KR102334538B1 - Method of mediating smart green village and server performing the same - Google Patents

Abstract

According to an embodiment of the present invention, a server for managing construction of a smart green village comprises: a land contract management unit which receives and stores land contract information with a specific resident if the owner of the land on which a solar power generation service provider intends to install a solar power generation facility is a specific resident, and receives and stores information on a plurality of residents living in the village and land contract information if the owner of a land is the country; a union member management unit which matches, stores, and manages sale land information and the dividend ratio of the resident according to whether the specific resident has been enrolled as a union member at the time of contract with the specific resident; a shared amount calculation unit which calculates the amount, of the total revenue of the solar power generation service provider, excluding the amount corresponding to the dividend ratio and a predetermined amount of expenditure, as net profit, and calculates, as a shared amount, an amount corresponding to the ratio of the investment amount contracted with the local residents involved in the purchase of the solar power generation facility from the net profit based on the land contract information managed by the land contract management unit; and a smart green village construction unit which uses the shared amount to instruct execution of construction of a smart green village according to the village development plan determined as the planned details of use of the shared amount of the land contract information. Therefore, a stable, livable village can be created.

Description

Smart green village construction mediation method and server running the same

The present invention relates to a smart green village construction mediation method using solar power generation facility profits and a server for executing the same, and more particularly, by sharing a part of the proceeds of a large-scale solar power generation facility and investing in the necessary parts of the villagers. It relates to a smart green village construction mediation method using solar power facility profits that can induce economic independence of

Energy consumption is increasing worldwide and is expected to continue to increase in the future. It is true that the increase in energy consumption based on fossil fuels has achieved rapid economic growth, but environmental problems such as climate change and fine dust are emerging.

Research on related technologies to overcome the crisis of environmental change caused by the depletion of fossil energy and global warming and to support the green environment and green energy policy as a national growth engine is greatly required. Renewable energy is emerging as an alternative, and various technologies are being developed.

Renewable energy refers to energy that is used by converting existing fossil fuels or by converting renewable energy including sunlight (solar light), wind power, hydro power (water), geothermal heat, and biological organisms. Sustainable energy supply Characterizes future energy sources for the system.

Renewable energy has grown in importance due to the instability of oil prices and the response to the regulations of the Climate Change Convention.

In Korea, renewable energy in 8 fields (solar heat, solar power generation, biomass, wind power, small hydro, geothermal, marine energy, waste energy) and new energy in 3 fields (fuel cell, coal liquefaction and hydrogen energy), total 11 fields are designated as new and renewable energy by law.

Among these new and renewable energies, photovoltaic power generation is power generation using sunlight or solar heat, and the photovoltaic power generation business obtains a power generation business license (for example, financial capability or technical capability necessary to conduct electricity business) in accordance with the Electricity Business Act. It is a business that generates profits by purchasing and installing solar power generation facilities, then operating the power generation facilities and selling the electricity and RECs.

Unlike coal or natural gas power plants, the above photovoltaic power generation business is small in scale and not very difficult to operate, so small businesses and individuals can also carry out the business, but the current photovoltaic power generation business has the following problems.

First, although most of the solar power generation facilities are installed in rural areas with wide flat land, they are mainly operated by foreign companies and are subject to civil complaints and regulations.

Second, from the point of view of farmers, local residents, they own land for solar power generation business, but it is difficult to prepare facility investment costs other than land (the solar power plant 100kW investment costs about 150 million won excluding the site cost), and knowledge and Business entry is not easy due to lack of information.

As such, local residents are unable to directly conduct business as they judge that it is difficult to enter the power generation project and the future of the solar power generation project is unstable.

Third, unlike local residents, solar power companies have a lot of knowledge and information and have the ability to raise funds, but have difficulties in securing a site.

Fourth, even though most of the solar power plants are installed in rural areas, profits are leaking out, and there are many cases of damage to the surrounding landscape by damaging nature due to reckless development to secure a site. is occurring

The present invention is a smart green using the benefits of a solar power generation facility that allows residents to sympathize with the opinions of surrounding residents and create a stable livable village of the desired shape by collecting the opinions of the surrounding residents for inconveniences that may occur as a result of constructing a large-scale solar power generation facility. An object of the present invention is to provide a village construction mediation method and a server executing the same.

In addition, the present invention shares a portion of the profits of large-scale solar power generation facilities and invests in the necessary parts of village residents, thereby inducing economic independence according to the increase in visitors by activating tourism in the village, creating landmarks, and building a village brand. An object of the present invention is to provide a smart green village construction mediation method using the solar power generation facility profits and a server that executes the same.

