KR102527950B1 - System, server and method for managing small solar power trading - Google Patents

Abstract

The present invention relates to a system, server, and method for supporting small-scale solar power trading, and more particularly, to trade small-scale solar power generation power without physically connecting it to a power grid, and to transfer small-scale solar power generation power between various prosumers. It relates to a small-scale solar power trading support system, server, and method capable of brokering transactions and generating profitability according to power trading.

Description

Small-scale solar power trading support system, server and method {SYSTEM, SERVER AND METHOD FOR MANAGING SMALL SOLAR POWER TRADING}

The present invention relates to a system, server, and method for supporting small-scale solar power trading, and more particularly, to trade small-scale solar power generation power without physically connecting it to a power grid, and to transfer small-scale solar power generation power between various prosumers. It relates to a small-scale solar power trading support system, server, and method capable of brokering transactions and generating profitability according to power trading.

Photovoltaic power generation is promoted as an alternative energy production method, but in Korea, due to the narrow land area, mountainous topography, and residents' reluctance to use solar power facilities, there are very few spatial conditions for large-scale photovoltaic power generation in reality. am.

On the other hand, the roof of a car in operation or parked outdoors is exposed to sunlight for a long time and has a flat surface, making it an appropriate space for small-scale solar power generation. Accordingly, as the performance of the photovoltaic device is greatly improved and miniaturized, a number of photovoltaic devices that can be attached to vehicles are appearing.

Considering this situation, there is a need for a means for trading small-scale photovoltaic power in different ways and a system for efficiently mediating power transactions between small-scale photovoltaic power producers and buyers.

Republic of Korea Patent No. 10-1813257 Republic of Korea Patent Registration No. 10-2193793

Therefore, the present invention has been proposed to solve the above problems, and a means for trading small-scale solar power generation power without physically connecting it to the power system, and a means for trading small-scale solar power generation power between various prosumers. The purpose is to provide a small-scale solar power trading support system, server, and method that can create profitability according to power trading.

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

A small-scale solar power trading support system according to an embodiment of the present invention for achieving the above object includes an energy storage device for storing electricity generated from a solar panel installed in a predetermined space; A user terminal that executes an application for power trading and inputs a power transaction request signal to purchase or sell power through the exchange of the energy storage device; Detects and provides at least one piece of prosumer information that meets the transaction condition included in the power transaction request signal, receives a prosumer selection signal for power transaction, and uses power based on the amount of power transaction generated by the exchange of energy storage devices. a server that calculates a transaction price and pays the corresponding prosumer according to the calculated electricity transaction price; and an exchange terminal that executes power trading for the energy storage device.

A method for supporting small-scale solar power trading according to an embodiment of the present invention is a method for supporting power trading based on an energy storage device that charges solar power through a photovoltaic device installed in a predetermined space, wherein the energy storage Receiving a power transaction request signal through a power transaction application from a user terminal of a first prosumer who wants to perform power transaction through device exchange; detecting at least one second prosumer that satisfies a transaction condition included in the power transaction request signal among a plurality of prosumer candidates using the power transaction application, and providing the detected second prosumer information; receiving at least one second prosumer selection signal from among the plurality of prosumer candidates from a user terminal of the first prosumer; calculating a power transaction price according to an amount of power transaction generated by exchanging energy storage devices between the first prosumer and the selected second prosumer; and executing a payment for a corresponding prosumer based on the calculated electricity transaction price.

A server supporting power trading based on an energy storage device that charges solar power through a photovoltaic device installed in a predetermined space according to an embodiment of the present invention is a server that wants to trade power through the exchange of the energy storage device. a receiving unit receiving a power transaction request signal from a first prosumer; an information providing unit that detects and provides at least one piece of second prosumer information that meets a transaction condition included in the power transaction request signal; a transaction selection receiver configured to receive a second prosumer selection signal for power transaction from the first prosumer; a calculation unit that calculates a power transaction price according to an amount of power transaction generated by exchanging energy storage devices between the first prosumer and the selected second prosumer; and a payment unit that executes a payment for a corresponding prosumer based on the calculated electricity transaction price.

The small-scale solar power trading support system according to an embodiment of the present invention can trade small-scale solar power generation power without physically connecting it to the power system, mediates small-scale solar power generation power to enable trading between various prosumers, and Profitable from trading.

