KR101013832B1 - Energy-saving experience system through standby power interception - Google Patents

Energy-saving experience system through standby power interception Download PDF

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Publication number
KR101013832B1
KR101013832B1 KR1020080065427A KR20080065427A KR101013832B1 KR 101013832 B1 KR101013832 B1 KR 101013832B1 KR 1020080065427 A KR1020080065427 A KR 1020080065427A KR 20080065427 A KR20080065427 A KR 20080065427A KR 101013832 B1 KR101013832 B1 KR 101013832B1
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South Korea
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standby power
individual
unit
energy
control device
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KR1020080065427A
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Korean (ko)
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KR20100005406A (en
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이정수
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주식회사 잉카솔루션
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    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
    • G06Q50/06Electricity, gas or water supply

Abstract

The present invention relates to an energy saving experience system through standby power cutoff, and in particular, a power supply unit, an interface unit, a switching unit, an input / output terminal unit, an individual load detector, a sensor, a microprocessor, and an individual drive signal output unit. And a power saving system using a standby power control device including a monitoring and management unit, wherein an individual computer, peripheral devices and electronic devices connected thereto are connected, and each individual computer is connected through a wired or wireless communication line to control the individual according to a user's control. A separate standby power control device for controlling a power supply of a computer, peripheral devices, and electronic devices, and storing individual log files including a power consumption amount and a standby power saving amount; The main computer and the plurality of individual standby power control devices are connected in series or in parallel in a group unit, and the main computer and the individual computer to perform bidirectional communication through the wired and wireless communication lines with the individual standby power control device through the individual computer. Is connected to a local area network to control the power supply of the main computer and each of the individual standby power controllers or the individual standby power controllers for each group under the control of the administrator, and the individual log files from the individual standby power controllers. A unit standby power control device for receiving and converting the unit log file into a unit log file; The individual log file and the unit log file are received and managed in a database, and the power is saved using the individual log file or the unit log file according to a request of a member having the individual standby power control device or the unit standby power control device. A web server for providing data to a user; And a my page displaying power consumption, standby power saving amount, and carbon dioxide reduction amount to each member based on the individual log file or unit log file of the member of the web server in association with the database of the web server. And a community server providing a cyber energy tree corresponding to the standby power saving amount of each member on the my page.
According to the present invention as described above, the standby power is automatically cut off from the individual computer or the whole computer connected to the individual computer or the local area network in the environment such as home or office, and the power consumption and standby power saving amount can be easily Being able to verify can prove the effectiveness of the actual use, and can generate lasting interest.
Standby, Sleep, Auto, Shutdown, Network

Description

Energy-saving experience system by blocking standby power {ENERGY-SAVING EXPERIENCE SYSTEM THROUGH STANDBY POWER INTERCEPTION}

The present invention relates to an energy-saving experience system through standby power cutoff, and more particularly, standby power is automatically generated from individual computers or entire computers connected to a local area network or an individual computer in an environment such as a home, school, or office. The present invention relates to an energy-saving experience system that cuts off standby power and makes it easy to check the power consumption and standby power savings.

In terms of energy conservation and environmental protection, the development and dissemination of power-saving electrical appliances is not the story of yesterday. The Republic of Korea is also beginning to use power-saving electronic fluorescent lamps using power semiconductors in the early 1990s, making breakthrough electrical savings in the lighting sector. In each country, in order to spread energy-saving products, the energy efficiency ratings of electrical appliances are divided into 1 to 5 grades.

One of the most important factors in determining the energy efficiency class is standby power.

As an example of standby power, a TV with a remote control, so-called preheater, allows the screen to appear immediately or consume remote control power, so even if it is switched off, electricity is consumed unless it is unplugged. .

According to a survey, standby power consumption is 11% of Korea's household power consumption, which can save 33,000 won per household per year and 500 billion won nationwide. In addition, in OECD countries, 10-15% of the average household power consumption is consumed as standby power every year, so standby power is already a major culprit in the world.

