JP2015142491A - Vehicle charge system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technology for making it possible to immediately start charging a new vehicle regardless of existence of charging another vehicle or magnitude of power used by the other vehicle when the new vehicle is connected to a vehicle charge system capable of simultaneously charging a plurality of vehicles.SOLUTION: A vehicle charge system comprises a plurality of charge devices 2 and a determination unit 5 for determining power to be used by each charge device, as allowable power for the charge device, where communication is performed between the determination unit and each charge device. Each charge device includes a control unit 6 which transmits charge information on a connected vehicle 1 to the determination unit and transmits the allowable power determined by the determination unit to the vehicle. The determination unit grants first allowable power to a charge device to which a vehicle is not connected and second allowable power to each charge device to which a vehicle in a charge state is connected, where the first allowable power is determined on the basis of power necessary and sufficient for starting charging a vehicle newly connected to each charge device.

Description

  The present invention relates to a vehicle charging system provided with a plurality of vehicle charging devices so that a plurality of vehicles can be charged.

  In order to be able to charge a plurality of vehicles, in a vehicle charging system provided with a plurality of vehicle charging devices, a vehicle for which power supply is restricted is determined using an integrated power value used for charging each vehicle as an index, After stopping the power supply for a predetermined period, reset the integrated power value for the vehicles for which power supply has been stopped, and repeat the determination of the vehicle for which power supply is restricted, so that all vehicles within the contract current range Has been disclosed (Patent Document 1).

However, in the method of temporarily stopping the power supply to any vehicle when a power limit of a predetermined amount or more is required as in the prior art, while the power supply is completely stopped, When a vehicle subject to power supply suspension is disconnected and a new vehicle is connected, charging to the new vehicle is not immediately started. If the connection has to be removed over time, there is a problem that this new vehicle is not charged at all and is inconvenient.
In addition, power supply to a new vehicle connected when power supply restriction is already performed cannot be performed unless charging of any vehicle already connected is completed and power demand is reduced. There was a problem.

JP 2001-69678 A

  The object of the present invention is to solve the above-mentioned problem, and in a vehicle charging system capable of charging a plurality of vehicles at the same time, when a new vehicle is connected, whether other vehicles are charged or not It is to provide a technology that can immediately start charging the new vehicle regardless of the number.

  The vehicle charging system of the present invention made to solve the above-described problems is provided with a plurality of charging devices that are connected to a plurality of vehicles to supply power, and are supplied from an external power source to each of the charging devices. A vehicle having a determination unit that determines power used for vehicle charging in a charging device as allowable power of each charging device, and a communication unit that communicates information about charging between the determination unit and each charging device. A charging system, wherein each of the charging devices includes a control unit, and when the vehicle is connected to each of the charging devices, the control unit sends charging information about the vehicle to the determination unit. And transmitting the allowable power determined by the determining unit to the vehicle, and the determining unit charges, among the allowable powers, the allowable power for a charging device to which a vehicle is not connected as a first allowable power, charging State car The allowable power for each charging device connected to the second charging power is the second allowable power, and the first allowable power is based on the power sufficient to start charging when a new vehicle is connected to the charging device. The second allowable power is determined by subtracting the sum of the first allowable power from the total power available for all charging devices, and a vehicle whose charging has not expired is connected. It is determined to be distributed to each charging device.

  According to a second aspect of the present invention, in the vehicle charging system according to the first aspect, the determining unit is connected to a charging device that is not connected to a vehicle and a vehicle that is in a charging stop state, of the allowable power. The allowable power for the charging device is a first allowable power, and the allowable power for each charging device to which a vehicle in a charged state is connected is a second allowable power.

  According to a third aspect of the present invention, in the vehicle charging system according to the second aspect, the control unit of the charging device to which the vehicle in the charge-stopped state is connected has the charge control potential, It is characterized in that it is maintained in a chargeable oscillation state.

  According to a fourth aspect of the present invention, in the vehicle charging system according to the first aspect, immediately after the vehicle is newly connected to the charging device to which the vehicle is not connected, the control unit includes a vehicle connected to each of the charging devices. Is connected, the charging information about the vehicle is transmitted to the determination unit, and the first allowable power that has been determined in advance as the allowable power for the charging device is transmitted to the vehicle. It is what.