In addition, business operators purchase small-scale solar power in a simple way using energy storage devices and resell the power as a power source for electric vehicles, etc., facilitating the distribution of small-scale solar power produced in vehicles, etc. It can stimulate power generation and contribute to the expansion of infrastructure for the electric vehicle business.

Effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a block diagram of a small-scale solar power trading support system according to an embodiment of the present invention.
2 is a diagram illustrating an example of a photovoltaic installation vehicle according to another embodiment of the present invention.
3 is a block diagram showing the configuration of a small-scale solar power trading support server according to another embodiment of the present invention.
4 is a flowchart illustrating a method for supporting small-scale solar power trading according to an aspect of the present invention.

Objects and effects of the present invention, and technical configurations for achieving them will become clear with reference to embodiments to be described later in detail in conjunction with the accompanying drawings. In describing the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the terms described later are terms defined in consideration of the structure, role, and function in the present invention, which may vary according to the intention or custom of a user or operator.

However, the present invention is not limited to the embodiments disclosed below and may be implemented in a variety of different forms. Only these embodiments are provided to complete the disclosure of the present invention and to fully inform those skilled in the art of the scope of the invention, and the present invention is described only in the claims. It is only defined by the scope of the claims. Therefore, the definition should be made based on the contents throughout this specification.

Throughout the specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

Meanwhile, in an embodiment of the present invention, combinations of each block of the accompanying block diagram and each step of the flowchart may be performed by computer program instructions. Since these computer program instructions can be loaded into the processor of other programmable data processing equipment such as general-purpose computers, special-purpose computers, portable notebook computers, and network computers, the instructions executed through the processor of the computer device or other programmable data processing equipment Each block of the block diagram or each step of the flow chart described below will create a means for performing the functions described. Since these computer program instructions may be stored in computer readable memory or in memory available to a computer device that may be directed to a computer device or other programmable data processing equipment to implement functionality in a particular way, each block of a block diagram Alternatively, it is also possible to produce an article containing instruction means for performing the functions described in each step of the flow chart. Since the computer program instructions can also be loaded on a computer device or other programmable data processing equipment, a process for performing a series of operation steps on a computer device or other programmable data processing equipment is created to create each block and flow chart in the block diagram. It is also possible to provide steps for executing the functions described in each step of .

Additionally, each block or each step may represent a module, segment or portion of code that includes one or more executable instructions for executing specified logical function(s). It should also be noted that in some alternative embodiments it is possible for the functions recited in blocks or steps to occur out of order. For example, two blocks or steps shown in succession may in fact be performed substantially concurrently, or the blocks or steps may sometimes be performed in reverse order depending on their function.

Hereinafter, a small-scale solar power trading support system, server, and method according to the present invention will be described in more detail with reference to the accompanying drawings.

1 is a configuration diagram of a small-scale solar power transaction support system according to an embodiment of the present invention, FIG. 2 shows an example of a solar power installation vehicle according to another embodiment of the present invention, and FIG. It shows the configuration of a small-scale solar power trading support server according to another embodiment of the invention.

Referring to FIG. 1, a small-scale solar power trading support system 1 according to an embodiment of the present invention includes an energy storage device 130, a server 200, a user terminal 300, and an exchange terminal 400. .

The energy storage device 130 is a device for storing electricity generated from the solar panel 120 installed in a predetermined space, and may store power generated from the solar panel 120n installed on a veranda, vehicle, farmland, etc., for example. Even in a small space, the energy storage device 130n can be utilized wherever solar power generation is possible.

As an embodiment, as a device capable of generating power to be stored in the energy storage device 130, the photovoltaic installation vehicle 100 is a motor driven by a battery 110 (not shown), as shown in FIG. An energy storage device 130 driven by a vehicle, mounted with a solar panel 120 on at least a part of a vehicle body, and storing electricity generated by the solar panel 120, and charging the energy storage device 130 A charge detection device 140 for detecting a state may be provided.

For example, the solar panel (120: 121, 122) provided in the vehicle may be provided on the ceiling or side of the vehicle, and the energy storage device 130 is connected to the solar panel 120 and a power line, etc. It may be provided adjacent to the battery 110, and the charge detection device 140 is provided in a separate structure from the energy storage device 130, but is provided to enable selective connection whenever the energy storage device 130 is replaced. It is possible to detect information about the amount of power charge for the replaced energy storage device 130 and the changed amount of power charge. In addition, the charge detection device 140 may transmit information on the state of charge of the energy storage device 130 in real time in conjunction with an application for power trading executed in the user terminal 300 .