Since the California power crisis in 2001, standby power has been described by the US media as a 'power vampire', and the US government has exempted the Presidential Decree from excluding government procurement of products that do not comply with one watt of standby power. Announced.

The EU has established standby power standards through the Brussels Power Efficiency Code, and Japan is also developing standby power regulations and working with industry to accelerate standby power technology development.

Global warming refers to a phenomenon in which the average atmospheric temperature of the earth rises due to the greenhouse effect. Humankind has indiscriminately used fossil fuels such as coal and oil for 200 years since the Industrial Revolution.

Representative is electricity, and electricity burns fossil fuels such as petroleum and coal, and large amounts of greenhouse gases including carbon dioxide (CO 2 ) are released into the atmosphere. Greenhouse gases continue to accumulate in the atmosphere, accelerating global warming, and the global average temperature has risen by 0.6 ° C over the past hundred years.

On the other hand, global warming causes climate change and disasters, and global warming melts the glaciers in the Antarctic and Arctic, causing ocean temperatures and ocean currents to rise. Current anomalies can cause anomalies in the atmosphere and weather, and accelerated damage is expected to occur.

The United Nations Framework Convention on Climate Change (UNFCCC) was therefore adopted at the Rio Environmental Conference in Brazil in June 1992 to prevent climate change due to global warming. It has been in effect since 1994 and now 188 countries have joined the Convention and participate as Parties.

All Member States of the Climate Change Convention should establish and implement their own national strategies for reducing GHG emissions and disclose them, and prepare and submit national reports on national statistics and policy implementation on GHG emissions and removals to the Conference of the Parties. It is. In addition, Annex 1 countries (developed and economically implementing countries), composed of industrialized countries with historical responsibilities for climate change, have freed GHG emissions to 1990 levels by 2000.

In addition, the Kyoto Protocol, which requires mandatory greenhouse gas reductions, came into force on February 16, 2005, and it is urgent to prepare government and corporate measures. The entry into force of the Kyoto Protocol is also expected to boost the carbon market, along with tightening environmental regulations and strengthening trade barriers.

In addition, GHG reduction has a decisive effect on corporate management, which is achieved through carbon dioxide emission trading. Buying credits means that CO2 credits are around 7-8 euros per tonne in the EU, but are likely to soar over time since 2007, when the GHG reduction targets have to be met.

On the other hand, in the modern society, as the specifications of computers become higher and become multi-media, many peripheral devices are connected to and used in computers used in homes or offices. For example, it is common to connect a monitor, speaker, printer, scanner, PC camera, etc. to a single computer. In order to supply power to such computers and peripherals, a multi-outlet for a computer is widely used.

However, since such peripheral devices are used according to a user's needs only when the computer main body is in operation, there is a inconvenience in that the user must turn off the power of each device when the computer main body is not used. For example, if the computer is turned off but the main body is plugged into an outlet (hereinafter referred to as 'standby time'), or if the computer is turned on for a long time If not (hereinafter referred to as 'rest time'). The power wasted in the 'down time' is a serious problem because it is much larger than the power wasted in the standby time.

For the power saving during the standby time, a switch which can be operated manually is installed in the multi-outlet to control the power on / off, or the main body power is turned off by detecting the current of the power supplied to the main body from the computer outlet. It is known to cut off the power supplied to the peripheral devices when there is. For example, the 'power saving multi-outlet' known from Korean Utility Model Registration No. 20-218843 (registration date: January 19, 2001) detects the on / off state of the computer body through a current detection method. In the off state, the power supply to the peripheral device is cut off.

However, there is a problem in that there is no special provision for power saving during idle time, that is, when the user does not use the main body or a specific or entire peripheral device for a long time while the user turns on the computer main body.