In addition, the present invention is a solar power generation that allows a balanced and stable village to be achieved through the influx of young people returning to farming through effects such as building a village profit virtuous cycle system and strategic systemization of regional development based on energy independence based on renewable energy. An object of the present invention is to provide a smart green village construction mediation method using facility profits and a server that executes the same.

In addition, the present invention steadily reminds people of the branded village, and based on continuous interest in the area, as a role model for rural villages suffering such difficulties, solar power generation facility benefits that increase the value of the smart green village It aims to provide a smart green village construction mediation method using

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

The smart green village construction management server for achieving this purpose receives and stores land contract information with a specific resident when the owner of the land on which the solar power generation company intends to install the solar power generation facility is a specific resident, and stores the land If the owner is Nara, the land contract management department that receives and stores the information of a plurality of residents living in the village and land contract information, and responds to the sale land information and dividend ratio of the corresponding resident according to whether or not he or she has signed up as a union member when signing a contract with the specific resident The member management department, which stores and manages the company, calculates the net profit by excluding the amount corresponding to the dividend ratio and the predetermined amount of expenditure among the total profits of the solar power generation business, and based on the land contract information managed by the land contract management department A shared amount calculation unit that calculates as a shared amount the amount corresponding to the ratio of the investment contracted with the local residents when purchasing a solar power plant from the net profit, and the planned use of the shared amount among the land contract information using the shared amount Includes the Smart Green Village Architecture Department, which implements the Smart Green Village construction according to the village development plan determined by

In addition, a smart green village construction brokerage method using solar power facility profits to achieve this purpose. When the owner of the land on which a solar power company intends to install a photovoltaic power plant is a specific resident, land contract information with a specific resident receiving and storing, receiving and storing a plurality of resident information and land contract information residing in a village when the owner of the land on which the solar power generation company intends to install the solar power generation facility is Nara, and the specific resident Storing the land sales information and dividend ratio of the relevant resident in correspondence according to whether or not they signed up as a member at the time of a contract with the company Based on the land contract information managed by the land contract management department, calculating an amount corresponding to the ratio of the investment amount contracted with the local residents involved in the purchase of the solar power generation facility from the net profit as a shared amount, and using the shared amount It includes the step of executing the construction of the smart green village according to the village development plan determined by the expected use of the shared amount among the land contract information.

According to the present invention as described above, there is an advantage in that it is possible to create a stable livable village in the form that the residents sympathize and want by collecting the opinions of the surrounding residents on the inconveniences that may occur due to the construction of a large-scale solar power generation facility.

In addition, according to the present invention, by sharing a part of the proceeds of large-scale solar power generation facilities and investing in the necessary parts of villagers, it is possible to induce economic independence according to the increase of visitors by activating tourism in the village, creating landmarks, building a village brand, etc. It has the advantage of being able to

In addition, according to the present invention, there is an advantage that a balanced and stable village can be achieved by the inflow of young people returning to farming through effects such as building a virtuous cycle system for village profits and strategic systemization of regional development based on energy independence based on renewable energy. .

In addition, the present invention has the advantage of increasing the value of the smart green village as a role model for rural villages suffering such difficulties based on continuous interest in the region by constantly reminding people of the branded village.

1 is a network configuration diagram for explaining a smart green village construction system using a solar power generation facility profit according to an embodiment of the present invention.
2 is a block diagram illustrating an internal structure of a smart green village construction management server according to an embodiment of the present invention.
3 is a flowchart for explaining an embodiment of a smart green village construction mediation method using solar power generation facility profits according to the present invention.
4 is a network configuration diagram for explaining a smart green village construction system using a solar power facility profit according to another embodiment of the present invention.
FIG. 5 is a block diagram for explaining the internal structure of the solar power use health care device of FIG. 4 .
6 is a block diagram for explaining the internal structure of the home solar power generation facility of FIG.
7 is a block diagram for explaining the internal structure of the smart green village management server of FIG.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

1 is a network configuration diagram for explaining a smart green village construction system according to an embodiment of the present invention.

Referring to Figure 1, the smart green village construction system is a solar power generation business server 100, RPS (Renewable Portfolio Standard) obligator (generator) server 200, electricity sales company (Korea Electric Power) server 300, solar power It is configured to include a power generation service provider server 400 , a smart green village construction management server 500 , and a resident terminal 600 .

First, the solar power generation service business means that a third party (solar power generation service provider) with expertise and financial power purchases and installs solar power generation facilities, It is a business that generates electricity by generating electricity to solar power generation operators while operating with ownership and receiving commissioned production costs.

To this end, a solar power production contract (SPPA) is concluded between the solar power generation service provider server 100 and the solar power generation service provider server 400 . In this case, the consignment production cost is paid in units of kWh at a predetermined unit price, and the contract period is, for example, 20 years.

