KR102444352B1 - Power Management System of Charging Station - Google Patents

Abstract

The present invention includes a new and renewable energy generator 100 for supplying electric power generated from renewable energy to a charging station 400; an energy storage device 200 for supplying stored power connected to the charging station 400 and receiving and storing power produced by the renewable energy generator or power from the system power supply device 300; a grid power supply device 300 that supplies power from the power exchange to the charging station 400 and receives power generated from the renewable energy generator from the charging station 400; Renewable energy generation device 100, energy storage device 200, receives charging power from the system power supply device 300 and uses it as a charging load, and uses the surplus power of the renewable energy generation device 100 as an energy storage device ( 200) or a charging station 400 for supplying the system power supply 300; When the amount of power flowing in by the real-time charging load and each device 100, 200, 300 is provided from the charging station 400, and the amount of power flowing in from the new and renewable energy generator 100 based on the real-time charging load of the charging station 400 is large, renewable energy Controlled so that only the power of the power generation device is introduced, and if the power flowing from the renewable energy power generation device 100 is less than the charging load, the power of the energy storage device 200 is also controlled to flow in, and the renewable energy power generation device 100 And if the sum of the power flowing from the energy storage device 200 is less than the charging load, the power of the grid power supply device 300 is also controlled to flow in, and the renewable energy generation device 100 flowing into the charging station 400 is When the power is greater than or equal to the charging load, the charging management center 500 controls the surplus power to be supplied to the energy storage device 200 or the system power supply device 300 .

Description

Power Management System of Charging Station

In the present invention, based on the real-time charging load of the charging station for charging electric vehicles, etc., if there is a lot of power flowing in from the renewable energy generator, only the power of the new and renewable energy generator is introduced, and the power flowing from the new and renewable energy generator is If the charging load is less than the charging load, the power of the energy storage device is also controlled to flow into the power of the renewable energy generator. It is controlled to flow in, and the surplus power produced by the renewable energy generator relates to a power management system of a charging station that can be used by charging an energy storage device or supplying it to a system power supply.

In recent years, as environmental considerations become more important, electric vehicles, electric two-wheeled vehicles, etc. are in the spotlight, and charging stations are installed in each region to charge batteries used in vehicles.

Since the power used in the charging station uses a high-priced system power source, there is a problem in that the use rate of electric vehicles and electric two-wheeled vehicles cannot be increased due to a high burden on consumers.

The problem to be solved by the present invention is that, based on the real-time charging load of the charging station for charging electric vehicles, etc., if there is a lot of power flowing from the renewable energy generator, only the power of the renewable energy generator is introduced, and the new and renewable energy generator If the incoming power is less than the charging load, the power of the energy storage device is also controlled to flow into the power of the renewable energy generator. The power of the supply device is also controlled to flow in, and the surplus power produced by the renewable energy generator is to supply the power management system of the charging station that can be used by charging the energy storage device or supplying it to the system power supply device.

The power management system of the charging station according to the present invention comprises: a renewable energy generator 100 for supplying power produced from renewable energy to the charging station 400; an energy storage device 200 for supplying stored power connected to the charging station 400 and receiving and storing power produced by the renewable energy generator or power from the system power supply device 300; a grid power supply device 300 that supplies power from the power exchange to the charging station 400 and receives power generated from the renewable energy generator from the charging station 400; Renewable energy generation device 100, energy storage device 200, receives charging power from the system power supply device 300 and uses it as a charging load, and uses the surplus power of the renewable energy generation device 100 as an energy storage device ( 200) or a charging station 400 for supplying the system power supply 300; When the amount of power flowing in by the real-time charging load and each device 100, 200, 300 is provided from the charging station 400, and the amount of power flowing in from the new and renewable energy generator 100 based on the real-time charging load of the charging station 400 is large, renewable energy Controlled so that only the power of the power generation device is introduced, and if the power flowing from the renewable energy power generation device 100 is less than the charging load, the power of the energy storage device 200 is also controlled to flow in, and the renewable energy power generation device 100 And if the sum of the power flowing from the energy storage device 200 is less than the charging load, the power of the grid power supply device 300 is also controlled to flow in, and the renewable energy generation device 100 flowing into the charging station 400 is When the power is greater than or equal to the charging load, the charging management center 500 controls the surplus power to be supplied to the energy storage device 200 or the system power supply device 300 .