In order to solve this problem, the 'standby power control device' known from Korean Patent Registration No. 10-0609498 (Registration Date: July 28, 2006) by the present applicant monitors the state of peripheral devices and the main body connected to the computer. By controlling the power of peripheral devices and the main body, the computer and one or more peripheral devices are turned on to save power wasted during idle time, such as meals, meetings, payments, and going out, and more than one peripheral device Even when you are using, you can save the power consumption of peripheral devices that you do not use while remaining on.

However, such a conventional standby power control device can not prove the actual use effect because it simply cuts off the standby power under the control of the user, and it is difficult to maintain continuous interest after the initial installation, and many people about the effect There is a limit to the need to provide an opportunity for recognition and widespread use.

In accordance with the above requirements, the present invention automatically cuts off standby power in individual computers and all computers connected to a local computer or a local area network in an environment such as a home or an office, and simultaneously consumes power and standby power. It is to provide an energy-saving experience system through the standby power cut-off that can prove the actual use effect by making it easy to check the back light.

In addition, the present invention provides an educational effect on efforts to reduce carbon dioxide that is not yet of interest to the general public, and how much electricity costs are actually saved, and how much electricity costs can be saved based on user usage patterns. Another purpose is to provide an energy-saving experience system through standby power cut-off that provides specific graphs and charts that can be calculated and identified at a glance.

In addition, the present invention can collect the power consumption and standby power savings measured in a plurality of computers to calculate the statistics for each period / hour / department / device to help efficient energy management, based on this can be used more specifically Another objective is to provide an energy saving experience system through standby power cutoff that generates and provides power saving efficiency analysis data so that more specific energy saving policies can be implemented.

In addition, the present invention by using the power consumption and standby power savings collected from each individual computer or the whole computer to generate energy-saving analysis data of the national scale on the Web, the energy saving campaign that can be promoted on the basis of this However, there are other objectives to provide energy-saving experience systems through standby power cut-off, where a number of policies can be derived so that power savings can be expected to outweigh recorded data.

In addition, the present invention provides a community site, provides an opportunity to participate in the voluntary energy saving movement by providing fun and participation and competition through energy trees and energy forests, avatars and various items living therein in the community sites. Another purpose is to provide an energy saving experience system through the standby power blocking.

Features of the present invention for achieving the above object,

In a power saving system using a standby power control device comprising a power supply unit, an interface unit, a switching unit, an input / output terminal unit, an individual load detection unit, a sensing sensor, a microprocessor, an individual drive signal output unit, and a monitoring and management unit. And an individual computer, peripheral devices and electronic devices connected thereto, are connected to the individual computer through a wired / wireless communication line to control power of the individual computer, peripheral devices and electronic devices according to a user's control, power consumption and standby power. An individual standby power control device for storing an individual log file including a power saving amount; The main computer and the plurality of individual standby power control devices are connected in series or in parallel in a group unit, and the main computer and the individual computer to perform bidirectional communication through the wired and wireless communication lines with the individual standby power control device through the individual computer. Is connected to a local area network to control the power supply of the main computer and each of the individual standby power controllers or the individual standby power controllers for each group under the control of the administrator, and the individual log files from the individual standby power controllers. A unit standby power control device for receiving and converting the unit log file into a unit log file; The individual log file and the unit log file are received and managed in a database, and the power is saved using the individual log file or the unit log file according to a request of a member having the individual standby power control device or the unit standby power control device. A web server for providing data to a user; And a my page displaying power consumption, standby power saving amount, and carbon dioxide reduction amount to each member based on the individual log file or unit log file of the member of the web server in association with the database of the web server. And a community server providing a cyber energy tree corresponding to the standby power saving amount of each member on the my page.

Here, the monitoring and management unit of the individual standby power control device power consumption input window that the user can input the power consumption of each device in the main body of the individual computer, and the power consumption and standby power of peripheral devices and electronic devices To the user.

