KR101194374B1 - Method and apparatus for lowering electric charges of an apartment house - Google Patents

Abstract

PURPOSE: An electric charge saving method and apparatus of an apartment house are provided to reduce apartment house man costs. CONSTITUTION: An electric charge saving apparatus(110) comprises a data receiver(111), an excess determining unit(112), and a substituting power supply unit(113). The data receiver receives electricity used amount data of a first power supply source from an electricity used amount measuring unit installed at each household. The excess determining unit determines reference date excess of the electricity used amount data. The substituting power supply unit supplies electricity of a second power supply source to a supply target household corresponding to used amount data which is exceeded instead of the first power supply source. [Reference numerals] (111) Data receiver; (112) Excess determining unit; (113) Substituting power supply unit; (114) Data storing unit; (115) Data output unit; (116) Controller

Description

Method and apparatus for lowering electric charges of an apartment house

The present invention relates to a method of reducing electricity bills of a multi-family house, a device thereof, and a method of selling environmentally friendly energy.

In general, if you use electricity at home, a progressive tax is applied depending on the amount of electricity used. The progressive tax is a plan to save energy by setting the unit price per kWh higher as more electricity is used. Currently, the Republic of Korea is also applying a progressive tax on electricity rates.

In the case of multi-family dwellings, they share a number of costs, including administrative expenses, and share common interests. In this case, if a certain generation uses a lot of electricity and a progressive tax is applied, and other generations use a small amount of electricity, the progressive tax is not applied.

According to Korean Patent Application No. 10-2010-0015266 (Smart Energy Management Apparatus and Method for Controlling Power Consumption) of the prior art, if the power consumption is expected to exceed the threshold, the control command to the load controller connected through the gateway Disclosed is a technology for controlling the power use of the electric devices belonging to the electric device use group by outputting the same. However, apartment houses do not control the electrical equipment of each generation.

On the other hand, various methods of utilizing renewable energy have been attempted as a problem of environmental protection. In this case, if there is a way to collectively reduce the electricity bill in a multi-family house that uses shared renewable energy to share common interests, it is expected to be useful in modern society.

The above-described background technology is technical information that the inventor holds for the derivation of the present invention or acquired in the process of deriving the present invention, and can not necessarily be a known technology disclosed to the general public prior to the filing of the present invention.

The present invention provides a method and apparatus for reducing electricity rates of a multi-family house that can maximize cost savings by introducing renewable energy into a multi-family house where the electricity rates are progressive.

In addition, the present invention is included in the apartment housing management cost to lower the overall management cost, and in the case of investors, the electric bill reduction method and apparatus for reducing the electric bill of the apartment house that can create a stable profit structure by dividing the profits from the profit with the generation of the apartment house To provide.

The technical problems other than the present invention can be easily understood from the following description.

According to an aspect of the present invention, the method comprises: receiving usage data of electricity supplied from a first power supply source from an electricity usage meter installed in each generation of a multi-family house; Determining whether the usage data exceeds reference data; And supplying electricity of a second power supply instead of the first power supply to the household to be supplied corresponding to the exceeded usage data when the usage data exceeds the reference data. Is provided.

Herein, the electricity of the first power source is electricity for which the electric charge is calculated, and the electricity of the second power source is generated by at least one of a solar power generation, wind power generation, tidal power generation, and wave power generation method to generate the electricity. It can be electricity that is not included in the calculation of the fee.

In addition, the reference data may be a progressive tax reference value set by a company that provides electricity of the first power supply.

In addition, the present embodiment may include the step of equally disbursing the difference of the electric charge saved by the electricity of the second power supply supplied to the household to be supplied to the entire household of the apartment house.

Here, the difference between the electric charges saved by the electricity of the second power supply source supplied to the household to be supplied may be divided and provided to a company that provides electricity of the common house and the second power supply at a preset ratio. have.

The supplying of electricity may include changing ownership of the second power supply to the name of the household to be supplied with electricity of the second power supply.

Here, the usage data may be usage data of any one day, one month, two months and three months of the supply target generation.

In addition, the present embodiment is the amount of sales data of the electricity usage data supplied from the first power supply source used in each generation of the apartment house, the sales of the electricity of the second power supply source to a company that provides electricity of the first power supply source Storing data; And outputting the stored usage data and sales data to an internet terminal.

In addition, the present embodiment may be used to charge the battery of the electric trailer that is attached to the electric bicycle or a bicycle to apply a driving force to the bicycle.