Here, the solar power installation vehicle 100 is disclosed as an example of an electric vehicle, but is not limited thereto, and may employ a hybrid vehicle, an electric vehicle, a two-wheeled vehicle, a truck, a bus, and the like.

In one embodiment, the energy storage device 130 may be provided with a relatively smaller capacity than the battery 110 as an independent component from the battery 110, may be additionally connected to the battery 110, and may be connected to the battery 110. It can be provided with a detachable and replaceable structure.

Alternatively, the energy storage device 130 may be replaced with a small battery used for energy required for operating a load inside an electric field or starting an engine in an existing vehicle.

In addition, the energy storage device 130 can be standardized by capacity for smooth distribution, can be provided in a compact structure for easy replacement, and even if the vehicle type is different, the energy storage device 130 can be produced to be compatible. can

An individual may purchase the above-described solar panel 120, energy storage device 130, charge detection device 140, etc. through a manufacturer or an exchange, and purchase them with loan money through a lending institution associated with an exchange. In this regard, reference will be made to a description of a power transaction price calculation process to be described later.

Referring back to FIG. 1 , a user who owns a solar power generation installation vehicle 100 executes an application for power trading on the user terminal 300 to purchase or sell power through the exchange of the energy storage device 130. It is possible to input a power transaction request signal to

To this end, first, the user terminal 300 and the exchange terminal 400 download an application for power trading from the server 200 in order to use a support service for purchasing or selling power through the exchange of the energy storage device 130. receive and install.

Here, since the power purchased or sold through the small-scale solar power transaction support service is used as a power source for electric vehicles, the server 200 performs the entire process related to production, purchase, and sale of solar power in order to secure its stability. Since it is necessary to strictly manage, prosumers can be operated as a membership system. A detailed description of a method for the server 200 to securely manage member sign-up, member registration, and member information will be omitted since well-known techniques can be used.

The server (200, the same as the small-scale solar power trading support server) serves as an intermediary to support power trading through exchange of energy storage devices 130 between individuals and exchanges or between individuals, and Information can be managed and stored, and brokerage commission profits can be generated for power transaction brokerage.

Specifically, as shown in FIG. 3, the server 200 includes a receiving unit 210, an information providing unit 220, a transaction selection receiving unit 230, a calculation unit 240, a payment unit 250, and a database 260. ) may be included.

The receiving unit 210 may receive a power transaction request signal through the power transaction application from the first prosumer who wants to perform power transaction through exchange of the energy storage device 130 replaceable with the vehicle. Here, the first prosumer may be an individual or an exchange, and the power transaction request signal may be a signal indicating an intention to purchase or sell power, and the power transaction amount proposed by the first prosumer, the power transaction amount limit, the power transaction time, It may include transaction conditions for power transaction places, etc.

The information providing unit 220 may detect and provide at least one piece of second prosumer information that meets the transaction condition included in the power transaction request signal. That is, the information providing unit 220 detects only the second prosumers that meet the trading conditions presented by the first prosumer among the prosumers who have signed up as members to use the power trading application, and displays the information through the app execution screen of the first prosumer. The detected second prosumer information may be provided.

In an embodiment, the information providing unit 220 may provide second prosumer information to the first prosumer in an order of closeness considering the separation distance between the first prosumer and the second prosumer, and the second prosumer may install the energy storage device. It may indicate whether an individual owns a vehicle or an exclusive exchange, and provide the first prosumer with information on the power capacity, manufacturing number, and state of charge of the energy storage device possessed by the second prosumer.

For example, when a prosumer is an exchange, it may have a large amount of energy storage devices of various specifications and energy storage devices that are almost always fully charged. On the other hand, if the prosumer is an individual, it may be more efficient and more mobile than the exchange in terms of location, time, and cost. Charging information detected through 140 may be automatically informed through an interlocked power trading application.

The transaction selection receiver 230 may receive a second prosumer selection signal for power transaction from the first prosumer. Accordingly, when the first prosumer applies for power transaction while selecting the second prosumer, and the second prosumer approves the power transaction request, the server 200 calculates the transaction amount required for the power transaction between the two prosumers, transfers the transaction amount, and transfers the power transaction amount. It can perform business support related to calculation, automatic fee payment guidance, etc.