Here, the monitoring and management unit of the individual standby power control device includes a table storing power consumption and standby power for each device or model of each device or each device in the main body of the individual computer, and each device or each device. Provides a search box that allows the user to search power consumption and standby power by device or device by product or model.

Here, the monitoring and management unit of the individual standby power control device includes a table storing power consumption and standby power for each device or model of each device or each device in the main body of the individual computer, the operating system of the individual computer The device driver information is read out and compared with the table to automatically set power consumption of each device and power consumption of each device.

Here, the monitoring and management unit of the individual standby power control device provides a plurality of icons in the form of a bar on the desktop of the individual computer so that a user can perform various commands with one click.

Here, the monitoring and management unit of the individual standby power control device calculates and displays the power consumption, standby power savings, carbon dioxide reduction and the number of savings based on the individual log files on the execution screen, In order to correspond, the size of cyber energy tree is varied and displayed at each growth stage.

Here, the monitoring and management unit of the individual standby power control device, after the growth of the cyber energy tree is added, the tree tree number is added and the size of the cyber energy tree is reset according to the carbon dioxide reduction amount again. Variable by growth stage.

Here, the monitoring and management unit of the individual standby power control device provides an input window for inputting the user's information, stores the user information input through the input window, and transmits the user information when requested to be transmitted from the outside do.

Here, the monitoring and management unit of the individual standby power control device provides a connection icon that allows the user to access the web server with one click on an execution screen.

Here, the monitoring and management unit of the individual standby power control device transmits the individual log file to the unit standby power control device in real time when an event occurs.

Here, the individual log file may include an event name indicating the corresponding event, an operation time, log information such as power consumption, standby power savings, and carbon dioxide reduction.

Here, the individual log files are accumulated on a daily basis.

Here, the monitoring and management unit of the unit standby power control device transmits a user information transmission command of the individual standby power control device through a network, and groups them based on the collected user information.

Here, the monitoring and management unit of the unit standby power control device receives the individual log file from the individual standby power control device and classifies it based on the grouping and stores it as the unit log file.

Here, the unit log file may include log information of the individual log file, an event name indicating a corresponding event for each group, an operation time, a power consumption, a standby power saving amount, and a carbon dioxide reduction amount.

Here, the unit log files are accumulated in units of one day.

Here, the monitoring and management unit of the unit standby power control device displays the operation status of the monitoring and management unit of the individual standby power control device on the screen of the main computer to enable monitoring.

Here, the monitoring and management unit of the unit standby power control device receives a command to control the operation state of the monitoring and management unit of the individual standby power control device from the administrator through a remote communication to perform this.

Here, the monitoring and management unit of the unit standby power control unit transmits a control command to the monitoring and management unit of the unit standby power control unit for each individual or group according to the administrator's selection to perform individual control or group control.

Here, the monitoring and management unit of the unit standby power control device calculates the power consumption, standby power saving amount, carbon dioxide reduction amount and the number of savings based on the unit log file transmitted from the unit standby power control device on the execution screen. Display it.

Here, the unit standby power control device further includes an electronic sign, and displays the power consumption, standby power saving amount, carbon dioxide reduction amount and the number of times of saving through the electronic sign.

Here, the monitoring and management unit of the unit standby power control device provides a connection icon that allows an administrator to access the web server with one click on an execution screen.

Here, the web server provides the initial screen with a login screen and an upload window for uploading the individual log file or unit log file when a user or an administrator clicks a connection icon to access a web page.

Here, the web server includes a collection module for collecting the individual log file or unit log file uploaded through the upload window; A power usage pattern input module for receiving a power usage pattern such as a product purchase price, a power rate, a device usage time, etc. from a user or an administrator; The power saving data is stored by classifying the individual log file or the unit log file collected by the collection module according to an item defined such as a member ID, and the power usage pattern input by the power usage pattern input module is classified and stored by member ID. Said database; And a power saving data processing module that calculates the data for each individual or group according to the power saving data stored in the database and provides a result according to a request of a user or an administrator.

