the terminal hole of the inlet and discharges wind from the inside of the terminal hole to the outside, removing foreign matter from the terminal of the inlet and the terminal hole; and (5) sending a notification of the normal state of the inlet to the charge controller so that the charge controller starts or resumes the charging process when there are no foreign substances in the terminal of the inlet and the terminal hole. In step 1), the test current for measuring the change in resistance of the inlet terminal is supplied through the power supply line, and after the test current is supplied, the resistance of the inlet terminal is calculated through the sensing line, and the calculated resistance of the inlet terminal and the reference value It calculates the resistance change of the inlet terminal by comparing the difference between the inlet terminals, determines the presence of foreign matter based on the change in the resistance of the inlet terminal, and identifies the type of foreign matter based on whether the resistance of the inlet terminal increases or decreases from the reference value. In the step (2), any one of a relay, a power MOSFET, a photo transistor, and an isolated detector is turned on/off according to the control of the control unit. It provides a control method of a charging safety device for an eco-friendly vehicle, characterized in that carried out by doing.

By means of the above-described problem solving means, the present invention provides an environment-friendly foreign matter inspection unit for inspecting foreign matter including moisture present in the inlet terminal provided in the inlet and the terminal hole when the charging door of the inlet is opened for charging an eco-friendly vehicle. There is an effect of confirming the presence or absence of moisture or foreign substances introduced into the inlet before charging the vehicle.

In addition, the present invention is an eco-friendly vehicle by including a foreign matter removal unit connected to the terminal hole of the inlet and discharging wind from the inside of the terminal hole to the outside, and a control unit operating the foreign matter removal unit to remove foreign matter from the terminal of the inlet and the terminal hole. It has the effect of removing foreign substances containing moisture from the inlet that cause charging failure or safety accidents during the charging process.

In addition, the control unit of the present invention, when a foreign material is confirmed by the foreign material inspection unit, sends a notification to the charging controller of the eco-friendly vehicle to inform the presence or absence of the foreign material to stop the charging process by the charging controller, and if the foreign material does not exist in the inlet, By sending a notification of the normal state of the inlet to the charging controller so that the charging process by the charging controller starts or resumes, the inlet is prevented from being damaged by foreign substances containing moisture during the charging process of an eco-friendly vehicle, and safety accidents are prevented. It works.

In addition, the present invention has an effect of protecting the internal circuit from a high voltage and high current charging current by blocking the connection between the inlet terminal and the internal circuit through the charging current blocking unit before the charging current is supplied.

1 is a view for explaining a charging safety device for an eco-friendly vehicle according to an embodiment of the present invention.
2 is a view for explaining an installation position of a charging safety device for an eco-friendly vehicle according to an embodiment of the present invention.
3 is a view for explaining a first embodiment of a foreign matter inspection unit according to an embodiment of the present invention.
4 is a view for explaining a second embodiment of a foreign matter inspection unit according to an embodiment of the present invention.
5 is a view for explaining a foreign matter removal unit according to an embodiment of the present invention.
6 is a view for explaining a control method of a charging safety device for an eco-friendly vehicle according to an embodiment of the present invention.

In the following description, specific details of the invention are set forth to provide a thorough understanding of the invention, but it is common knowledge in the art that the invention may readily be practiced without and with variations thereof. It will be self-evident to those who have

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the attached FIGS. 1 to 6, focusing on parts necessary for understanding the operation and operation according to the present invention.

1 is a view for explaining a charging safety device for an eco-friendly vehicle according to an embodiment of the present invention, and FIG. 2 is a view for explaining an installation location of a charging safety device for an eco-friendly vehicle according to an embodiment of the present invention. 3 is a view for explaining a first embodiment of a foreign material inspection unit according to an embodiment of the present invention, and FIG. 4 is a view for explaining a second embodiment of a foreign material inspection unit according to an embodiment of the present invention. 5 is a diagram for explaining the foreign matter removal unit according to an embodiment of the present invention.