This solar power generation service business is completely different from the solar power generation facility rental (lease) business. The rental (lease) business receives a fixed amount every month, while the solar power generation service business is consigned as much as kWh produced every month. The production cost is received from the solar power generation company.

A solar power generation business operator secures a business site (including a warehouse or barn roof, etc.) to install a solar power generation facility, obtains a solar power business license, Photovoltaic power (kWh) is provided, and the commissioned production cost (KRW/kWh) equal to the received photovoltaic power is deposited into the account of the photovoltaic power generation service provider and paid.

In addition, the photovoltaic power generation company sells the solar power provided from the photovoltaic power generation service provider server 400 to the electricity sales company (Korea Electric Power) server 300, and the REC to the RPS duty holder (generator) server 200 make a profit by selling

In other words, the source of solar power revenue for solar power generation companies is power sales revenue from selling solar power to Korea Electric Power at the power selling price (SMP), and sales of new and renewable energy supply certificates (REC) to large power companies such as Korea Hydro & Nuclear Power. is the income

For example, if a 100kW solar power facility generates 3.6 hours of power every day and produces 10,800kW (=100×3.6×30) of solar power per month, this solar power is provided and sold. If the price (eg, monthly average of 76 won per kW) + REC price (eg, monthly average of 127 per kW × weight of 1.2 when 100 kW is built on a general site) is applied, it can be sold at 228.4 won per kW.

If you calculate based on this, you can earn 2,466,720 won per month and 29.6 million 640 won in one year.

The photovoltaic power generation service provider server 100 is a server operated by a photovoltaic power generation company that performs the above role, and concludes a solar power consignment production contract with the photovoltaic power generation service provider server 400 and receives the solar power generation service provider server from the server As much as the received solar power is paid by depositing the consignment production cost into the account of the solar power generation service provider.

In addition, a REC (Renewable Energy Certification) is provided to the RPS obligator (generator) server 200 and the REC price is paid in return.

In addition, solar power is provided to the electricity sales company (Korea Electric Power) server 300, and solar power is paid in return.

After signing a solar power consignment production contract with a solar power generation service provider (SSP), a solar power generation service provider (SSP) purchases a solar power generation facility, installs it on the site of the solar power generation company, and owns solar power Produces solar power on consignment while monitoring, operating, and maintaining power generation facilities.

In addition, the solar power produced by the consignment is provided to the solar power generation company, and the investment cost is recovered with the consignment production cost received from the solar power generation company.

The photovoltaic power generation service provider server 400 is a server operated by a photovoltaic power generation service provider that performs the above role, and concludes a solar power consignment production contract with the photovoltaic power generation service provider server 100 to consign solar power production The solar power is paid as a consignment production cost and provided to the solar power generation company.

The RPS (Renewable Portfolio Standard) obligator (generator) server 200 receives a REC from the photovoltaic power generation business server 100 and pays the REC price to the photovoltaic power generation company server 100 .

The electricity sales company (Korea Electric Power) server 300 receives solar power from the solar power generation company server 100 and pays the solar power price to the solar power generation company server 100 .

Of course, at this time, the electricity sales company (KEPCO) is building a power system linked to solar power.

The smart green village construction management server 500 is a server that builds a smart green village in a village where a solar power generation facility is installed by using the solar power generation facility profits.

First, the smart green village construction management server 500 manages contract information of land on which a solar power generation company intends to install a solar power generation facility. At this time, the smart green village construction management server 500 manages different contract information according to the owner of the land where the solar power generation company intends to install the solar power generation facility.

In one embodiment, the smart green village construction management server 500 receives and stores land contract information with a specific resident when the owner of the land on which the solar power generation company intends to install the solar power generation facility is a specific resident.

At this time, the land contract information includes the ratio to be shared with the village among the total proceeds of the solar power generation facility installed on the land, the sharing scope (ie, sharing only with the land contractor, sharing with the entire village, etc.) and the sharing amount corresponding to the sharing scope It may include planned details.

In another embodiment, the smart green village construction management server 500 receives a plurality of resident information and land contract information residing in the village when the owner of the land on which the solar power generation company intends to install the solar power generation facility is the country. to save

In this case, the land contract information may include a ratio to be shared with the village among the total profits of the photovoltaic power generation facility installed on the land, and details of the planned use of the shared amount.

In the above embodiment, the smart green village construction management server 500 provides the village development plan list to the resident terminal 600 owned by a plurality of residents living in the village, and the village development plan list from the resident terminal 600 . to receive the selection of

Then, the smart green village construction management server 500 counts the number of villagers who selected the corresponding item for each item in the village development plan list, and shares the village development plan corresponding to the top specific number of items. can be determined as

In this case, the village development plan list may include a home solar power generation facility that can be monitored, a smart solar street lamp for village security, a solar nameplate installation, and a long-cherished project of the village such as accommodation or a restaurant.