According to another aspect of the invention, the data receiving unit for receiving the usage data of the electricity supplied from the first power supply from the electricity usage meter installed in each generation of the apartment house; An excess determination unit determining whether the usage data exceeds reference data; And an alternative power supply unit supplying electricity of a second power supply source instead of the first power supply source to the supply target household corresponding to the exceeded usage data when the usage data exceeds the reference data. An apparatus is provided.

In addition, according to another aspect of the present invention, there is provided a recording medium for recording the program that can be read by the digital processing device, performing the above-described method of reducing the electric bill of a multi-family house.

Other aspects, features, and advantages will become apparent from the following drawings, claims, and detailed description of the invention.

The method and device for reducing the electric bill of a multi-family house according to the present invention can maximize the cost savings by introducing new renewable energy into the multi-unit housing that is a lot of electricity bills, it is added to the multi-family housing management cost, lowering the overall management cost, Investors can create a stable profit structure by dividing the proceeds from the profit with the generation of the apartment.

1 is a block diagram of a system for reducing electricity rates of a multi-family house according to an embodiment of the present invention.
2 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a first embodiment of the present invention.
3 is a flowchart of a method of reducing an electric charge of a multi-family house according to the first embodiment of the present invention.
Figure 4 is a current electricity tariff table for low-voltage residential power provided by the Korea Electric Power Corporation.
5 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a second embodiment of the present invention.
6 is a flowchart of a method of reducing an electric charge of a multi-family house according to a second embodiment of the present invention.
7 is a block diagram of a device for reducing an electric charge of a multi-family house according to a third embodiment of the present invention.
8 is a flowchart of a method of reducing an electric charge of a multi-family house according to a third embodiment of the present invention.
9 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a fourth embodiment of the present invention.
10 is a block diagram of a device for reducing an electric charge of a multi-family house according to a fifth embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

The term " part, "" module," " means, "or the like, which is described in the specification, refers to a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software .

In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and redundant explanations thereof will be omitted. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a block diagram of a system for reducing an electric charge of a multi-family house according to an exemplary embodiment of the present invention. Referring to FIG. 1, an apparatus 110 for reducing electricity costs, a network 120, a household electrical equipment 130, an electricity usage meter 140, a KEPCO electricity supplier 150, and a renewable energy source 160 are illustrated. .

The present embodiment proposes a method for efficiently controlling electricity use of a multi-family house to reduce electric bills. In detail, the present embodiment has a feature of lowering the progressive tax on power consumption basically provided by supplying renewable energy to a specific household when a lot of electricity is used in a specific household.

The multi-family house of the present embodiment is a building in which a plurality of households constitute a separate house, for example, an apartment, a multi-family house, a multi-family house, a villa, a multi-family building, a townhouse, a detached house, an officetel, a building, and the like. It means building that is not limited. Multi-family housing can be not only buildings that are physically classified as a single house, but also houses that are grouped into a group by policy. For example, one village as a whole can be the object of the electric bill reduction of the present invention as one apartment. In addition, a common house may include not only a house for living, but also a company's office, and may be a collection of a plurality of units that individually pay for electricity.

In addition, the present embodiment may be installed on the roof of buildings on the waterfront and the water of the Han River, buildings located on or next to general roads, bus stops with good sunlight or nearby buildings, and apartment buildings nearby. In this case, a business model may be conceived, such as profiting from charging and / or renting rechargeable batteries such as electric bicycles or electric trailers. Here, the electric trailer may be a device that applies a driving force to push it by connecting to a bicycle or a wheelchair with its own power source. In addition, the present embodiment has the advantage that can be used in an environment equipped with environmentally friendly means such as bicycle infrastructure in developed countries, but not public transportation using fossil fuel.

The electricity rate reduction device 110 measures the electricity usage of the KEPCO electricity supply source 150 provided to the apartment house for each generation, and when the electricity consumption of a specific household becomes large enough to progress, the electricity generation of the household is cut off, and renewable energy. By supplying the electricity of the supply source 160 to the household, as a result, the electricity from the KEPCO electricity supply 150 is not progressive. In this case, the profit generated from the progressive tax may be distributed to each household of the apartment house according to a predetermined method.

Here, the KEPCO electricity source 150 may be referred to as a first electricity source, and the renewable energy source 160 may be referred to as a second electricity source.

The electricity from the first power source is generally the electricity of a company that supplies electricity to households, which can be electricity that is progressively taxed on the electricity bill. In addition, the electricity of the second power source may be electricity generated by any one or more of the solar power generation, wind power generation, tidal power generation, and wave power generation to be included in the calculation of the electricity bill.

The second power source can be installed directly in the apartment house to provide electricity for each household of the apartment house. In addition, according to another embodiment, the second power supply source is installed in a third position, and may supply electricity to a plurality of different common houses.