1 to 5, the charging safety device for an eco-friendly vehicle according to an embodiment of the present invention includes a foreign matter inspection unit 100, a foreign material removal unit 200, and a control unit 300.

Here, the charging safety device for an eco-friendly vehicle according to an embodiment of the present invention is mounted on an eco-friendly vehicle including a plug-in hybrid vehicle and an electric vehicle, and at least a part is installed in a charge door module (CDM, 10), Another part may be installed in the inlet (Inlet, 20).

For reference, the above-described charging door module 10 displays information on the charge amount and charge status of the high-voltage battery mounted in the eco-friendly vehicle through a charge amount indicator, and if immediate charge is possible in a state in which charging is reserved, an immediate chargeable state It may be provided to display.

When the charging door of the inlet 20 is opened to charge the eco-friendly vehicle, the foreign matter inspection unit 100 detects foreign substances including moisture present in the inlet terminal 21 and the terminal hole 23 provided in the inlet 20. Inspect.

The foreign matter inspection unit 100 is built into the charging door module 10 and is formed in a structure electrically connected to the inlet terminal 21 provided in the inlet 20, based on the change in resistance of the inlet terminal 21. Thus, the existence of foreign matter is determined, and the type of foreign matter is identified based on whether the resistance of the inlet terminal 21 increases or decreases from a reference value.

To this end, the foreign matter inspection unit 100 includes a sensing terminal 110, a test current supply unit 120, a resistance change calculation unit 130, and a charging current blocking unit 140.

Specifically, referring to FIG. 3 , the sensing terminal 110 is connected to a predetermined position of the inlet terminal 21 . These sensing terminals 110 are provided in plurality, and at least one is used for supplying current to the inlet terminal 21, and the other is used for outputting the current supplied to the inlet terminal 21. can

The test current supply unit 120 supplies a test current for measuring resistance change of the inlet terminal 21 . The test current supply unit 120 is connected to the sensing terminal 110 through the power line 103 having at least one resistor 105, so that the test current supplied from the test current supply unit 120 is supplied to the power line ( 103) flows to the sensing terminal 110 and the inlet terminal 21.

The resistance change calculation unit 130 is connected to both ends of the resistor 105 provided in the power supply line 103 .

When the test current is supplied to the inlet terminal 21 from the test current supply unit 120, the resistance change calculator 130 measures the voltage across the resistor 105 to calculate the resistance of the inlet terminal 21. there is.

In addition, in the resistance change calculator 130, information on resistance in a state in which no moisture or foreign matter exists in the inlet terminal 21 is previously stored as a reference value, and the inlet terminal 21 calculated after the test current is supplied. By comparing the difference between the resistance of ) and the reference value, the resistance change of the inlet terminal 21 can be calculated.

In addition, the resistance change calculation unit 130 determines that a foreign material is present when there is a resistance change at the inlet terminal 21 or when the resistance change is greater than a threshold value, and determines the type of foreign material when the resistance of the inlet terminal 21 is lower than a reference value. It is identified as moisture, and when the resistance of the inlet terminal 21 increases from the reference value, it can be identified as the existence of soil or injection molding material excluding moisture.

Meanwhile, at least one of information about the resistance of the inlet terminal 21 calculated by the resistance change calculation unit 130, whether the resistance has changed, whether there is a foreign substance, and the type of foreign substance may be provided to the controller 300.

The charging current blocking unit 140 blocks the charging current from flowing in before charging of the eco-friendly vehicle starts and the charging current is supplied through the inlet terminal 21 so that the resistor 105 and the test current supply unit 120 It performs the function of protecting the internal circuit including

Here, the above-described internal circuit is a charging safety device for an eco-friendly vehicle including the register 105, the test current supply unit 120, and the resistance change calculation unit 130 provided in the foreign matter inspection unit 100, as well as the control unit 300. Indicates the overall circuit configuration.