For example, an individual prosumer initially purchases or leases a standardized energy storage device 130 through an exchange to charge solar power, and then the charged energy storage device 130 is uncharged with the same standard at the exchange. The solar power can be sold by exchanging it with the energy storage device 130, and thereafter, the energy storage device 130 is charged again and exchanged with an uncharged energy storage device owned by an exchange or an individual member. can continue to conduct solar power trading. Exchanges may sell the energy storage device 130 by extracting power through a connection line.

The calculation unit 240 may calculate the power transaction price according to the amount of power transaction generated by exchanging energy storage devices between the first prosumer and the selected second prosumer. At this time, the calculation unit 240 may set the electricity transaction price including the purchase or sale price of electricity through energy storage device exchange in consideration of the price trend of the electricity sales market.

In addition, the calculation unit 240 may set the power purchase or sale price in different ways depending on whether the prosumer is an exchange or an individual. For example, a discount within a predetermined allowable range for power transaction between individuals. or a premium may be made possible.

In contrast, in the case where the prosumer is an exchange, the calculation unit 240 sets the resale price to a level similar to the sales price of electricity generated by a conventional method rather than small-scale solar power generation, and can be regarded as a virtually fixed variable. .

The purchase price may be calculated based on the power capacity of the storage device and the resale price information for each amount of power, but may be calculated by deducting cost benefits for each amount of power. This price calculation method is only an example, is not limited thereto, and may be changed according to various situations and conditions.

The payment unit 250 may execute payment for the corresponding prosumer based on the electricity transaction price calculated by the calculation unit 240 .

For example, when the exchange purchases electricity from an individual member, if the sales member installs a solar power generation device with the loan, the server 300 can pay the power purchase price directly to the lending institution for subrogation, and the sales member When purchasing this photovoltaic device, if the loan is not received or if the loan is fully repaid, the business operator may remit the purchase price to the seller member's account, and the details may be paid through the seller member's account. When an exchange resells power, it can make a payment through its own branch or a credit card terminal installed in a consignment exchange such as an electric vehicle charging station, so that the payment is paid directly to the operator. For consignment exchanges, business operators can pay consignment fees in proportion to purchase and resale details for a certain period of time, such as one month.

The database 260 includes information generated during the power transaction process, for example, the time and place of the power transaction, the amount of power transaction, the power capacity of the exchanged energy storage device 130, the manufacturing number, the power transaction price, and the power transaction Prosumer information and other information generated in the power trading application can be stored.

In addition, the server 300 further includes a statistics calculation unit, and can calculate the number of sales members, trends in power purchase and resale, sales performance by exchange, etc. for reference in business strategy establishment and service improvement. You can grasp the current status of fee income through the transaction app service.

In addition, the server 300 may calculate and provide information on the trend of change in sales amount and sales amount, decrease in loan amount, or increase in profit for each member to provide to each selling member, and each exchange may calculate and provide information on the amount of power purchased by exchange and It is possible to calculate and provide information on purchase price, resale volume and change trend of resale price, consignment fee payment trend, etc.

Each of the components 210 to 260 of the above-described server 200 may be implemented as an example, a program instructing hardware, and the program may be stored in a computer-readable medium.

On the other hand, when the user is the owner of a solar-powered vehicle, the user terminal 300 considers at least one of weather information of the day, location information of the vehicle, and schedule information of the corresponding individual member through an application for power trading to generate solar power. A parking location that is relatively advantageous to the user may be displayed on a map and a service of recommendation may be provided. In addition, the power trading application may support subscription economy businesses by enabling regular billing, payment, ordering, delivery, collection, and customer management for the energy storage device 130.

The exchange terminal 400 is a terminal owned by the store owner of the exchange, and the exchange can sell or lease solar panels 120, energy storage devices 130, charge detection devices 140, etc. to members, and the exchange As a first prosumer or a second prosumer through the exchange terminal 400 , power trading may be purchased or sold through the exchange of the energy storage device 130 through the power trading application.

4 is a flowchart illustrating a method for supporting small-scale solar power trading according to an aspect of the present invention. Referring to FIG. 4 , a method for supporting power trading based on an energy storage device in which a small-scale solar power trading support server charges solar power through a photovoltaic device installed in a predetermined space will be described. For details of each step, refer to the description of the small-scale solar power trading support system.