Preferably, the energy storage device 200 includes a charging power supply unit 210 connected to the charging station 400 to supply charged power; a charging power sensing unit 220 that checks the amount of stored power and transmits it to the charging management center 500; Including; and a charging power receiver 230 connected to the charging station 400 to receive and store power.

The grid power supply device 300 includes a grid power supply unit 310 connected to the charging station 400 to supply grid power; Including; and a surplus power receiver 320 connected to the charging station 400 to receive surplus power.

The charging station 400 includes a new and renewable energy power generation device power inflow management unit 410 that manages so that the power generated from the renewable energy power generation device 100 is introduced or not; an energy storage device power inflow management unit 420 that manages to prevent or inflow of power stored from the energy storage device 200; a grid power supply device power inlet management unit 430 that manages the connection so that electric power is introduced from or not flowed from the grid power supply device 300; Inflow power sensing unit 440 that senses the amount of power flowing in through the connected new and renewable energy generator 100 , energy storage device 200 , and grid power supply device 300 and transmits it to the charging management center 500 ) Wow; a charging load check unit 450 for checking the real-time charging load used in the charging station 400 and transmitting it to the charging management center 500; an energy storage device charging supply unit 460 for supplying power used for charging to the energy storage device 200; and a system power supply surplus power supply 470 for supplying surplus power to the system power supply 300,

The charging management center 500 includes a charging load management unit 510 that receives and manages real-time charging load information measured from the charging station 400 ; an inflow power management unit 520 that receives and manages the amount of power of the renewable energy generator, energy storage device, and system power supply device measured from the charging station 400; Based on the real-time charging load of the charging station 400, if there is a lot of power flowing in from the renewable energy power generation device 100, only the power of the renewable energy power generation device is controlled to flow in, and the new and renewable energy power generation device 100 flows in. If the power to be used is less than the charging load, the power of the energy storage device 200 is also controlled to flow in, and if the sum of the power flowing from the renewable energy generator 100 and the energy storage device 200 is less than the charging load, the system power is supplied. an input power control unit 530 for controlling the power of the device 300 to also be introduced; an energy storage device charging control unit 540 for controlling the power flowing into the charging station 400 to be supplied to the energy storage device 200 when the power stored in the energy storage device 200 is less than the standard; Surplus power sales unit that controls the excess power to be supplied to the grid power supply device 300 when the power flowing in from the renewable energy generator 100 exceeds the real-time charging load based on the charging load of the charging station 400 . (550);

Preferably, the energy storage device charging control unit 540, based on the charging load of the charging station 400, when the power flowing in from the renewable energy generator 100 exceeds the real-time charging load, the excess power is transferred to the energy storage device. 200 , and when the power flowing in from the renewable energy generator 100 is less than the real-time charging load, the power flowing in from the grid power is supplied to the energy storage device 200 .

Preferably, the surplus power selling unit 550 sets the excess power to be provided to the grid power supply device 300 only when the charging power stored in the energy storage device 200 is equal to or greater than a standard.

Preferably, the display unit 560 for displaying various information of the charging station 400, information such as the connection state of power, etc. so that the administrator can check; characterized in that it further comprises.

The power management system of the charging station according to the present invention connects the renewable energy generation device, the energy storage device, and the grid power supply device and operates the power stably so that power is sequentially supplied, and the surplus power produced by the renewable energy generation device It has the advantage that it can be used by charging an energy storage device or supplying it as a system power supply.

1 is a schematic diagram of a power management system of a charging station according to the present invention;
2 is a block diagram of a renewable energy generator according to the present invention.
3 is a block diagram of an energy storage device according to the present invention.
4 is a block diagram of a system power supply according to the present invention.
5 is a block diagram of a charging station according to the present invention.
6 is a block diagram of a charging management center according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description of the present invention refers to the accompanying drawings, which are embodiments in which the present invention may be practiced and which are shown by way of illustration of the embodiments. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be implemented in other embodiments without departing from the spirit and scope of the invention. It should also be understood that the location or arrangement of individual components within each described embodiment may be changed without departing from the spirit and scope of the present invention.

Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects. In addition, the terms used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the present invention, when a certain part "includes" a certain component as a whole, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

As shown in Figure 1, the power management system of the charging station according to the present invention, a renewable energy generator 100, an energy storage device 200, a grid power supply device 300, a charging station 400, Includes a charging management center (500).

As shown in FIG. 2 , the renewable energy generator 100 supplies power generated from the renewable energy to the charging station 400 . In this case, the renewable energy includes solar power, solar heat, wind power, hydropower, tidal power, algae, geothermal heat, bioenergy, and the like. This new and renewable energy power generation device 100 includes a renewable energy power supply unit (110).

The renewable energy power supply unit 110 is connected to the charging station 400 and supplies the power converted by the renewable energy conversion unit to the charging station 400 . In this case, the renewable energy power supply unit 110 may convert the power produced from the renewable energy into the power used in the charging station 400 and supply it. For example, the renewable energy conversion unit is converted using a PV Boost DC/DC converter.

As shown in FIG. 3 , the energy storage device 200 is connected to the charging station 400 to supply stored power, and receives power produced by the renewable energy generator or power from the system power supply device 300 . Save. The energy storage device 200 includes a charging power supply unit 210 , a charging power sensing unit 220 , and a charging power receiving unit 230 .

The charging power supply unit 210 is connected to the charging station 400 to supply charged power. In this case, the charging power supply unit 210 may convert the power of the energy storage device 200 into power used in the charging station 400 and supply it.

The charging power sensing unit 220 checks the amount of stored power and provides it to the charging management center 500 .

The charging power receiver 230 is connected to the charging station 400 to receive and store power. In this case, the power provided from the charging station 400 may be converted into power used in the energy storage device 200 and stored.

As shown in FIG. 4 , the grid power supply device 300 supplies power from the power exchange to the charging station 400 , and receives the power produced by the renewable energy generator from the charging station 400 . In this case, the system power includes power generated from power generation facilities such as thermal power generation facilities, nuclear power generation facilities, and gas turbine power generation facilities. The grid power supply device 300 includes a grid power supply unit 310 and a surplus power receiver 320 .

The grid power supply unit 310 is connected to the charging station 400 to supply grid power. In this case, the grid power supply unit 310 may convert the grid power into power used in the charging station 400 and supply it.

The surplus power receiver 320 is connected to the charging station 400 to receive surplus power. In this case, the power provided from the charging station 400 may be converted into power used in the energy storage device 200 and stored.

As shown in FIG. 5 , the charging station 400 receives charging power from the renewable energy generation device 100 , the energy storage device 200 , and the system power supply device 300 and uses it as a charging load, and uses the new and renewable energy. The surplus power of the energy generator 100 is supplied to the energy storage device 200 or the system power supply device 300 . The charging station 400 includes a new and renewable energy generator power inflow management unit 410, an energy storage device power inflow management unit 420, a grid power supply device power inflow management unit 430, an incoming power sensing unit 440, and a charging load. It includes a confirmation unit 450 , an energy storage device charging supply unit 460 , and a system power supply surplus power supply unit 470 .

The new and renewable energy power generation device power inflow management unit 410 manages so that the power generated from the renewable energy power generation device 100 is introduced or not. The power stored in the energy storage device 200 can be selectively supplied by the renewable energy generator connection management unit 410 .

The energy storage device power inflow management unit 420 manages whether the stored power from the energy storage device 200 is introduced or not. The power stored in the energy storage device 200 can be selectively supplied by the energy storage device connection management unit 420 .

The grid power supply device power inflow management unit 430 manages the connection so that power is or is not introduced from the grid power supply device 300 . The power stored in the energy storage device 200 can be selectively supplied by the system power supply connection management unit 430 .

The incoming power sensing unit 440 senses the amount of power flowing in through the connected renewable energy generator 100 , the energy storage device 200 , and the grid power supply device 300 , and provides it to the charging management center 500 . do.

The charging load check unit 450 checks the real-time charging load used in the charging station 400 and provides it to the charging management center 500 . It is possible to check the charging load that is differentiated according to the case of charging one or a plurality of vehicles (or profit cars).