  According to a fifth aspect of the present invention, in the vehicle charging system according to the fourth aspect, the determining unit re-determines the allowable power of each charging device at the present time, and the control unit determines the allowable power to the It is characterized in that it is transmitted to the vehicle.

  In the vehicle charging system of the present invention according to the present invention, a plurality of charging devices that are connected to a plurality of vehicles to supply power, and are supplied to each of the charging devices from an external power source, and vehicle charging in each charging device is performed. In the vehicle charging system, including a determination unit that determines the power used for the charging device as the allowable power of each charging device, and a communication unit that communicates information about charging between the determination unit and each charging device. Each charging device includes a control unit, and when the vehicle is connected to each charging device, the control unit transmits charging information about the vehicle to the determining unit, and the determining unit. The allowable power determined in step (b) is transmitted to the vehicle, and the determination unit determines that the allowable power for the charging device to which the vehicle is not connected is the first allowable power and the charged vehicle is connected. Have The allowable power for the charging device is defined as the second allowable power, and the first allowable power is determined based on the power sufficient to start charging when a new vehicle is connected to the charging device. The permissible power of each charging device to which a vehicle whose charging has not expired is connected after subtracting the total of the first allowable power from the total power that can be used by all the charging devices. It shall be decided to be distributed to each.

  According to the present invention having such a configuration, even for a charging device to which a vehicle is not currently connected, a sufficient power necessary to start charging with a new vehicle connected is always secured, In addition, since the electric power that can be used in each charging device to which a vehicle in a charged state is currently connected is determined, even when a new vehicle is connected, whether other vehicles are charged, Regardless of the amount of power used, charging to the new vehicle can be started immediately.

  In addition, in the technique of temporarily stopping power supply to any vehicle when a power limit of a predetermined amount or more is required as in the prior art, a vehicle having a timer that can reserve a charging time Is connected to the charging device, while the power supply to the vehicle from this charging device is completely stopped, when the charging start time arrives on the vehicle side, or on the vehicle side (temperature increase on the vehicle side, etc.) After the command unit on the vehicle side gives a command to temporarily stop receiving power to the vehicle, the power supply from the charging device to the vehicle is completely stopped, and the command unit on the vehicle side sends the vehicle to the vehicle during the complete stop period. If an instruction to resume the power acceptance is issued, charging cannot be started. In such a case, there is a case where the vehicle side makes a determination of “charging error” and a command for prohibiting the reception of charging power is issued from the vehicle side command unit. Thereafter, resetting such as reconnecting the charging cable is performed. There is a problem that charging is not performed unless operation is performed, which is inconvenient. On the other hand, as in the second aspect of the invention, the determining unit includes, among the allowable powers, allowable power for a charging device to which a vehicle is not connected and a charging device to which a vehicle in a charging stop state is connected. The first allowable power, according to the configuration in which the allowable power for each charging device to which the vehicle in a charged state is connected is the second allowable power, a vehicle having a timer that can reserve the charging time is connected, When the charging start time arrives, or when the vehicle side command unit issues a command to temporarily stop accepting power to the vehicle due to circumstances on the vehicle side (temperature increase on the vehicle side, etc.), the command unit on the vehicle side Even when the vehicle gives an instruction to resume power reception to the vehicle, charging to the vehicle can be started immediately without being affected by other charging conditions.

  According to a third aspect of the present invention, the control unit of the charging device to which the vehicle in the charge stop state is connected maintains the charge control potential in the chargeable oscillation state even in the charge stop state. According to the above, when a vehicle equipped with a timer capable of reserving the charging time is connected and the charging start time has arrived, or due to circumstances on the vehicle side (temperature increase on the vehicle side, etc.), the command unit on the vehicle side Even if the vehicle side command section issues a command to resume power acceptance after a command to temporarily stop power acceptance, this vehicle is immediately affected without being affected by other charging conditions. You can start charging.

  As in the fifth aspect of the invention, immediately after a vehicle is newly connected to a charging device to which no vehicle is connected, the control unit relates to the vehicle when the vehicle is connected to each of the charging devices. The charging information is transmitted to the determination unit, and the first allowable power that has been determined in advance as the allowable power for the charging device is transmitted to the vehicle. Even if the number of connected vehicles is increased by re-determining the allowable power of the charging device and the control unit transmitting the allowable power to the vehicle, all the vehicles can be charged with the optimal charging power. Can continue charging.