First, the server receives a power transaction request signal through a power transaction application from a first prosumer who wants to trade power through exchange of energy storage devices (S110).

Specifically, the server may receive a power transaction request signal through a power transaction application from the user terminal of the first prosumer who wants to perform power transaction through exchange of energy storage devices. Here, the first prosumer may be an individual or an exchange, and the power transaction request signal may be a signal indicating an intention to purchase or sell power, and the power transaction amount proposed by the first prosumer, the power transaction amount limit, the power transaction time, It may include transaction conditions for power transaction places, etc.

To this end, first, the user terminal and the exchange terminal may download and install an application for power trading from the server in order to use the power trading support service. Here, since the power purchased or sold through the small-scale solar power transaction support service can be used as a power source for electric vehicles, the server strictly enforces the entire process related to the production, purchase, and sale of solar power to ensure its stability. Because it needs to be managed, prosumers can be operated as members. A method for the server to securely manage member sign-up, member registration, and member information can use well-known technology, so a detailed description thereof will be omitted.

Next, at least one piece of second prosumer information that meets the transaction condition included in the power transaction request signal is detected and provided (S120). That is, the server detects only the second prosumers that meet the trading condition presented by the first prosumer among the prosumers who are registered as members to use the power trading application, and displays the detected second prosumer through the app execution screen of the first prosumer. can provide information.

In an embodiment, the server may provide second prosumer information to the first prosumer in an order of closeness considering the separation distance between the first prosumer and the second prosumer, whether the second prosumer is an individual who owns an energy storage device, Alternatively, it may indicate whether it is a specialized exchange, and may provide the first prosumer with the manufacturing number, standard information, and state of charge information of the energy storage device possessed by the second prosumer.

For example, when a prosumer is an exchange, the prosumer, which is an exchange, may have a large amount of energy storage devices of various specifications and energy storage devices that are almost always fully charged. On the other hand, if the prosumer is an individual, the individual prosumer may be more efficient and more mobile than the exchange in terms of location, time, and cost, but the state of charge of the energy storage device may vary greatly depending on each individual situation. Charging information detected through the charge detection device 140 may be automatically notified to the first prosumer through an interlocked power trading application.

Next, a second prosumer selection signal for power transaction is received from the first prosumer (S130). Accordingly, when the first prosumer applies for power transaction while selecting the second prosumer, and the second prosumer approves the power transaction request, the server 200 calculates the transaction amount required for the power transaction between the two prosumers, transfers the transaction amount, and transfers the power transaction amount. It can perform business support related to calculation, automatic fee payment guidance, etc.

For example, an individual prosumer initially purchases or leases a standardized energy storage device 130 to charge solar power, and then stores the charged energy storage device 130 at an exchange to store uncharged energy of the same standard. Solar power can be sold by exchanging it with the device 130, and after that, the energy storage device 130 is charged again and exchanged with an uncharged energy storage device owned by an exchange or an individual member. You can conduct solar power trading. Exchanges may sell the energy storage device 130 by extracting power through a connection line.

Next, the power transaction price is calculated according to the amount of power transaction generated by the exchange of energy storage devices between the first prosumer and the selected second prosumer (S140). In this case, the server may set the power purchase or sale price as the power transaction price in consideration of the price trend of the power sales market and the like.

In addition, the server may set the power purchase or sale price in different ways depending on whether the prosumer is an exchange or an individual. For example, discounts or premiums may be provided within a predetermined allowable range for power transactions between individuals. can do

In contrast, in the case where the prosumer is an exchange, the server sets the resale price to a level similar to the sales price of electricity generated by a conventional method rather than small-scale solar power generation, and may be regarded as a virtually fixed variable. The purchase price is calculated based on the power capacity of the storage device and the resale price information for each amount of power, but can be calculated by subtracting the cost income for each amount of power. This price calculation method is only an example, is not limited thereto, and may be changed according to various circumstances.

Next, payment for the corresponding prosumer is executed based on the calculated electricity transaction price (S150). For example, when an exchange purchases electricity from an individual member, if the sales member installs a solar power generation device with a loan, the server can pay the power purchase price directly to the lending institution for subrogation, and the sales member can subrogate the solar power generation device. When purchasing a generator, if a loan is not received or if the loan is fully repaid, the business operator may remit the purchase price to the seller member's account, and the details thereof may be paid through the seller member's account. When an exchange resells power, it can make a payment through its own branch or a credit card terminal installed in a consignment exchange such as an electric vehicle charging station, so that the payment is paid directly to the operator. For consignment exchanges, business operators can pay consignment fees in proportion to purchase and resale details for a certain period of time, such as one month.