In addition, the charging current is supplied from the outlet to the inlet to charge the high-voltage battery mounted on the eco-friendly vehicle, and is formed with high voltage and high current, and the sensing terminal 110 and the power line 103 are connected to the inlet terminal 21. Because of this, the charging current flows into the internal circuit, causing damage to the internal circuit and fire, as well as damaging electric components including the charging door module 10 mounted in the eco-friendly vehicle.

However, since the charging current blocker 140 operates to block the connection between the inlet terminal 21 and the internal circuit, the internal circuit can be protected from high voltage and high current charging current.

The charging current blocking unit 140 is provided in plurality, and is disposed between the sensing terminal 110 and the resistor 105 on one side of the power supply line 103, and also, the sensing terminal 110 on the other side and the test It may be disposed between the current supply unit 120 .

In addition, the charging current cutoff unit 140 is provided as a switch and is turned on/off under the control of the resistance change calculation unit 130 or the control unit 300, in particular, a relay, a power MOSFET, a photo It may be provided with any one of a transistor (Photo Transistor) and an isolated detector (Isolated Detector).

Since the foreign matter inspection unit 100 according to an embodiment of the present invention is formed in a two-wire structure including two power lines 103, it is structurally simple and easy to design and maintain, and has a measurable resistance range. Since it is wide, it is easy to identify foreign substances, it is possible to reduce costs because it does not require a lot of manufacturing cost, and it can be easily applied to any part of the charging door module 10 because it does not significantly increase weight or volume.

Meanwhile, the foreign material inspection unit 100 according to an embodiment of the present invention may be formed in a 4-wire structure including two power lines 103 and two sensing lines 107 .

For example, referring to FIG. 4 , the foreign matter inspection unit 100 according to the second embodiment of the present invention includes a sensing terminal 110, a test current supply unit 120, a resistance change calculator 130, and a charging current cutoff unit 140. ) may be configured to include the same.

However, the foreign material inspection unit 100 according to the second embodiment of the present invention is further provided with at least two sensing terminals 110 and connected to the inlet terminal 21, and these sensing terminals 110 have at least one resistor ( 105) may be connected to the resistance change calculator 130 through the sensing line 107 provided therewith.

In this case, the resistance change calculator 130 calculates the resistance of the inlet terminal 21 through the sensing line 107 after the test current is supplied, and calculates the difference between the calculated resistance of the inlet terminal 21 and the reference value. By comparison, the change in resistance of the inlet terminal 21 can be calculated.

Meanwhile, in the foreign material inspection unit 100 according to the second embodiment of the present invention, a charging current blocking unit 140 for blocking the inflow of charging current may be disposed in each of the power line 103 and the sensing line 107. there is.

The foreign material inspection unit 100 according to an embodiment of the present invention is formed in a four-wire structure including two power lines 103 and two sensing lines 107, so that it is relatively relatively smaller than the aforementioned two-wire structure. Although it may seem complicated, since the power supply line 103 and the sensing line 107 are separated, the change in resistance of the inlet terminal 21 can be more accurately measured.

Hereinafter, the foreign matter removal unit 200 of the charging safety device for an eco-friendly vehicle according to an embodiment of the present invention will be described.

Referring to FIG. 5 , the foreign matter removal unit 200 is built into the inlet 20 and operated under the control of a control unit 300 to be described later. The foreign matter removal unit 200 is connected to the terminal hole 23 of the inlet 20 and discharges wind from the inside of the terminal hole 23 to the outside, thereby removing the air present in the inlet terminal 21 and the terminal hole 23. Remove foreign substances containing moisture.

To this end, the foreign matter removal unit 200 may include a blower motor 210, a blower fan 220, and a blower hole 230.

The blower motor 210 may be driven under the control of the control unit 300 to generate power. The blower motor 210 may be provided with various types of motors, but it is most preferable to have a brushless direct current motor (BLDC motor) that has high durability, low noise, and is capable of miniaturization and light weight. Do.