The household electrical installation 130 is an electrical system installed in each household of the apartment house, and receives electricity from the first or second power supply source to normally operate the electrical appliances of each household.

The electricity usage meter 140 measures the electricity usage of each generation, and the electricity usage measured may be the electricity usage provided from the first or second power supply. The electricity usage meter 140 may be an electricity meter and measure electricity usage in a digital or analog manner.

Electricity bill saving device 110 receives the electricity usage of each generation from the electricity usage meter 140, the generation of using a large amount of electricity to apply the progressive tax is compared with the received electricity usage to the standard usage to apply the progressive tax Provides electricity to the above-described second power supply.

The network 120 is a medium or a device connected to the above-described electricity rate reduction device 110, the household electric equipment 130, and the electricity usage meter 140 so as to communicate by wire or wirelessly, for example, the Internet or an intranet. And so on.

2 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a first embodiment of the present invention. Referring to FIG. 2, the electric charge saving device 110 includes a data receiver 111, an excess determination unit 112, an alternative power supply unit 113, a data storage unit 114, a data output unit 115, and a controller. 116 may include. The electric charge reduction device 110 may be installed at a specific place in a common house. Hereinafter, the electric charge reduction device 110 will be described based on a case where the electric charge reduction device 110 is installed at a management office of a common house.

The data receiver 111 receives usage data of electricity supplied from the first power supply source from the electricity usage meter 140 installed in each generation of the apartment house.

The data receiver 111 may receive data from the electricity usage meter 140 of the household subscribed to the common house in real time or at a predetermined cycle. The electricity usage meter 140 may output the usage data of electricity supplied from the first power supply to a serial port, etc. In this case, the data may be transmitted to the data receiver 111 through a wireless or wired network.

If the electricity usage meter 140 is not a digital device but an analog device, the present embodiment measures an electricity usage data by installing an image recognition device, for example, a CCTV, on the front of the electricity usage meter 140. When the data is transmitted to the data receiving unit 111, the data receiving unit 111 may receive electricity usage data in real time by extracting data by recognizing the corresponding image.

In addition, the serial data of the electricity usage meter 140 may be converted through a converter (serial to LAN converter) for converting serial data into LAN data and transmitted to a wired or wireless LAN. In this case, the data receiving unit 111 may be connected to a LAN. You can connect to and receive the data.

The excess determination unit 112 determines whether the usage data exceeds the reference data. Here, the reference data may be a progressive tax reference value to which the progressive tax is applied. Here, the usage data compared with the reference data may be usage data of any one day, one month, two months and three months of the supply target generation.

Referring to Figure 4, the current electricity tariff of the residential power (low pressure) provided by the Korea Electric Power Corporation is shown. The progressive tax is set for every 100 kWh, and each data that is a standard of the rate change in the table, for example, 100 kWh, 200 kWh, 300 kWh, 400 kWh, 400 kWh, 500 kWh may be the reference data of the present embodiment. In this case, the reference data of the present embodiment may be several.

When the usage data exceeds the reference data, the alternative power supply 113 supplies electricity of the second power supply instead of the first power supply to the generation to be supplied corresponding to the excess usage data.

In this case, as the value of the reference data increases, the power amount fee per unit also increases, so the generation having the largest usage data may be the generation to be supplied. Also in this case, the usage data may be greater than any one or more values among the plurality of reference data.

In addition, according to another embodiment, the alternative power supply unit 113 selects any particular generation of the plurality of households belonging to the apartment house when the usage data does not exceed the reference data, and the first power supply source to the corresponding household to be supplied. Instead it supplies electricity from a second power source. In this case, since all households are incurring electric charges in the same unit, any household may be selected as the household to be supplied.

According to another exemplary embodiment, the alternative power supply unit 113 may refer to the existing electricity usage data when the usage data does not exceed the reference data, and accumulate the current usage up to the present, and last one month / 2 months / 3 months / 6 months of usage. The generation that uses the most electricity can be selected as the source to be supplied, based on the amount of electricity used in the last month of the measurement month. In this case, the progressive tax has not been applied so far, but by providing the electricity of the second power supply in advance to the generation most likely to receive the progressive tax as the period of use increases, it is possible to prepare for the reduction of the electricity bill in advance.

The household to be supplied can be changed automatically or manually. In the case of automatic change, the generation subject to supply can be selected based on the processing of various data as described above. In the case of manual change, an administrator can select a specific generation as a supply target by referring to various situations as well as the above-described data.

The data storage unit 114 is used data of electricity supplied from the first power source used in each generation of the apartment house, used data of electricity supplied from the second power source used in each generation of the apartment house, second power source Data necessary for the performance of the present embodiment, such as sales volume data, in which electricity from a source of electricity is sold to a company providing electricity of a first power source, is stored.