In addition, the server can calculate the number of sales members, the trend of changes in the amount of power purchase and resale, and the performance of each exchange in order to refer to business strategy establishment and service improvement. can In addition, the server can calculate and provide information on the trend of change in sales volume and sales price, decrease in loan amount or increase in profit for each member to provide to each selling member. It is possible to calculate and provide information on resale volume, trend of change in resale price, trend of consignment fee payment, etc.

Such a small-scale solar power trading support system according to an embodiment of the present invention can trade small-scale solar power generation power without physically connecting it to the power system, and can trade small-scale solar power generation power with individuals, exchanges, and individuals. It brokers transactions between individuals so that transactions can be made, and profits can be generated by acquiring brokerage commissions for electricity transactions.

In addition, small-scale photovoltaic power generation by facilitating the distribution of small-scale photovoltaic power produced in a certain space by purchasing small-scale photovoltaic power in an energy storage device in a simple way and reselling the power as a power source for electric vehicles. and contribute to the expansion of infrastructure for the electric vehicle business.

In the above, specific embodiments of the present invention have been described in detail. However, the spirit and scope of the present invention is not limited to these specific embodiments, and it is common knowledge in the technical field to which the present invention belongs that various modifications and variations are possible without changing the gist of the present invention. Anyone who has it will understand.

Therefore, since the embodiments described above are provided to completely inform those skilled in the art of the scope of the invention to which the present invention pertains, it should be understood that it is illustrative in all respects and not limiting, The invention is only defined by the scope of the claims.

Claims (17)