Here, the database links the individual log file or the unit log file when the power saving data is stored.

In addition, the result is the average power consumption and consumption amount, average standby power savings and savings, average carbon dioxide reduction, average standby power compared to the average power consumption and daily consumption by day / month / year from the time of first use to the present time Provides at least one of a power saving ratio indicating the amount of power savings, the number of savings, and a period of time, and calculates the payback period of the product purchase price and the additional savings in the future through the pre-stored power usage patterns inputted from the power usage pattern input module. Provide this.

Here, the collection module of the web server notifies the member when duplicate individual log files or unit log files are collected, and reflects them to the power saving data.

Here, the community server may provide a selection window and a change window so that members belong to a group such as school, work, village, region, and country, and group the cyber energy trees of members in the group and display them as a cyber energy forest. .

       Here, the cyber energy forest is displayed on a world map that can be reduced and enlarged at a corresponding location designated by the group.

Here again, the corresponding location is based on an address or region.

Here, the community server applies various avatars and items in the cyber energy forest.

        The community server further displays at least one or more of a member's name, ID, nickname, power saving data list, and affiliation group.

        Here, the community server calculates the amount of carbon dioxide that the cyber energy tree of each member can absorb, and based on this, varies the item symbolizing global warming prevention step by step and displays it.

According to the present invention, the energy saving experience system through the standby power cutoff configured as described above, the standby power is automatically cut off from individual computers or whole computers connected to a local computer or a local area network in an environment such as a home or an office. At the same time, it is possible to easily check the power consumption and standby power savings, thereby demonstrating the actual use effect, and can cause continuous interest.

In addition, according to the present invention, it provides an educational effect on carbon dioxide reduction efforts that are not yet of interest to the public, and how much electricity costs are actually saved, and how much electricity costs can be saved based on user usage patterns. You can specify the power saving efforts of each individual by calculating and providing graphs and charts that can be identified at a glance.

In addition, according to the present invention by collecting the power consumption and standby power savings measured in a number of computers to calculate the statistics by period / time / department / device can help efficient energy management, based on this can be used more specifically Power saving efficiency analysis data can be generated and provided to implement more specific energy saving policies.

In addition, according to the present invention, by using the power consumption and the standby power saving amount collected from each individual computer or the whole computer to generate energy-efficient analysis data of the national scale on the Web, the energy saving campaign can be promoted based on this However, many policies can be derived, so power savings that exceed recorded data can be expected.

In addition, according to the present invention, voluntary energy saving by providing a community site, giving fun and inducing participation and competition through energy trees and energy forests, avatars living therein, various items, and global warming prevention items in community sites. You can have an opportunity to participate in the exercise.

Hereinafter, with reference to the accompanying drawings, the configuration of the energy saving experience system through the standby power blocking according to the present invention will be described in detail.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a schematic view showing the configuration of the energy saving experience system through the standby power cut-off according to the present invention, Figure 2 is a block showing the individual standby power control device of the configuration of the energy saving experience system through the standby power cutoff according to the present invention Figure 3 is a block diagram showing a unit standby power control device of the configuration of the energy saving experience system through the standby power blocking according to the present invention, Figure 3 is a energy saving experience system of the standby power blocking according to the present invention Figure 5 is a block diagram showing a web server in the configuration, Figure 5 is a diagram illustrating a power consumption input window of the energy saving experience system through the standby power cut-off according to the present invention, Figure 6 is the energy through the standby power cut-off according to the present invention FIG. 7 is a view illustrating a quick bar of the energy saving experience system, and FIG. 7 illustrates an energy saving experience system through standby power blocking according to the present invention. 8 is a diagram illustrating a row screen, and FIGS. 8 and 9 are diagrams illustrating individual log files of an energy saving experience system through standby power blocking according to the present invention, and FIG. 10 is energy through standby power blocking according to the present invention. FIG. 11 is a diagram illustrating power saving data provided by a web server of a saving experience system. FIG. 11 is a diagram illustrating an initial screen provided by a web server of an energy saving experience system through standby power blocking according to the present invention. FIG. 13 is a view illustrating an input window of a power usage pattern provided by a web server of an energy saving experience system according to the present invention, and FIGS. 13A to 13C illustrate an energy saving experience system through a standby power blocking according to the present invention. The following diagram illustrates the results provided by the web server.