The data output unit 115 may be a device or software necessary for outputting usage data and sales volume data stored in the data storage unit 114. In this case, the data may be a predetermined terminal, for example, a terminal connected to the Internet. Output

Here, the terminal is a terminal that is connected to the Internet and can request and output the data stored in the data storage unit 114, for example, a smartphone, a mobile communication terminal, a PDA (Personal Digital Assistant), a general purpose PC (Personal Computer) ), A notebook PC, a tablet PC, and the like.

As described above, since the serial data of the electricity usage meter 140 may be converted into LAN data and transmitted to the wired or wireless LAN, and the data stored in the data storage unit 114 may also be transmitted to the wired or wireless LAN, The data can be viewed on the Internet. That is, the manager of the apartment house, each household member, the investor of the device according to the present embodiment, and the manager of the device according to the present embodiment can view the corresponding data and various result values calculated by applying the same through the wired or wireless LAN. .

The control unit 116 has its own unique function while the data receiving unit 111, the excess determining unit 112, the alternative power supply unit 113, the data storage unit 114, and the data output unit 115 are interoperable with each other. Control each functional unit to perform.

3 is a flowchart of a method of reducing an electric charge of a multi-family house according to a first embodiment of the present invention. Each step to be described below may be performed by the electricity bill reduction device 110 of the above-mentioned apartment house as the main subject. The processes described in each step are not necessarily performed in a time-series order, and even if the execution order of each step is changed, the process may be included in the scope of the present invention if the gist of the present invention is met.

In step S310, the usage data of electricity supplied from the first power supply source is received as serial data or LAN data from the electricity usage meter installed in each generation of the apartment house.

In step S320, it is determined whether the usage data exceeds the reference data. Here, the reference data may be previously stored in the data storage unit 114, and may be a plurality of values as described above.

In step S330, when the usage data exceeds the reference data, electricity of the second power supply source is supplied to the generation to be supplied corresponding to the exceeded usage data instead of the first power supply source. Switches and control devices for supplying electricity of the second power source to each generation instead of the electricity of the first power source are obvious to those of ordinary skill in the art, and detailed descriptions thereof will be omitted. do.

In step S340, as described above, the data storage unit 114 uses data of electricity supplied from the first or second power supply source used in each generation of the apartment house, and converts electricity from the second power supply source to the first power supply source. Data necessary for the performance of the present embodiment, such as sales data sold to a company that provides electricity, is stored. Here, the sales volume data is, for example, the amount of electricity sold by KEPCO when it purchases renewable energy for the apartment house for a fee, and the proceeds are the generations of the apartment house, the investor, It can be distributed to the installer of the apparatus according to the present embodiment.

In operation S350, the usage data and sales data stored in the data storage unit 114 are output to the Internet terminal.

5 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a second exemplary embodiment of the present invention. Referring to FIG. 5, the electric charge reduction device 110 includes a data receiver 111, an excess determination unit 112, an alternative power supply unit 113, a data storage unit 114, a data output unit 115, and a controller. 116, the revenue settlement unit 117 may be included. Hereinafter, the differences from the above-described embodiment will be mainly described.

The present embodiment is characterized by actively incentivizing to distribute and install the electricity bill reduction device 110 by distributing the profits generated while supplying alternative power in various ways. That is, the present embodiment has a feature that allows various investors, installers, etc. to utilize this embodiment in sales by providing an apparatus for reducing electricity bills and presenting a sales method for distributing the profits generated thereby. .

The revenue settlement unit 117 may vary the settlement standard according to the subject receiving the revenue. First, the revenue settlement unit 117 may equally pay the difference of the electric charges saved by the electricity of the second power supply source supplied to the household to be supplied to the entire household of the apartment house. Here, the difference of the reduced electric charge is the difference of the electric charge actually charged by the electricity of the first power supply from the electric charge when only the electricity of the first power supply is supplied.

In addition, the revenue settlement unit 117 divides the difference in the electric charges saved by the electricity of the second power supply supplied to the household to be supplied to the apartment house and the company that provides electricity of the second power supply at a predetermined rate. can do. In this case, each household of a multi-family house may share its profits according to the allocated proportions by an equal or preset ratio. In addition, a company that provides electricity of the second power source may install the second power source in the apartment house for free or at a low cost on condition that the future revenue is paid.