The blower fan 220 may generate wind by rotating by the blower motor 210 . The blower fan 220 is connected to the rotary shaft of the blower motor 210.

Meanwhile, a housing in which the blower motor 210 and the blower fan 220 are accommodated may be further provided.

The blower hole 230 forms a flow path connected to the inside of the terminal hole 23 of the inlet 20 to transfer the wind generated by the blower fan 220 to the terminal hole 23 of the inlet 20. The wind transferred from the blower hole 230 to the terminal hole of the inlet 20 is discharged from the inside of the terminal hole 23 to the outside, thereby removing foreign substances present in the inlet terminal 21 and the terminal hole 23 to the outside. It can be blown off and removed.

On the other hand, when the inlet 20 is provided with a drain hole (Drain Hall, 22) for discharging moisture, a flow path connected from the blower fan 220 to the drain hole 22 is formed, through which the drain hole 22 ), it is possible to discharge moisture more efficiently by generating a flow of wind.

In addition, by connecting a part of the blower hole 230 to the drain hole 22 or forming a flow path connected from the terminal hole 23 to the drain hole 22, the wind transferred from the blower hole 230 flows through the drain hole ( 22) can also be configured to be discharged.

Referring back to FIGS. 1 and 2 , the control unit 300 is built into the charging door module 10 and controls the foreign material removal unit 200 according to the inspection result of the foreign material inspection unit 100 .

When a foreign substance in the inlet 20 is confirmed by the foreign substance inspection unit 100, the control unit 300 transmits a notification to the on board charger (OBC, 30) of the eco-friendly vehicle to inform the existence of the foreign substance, so that the charge controller The charging process by (30) is stopped, and the blower motor 210 is operated to remove foreign substances in the terminal of the inlet 20 and the terminal hole 23.

At this time, if the process of operating the blower motor 210 to remove the foreign substances in the terminal of the inlet 20 and the terminal hole 23 is excessively repeated, the blower motor 210 may be overloaded. Therefore, if the foreign matter is not removed even after repeating the predetermined number of times, for example, three times, it is preferable to stop removing the foreign matter and stop the charging process.

In addition, the control unit 300 transmits a notification of the normal state of the inlet 20 to the charge controller 30 when there is no foreign matter in the terminal of the inlet 20 and the terminal hole 23, so that the charge controller 30 may cause the charging process to be started or resumed by

On the other hand, the control unit 300 transmits a control signal to the foreign matter inspection unit 100 when the foreign matter is removed from the terminal of the inlet 20 and the terminal hole 23 so that a normal charging process is possible, so that the charging current blocking unit 140 ) can be operated.

That is, by operating the charging current blocking unit 140 to cut off the connection between the inlet terminal 21 and the internal circuit, it is possible to protect the internal circuit from a high voltage and high current charging current.

Therefore, the charging safety device for an eco-friendly vehicle according to an embodiment of the present invention can check the existence of moisture or foreign substances introduced into the inlet 20 before charging the eco-friendly vehicle, and remove the checked foreign substances from the inlet 20. It is possible to prevent the inlet 20 from being damaged by foreign substances containing moisture during the charging process of an eco-friendly vehicle by allowing the charging process by the charging controller 30 to be performed when foreign substances are removed from the inlet 20 , safety accidents can be prevented.

6 is a diagram for explaining a control method of a charging safety device for an eco-friendly vehicle according to an embodiment of the present invention.

Referring to FIG. 6 , a control method of a charging safety device for an eco-friendly vehicle performed in the charging safety device for an eco-friendly vehicle according to an embodiment of the present invention will be described.