The energy storage device charging supply unit 460 supplies the energy storage device 200 with power used for charging. Power for charging the energy storage device 200 can be provided by the energy storage device charging supply unit 460 .

The system power supply surplus power supply unit 470 supplies the surplus power to the system power supply 300 . It is possible to sell the surplus power produced in the renewable energy generator 100 by the system power supply surplus power supply unit 470 as system power.

As shown in FIG. 6 , the charging management center 500 receives a real-time charging load from the charging station 400 and the amount of power flowing in for each device 100 , 200 , 300 according to the charging load. The storage device 200 and the power of the grid power supply device 300 are controlled to be sequentially supplied, and the surplus power of the renewable energy generator 100 is transferred to the energy storage device 200 or the grid power supply device 300 . control to be supplied. The charging management center 500 includes a charging load management unit 510 , an incoming power management unit 520 , an incoming power control unit 530 , an energy storage device charging control unit 540 , a surplus power sales unit 550 , and a display unit 560 . includes

The charging load management unit 510 receives and manages the real-time charging load information measured from the charging station 400 .

The inflow power management unit 520 receives and manages the amount of power of the renewable energy generator, energy storage device, and system power supply device measured from the charging station 400 .

The input power control unit 530 controls so that only the power of the new and renewable energy generator is introduced when the amount of power flowing from the renewable energy generator 100 is large based on the real-time charging load of the charging station 400 , and the new and renewable energy When the power flowing in from the power generation device 100 is less than the charging load, the power of the energy storage device 200 is also controlled to flow in, and the sum of the power flowing from the renewable energy power generation device 100 and the energy storage device 200 is If it is less than the charging load, the power of the system power supply 300 is also controlled to flow in. At this time, the inflow power control unit 530 controls the power inflow management unit 410, 420, and 430 of the charging station 400 so that the power of the renewable energy generator 100>energy storage device 200>system power supply device 300 is It is possible to control so that it sequentially flows into the charging station 400 .

The energy storage device charging control unit 540 controls the power flowing into the charging station 400 to be supplied to the energy storage device 200 when the power stored in the energy storage device 200 is less than a standard. At this time, the energy storage device charging control unit 540 controls the power inflow management units 410 and 430 and the energy storage device charging supply unit 460 of the charging station 400 to supply power to the energy storage device 200 . In addition, the energy storage device charging control unit 540 is the energy storage device ( 200), and if the power flowing in from the renewable energy generator 100 is less than the real-time charging load, it is preferable to supply the power flowing in from the grid power to the energy storage device 200 .

The surplus power sales unit 550, based on the charging load of the charging station 400, when the power flowing in from the renewable energy generator 100 exceeds the real-time charging load, the excess surplus power is transferred to the grid power supply unit 300. control to be supplied. At this time, the surplus power sales unit 550 controls the power inflow management unit 410 and the system power supply unit surplus power supply unit 470 of the new and renewable energy generation device of the charging station 400 to supply surplus power to the system power supply unit 300 . can supply. In addition, it is preferable to set the surplus power sales unit 550 to provide the excess power to the grid power supply device 300 only when the charging power stored in the energy storage device 200 is equal to or greater than the standard.

The display unit 560 displays various information of the charging station 400 and information such as power connection state so that the administrator can check it.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those of ordinary skill in the art to which the present invention pertains It goes without saying that various modifications and variations are possible within the scope of equivalents of the claims to be described.

100: new and renewable energy generator 110: new and renewable energy power supply unit
200: energy storage device 210: charging power supply
220: charging power sensing unit 230: charging power receiving unit
300: grid power supply 310: grid power supply
320: surplus power receiver 400: charging station
410: New and renewable energy power generation device power inflow management unit
420: energy storage device power inflow management unit
430: grid power supply device power inflow management unit
440: incoming power sensing unit
450: charging load check unit
460: energy storage device charging supply unit
470: grid power supply surplus power supply
500: charging management center 510: charging load management unit
520: incoming power management unit 530: incoming power control unit
540: energy storage device charging control unit 550: surplus power sales unit
560: display unit