A company that provides electricity for a second power source can set various ways of distributing revenue as follows. First, in the case of purchasing the electricity rate reduction system according to the present embodiment in a common house, such as a common property, a company that provides electricity of a second power source sells the system to the common house and profits from the installation cost and the margin of product sales. Can be taken as

In addition, when the system of the present embodiment is not purchased in a multi-family house, a company providing electricity of the second power supply may receive a profit for a predetermined period after installing the corresponding system first. In this case, the apartment house and the like shall share half of the proceeds or a predetermined contracted rate with each other for a contracted period of time, for example, two to ten years, and after the contracted period, the name of ownership of the system will be applied. It can be changed in the name of the apartment house. In this case, after the contracted period, it can be taken to the 100% profit structure in apartments.

In addition, if the system is not purchased in a multi-family house, it can be installed first with the funds of an investor, such as a bank, and then the profit can be distributed for a certain period of time. In this case, the investor, the apartment house and the installer shall share a predetermined percentage of the contract with each other for a contracted period of time, for example, between two and ten years, and after the contracted period, the name of the ownership of the system is shared. It can be changed in the name of. In this case, after the contracted period, it can be taken to the 100% profit structure in apartments.

In addition, various ways of revenue distribution may be applied to the present invention.

In addition, as described above, since the data stored in the data storage unit 114 may be transmitted to a wired or wireless LAN, the data and various result values calculated by applying the same may be viewed by various beneficiaries. For example, each household or all households in a particular apartment house, electricity bills, total revenues, electricity bills that would be incurred if the total used electricity was provided only from the first power source, and the second power source supplied to the household to be supplied. Various accounting results, such as the difference in the electricity rate saved by the electricity of the company, the return on investment of a particular cycle, etc. can be calculated and output through the Internet every specific cycle.

The manager of the multi-family house, the members of each household, the investor of the device according to the present embodiment, the manager of the device according to the present embodiment, etc., report the result and monitor the current progress, the payback period, the current profit, and the future forecast. Can be calculated.

6 is a flowchart of a method of reducing an electric charge of a multi-family house according to a second embodiment of the present invention. Each step to be described below may be performed by the electricity bill reduction device 110 of the above-mentioned apartment house as the main subject.

In step S310, after receiving the usage data of the electricity supplied from the first power supply source from the electricity usage meter installed in each generation of the apartment house, and in step S320, after determining whether the usage data exceeds the reference data, in step S330 When the data exceeds the reference data, electricity of the second power supply is supplied to the generation to be supplied corresponding to the exceeded usage data instead of the first power supply.

In step S360, the electric charge of the first power supply source is calculated based on the total electricity usage. In other words, it is calculated that the electric charge to be generated assuming that the amount of electricity used in each household of the apartment house is supplied from the first power source. The electricity bill calculated here is the electricity bill to be charged for each household.

Each step to be described below is divided into different embodiments according to a method of distributing revenue.

In step S371, the difference between the electric charges saved by the electricity of the second power supply source supplied to the household to be supplied is equally paid to all households of the apartment house. For example, if the total households of the apartment house is 10 households, if the cost saved in one house is 100,000 won, this amount can be returned to each household by 10,000 won, which is the amount divided by 10. If three households saved electricity rates as described above, each household may receive back 30,000 won. In this case, the refunded amount may be returned in cash or deposited and deducted from the next electricity bill.

In the case of a refund of 30 million won, the details of electric charges are classified as follows according to the types of houses classified by KEPCO.

In the case of housing (low pressure), households using 250,080 won (662kW) for electricity will eventually pay electricity for 220,080 won, and households using 30,000 won (242kW) for electricity will eventually pay 20 won. do.

In the case of households (high pressure), households who used 200,940 won (662 kW) as an electricity bill eventually paid electricity for 170,940 won, and households who used 24,700 won (242 kW) as an electricity bill as a result, 5,300 won. Get back

In step S372, the difference between the electric charges saved by the electricity of the second power supply source supplied to the household to be supplied is divided and paid to the company providing the electricity of the apartment house and the second power supply at a predetermined rate.

In step S373, the difference of the electric charge saved by the electricity of the second power supply source supplied to the household to be supplied is divided and paid to the apartment house, the investor and the company of the second power supply source at a predetermined rate.

7 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a third exemplary embodiment of the present invention. Referring to FIG. 7, the electric charge saving device 110 includes a data receiver 111, an excess determination unit 112, an alternative power supply unit 113, a data storage unit 114, a data output unit 115, and a controller. 116, the name change unit 118 may be included. Hereinafter, the differences from the above-described embodiment will be mainly described.

This embodiment has the feature of changing the name of each device included in the electricity bill reduction system to the name of the household using the actual electricity to facilitate the installation and application of the system.