However, since the functions performed in the control method of the charging safety device for an eco-friendly vehicle shown in FIG. 6 are all performed in the charging safety device for an eco-friendly vehicle described with reference to FIGS. 1 to 5, even without explicit explanation, FIGS. 1 to 5 All functions described with reference to are performed in the control method of a charging safety device for an eco-friendly vehicle according to a preferred embodiment of the present invention, and all functions described with reference to FIG. 6 are a charging safety device for an eco-friendly vehicle according to a preferred embodiment of the present invention. It should be noted that the same is done in

First, when the charging door of the inlet is opened to charge the eco-friendly vehicle (S100), the foreign matter inspection unit inspects the foreign matter including moisture present in the inlet terminal and the terminal hole (S200), and the control unit inspects the foreign material inspection unit. Check the result (S300).

At this time, in step S200, the foreign matter inspection unit may determine the existence of foreign matter based on the change in resistance of the inlet terminal, and also identify the type of foreign matter based on whether the resistance of the inlet terminal increases or decreases from a reference value. can

Specifically, in step S200, the foreign matter inspection unit supplies a test current for measuring a change in resistance of the inlet terminal to a sensing terminal connected to a predetermined position of the inlet terminal through a power line, and measures the voltage at both ends of a resistor provided in the power line. Thus, a change in resistance of the inlet terminal may be calculated, and based on the calculated change in resistance, the presence or absence of a foreign substance may be determined, and a type of foreign substance may be identified.

On the other hand, if there are no foreign substances in the terminal of the inlet and in the terminal hole, the charging current is blocked from flowing into the internal circuit including the resistor before charging of the eco-friendly vehicle starts and the charging current is supplied through the inlet terminal ( S400).

For reference, the charging current is supplied from the outlet to the inlet to charge the high-voltage battery mounted on the eco-friendly vehicle, and is formed with a high voltage and high current, so if the charging current is not blocked, the internal circuit may be damaged or a fire may occur. In addition, if the charging process of the eco-friendly vehicle proceeds normally, the control unit cuts off the connection between the inlet terminal and the internal circuit before the charging current is supplied. By doing so, the internal circuit can be protected from high voltage and high current charging current.

Here, the above-described step S400 is performed only when it is confirmed that there is no foreign matter in the inlet in step S300, and after step S400 is performed, step S700 described later may be performed. If it is confirmed that the foreign matter is present in the inlet, the step S400 is not performed, and the step S500 described later is performed.

Then, when it is confirmed that there is a foreign substance containing moisture in the inlet, the control unit transmits a notification notifying the existence of the foreign substance to the charging controller of the eco-friendly vehicle to stop the charging process by the charging controller (S500).

Next, the control unit is connected to the terminal hole of the inlet and controls the foreign matter removal unit that discharges wind from the inside of the terminal hole to the outside, thereby removing foreign matter from the terminal of the inlet and the terminal hole (S600).

At this time, the blower motor of the foreign matter removal unit is driven under the control of the controller, and the blower fan of the foreign matter removal unit is rotated by the blower motor to generate wind, through the blower hole of the foreign matter removal unit connected to the inside of the terminal hole of the inlet. The wind generated by the blower fan is transported.

Then, the wind transported through the blower hole is discharged to the inside of the terminal hole to remove the terminal of the inlet and foreign matter in the terminal hole. Meanwhile, it may be more effective to remove the foreign matter by performing the process of blowing air into the terminal hole of the inlet to remove the foreign matter at least a plurality of times.

In this way, when the process of removing the foreign matter in the terminal and the terminal hole of the inlet is performed according to step S600, the above-described step S200 is performed again to check whether the foreign matter in the inlet has been removed or not removed.

However, excessive repetition of the process of removing foreign substances in the terminals and terminal holes of the inlet according to step S600 may cause an overload on the blower motor. It is desirable to have the process stopped.

On the other hand, if there is no foreign matter in the terminal of the inlet and the terminal hole, the controller transmits a notification of the normal state of the inlet to the charge controller and requests the charge controller to start or resume the charging process (S700).

In the above, preferred embodiments of the present invention have been described by way of example, but the scope of the present invention is not limited only to these specific embodiments, and can be appropriately changed within the scope described in the claims.

