KR-20260063424-A - SYSTEM FOR MANAGING VILLAGE JOINT OPERATION CHARGING INFRASTRUCTURE AND METHOD PERFORMING THEREOF

Abstract

The present invention provides a system for operating electric vehicle charging services in conjunction with renewable energy generation for joint operation of electric vehicle charging infrastructure in an energy-sharing community based on regional characteristics, and a method for implementing the same. The system calculates the amount of energy supplied to and charged by electric vehicle chargers in an energy-independent village, monitors the energy supplied to and consumed by the chargers, and provides a service to generate additional revenue for the energy-independent village from the charging fees generated through the provision of charging services by the chargers.

Inventors

• 한지광
• 이무용
• 김인환
• 김양훈

Assignees

• (주)진우소프트이노베이션

Dates

Publication Date

20260507

Application Date

20241030

Claims (8)

1. A management server that monitors the amount of energy generated and consumed in an energy-independent village and manages the supply of surplus energy consumed in the energy-independent village to electric vehicle chargers; and It includes an electric vehicle charging operation system that operates the electric vehicle charger to charge the electric vehicle using energy supplied from the energy-independent village, and A village jointly operated charging infrastructure management system in which the above management server calculates the amount of energy provided to the electric vehicle charger in the energy-independent village and the amount of energy charged by the electric vehicle charger, and monitors the amount of energy supplied to and consumed by the electric vehicle charger.
2. In paragraph 1, The above management server is a village jointly operated charging infrastructure management system that provides services to generate additional revenue in the above Energy Jari Village regarding charging fees generated through the provision of charging services at the above electric vehicle charger.
3. In paragraph 1, The above management server is A village jointly operated charging infrastructure management system that monitors the amount of energy generated and consumed by individual households in the energy-independent village and manages the supply of surplus energy from individual households to the electric vehicle chargers.
4. In paragraph 3, The above management server is a village community-operated charging infrastructure management system that manages the amount of energy and charges charged to electric vehicles through energy supplied to the electric vehicle charger in the individual households, and provides settlement services for the amount of energy and charges.
5. A step of monitoring the amount of energy generated and consumed in an energy-independent village; A step of managing the energy remaining after consumption in the above energy-independent village to be supplied to electric vehicle chargers; A step of managing the operation of the electric vehicle charger to charge the electric vehicle using energy supplied from the energy-independent village; and A method for implementing a village jointly operated charging infrastructure management system, comprising the step of calculating the amount of energy provided to the electric vehicle charger and the amount of energy charged by the electric vehicle charger in the energy-independent village, and monitoring the amount of energy supplied and consumed by the electric vehicle charger.
6. In paragraph 5, A method for implementing a village jointly operated charging infrastructure management system, further comprising the step of providing a service to generate additional revenue in the energy village regarding charging fees generated through the provision of charging services at the electric vehicle charger.
7. In paragraph 6, A method for implementing a village jointly operated charging infrastructure management system, further comprising the step of monitoring the amount of energy generated and consumed by individual households in the energy-independent village and managing the supply of surplus energy from individual households to the electric vehicle charger.
8. In Paragraph 7, A method for implementing a village jointly operated charging infrastructure management system, further comprising the step of managing the amount of energy and charges charged to an electric vehicle through the energy supplied to the electric vehicle charger in the individual households mentioned above, and providing a settlement service for the amount of energy and charges.

Description

System for Managing Village Joint Operation Charging Infrastructure and Method for Performing Thereof The present invention relates to a village joint operation charging infrastructure management system and a method for implementing the same. The energy sector is moving away from the existing centralized power supply system and presenting directions for improvement in infrastructure, production and consumption, and market aspects to promote the widespread adoption of distributed energy systems. In addition, microgrids are being implemented to self-produce and supply electricity through the construction of intelligent power grids and the generation of new and renewable energy, centered on small-scale regions. Accordingly, due to domestic and international climate change and energy supply and demand issues, interest in the self-production and consumption of clean new and renewable energy is growing, leading to increased interest in energy independence at the local government or community level, which involves producing the energy needed internally. The electric vehicle charger market is expected to grow steadily over the next 10 years as part of strong policy initiatives, such as fine dust reduction policies, along with the government's active commitment to policy implementation. Therefore, it is necessary to establish and operate an electric vehicle charging system for joint operation in energy-independent villages. To this end, energy-independent electric vehicle charging services must be provided through EV chargers linked with new and renewable energy. FIG. 1 is a schematic diagram illustrating a village joint operation charging infrastructure management system and a method for implementing the same according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a village joint operation charging infrastructure management system and a method for executing the same according to an embodiment of the present invention. The aforementioned objectives, means, and effects are described in detail below with reference to the attached drawings, thereby enabling a person skilled in the art to easily implement the technical concept of the present invention. In describing the present invention, detailed descriptions of known technologies related to the present invention are omitted if it is determined that such descriptions would unnecessarily obscure the essence of the invention. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. In the drawings, the same reference numerals are used to indicate the same or similar components. In the following, a system for operating an electric vehicle charging service in conjunction with renewable energy generation for joint operation of electric vehicle charging infrastructure by an energy sharing community based on regional characteristics, and a method for implementing the same are disclosed. In this specification, an energy-independent village, village community, or energy-sharing community may be defined as a village or region that implements a microgrid that produces and supplies electricity independently through the construction of an intelligent power grid, new and renewable energy generation, etc., centered on a small area. FIG. 1 is a schematic diagram illustrating a village joint operation charging infrastructure management system and a method for implementing the same according to an embodiment of the present invention. Referring to Fig. 1, the system monitors the amount of energy generated and consumed in an energy-independent village (or village community, or energy-sharing community) and supplies the surplus energy to an electric vehicle charger. The system manages the electric vehicle charger to charge the electric vehicle using the energy provided by the energy-independent village. The system calculates the amount of energy supplied to and charged by electric vehicle chargers in energy-independent villages, thereby monitoring the supply and consumption of energy. Additionally, the system provides services that enable the village community to generate additional revenue from the charging fees generated through the provision of charging services at the electric vehicle chargers. In addition, the system monitors the amount of energy generated and consumed by individual households in the energy-independent village and supplies any surplus energy to electric vehicle chargers. Furthermore, the system manages the amount of energy and charges charged to electric vehicles using the energy supplied to the chargers, and by providing settlement services, it discovers new demand resources for the surplus electricity generated in the energy-independent village. In addition, the system can provide an opportunity to operate sustainable energy-independent villages through the revenue generated by providing electric vehicle charging services. FIG. 2 is a block diagram i