It is a schematic block diagram of the charging system for vehicles of this embodiment. It is a flowchart of the charging system for vehicles of this embodiment. It is a figure explaining the Example of this invention.

  Preferred embodiments of the present invention are shown below.

  As shown in FIG. 1, the vehicle charging system according to this embodiment includes a plurality of charging devices 2 that are connected to a plurality of vehicles 1 to supply power, and an electric power is drawn from an external power source 3. It is comprised from the switchboard 4 which supplies electric power.

In the present embodiment, the power supplied to the charging devices 2 from the external power supply 3 to the switchboard 4 and used for vehicle charging in each charging device 2 is determined as “allowable power” of each charging device 2. A determination unit 5 is incorporated.
As another embodiment, the determination unit 5 can be provided independently outside the switchboard 4.
Here, since power = current × voltage, and the charging voltage used in the vehicle charging system is constant, the adjustment of the charging power is performed by increasing or decreasing the charging current.

Each charging device 2 includes a control unit 6 that controls charging.
When the vehicle 1 is connected to the charging device 2 in which the control unit 6 is incorporated, the control unit 6 transmits charging information (connection information / start information / stop information) regarding the vehicle 1 to the determination unit 5,
It has a function of transmitting the allowable power determined by the determination unit 5 to the vehicle 1.
Here, the control unit 6 also transmits to the determination unit 5 charging information (startup information, release information, failure information, etc.) related to the charging device 2 in which the control unit 6 is incorporated.

In addition, the vehicle 1 includes a command unit 8 that controls charging of the storage battery 7 on the vehicle side.
The command unit 8 has a function of controlling the charging power to the storage battery 7 within the range of “allowable power” given from the determination unit 5 while taking into account the situation on the vehicle side described later.

Each charging device 2 has a built-in opening / closing unit 10 that opens and closes the charging electric path 9.
The control unit 6 also has a function of performing open / close control of the open / close unit 10 in response to an open / close command from the command unit 8.

The determination unit 5 and the control unit 6, and the command unit 8 and the control unit 6 are connected by communication means 11 and 12 to transmit the above various charging information and commands.
As the communication means 11 between the determination part 5 and the control part 6, PLC and radio | wireless connected with a communication line are employable.
In this embodiment, communication between the command unit 8 and the control unit 6 is performed by transmitting and receiving a charge control signal (CPLT) via a communication line built in the charging cable. As the communication means 12 between the control unit 6 and the PLC, it is possible to adopt a PLC or radio connected by a communication line.

  Hereinafter, the vehicle charging system of the present invention will be described in detail with reference to FIG.