In conclusion, the smart green village construction management server 500 calculates some amount of the remaining amount excluding the predetermined expenditure amount among the total profits of the solar power generation business as a shared amount, and using the shared amount, smart according to the village development plan Order to carry out the construction of Green Village.

The resident terminal 600 is a terminal owned by a resident in a village where a solar power generation company intends to install a solar power generation facility. The resident terminal 600 may be implemented as a smart phone, a tablet PC, or the like. These residents may be the owners of the land on which the solar power generator wants to install the solar power plant, but they may not own the land.

First, when the resident terminal 600 is the owner of the land where the solar power generation company intends to install the solar power generation facility, the resident terminal 600 inputs the land contract information agreed with the solar power generation company to the smart green village construction management server 500 . to provide.

At this time, the land contract information includes the contract amount, whether each resident is a member of the union, the dividend ratio for each member, the ratio to be shared with the village among the total proceeds of the solar power plant installed on the land, and the scope of sharing (that is, only shared with the land contractor, the village Share to the whole, etc.) and the plan to use the shared amount corresponding to the sharing scope may be included.

Next, the resident terminal 600 is not the owner of the land on which the solar power generation company intends to install the solar power generation facility, but the land owner is the country and requires the consent of the villagers, the land contract with the solar power generation company Information is input and provided to the smart green village construction management server 500 .

In this case, the land contract information may include a ratio to be shared with the village among the total profits of the photovoltaic power generation facility installed on the land, and details of the planned use of the shared amount.

2 is a block diagram for explaining the internal structure of a smart green village construction management server according to an embodiment of the present invention.

Referring to FIG. 2 , the smart green village construction management server 500 includes a land contract management unit 510 , a union member management unit 520 , a shared amount calculation unit 530 , a smart green village construction unit 540 , and a land contract information database ( 550).

The land contract management unit 510 manages contract information of the land on which the photovoltaic power generation business operator intends to install the photovoltaic power generation facility. In this case, the land contract management unit 510 stores and manages different contract information in the land contract information database 550 according to the owner of the land where the photovoltaic power generation business intends to install the photovoltaic power generation facility.

In one embodiment, the land contract management unit 510 receives land contract information with a specific resident when the owner of the land on which the solar power generation company intends to install the solar power generation facility is a specific resident and receives the land contract information database 550 ) is stored in

At this time, the land contract information includes the contract amount, whether each resident is a member of the union, the dividend ratio for each member, the ratio to be shared with the village among the total proceeds of the solar power plant installed on the land, and the scope of sharing (that is, only shared with the land contractor, the village Share to the whole, etc.) and the plan to use the shared amount corresponding to the sharing scope may be included.

In another embodiment, the land contract management unit 510 is a plurality of resident information and land contract information residing in the village if the owner of the land on which the solar power generation company intends to install the solar power plant is Nara. Received and stored in the land contract information database (550).

In this case, the land contract information may include a ratio to be shared with the village among the total profits of the photovoltaic power generation facility installed on the land, and details of the planned use of the shared amount.

In the above embodiment, the land contract management unit 510 provides the village development plan list to the resident terminal 600 held by a plurality of residents living in the village, and the selection item of the village development plan list from the resident terminal 600 . receive

Then, the land contract management unit 510 counts the number of villagers who have selected the corresponding item for each item in the village development plan list, and determines the village development plan corresponding to the top specific number of items as the planned use of the shared amount. have.

At this time, the village development plan list may include a home solar power generation facility that can be monitored, smart solar street lights for village security, solar nameplate installation, and long-cherished projects of the village such as accommodation facilities or restaurants. .

The union member management unit 520 stores and manages the land contract management unit 510 by matching the sale land information and the dividend rate of the corresponding resident based on the land contract information agreed upon at the time of a land contract with a specific resident according to whether or not he/she agrees to join the association. .

In other words, the residents own a part of the land on which the solar power generation company intends to install the solar power generation facility, so they can join as a union member when contracting the land with the solar power generation company. At this time, after the land is sold at a price lower than the standard market price, the residents can receive an amount corresponding to the dividend ratio among the total profits of the solar power generation business as a dividend.

The sharing amount calculation unit 530 may calculate a partial amount of the remaining amount except for a predetermined expenditure amount among the total profits of the solar power generation business as the sharing amount.

First, the shared amount calculation unit 530 calculates the total profit by using the power sales revenue (ie, solar power price) and the revenue from selling new and renewable energy supply certificates (ie, REC revenue).