100: foreign matter inspection unit
110: sensing terminal 120: test current supply unit
130: resistance change calculating unit 140: charging current blocking unit
200: foreign matter removal unit
210: blower motor 220: blower fan
230: blower hall
300: control unit

Claims (2)

When the charging door of the inlet is opened to charge the eco-friendly vehicle, a foreign matter inspection unit that inspects the inlet terminal provided in the inlet and foreign matter including moisture present in the terminal hole;
A foreign matter removal unit connected to the terminal hole of the inlet and discharging wind from the inside of the terminal hole to the outside; and
When a foreign substance is confirmed by the foreign substance inspection unit, a notification is sent to the charging controller of the eco-friendly vehicle to inform the charging controller of the presence or absence of the foreign substance to stop the charging process by the charging controller, and the foreign substance removal unit is operated to remove the foreign substance in the terminal of the inlet and the terminal hole. Including; control unit to remove;
The foreign matter inspection unit,
a sensing terminal provided in plurality and connected to a predetermined position of the inlet terminal;
a test current supply unit connected to the sensing terminal through a power line having at least one resistor and supplying a test current for measuring a change in resistance of an inlet terminal;
It is connected to the sensing terminal through a sensing line equipped with at least one resistor, calculates the resistance of the inlet terminal through the sensing line after the test current is supplied, and compares the difference between the calculated resistance of the inlet terminal and the reference value. a resistance change calculation unit that calculates a resistance change of the inlet terminal; and
It is provided on the power line and the sensing line, respectively, and blocks the charging current to prevent the charging current from flowing into the test current supply unit and the resistance change calculator before the charging current is supplied through the inlet terminal after the charging of the eco-friendly vehicle starts. Includes;
The foreign matter inspection unit,
Determining the presence or absence of a foreign substance based on a change in resistance of the inlet terminal, identifying the type of foreign substance based on whether the resistance of the inlet terminal increases or decreases from a reference value,
The charging current blocking unit,
Charging for eco-friendly vehicles, characterized in that it is turned on / off under the control of the control unit and is provided with any one of a relay, a power MOSFET, a photo transistor and an isolated detector safety device.
As a control method of a charging safety device for an eco-friendly vehicle performed in a charging safety device for an eco-friendly vehicle,
(1) when the charging door of the inlet is opened for charging the eco-friendly vehicle, the control unit of the eco-friendly vehicle charging safety device checks the inspection result of foreign substances including moisture present in the inlet terminal and the terminal hole;
(2) If there are no foreign substances in the terminal of the inlet and the terminal hole, before charging of the eco-friendly vehicle starts and the charging current is supplied through the inlet terminal, blocking the charging current from flowing into the internal circuit including the resistor step;
(3) when the foreign substance is identified, sending a notification notifying whether or not there is a foreign substance to the charging controller of the eco-friendly vehicle to stop the charging process by the charging controller;
(4) controlling a foreign matter removal unit that is connected to the terminal hole of the inlet and discharges wind from the inside of the terminal hole to the outside, removing foreign matter from the terminal of the inlet and the terminal hole; and
(5) sending a notification of the normal state of the inlet to the charge controller to start or resume the charging process by the charge controller when there is no foreign matter in the terminal of the inlet and the terminal hole;
In the step (1),
The test current for measuring the resistance change of the inlet terminal is supplied through the power line, and after the test current is supplied, the resistance of the inlet terminal is calculated through the sensing line, and the difference between the calculated resistance of the inlet terminal and the reference value is compared. Calculate the resistance change of the inlet terminal, determine the presence of foreign matter based on the resistance change of the inlet terminal, and identify the type of foreign matter based on whether the resistance of the inlet terminal increases or decreases from a reference value,
In the step (2),
Eco-friendly vehicle charging, characterized in that performed by turning on / off any one of a relay, a power MOSFET, a photo transistor and an isolated detector according to the control of the control unit Safety device control method.

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