(ST1)
When the charging device 2 is turned on and the charging device 2 is activated, communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4.
When this communication is established, the control unit 6 transmits activation information of the charging device 2 to the determination unit 5. The establishment of this communication is performed for each charging device 2.
Each charging device 2 is handled as being incorporated in this system when communication is established.
(ST2)
When the communication is established, the determination unit 5 in the switchboard 4 determines the power that can be used for vehicle charging in the control unit 6 in the charging device 2 in which communication is established as the allowable power, and the determined allowable power is It transmits to the control part 6 as an allowable electric current value.
The allowable power is the first allowable power, where the allowable power for the charging device to which the vehicle is not connected is the first allowable power, and the allowable power for each charging device to which the vehicle in the charged state is connected is the second allowable power. Is determined on the basis of sufficient power required to start charging when a new vehicle is connected to the charging device, and the second allowable power is calculated based on the total power available for all charging devices. After subtracting the total allowable power, it is determined that the subtracted power is distributed to each of the charging devices to which the charged vehicle is connected.
In the present embodiment, it is detected that the vehicle is in a charged state based on the potential (for example, 6 V) of the CPLT signal.
Note that the first allowable power is preferably the minimum charging current (for example, 6 A) that can start charging when the vehicle is connected.
(ST3)
The control unit 6 in the charging device 2 receives the allowable current value transmitted from the determination unit 5 in ST2 (6A in a state where the vehicle is not connected to the charging device 2), and holds it in the control unit 6. .
(ST4)
Here, when the vehicle 1 is connected to the charging device 2, the control unit 6 in the charging device 2 transmits the charging information (connection information) regarding the vehicle 1 to the determination unit 5, and the tolerance held in ST <b> 3. The CPLT signal is oscillated with the duty ratio of the current value.
In the present embodiment, the connection of the vehicle 1 is detected by the potential change of the CPLT signal (for example, 12V⇒9V).
(ST5)
When the determination unit 5 in the switchboard 4 receives the connection information of the new connected vehicle transmitted from the control unit 6 in the charging device 2 in ST4, the current status of the other charging device via the communication unit 11 Work to figure out. The status of the charging device is one of the following four patterns.
Pattern 1:
Communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4 (= the charging device is activated) and the vehicle 1 in the charged state is connected .
Pattern 2:
Communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4 (= the charging device is activated), and the vehicle 1 is not connected.
Pattern 3:
Communication is not established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4 (= the charging device is not activated).
Pattern 4:
Communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4, but failure information is transmitted from the control unit 6 (= the charging device has failed). Unusable) state.
(ST6, ST7)
When a new vehicle connected to the charging device starts charging in ST4, the control unit 6 detects the start of charging based on a potential change of the CPLT signal (for example, 9V⇒6V) and transmits start information to the determining unit 5. To do.
At this time, the control unit 6 continues to oscillate at the duty ratio of the allowable current value held in ST3.
(ST8)
The determination unit 5 that has received the start information transmitted from the control unit 6 in ST4, in ST5, pattern 1 (charging device is activated and a vehicle in a charged state is connected) or pattern 2 (charging device is activated, and The “allowable power” of each charging device 2 is redetermined for all charging devices recognized as vehicles being disconnected).
The re-determination method is the same as the determination method of “allowable power” described above, and the allowable power for the charging device of pattern 2 (the charging device is activated and the vehicle is disconnected) is the first allowable power, pattern 1 The allowable power for each charging device (the charging device is activated and connected to a charged vehicle) is the second allowable power, and the first allowable power is charged when a new vehicle is connected to the charging device. The second allowable power is determined by subtracting the sum of the first allowable power from the total power (system maximum power) that can be used by all charging devices. The subtraction power is determined to be distributed to each of the charging devices connected to the vehicle whose charging has not expired.
As described above, the charging voltage used in the vehicle charging system is constant, and the adjustment of the charging power is performed by increasing or decreasing the charging current. Therefore, instead of re-determination of the allowable power, the adjustment of the allowable current value is performed. The value is “adjusted value = (system maximum current−minimum charging current × pattern 2 (number of charging devices activated and vehicle not connected)) / pattern 1 (charging device activated and charged) It can also be obtained directly from the number of charging devices connected to a certain vehicle.
However, when the adjustment value exceeds the maximum current (for example, 16 A) allowed for the branch circuit to which each charging device 2 is connected, this upper limit value is adopted as a new allowable charging current value.
The “system maximum current” in the above formula means the maximum current (for example, 60 A) of the system to which the vehicle charging system is connected.
(ST9)
The determination unit 5 transmits the allowable power re-determined in ST8 to the control unit 6 of each charging device 2 as a new allowable current value.
(ST10)
The control unit 6 of the charging device 2 of pattern 2 (where the charging device is activated and the vehicle is disconnected) receives the new allowable current value transmitted from the determination unit 5 in ST9 and holds it in the control unit 6 To do.
The control unit 6 of the charging device 2 of the pattern 1 (the charging device is activated and the vehicle in the charging state is connected) receives the new allowable current value transmitted from the determination unit 5 in ST9, and outputs the CPLT signal. Oscillation is performed at the duty ratio of the new allowable current value.
(ST11)
The command unit of the vehicle connected to the charging device 2 of the pattern 1 (the charging device is activated and the vehicle in the charged state is connected) controls the charging power so as to be within the new allowable current value range. To do.
(ST12, 13)
When the charging of a certain vehicle is stopped (charging has expired or the vehicle side (temperature increase on the vehicle side, etc.)), the control unit 6 stops charging due to the potential change of the CPLT signal (for example, 6V⇒9V). This is detected, and charging stop information is transmitted to the determination unit 5.
Further, when the connection of the vehicle is released, the control unit 6 detects that the connection of the vehicle is released based on a change in potential of the CPLT signal (for example, 9V⇒12V), and the determination unit 5 releases the vehicle. Send information.
(ST14)
When receiving the charging stop information or the vehicle release information, the determining unit 5 uses the “allowable power” of the charging device 2 that has transmitted the charging information to charge the new charging device connected to the charging device. The charging is changed to “first allowable power” determined based on sufficient power necessary to start, and the changed allowable power is set as a new allowable current value (minimum charging current (for example, 6A)). It transmits to the control part 6 of the apparatus 2.
(ST15)
The control unit 6 in the charging apparatus 2 that has received the new allowable current value transmitted from the determining unit 5 in ST14 holds the new allowable current value (minimum charging current (for example, 6A)) in the control unit 6. Or oscillation is continued at the duty ratio of the new allowable current value.
(ST16)
Here, the determination part 5 performs the operation | work which grasps | ascertains the present condition of another charging device again via the communication means 11. FIG.
The state of the charging device is one of the following five patterns.
Pattern 1: Communication is established between the control unit 6 in the charging device 2 and the determining unit 5 in the switchboard 4 (= the charging device is activated), and the vehicle 1 in a charged state is connected. State.
Pattern 2: Communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4 (= the charging device is activated) and the vehicle 1 is not connected .
Pattern 2 ': Communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4 (= the charging device is activated), and the vehicle 1 is in a charging stopped state. Is connected.
Pattern 3: Communication is not established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4 (= the charging device is not activated).
Pattern 4: Although communication is established between the control unit 6 in the charging device 2 and the determination unit 5 in the switchboard 4, failure information is transmitted from the control unit 6 (= the charging device is Failed and cannot be used).
Subsequently, the determination unit 5 determines whether the pattern 1 (the charging device is activated and the vehicle in a charged state is connected) or the pattern 2 (the charging device is activated and the vehicle is disconnected) or the pattern 2 ′ (the charging device is activated). The “allowable power” of each charging device 2 is re-determined for all charging devices that have been grasped as being connected).
The re-determination method is the same as the determination method of “allowable power” described above, and pattern 2 (charging device is activated and vehicle is disconnected) and pattern 2 ′ (charging device is activated and charging is stopped) The allowable power for the charging device of the vehicle connected to the first allowable power is the first allowable power, and the allowable power for each charging device of pattern 1 (connected to the vehicle that is activated and charged) is the second allowable power. The first allowable power is determined based on sufficient power necessary to start charging when a new vehicle is connected to the charging device, and the second allowable power is the total available for all charging devices. It is determined that the subtracted power after subtracting the total of the first allowable power from the power is distributed to each of the charging devices to which the vehicle whose charging has not expired is connected.
As described above, the charging voltage used in the vehicle charging system is constant, and the adjustment of the charging power is performed by increasing or decreasing the charging current. Therefore, instead of re-determination of the allowable power, the adjustment of the allowable current value is performed. A charging device of “adjustment value = (system maximum current−minimum charging current × (number of charging devices of pattern 2 and pattern 2 ′) / pattern 1 (a charging device is activated and a vehicle in a charging state is connected))” It can also be obtained directly from the “number”.
However, when the adjustment value exceeds the maximum current (for example, 16 A) allowed for the branch circuit to which each charging device 2 is connected, the upper limit value 16 A is adopted as a new allowable charging current value.
(ST17)
The determination unit 5 transmits the allowable power re-determined in ST16 to the control unit 6 of each charging device 2 as a new allowable current value.
(ST18)
The control unit 6 of the charging device 2 of pattern 2 (the charging device is activated and the vehicle is not connected) receives the new allowable current value transmitted from the determination unit 5 in ST17 and holds it in the control unit 6 To do.
The control unit 6 of the charging device 2 of the pattern 1 (the charging device is activated and the vehicle in the charging state is connected) receives the new allowable current value transmitted from the determination unit 5 in ST17, and outputs the CPLT signal. Oscillation is performed at the duty ratio of the new allowable current value.
The control unit 6 of the charging device 2 of the pattern 2 ′ (a vehicle in which the charging device is activated and in a charging stop state is connected) continues oscillation at the duty ratio of the allowable current value held in ST15.
(ST19)
The command unit of the vehicle connected to the charging device 2 of the pattern 1 (the charging device is activated and the vehicle in the charged state is connected) controls the charging power so as to be within the new allowable current value range. To do.