Then, the shared amount calculation unit 530 calculates the consignment production cost corresponding to the produced kWh that must be paid to the solar power generation service provider among the total proceeds, and the repayment amount of the loan received when purchasing the business site where the solar power generation facility is installed. The net profit is calculated by deducting the deducted amount and dividends per member.

Through the above process, the shared amount calculation unit 530 calculates the net profit, and then based on the land contract information extracted from the land contract information database 550, contracted with the local residents involved in the purchase of the solar power generation facility from the net profit. An amount corresponding to the investment ratio can be calculated as a shared amount.

In this case, the local residents involved in the purchase of the photovoltaic power plant may be changed according to the owner of the land where the photovoltaic power plant is installed.

That is, the investment ratio may be changed according to a contract with a specific resident when purchasing land if the owner of the site where the photovoltaic power plant is installed is a specific resident, and if the owner of the site where the photovoltaic power plant is installed is public land, the land purchase It can be changed by contract with a plurality of residents living in the city village.

The smart green village construction unit 540 uses the shared amount calculated by the shared amount calculation unit 530 to perform smart according to the village development plan determined as the shared amount of land contract information managed by the land contract management unit 510. Order to carry out the construction of Green Village.

At this time, the smart green village building unit 540 determines whether construction corresponding to the village development plan can be executed using the shared amount, and then commands to execute the construction of the smart green village according to the determination result.

To this end, the smart green village construction unit 540 compares the construction amount required to perform the specific village development plan among the shared amount and the shared amount planned to be used, and confirms whether the specific town development plan can be performed.

If the smart green village building unit 540 is not more than the construction amount required to carry out the specific town development plan, the smart green village building unit 540 accumulates the shared amount and then performs the specific town development plan if the accumulated shared amount is more than the construction amount to build a smart green village.

3 is a flowchart for explaining an embodiment of a smart green village construction mediation method using solar power generation facility profits according to the present invention.

Referring to FIG. 3 , the smart green village construction management server 500 receives and stores land contract information with a specific resident when the owner of the land on which the solar power generation company intends to install the solar power generation facility is a specific resident ( step S510).

The smart green village construction management server 500 receives and stores a plurality of resident information and land contract information residing in the village when the owner of the land on which the solar power generation company intends to install the solar power generation facility is Nara (step S520).

In one embodiment for step S520, the smart green village construction management server 500 provides a list of village development plans to a resident terminal owned by a plurality of residents living in the village when the owner of the land is Nara, and then the resident terminal Receive selection items from the village development plan list.

After that, the smart green village construction management server 500 counts the number of villagers who have selected the corresponding item for each item of the village development plan list and shares the village development plan corresponding to the top specific number of items. to decide

The smart green village construction management server 500 matches and stores the sale land information and dividend ratio of the relevant resident according to whether he or she has signed up as a union member when making a contract with a specific resident (step S530).

The smart green village construction management server 500 calculates the net profit by excluding the amount corresponding to the dividend ratio and the predetermined expenditure amount among the amounts corresponding to the dividend ratio among the total profits of the solar power generation business operator (step S540).

In one embodiment for step S540, the smart green village construction management server 500 calculates the total proceeds by using the electric power sales revenue and the revenue from selling the new and renewable energy supply certificate for each specific period, and among the total proceeds, solar power The net profit is calculated by deducting the consignment production cost corresponding to the kWh produced to be paid to the power generation service provider, the repayment amount of the loan received at the time of purchase of the business site where the solar power generation facility is installed, and the dividend per member. .

Thereafter, the smart green village construction management server 500 may calculate an amount corresponding to the ratio of the investment to be shared in the village among the net income as the shared amount.

The smart green village construction management server 500 calculates an amount corresponding to the ratio of the investment contracted with the local residents involved in the purchase of the solar power generation facility from the net profit based on the land contract information managed by the land contract management unit as a shared amount do (step S550).

The smart green village construction management server 500 commands to execute the construction of the smart green village according to the village development plan determined by the planned use of the shared amount among the land contract information by using the shared amount (step S560).

In one embodiment for step S560, the smart green village construction management server 500 compares the shared amount and the construction amount required to perform the specific town development plan among the shared amount and the planned use of the shared amount, and the specific town development plan is performed. Check whether it is possible.

Thereafter, the smart green village construction management server 500 builds the smart green village by accumulating the sharing amount according to the confirmation result, and then performing the specific village development plan if the accumulated sharing amount is greater than or equal to the construction amount.

4 is a network configuration diagram for explaining a smart green village construction system using a solar power generation facility profit according to another embodiment of the present invention.

Referring to FIG. 4 , a smart green village construction system using solar power generation facility profits is a solar power generation facility 100 , a solar power use facility 300 , and home solar power generation centering on the smart grid management server 200 . It includes a facility 400 and a solar-powered health care device 500 .