When the name change unit 118 recognizes the renewable energy generation system (electricity rate reduction system) as a part of the house, the name may be changed to the corresponding household when it is applied to a specific household. The point of time of the name change may be a system that can be performed once every predetermined time such as 1 hour, daily, weekly, monthly, or when a name change is necessary, it may be possible 24 hours 365 days.

In order to efficiently manage electricity in the cost structure of the entire apartment, the name change can be automatically made whenever necessary, and the new renewable energy generation system is applied to the second power supply source before or after approval of the change of name. We are going to be connected with generation becoming priority. According to this method, it is possible to maximize the cost savings of power usage by operating the system in accordance with the law that maximizes the cost saving effect.

In addition, according to another embodiment, the owner of the renewable energy generation system may be an entire household (co-owned), residents' council, management office, and the like. In this case, there is an advantage that does not have to change the name of the system each time the transfer of electricity is performed.

8 is a flowchart of a method of reducing an electric charge of a multi-family house according to a third embodiment of the present invention. Each step to be described below may be performed by the electricity bill reduction device 110 of the above-mentioned apartment house as the main subject.

In step S310, after receiving the usage data of the electricity supplied from the first power supply source from the electricity usage meter installed in each generation of the apartment house, and in step S320, after determining whether the usage data exceeds the reference data, in step S330 When the data exceeds the reference data, electricity of the second power supply is supplied to the generation to be supplied corresponding to the exceeded usage data instead of the first power supply.

In step S380, the name change unit 118 changes the ownership of the second power supply source to the name of the household to be supplied to which the electricity of the second power supply is supplied. This change of name may be required by law if the renewable energy generation system is recognized as part of the housing.

In the above description, a block diagram and a flowchart of a method and apparatus for lowering an electric bill of a multi-family house have been described. . Hereinafter, each embodiment will be described in turn, and the present invention is not limited thereto.

9 is a block diagram of an apparatus for reducing an electric charge of a multi-family house according to a fourth embodiment of the present invention. 9, a renewable energy source 910, a reverse current prevention diode 920, an inverter 921, an AVR 922, a power meter 923, an inverter 931, an AVR 932, and self power generation. Usage meter 933, each generation 934, generation-specific purchased electricity meter 935, KEPCO 936, isolator 937, power consumption collection and progress tax calculation unit 938, power supply board 939, control unit ( 940, storage 941, network 942, reverse current protection diode 950, battery charging system 951, battery 952, inverter 953, AVR 954, UPS 955 shown do.

Electricity of the renewable energy source 910 generated by at least one of solar power generation, wind power generation, tidal power generation and wave power generation is supplied through three paths through reverse current prevention diodes 920 and 950, respectively.

First, electricity of the renewable energy supply source 910 is transferred to an automatic voltage regulator (AVR) 932 via an inverter 921 for converting DC into AC, and after the amount of power is calculated by the amount of electricity meter 923. It is sold to a third company, for example, KEPCO 936.

Further, according to another route, electricity of the renewable energy source 910 is calculated via the inverter 931 and the AVR 932, and calculates the electricity consumption of the renewable energy source 910 in the self-power generation meter 933. The electricity is supplied to the electric system of each generation 934 through the power supply board 939 and the isolator 937 under the control of the controller 940. Here, the control unit 940 may be a CPU, MPU, etc., the isolator 937 may be provided to mitigate the shock when the current of the KEPCO 936 to cut off and supply electricity from the renewable energy supply source 910. .

Generation electricity consumption meter 935 calculates the electricity consumption of the KEPCO 936 to be purchased in each generation (934). In this case, the purchase power amount for each generation is transmitted to the control unit 940, and the control unit 940 compares the received generation power amount for each generation with the calculated progressive tax or reference data to supply electricity of the renewable energy supply source 910 to a specific generation. Decide whether or not to do so.

The power consumption collection and progressive tax calculation unit 938 calculates the progressive tax based on a preset criterion based on the power consumption purchased in each generation 934. In this case, the generation-specific purchased electricity meter 935 may be implemented as a digital electricity meter in order to calculate which generation is most applied. The power consumption collection and progress tax calculation unit 938 performs power consumption collection and progress tax calculation once or twice a day, before sunset or after sunset, thereby maximizing the progress tax saving efficiency.

As described above, the storage unit 941 stores data necessary for calculating electricity use and progressive tax. The network 942 may be a wired or wireless internet for delivering necessary data to a web server.