Claims (5)

a new and renewable energy power generation device 100 for supplying power generated from renewable energy to the charging station 400;
an energy storage device 200 for supplying stored power connected to the charging station 400 and receiving and storing power produced by the renewable energy generator or power from the system power supply device 300;
A grid power supply device 300 that supplies power from the power exchange to the charging station 400 and receives the power generated by the renewable energy generator 100 from the charging station 400 ;
Renewable energy generation device 100, energy storage device 200, receives charging power from the system power supply device 300 and uses it as a charging load, and uses the surplus power of the renewable energy generation device 100 as an energy storage device ( 200) or a charging station 400 for supplying the system power supply device 300;
When the amount of power flowing in by the real-time charging load and each device 100, 200, 300 is provided from the charging station 400, and the amount of power flowing in from the new and renewable energy generator 100 based on the real-time charging load of the charging station 400 is large, renewable energy Controlled so that only the power of the power generation device is introduced, and if the power flowing from the renewable energy power generation device 100 is less than the charging load, the power of the energy storage device 200 is also controlled to flow in, and the renewable energy power generation device 100 And if the sum of the power flowing from the energy storage device 200 is less than the charging load, the power of the grid power supply device 300 is also controlled to flow in, and the renewable energy generation device 100 flowing into the charging station 400 is When the power is greater than or equal to the charging load, the charging management center 500 for controlling the surplus power to be supplied to the energy storage device 200 or the system power supply device 300 is included,
Energy storage device 200,
a charging power supply unit 210 connected to the charging station 400 to supply charged power;
a charging power sensing unit 220 that checks the amount of stored power and transmits it to the charging management center 500;
Including; and a charging power receiver 230 connected to the charging station 400 to receive and store power.
The system power supply 300,
a grid power supply unit 310 connected to the charging station 400 to supply grid power;
Including; and a surplus power receiver 320 connected to the charging station 400 to receive surplus power.
Charging station 400,
a new and renewable energy power generation device power inflow management unit 410 for managing so that the power generated from the new and renewable energy power generation device 100 is introduced or not;
an energy storage device power inflow management unit 420 that manages to prevent or inflow of power stored from the energy storage device 200;
a grid power supply device power inlet management unit 430 that manages the connection so that electric power is introduced from or not flowed from the grid power supply device 300;
Inflow power sensing unit 440 that senses the amount of power flowing in through the connected new and renewable energy generator 100 , energy storage device 200 , and grid power supply device 300 and transmits it to the charging management center 500 ) Wow;
a charging load check unit 450 for checking the real-time charging load used in the charging station 400 and transmitting it to the charging management center 500;
an energy storage device charging supply unit 460 for supplying power used for charging to the energy storage device 200;
and a system power supply surplus power supply 470 for supplying surplus power to the system power supply 300,
Charging management center 500,
a charging load management unit 510 for receiving and managing real-time charging load information measured from the charging station 400;
an inflow power management unit 520 that receives and manages the amount of power of the renewable energy generator, energy storage device, and system power supply device measured from the charging station 400;
Based on the real-time charging load of the charging station 400, if there is a lot of power flowing in from the renewable energy power generation device 100, only the power of the renewable energy power generation device is controlled to flow in, and the new and renewable energy power generation device 100 flows in. If the power to be used is less than the charging load, the power of the energy storage device 200 is also controlled to flow in, and if the sum of the power flowing from the renewable energy generator 100 and the energy storage device 200 is less than the charging load, the system power is supplied. an input power control unit 530 for controlling the power of the device 300 to also be introduced;
Based on the charging load of the charging station 400, when the incoming power from the renewable energy generator 100 exceeds the real-time charging load, the excess surplus power is supplied to the energy storage device 200, and the new and renewable energy generation device an energy storage device charging control unit 540 for supplying power flowing in from the system power supply device 300 to the energy storage device 200 when the incoming power from 100 is less than the real-time charging load;
Based on the charging load of the charging station 400, when the incoming power from the renewable energy generator 100 exceeds the real-time charging load, the excess surplus power is supplied to the system power supply 300, but the energy storage device ( 200), the surplus power sales unit 550 for providing the excess power to the grid power supply device 300 only when the charging power stored in the standard is greater than or equal to the standard; the power management system of the charging station comprising a. delete delete delete The power management system of claim 1, further comprising a display unit (560) for displaying various information of the charging station (400) and connection state information of power so that an administrator can check it.

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