The photovoltaic power generation facility 100 is a facility built by a photovoltaic power generation company on a site of a village, and generates solar power.

The solar power produced in the solar power generation facility 100 is sold to Korea Electric Power and the like or supplied as driving power of the solar power using facility 300 installed in the village through the smart grid management server 200 .

At this time, a profit may be generated due to the solar power produced in the solar power generation facility 100 , and a part of the profit is used to build the solar power use facility 300 of the village.

The smart grid management server 200 controls so that solar power is supplied to the solar power using facility 300 and the solar power using health care device 500 after receiving solar power from the solar power generation facility 100 . do.

First, the smart grid management server 200 receives a predetermined amount of solar power from the solar power generation facility 100 , and the solar power using facility 300 and the solar power using health care device 500 respectively. It distributes and provides solar power.

In one embodiment, the smart grid management server 200 distributes solar power based on the solar power consumption history for each solar power using facility and supplies it to the corresponding solar power using facility 300 .

In the above embodiment, the smart grid management server 200 receives the solar power consumption history including the start time of use, the end time of use, and the amount of solar power consumption from the solar power usage facility 300, Analyze the power consumption history as a time series to generate statistical data on the amount of solar power.

Thereafter, the smart grid management server 200 distributes the amount of solar power corresponding to the current point in time based on the statistical data of the amount of solar power in the time series to the corresponding solar power using facilities.

In another embodiment, the smart grid management server 200 distributes solar power according to an activity pattern for each user received from the solar power use health care device 500 to distribute the solar power use health care device 500 . supply to

In addition, the smart green village management server 200 receives bio-signal information for each user from the solar power use health care device 500 owned by each user in the village, and checks the user's health based on the bio-signal information. .

That is, the smart green village management server (xxx) analyzes the user's activity pattern based on the biosignal information received for a specific period, determines whether the user is abnormal according to the activity pattern corresponding to the current time, and then according to the determination result A notification message is provided to a predetermined emergency agency server.

In one embodiment, the smart green village management server (xxx) provides a notification message to a predetermined emergency agency server if the user's activity amount is not detected for a specific time when the current time is the active time based on the activity pattern.

The solar power use facility 300 is installed in the village using a portion of the proceeds due to the solar power produced by the solar power generation facility 100 , and receives solar power from the smart grid management server 200 . it will work

This solar power using facility 300 may be implemented as a solar street light installed in a village, a solar power nameplate, a solar farm and fishery product cultivation facility (eg, a plastic house), a solar CCTV, and the like.

In one embodiment, the solar power using facility 300 operates by receiving solar power from the smart grid management server 200 when the solar power using facility is implemented as a solar street light, and the surrounding illuminance value is specific If it is less than the value, light is irradiated through the light source.

The solar power usage facility 300 provides the solar power consumption history including the start time of use, the end time of use, and the amount of solar power consumption to the smart grid management server 200 .

In one embodiment, when the solar power using facility 300 is implemented as a solar street lamp or a solar nameplate, when the surrounding illuminance value is less than or equal to a specific value, the time the light is irradiated through the light source is used It is determined as the start time, the predetermined turn-off time is determined as the end time of use, and the solar power consumption history including the amount of solar power consumed from the start time to the end time is provided to the smart grid management server 200. .

Accordingly, the smart grid management server 200 may analyze the solar power consumption history to generate statistical data, and then distribute solar power for each solar power using facility 300 based on the statistical data.

The home solar power generation facility 400 is a facility installed outside the home of a villager, and generates solar power. The solar power produced by the home solar power generation facility 400 is supplied as driving power to the electronic products (eg, switches, fluorescent lamps, refrigerators, heating and cooling facilities, etc.) of the home.

This home solar power generation facility 400 generates solar power until sunrise and sunset time and stores solar power in an internal energy storage module, and the solar power stored in the energy storage module is applied to the home's electronic products. supplied as driving power.

The solar power use health care device 500 is operated by receiving solar power from the smart grid management server 200, measures the user's biosignal information and provides it to the smart green village management server (xxx). In this case, the biosignal information may include motion data measured by a sensor, temperature data, pulse data, and the like.

FIG. 5 is a block diagram for explaining the internal structure of the solar power use health care device of FIG. 4 .

Referring to FIG. 5 , the solar power use health care device 500 includes a wireless communication unit 510 , a biosignal information sensor 520 , a control unit 530 , and a battery 540 .

The biosignal information sensor 520 is mounted on the solar power using health care device 500 to measure biosignal information of the wearer. The biosignal information measured by the biosignal information sensor 520 may be variously applied, such as a pulse or coral saturation. In this embodiment, the pulse is measured and the measured information is transmitted to the smart green village management server through the wireless communication unit 510 . (200).