An energy storage device that stores electricity generated from a solar panel installed in a predetermined space;
A user terminal that executes an application for power trading and inputs a power transaction request signal to purchase or sell power through the exchange of the energy storage device;
Detects and provides at least one piece of prosumer information that meets the transaction condition included in the power transaction request signal, receives a prosumer selection signal for power transaction, and uses power based on the amount of power transaction generated by the exchange of energy storage devices. a server that calculates a transaction price and pays the corresponding prosumer according to the calculated electricity transaction price; and
Including; an exchange terminal that executes power trading for the energy storage device;
The server is characterized in that the small-scale solar power trading support system, characterized in that for calculating the power transaction price differently for the case where the power transaction is between the exchange prosumer and the individual prosumer and the case between the individual prosumers. According to claim 1,
The energy storage device,
Storing electricity generated by the solar panel installable on at least a part of the exterior of the vehicle body;
As a component independent of the battery of the electric vehicle, it can be additionally connected to the battery to supply power to the battery, and is provided in a detachable and replaceable structure to the battery. According to claim 1,
The server,
The prosumer information is provided in the order of proximity in consideration of the separation distance between the individual member who has input the power transaction request signal and the prosumer, indicating whether the prosumer is an individual or an exchange that owns an energy storage device, and displays the energy possessed by the prosumer. A small-scale solar power transaction support system characterized in that it provides together with the manufacturing number of the storage device, standard information and charging status information. According to claim 1,
The server,
Brokering power trading through the power trading application, acquiring revenue from brokerage commissions,
Calculate the electricity transaction price in consideration of the price trend of the electricity sales market,
If there is a loan for the seller who installed the energy storage device, the power transaction price is directly subrogated to the lending institution, and if there is no loan for the seller, the power transaction price is transferred to the seller's account. A small-scale solar power trading support system. According to claim 1,
The energy storage device,
The small-scale solar power trading support system, characterized in that further comprising a charge detection device that transmits information on the state of charge of the energy storage device in real time in conjunction with an application for power trading executed in the user terminal. According to claim 2,
The user terminal,
If the user is the owner of a photovoltaic vehicle, a parking location that is relatively advantageous for photovoltaic power generation by considering at least one of the weather information of the day, the location information of the vehicle, and the schedule information of the individual member through the power trading application. A small-scale solar power trading support system, characterized in that for recommending by displaying on the map. According to claim 1,
The power trading application,
Small-scale solar power transaction support system, characterized in that to support subscription economy business by enabling regular billing, payment, order, delivery, collection and customer management for the energy storage device. In the power trading method of a power trading support system that supports small-scale solar power trading based on an energy storage device that charges solar power through a solar panel installed in a predetermined space,
Receiving a power transaction request signal through a power transaction application from a user terminal of a first prosumer who wants to perform power transaction through the exchange of the energy storage device;
detecting at least one second prosumer that satisfies a transaction condition included in the power transaction request signal among a plurality of prosumer candidates using the power transaction application, and providing the detected second prosumer information;
receiving at least one second prosumer selection signal from among the plurality of prosumer candidates from a user terminal of the first prosumer;
calculating a power transaction price according to an amount of power transaction generated by exchanging energy storage devices between the first prosumer and the selected second prosumer; and
Executing the payment of the corresponding prosumer based on the calculated electricity transaction price; Including,
In the step of calculating the electricity transaction price,
The small-scale solar power transaction support method, characterized in that the power transaction price is calculated differently for a case where the power transaction is between an exchange prosumer and an individual prosumer and a case between individual prosumers. According to claim 8,
The step of detecting and providing the second prosumer information,
In consideration of the distance between the first prosumer and the second prosumer, second prosumer information is provided in the order of proximity, indicating whether the second prosumer is an individual or an exchange that owns an energy storage device, and the energy possessed by the second prosumer. A method for supporting small-scale solar power trading, characterized in that the storage device's manufacturing number, standard information, and charge status information are provided together. According to claim 8,
In the step of calculating the electricity transaction price,
calculating, by the power transaction support system, a brokerage fee for power transaction between the first prosumer and the second prosumer through a power transaction application; and
Further comprising calculating the electricity transaction price in consideration of the price trend of the electricity sales market,
The step of executing the payment,
Subrogating the power transaction price directly to the lending institution if there is a loan for the seller who installed the energy storage device, and remitting the power transaction price to the seller's account if there is no loan for the seller A method for supporting small-scale solar power trading, characterized in that. According to claim 8,
The step of storing the time and place of the power transaction, the power transaction amount, the power capacity of the exchanged energy storage device, the manufacturing number, the power transaction price, and the prosumer information that executed the power transaction How to support electricity trading. In a server supporting power trading based on an energy storage device that charges solar power through a solar panel installed in a predetermined space,
a receiver configured to receive a power transaction request signal from a first prosumer who wants to perform power transaction through exchange of the energy storage device;
an information providing unit that detects and provides at least one piece of second prosumer information that meets a transaction condition included in the power transaction request signal;
a transaction selection receiver configured to receive a second prosumer selection signal for power transaction from the first prosumer;
a calculation unit that calculates a power transaction price according to an amount of power transaction generated by exchanging energy storage devices between the first prosumer and the selected second prosumer; and
A payment unit that executes payment for the corresponding prosumer based on the calculated electricity transaction price;
The small-scale solar power transaction support server, characterized in that the calculation unit calculates the power transaction price differently for a case where the power transaction is between an exchange prosumer and an individual prosumer and a case between individual prosumers. According to claim 12,
The information provider,
In consideration of the distance between the first prosumer and the second prosumer, information on the second prosumer is provided in order of proximity, indicating whether the second prosumer is an individual or an exchange that owns an energy storage device, and the energy possessed by the second prosumer. A small-scale solar power transaction support server characterized in that it provides information on the storage device's capacity specification, manufacturing number, and state of charge. According to claim 12,
The calculator,
Calculate a brokerage fee for power transaction between the first prosumer and the second prosumer through the power transaction application,
Calculate the electricity transaction price in consideration of the price trend of the electricity sales market,
the payment department,
If there is a loan for the seller who installed the energy storage device, the power transaction price is directly subrogated to the lending institution, and if there is no loan for the seller, the power transaction price is transferred to the seller's account. A server that supports small-scale solar power trading. According to claim 12,
Support for small-scale solar power trading, characterized in that it further comprises a database storing the date and time of the power transaction, the place, the amount of power transaction, the manufacturing number of the exchanged energy storage device, the power transaction price, and information on the prosumer who executed the power transaction server. A computer-readable recording medium storing a computer program,
When the computer program is executed by a processor,
A computer-readable recording medium comprising instructions for causing the processor to perform the method according to any one of claims 8 to 11. As a computer program stored on a computer-readable recording medium,
When the computer program is executed by a processor,
A computer program comprising instructions for causing the processor to perform the method according to any one of claims 8 to 11.

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