In addition, according to another path, the electricity of the renewable energy source 910 is stored in the battery 952 by a battery charging system 951 that charges multiple batteries after passing through the reverse current prevention diode 950. . Here, the battery charging system 951 includes a plurality of battery controllers that are individually coupled to each individual battery included in a plurality of individually replaceable batteries to control charging and discharging of the individual batteries, and the individual batteries from the battery controller. A main controller for individually controlling the plurality of battery controllers to receive the state information of and to control the charging and discharging of the individual batteries coupled to the plurality of battery controllers according to the respective state information; A display unit for outputting state information of the individual batteries, an individual voltage sensor which is coupled to the individual batteries individually to measure the voltage of the individual batteries, and transmits the measured voltage data to the battery controller, and the individual batteries Individually coupled to A temperature sensor which measures the temperature of the individual battery and transmits the measured temperature data to the battery controller, a heater that can control the temperature of the individual battery, and is wirelessly connected to the main controller, It may include a remote controller for controlling the magnitude of the reference voltage to be compared or the reference value to which the temperature data is compared, changing the magnitude of the reference total voltage, and remotely controlling the main controller to display the individual battery capacity and status. . Here, the main controller controls the battery controller coupled to the respective battery so as to stop the charging and discharging function of the individual battery individually indicating that the status information is defective, and the battery controller is based on the transferred voltage data. When the voltage is smaller than the voltage, the individual battery is charged. When the transmitted temperature data is smaller than the reference lower limit value, the battery controller operates the heater to increase the temperature of the individual battery to prevent the output efficiency from dropping. In the case of going up to the ventilating or ventilating by using a fan or the like to improve the charging efficiency, the main controller sets the reference voltage and the reference value differently according to the individual battery, the main controller is measured from the plurality of batteries Being full When the voltage is less than the reference total voltage, the battery controller is controlled to discharge only the individual battery having good state of charge (SOC) information included in the state information, a battery low message is output, and the state information indicates a failure. The individual batteries are individually replaceable, and when charging the individual battery, the charging mode is a slow charging mode when the voltage of the individual battery is less than the minimum constant voltage, the voltage of the individual battery is above the minimum constant voltage and less than the full voltage In the case of the fast charging mode, when the voltage of the individual battery is more than the full voltage may be divided into a slow charging mode.

The stored electricity is then transferred to an uninterruptible power supply (UPS) 955 that can be used at a particular location via inverter 953 and AVR 954.

In the above description, when only a specific inverter 931 is used, electricity is supplied to each generation, and when only another inverter 921 is used, electricity is sold.

According to the system described above, when the most progressive households are charged with unpaid electricity, they can effectively reduce the cost of electricity by reducing the use of each home or public transport, and participate in profitable businesses such as rental and management. It is possible to increase opportunities, create jobs, contribute to national health projects, and greatly reduce the recent problem of medical expenses, and by reducing the use of fossil fuels, the obligation of carbon credits will soon be realized through the implementation of the Post Kyoto Convention. By reducing these carbon emissions, it is possible to take advantage of the high ground in terms of carbon credits nationally.

The present invention has the effect that the entire household divides the cost of reducing the progressive tax to buy as a joint management expenses assets in apartments, villas and the like. In addition, in the case of using photovoltaic power generation in the rice fields or mountainous region, it is also possible to share the proceeds between the investors by investing to apply the present invention. In this case, the co-investors can transparently divide the proceeds by making the current situation or dividends available at any time through the Internet. For example, based on rice paddy fields, annual sales are about 2,500 won per pyeong, and net profit is about 1,500 won. However, if the solar panel is installed, the annual sales per one pyeong is 400 won per kw, and the sales are about 220,000 won (assuming an inverter loss rate of 10%). In other words, it may be beneficial to install solar panels rather than farming to sell electricity. In addition, by using the sea level power plant (tidal power, wind power, solar power, wave power, etc.) of the island region, it is possible to divide the proceeds by reducing the progressive tax rate portion and efficiently distributing the reduced cost as described above. If you use solar power, you can save energy by returning the boat itself with little friction without turning the panel to face the sun.

In addition, the profitability is higher in areas such as the Han River and the water surface, considering the battery charging and rental revenues of electric bicycles and electric bicycle trailers using eco-friendly energy.

Referring to FIG. 10, the generation electricity consumption meter 935 calculates the electricity usage of the KEPCO 936 purchased in each generation 934, and then skips the process of transferring the generation electricity generation power to the control unit 940. have. In this case, the purchase amount of electricity for each generation may be obtained by subtracting the power consumption of the renewable energy supply source 910 from the total amount of power used.

The present invention can effectively reduce the electricity bill by allocating the power using the SSR according to the result of calculating the progressive tax rate through the purchase / purchase record for each household.