The biosignal information sensor 520 measures biosignal information according to the measurement signal of the controller 530. The controller 530 measures biosignal information at regular time intervals or receives biosignal information according to a set time interval. let me measure

As described above, the controller 530 sends a measurement signal to measure the biosignal information at a predetermined time interval or at a set time, and stores the measured measurement information. Then, the stored biosignal information is transmitted to the smart green village management server (xxx) through the communication unit.

The battery 540 is charged through solar power provided from the smart green village management server 200 , and supplies power to drive the control unit 530 , the wireless communication unit 510 , and the biosignal information sensor 520 . The battery 540 capable of driving the health care device 500 using solar power for a certain period of time without being connected to an external power source because daily life must be possible after wearing the health care device 500 using solar power. ) is preferably used.

6 is a block diagram for explaining the internal structure of the home solar power generation facility of FIG.

Referring to FIG. 6 , the home solar power generation facility 400 includes a solar cell unit 410 , an energy storage unit 420 , a DC power load 430 , and a communication unit 440 .

The solar cell unit 410 may include an array (not specifically illustrated) of a plurality of solar cell panels. Each solar cell panel of the solar cell unit 410 may receive sunlight and continuously generate enormous electric energy by the photoelectric effect.

Although not specifically shown, according to an embodiment of the present invention, the solar cell unit 410 also includes a panel support device capable of adjusting the direction and angle of the solar cell panels so that the solar cell panels follow the movement of the sun. can do.

As illustrated, the solar cell unit 410 may be connected to the communication unit 440 to enable wired or wireless communication. According to an embodiment of the present invention, the solar cell unit 410 includes information about the state of the solar panel (eg, the current temperature, light quantity, and information such as sunrise and sunset times, but is not limited thereto) may be measured and transmitted to the communication unit 440 .

The communication unit 440 may receive information about the state of the solar cell panel from the solar cell unit 410 , and transmit the received information to the smart green village management server 200 through a communication network.

The energy storage unit 420 may be electrically connected to the solar cell unit 410 . The energy storage unit 420 may also be power connected to a load 430 for DC power.

According to another embodiment of the present invention, the energy storage unit 420 may include a sodium sulfate secondary battery, a nickel-cadmium battery, a lead storage battery, a nickel-hydrogen battery, a lithium-ion battery, a lithium polymer battery, and the like. The energy storage unit 420 may include an appropriate type and number of secondary batteries according to required power capacity, design conditions, and the like.

The DC power load 430 may be connected to the energy storage unit 420 to receive power supplied from the energy storage unit 420 . According to an embodiment of the present invention, the DC power load 430 may be a charging device for various electronic products or vehicles. According to an embodiment of the present invention, the load 430 for DC power may be, for example, an electric boiler, but the present invention is not limited thereto.

The load 430 for DC power may also be connected to the communication unit 440 to enable wired or wireless communication. The DC power load 430 may measure information on the state of the corresponding DC power load 430 and transmit it to the communication unit 440 . For example, when the load 206 for DC power is an electric boiler, information regarding an on/off state of the load 206 , an output temperature, an amount of electricity used, and the like may be transmitted to the communication unit 440 . When the DC power load 430 is a vehicle charging device, information about the charging state, charging power amount, charging time, etc. of the DC power load 430 may be provided to the smart grid management server 200 through the communication unit 440. .

7 is a block diagram for explaining the internal structure of the smart green village management server of FIG.

Referring to FIG. 7 , the smart green village management server 200 includes an energy storage unit 210 , a solar power distribution unit 220 , a health care unit 230 , and a communication unit 240 .

The energy storage unit 210 may be electrically connected to the solar power generation facility 100 .

According to another embodiment of the present invention, the energy storage unit 210 may include a sodium sulfate secondary battery, a nickel-cadmium battery, a lead storage battery, a nickel-hydrogen battery, a lithium-ion battery, a lithium polymer battery, and the like. The energy storage unit 210 may include an appropriate type and number of secondary batteries according to required power capacity, design conditions, and the like.

The solar power distribution unit 220 controls so that the solar power stored in the energy storage unit 210 is distributed to each of the solar power using facility 300 and the solar power using health care device 500 .

In one embodiment, the solar power distribution unit 220 distributes the solar power stored in the energy storage unit 210 based on the solar power consumption history for each solar power using facility, so that the corresponding solar power using facility 300 ) to be supplied to the

In the above embodiment, the solar power distribution unit 220 is a solar power consumption including the use start time, the use end time, and the amount of solar power consumption from the solar power use facility 300 through the communication unit 240 . After receiving the history, the solar power consumption history is analyzed as a time series to generate statistical data of the solar power amount, and based on the statistical data of the solar power amount of the time series, the solar power amount corresponding to the current time is calculated. It is controlled to be distributed to the relevant solar power-using facilities.