Hereinafter, an embodiment in which the present invention is applied to a vehicle charging system having five charging devices (A to E) will be described with reference to FIG. The maximum current (system maximum current) that can be used in this system is 60A, the maximum current allowed in the branch circuit to which each charging device 2 is connected is 16A, and the minimum allowable current value for the charging device to which no vehicle is connected The value is 6A. It is assumed that all the charging devices are activated.
(Time division 1)
No vehicle is connected to any of the charging devices. In the present invention, 6A can always be supplied to a charging device to which a vehicle is not connected.
(Time division 2)
The vehicle is connected to the charging device A, and the charging current is adjusted after the start of charging. Here, since the adjustment value = (system maximum current 60A−minimum current 6A × 4 units) / 1 unit = 36A> 16A, the upper limit value 16A is adopted as a new allowable charging current value.
(Time division 3)
Further, the vehicle is connected to the charging devices B and C, and the charging current is adjusted after the charging is started. Here, since the adjustment value = (system maximum current 60A−minimum current 6A × 2 units) / 3 units = 16A, 16A is adopted as a new allowable charging current value.
(Time division 4)
Further, the vehicle is connected to the charging device D, and the charging current is adjusted after the start of charging. Here, since adjustment value = (system maximum current 60A−minimum current 6A × 1 unit) / 4 units = 13.5A, 13.5A is adopted as a new allowable charging current value.
(Time division 5)
Further, the vehicle is connected to the charging device E, and the charging current is adjusted after the charging is started. Here, since adjustment value = (system maximum current 60A−minimum current 6A × 0 units) / 5 units = 12A, 12A is adopted as a new allowable charging current value.
(Time division 6)
After the charging in charging device A expires and charging is stopped, the charging current is adjusted. Here, since adjustment value = (system maximum current 60A−minimum current 6A × 1 unit) / 4 units = 13.5A, 13.5A is adopted as a new allowable charging current value.
(Time division 7)
When failure information or the like is transmitted from the control unit 6 of the charging device A, the charging current supply to the charging device A is stopped thereafter, and the charging currents of the charging devices B to E are adjusted. In this case, adjustment value = (system maximum current 60A−minimum current 6A × 0 units / 4 units = 15A is calculated, and 15A is adopted as a new allowable charging current value.