Further, according to another embodiment, the renewable energy source 910 electricity of the present invention may be provided to an electric bicycle, an electric trailer or a charger of an electric vehicle. For example, if an apartment or a third place is equipped with a charger for an electric bicycle, an electric trailer or an electric vehicle, the residents or third parties of the apartment house are inexpensive by supplying electricity from the renewable energy source 910 to the charger. Can charge the device.

In this case, the battery of the electric bicycle or the electric trailer may be provided to the user of the electric bicycle or the electric trailer after being charged in a specific structure such as an apartment house, a commercial building, a bus terminal. For example, solar panels can be added to the roofs of facilities such as the Han Riverside, water structures, and restaurant boats on the Han River. Thus, electricity may be provided to the electric bicycle or the electric trailer. Further, according to another embodiment, the electric bicycle or the electric trailer itself may also be rented and sold to the user after being charged by the renewable energy as described above.

In addition, the detailed system configuration of the electric bill reduction device of a multi-family house according to an embodiment of the present invention, common platform technology such as embedded system, O / S, communication protocol, interface standardization technology such as I / O interface, actuator, battery Details of parts standardization technology, such as a camera and a sensor, will be omitted since it is obvious to those skilled in the art.

The method of reducing the electric charge of a multi-family house according to the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. That is, the recording medium may be a computer-readable recording medium having recorded thereon a program for causing a computer to execute the steps described above.

The computer readable medium may include a program command, a data file, a data structure, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as a hard disk, a floppy disk and a magnetic tape, optical recording media such as CD-ROM and DVD, magnetic recording media such as a floppy disk Optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like.

The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention.

In addition, each of the above-described components may be embodied as one physically adjacent component or may be implemented as a different component. In the latter case, each component can be controlled to be located adjacent to or in a different zone. In this case, the present invention can include a separate control means or control room for controlling each component to control each component in a wired or wireless manner You may.

In the above description, the respective components and / or functions described in the embodiments may be combined and combined, and those skilled in the art will understand that the present invention It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

110: electrical charge reduction device 111: data receiving unit
112: excess determination unit 113: alternative power supply unit
114: data storage unit 115: data output unit
116: control unit 117: revenue settlement unit
118: name change unit 120: network
130: household electrical equipment 140: electricity usage meter
150: KEPCO electricity source 160: renewable energy supply source

Claims (11)

In the method which the electric charge reduction apparatus of the apartment house performs,
Receiving usage data of electricity supplied from a first power supply from an electricity usage meter installed in each generation of the apartment house;
Determining whether the usage data exceeds reference data; And
And supplying electricity of a second power supply instead of the first power supply to the household to be supplied corresponding to the exceeded usage data when the usage data exceeds the reference data.
The method according to claim 1,
The electricity of the first power supply is electricity for which the electricity bill is calculated, and the electricity of the second power supply is generated by at least one of a solar power generation, wind power generation, tidal power generation, and wave power generation method to generate electricity. A method of reducing electricity bills for a multi-family house, which is electricity that is not included in the calculation.
The method according to claim 1,
And the reference data is a progressive tax reference value set by a company that provides electricity of the first power supply source.
The method according to claim 1,
And equally disbursing the difference in the electric charges saved by the electricity of the second power supply supplied to the household to be supplied to the entire households of the apartment house.
The method according to claim 1,
And dividing the difference in the electric charges saved by the electricity of the second power supply supplied to the household to be supplied to the apartment house and the company that provides electricity of the second power supply at a preset rate. How to reduce electricity bills in apartment houses.
The method according to claim 1,
The electricity supply step,
And changing ownership of the second power supply to the name of the household to be supplied with electricity of the second power supply.
The method according to claim 1,
The usage data is electricity usage reduction method of a multi-family house, characterized in that the usage data of any one day, one month, two months and three months of the supply target household.
The method according to claim 1,
Storing usage data of electricity supplied from a first power supply source used in each generation of the multi-family house, and sales volume data of selling electricity of the second power supply source to a company providing electricity of the first power supply source; And
And outputting the stored usage data and sales data to an internet terminal.
The method according to claim 1,
And the second power supply is used to charge a battery of an electric trailer attached to an electric bicycle or a bicycle to apply a driving force to the bicycle.
A data receiving unit receiving usage data of electricity supplied from a first power supply source from an electricity usage meter installed in each generation of the apartment house;
An excess determination unit determining whether the usage data exceeds reference data; And
When the usage data exceeds the reference data electricity rate reduction device of a multi-family house including an alternative power supply for supplying electricity of a second power supply source instead of the first power supply to the supply target household corresponding to the excess usage data .
A recording medium which records a program which can be read by a digital processing apparatus, which performs the method of reducing the electric bill of a multi-family house according to any one of claims 1 to 9.

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