In another embodiment, the solar power distribution unit 220 distributes the solar power stored in the energy storage unit 210 according to the user-specific activity pattern received from the solar power use health care device 500 to distribute the solar power Control to be supplied to the optical power use health care device (500).

The health care unit 230 receives bio-signal information for each user from the solar power use health care device 500 owned by each user in the village through the communication unit 240, and monitors the health of the user based on the bio-signal information. check it

At this time, the health care unit 230 analyzes the user's activity pattern based on the biosignal information received for a specific period, determines whether the user is abnormal according to the activity pattern corresponding to the current time, and then determines whether the user is abnormal according to the result of the determination. 240) provides a notification message to a predetermined emergency agency server through.

As described above, although the present invention has been described with reference to the limited examples and drawings, the present invention is not limited to the above-described examples, which are various modifications and variations from these descriptions by those skilled in the art to which the present invention belongs. Changes are possible. Accordingly, the spirit of the present invention should be understood only by the claims described below, and all equivalents or equivalent modifications thereof will fall within the scope of the spirit of the present invention.

100: solar power operator server
200: RPS (Renewable Portfolio Standard) duty holder (generator) server
300: Electricity sales company (Korea Electric Power) server
400: solar power service provider server
500: Smart Green Village Building Management Server
510: Land Contract Management Department
520: member management department
530: share amount calculator
540: Smart Green Village Architecture Department
600: resident terminal

Claims (2)

If the owner of the land on which the solar power generation company intends to install the solar power generation facility is a specific resident, the specific resident information and land contract information are received and provided to the land contract information database, and the solar power generation company operates solar power generation If the owner of the land where the facility is to be installed is Nara, receive information on multiple residents living in the village and land contract information, store it in the land contract information database, and develop the village on a resident terminal owned by multiple residents living in the village After providing the plan list, the selected items of the village development plan list are received from the resident terminal, and for each item of the village development plan list, the number of villagers who selected the corresponding item is counted to correspond to the top specific number of items. Land contract management department that decides the village development plan as the expected use of the shared amount;
If a resident owns a part of the land on which a solar power generation company intends to install a solar power generation facility, it is required to decide whether or not to agree to join as a union member when signing a land contract with a solar power generation company, and contract with a specific resident. a member management unit that stores and manages the land sold information and dividend ratio of the relevant resident according to whether or not they agree to join the union based on the land contract information agreed with the city;
The total profit is calculated by using the power sales revenue and revenue from the sale of new and renewable energy supply certificates, and out of the total revenue, the consignment production cost corresponding to the kWh produced to be paid to the photovoltaic service provider, and the photovoltaic power generation facility are The net income is the amount after deducting the loan repayment amount received at the time of purchase of the installed business site and the amount deducted from dividends for each member. Based on the land contract information extracted from the land contract information database, the purchase of solar power facilities A shared amount calculation unit that calculates an amount corresponding to the ratio of the investment contracted with the city-related local residents as a shared amount; and
If the shared amount is not greater than the construction amount required to carry out the specific village development plan, accumulate the shared amount, and if the accumulated shared amount is greater than the construction amount, the specific village development plan is executed to execute the construction of the smart green village Including the Smart Green Village Architecture Department,
The investment ratio is
If the land where the photovoltaic power generation facility is installed is a specific resident, it may be changed according to a contract with a specific resident when purchasing the land. It can be changed according to a contract with multiple residents,
The solar power generated by the solar power generation facility is supplied as driving power of the solar power using facility installed in the village through a smart grid management server,
A portion of the proceeds generated by the solar power produced is used to build a solar power use facility in the village,
The solar power-only facility installed in the village using a portion of the proceeds from the generated solar power is
When implemented as a solar street light, it operates by receiving solar power from the smart grid management server. Provides solar power consumption history including power consumption to the smart grid management server,
When implemented as a solar street light or solar nameplate, when the ambient illuminance value is below a certain value, the time irradiated by light through the light source is determined as the start time, and the predetermined turn-off time is determined as the end time, and use starts It provides the solar power consumption history including the amount of solar power consumed from time to end time to the smart grid management server,
The smart grid management server is
After receiving the solar power consumption history including the start time of use, the end time of use, and the amount of solar power consumption from the solar power usage facility, the solar power consumption history is analyzed as a time series to obtain statistical data of the amount of solar power based on the statistical data of the amount of solar power in the time series, the amount of solar power corresponding to the current time is distributed to the corresponding solar power facility or activity pattern for each user received from the solar power usage health care device The solar power is distributed and supplied to the corresponding solar power-using health care device according to the characterized by providing
Smart Green Village Building Management Server. delete

Images