DESCRIPTION OF SYMBOLS 1 Vehicle 2 Charging apparatus 3 External power supply 4 Distribution board 5 Determination part 6 Control part 7 Storage battery 8 Command part 9 Charging electric circuit 10 Opening and closing part 11, 12 Communication means

Claims (5)

A plurality of charging devices each connected to a plurality of vehicles to supply power;
A determination unit that determines the electric power supplied to each charging device from an external power source and used for vehicle charging in each charging device as the allowable power of each charging device;
A vehicle charging system having communication means for communicating information about charging between the determining unit and each of the charging devices,
Each of the charging devices includes a control unit,
The control unit
When a vehicle is connected to each of the charging devices,
While transmitting charging information about the vehicle to the determination unit,
Transmitting the allowable power determined by the determination unit to the vehicle;
The determination unit
Of the allowable power,
The first allowable power is the allowable power for the charging device to which the vehicle is not connected,
The allowable power for each charging device to which a charged vehicle is connected is the second allowable power,
The first allowable power is
Make a decision based on the amount of power necessary to start charging when a new vehicle is connected to the charger,
The second allowable power is
After subtracting the total of the first allowable power from the total power available for all charging devices, the subtracted power is distributed to each charging device to which the vehicle in the charged state is connected. The charging system for vehicles characterized by deciding. The determination unit
Of the allowable power,
The allowable power for the charging device to which the vehicle is not connected and the charging device to which the vehicle in the charging stop state is connected is the first allowable power,
The vehicle charging system according to claim 1, wherein the allowable power for each charging device to which a vehicle in a charged state is connected is the second allowable power. The control unit of the charging device to which the vehicle in the charging stop state is connected is
3. The vehicle charging system according to claim 2, wherein the charge control potential is maintained in a chargeable oscillation state even while the charging is stopped. 4. Immediately after a new vehicle is connected to a charger that is not connected to the vehicle,
In the control unit,
When a vehicle is connected to each of the charging devices, charging information about the vehicle is transmitted to the determination unit,
The vehicle charging system according to claim 1, wherein the first allowable power determined in advance as the allowable power for the charging device is transmitted to the vehicle. continue,
The determination unit re-determines the allowable power of each charging device at the present time,
The vehicle charging system according to claim 4, wherein the control unit transmits the allowable power to the vehicle.