1 to 13C, the energy saving experience system 100 through the standby power cut-off according to the present invention includes an individual standby power controller 110, a unit standby power controller 120, and a web server ( 130 and the community server 140.

As shown in FIG. 2, the individual standby power controller 110 includes a socket 101, a power supply 111, an interface 112, a switching 113, an input / output terminal 114, and an individual. The load detector 115, the sensing sensor 116, the microprocessor 117, the individual drive signal output unit 118, and the monitoring and management unit 119 are provided.

At this time, the power supply unit 111, the interface unit 112, the switching unit 113, the input / output terminal unit 114, the individual load detection unit 115, the detection sensor 116, the microprocessor 117, In addition, the individual drive signal output unit 118 has the same configuration as the 'standby power control device' known from the Republic of Korea Patent Registration No. 10-0609498 (registration date: July 28, 2006) and the duplicate description thereof will be omitted.

In addition, the individual standby power control device 110 may be used alone or grouped in the unit standby power control device 120 to be described below, such as an office, a school.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 checks whether the basic power management is the actual use of the main body 210 of the individual computer 200 and the use of peripheral devices as in the known contents. Outputs a signal to the microprocessor 117 through the interface unit 112 and provides various administrator setting menus for the user to control the system through the menu to the main body 210 of the individual computer 200 in the form of an application program. It is installed. In this case, the individual computer 200 may access the web server 130 through the Internet.

In particular, the monitoring and management unit 119 of the individual standby power control device 110, as shown in Figure 5, the power consumption of each device in the main body 210 of the individual computer 200, the monitor 220, Provides a power consumption input window for the user to input power consumption and standby power of peripheral devices such as printers and scanners, and electronic devices such as fans, refrigerators, and televisions, and includes individual power consumption and standby power savings. Save the log file.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 is a table that stores the power consumption and standby power by product or model of each device or each device in the main body 210 of the individual computer 200 ( And a search box (not shown) that allows a user to search power consumption and standby power of each device or each device by product or model of each device or each device. On the contrary, the monitoring and management unit 119 of the individual standby power control device 110 stores a table of power consumption and standby power of each device or each device in the main body 210 of the individual computer 200 or each device. (Not shown), the device driver information of the operating system of the individual computer 200 is read and compared with the table, and the power consumption of each device in the main body 210 of the individual computer 200 and the power consumption of each device are automatically adjusted. It can also be set. On the other hand, the power consumption is the sum of the power consumption of all the connected devices multiplied by one hour, the standby power saving amount is the sum of the power consumption of the peripheral devices disconnected from the total power consumption by one hour.

In addition, the monitoring and management unit 119 of the individual standby power control device 110, as shown in FIG. 6, a plurality of icons on the desktop of the individual computer 200 so that a user can perform various commands with one click. It provides this sorted bar quickbar.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 calculates the power consumption, standby power saving amount, carbon dioxide reduction amount and the number of savings based on the individual log files on the execution screen as shown in FIG. This is displayed, and the size of the cyber energy tree is varied according to the growth stage so as to correspond to the amount of carbon dioxide reduction. Here, when the growth of the cyber energy tree is terminated, the monitoring and management unit 119 of the individual standby power control device 110 adds the tree number of trees and then initializes the size of the cyber energy tree to recreate the cyber energy tree according to the carbon dioxide reduction amount. Vary the size of the growth step by step. At this time, the cyber energy tree is preferably produced in 3D, 2D, flash animation, live-action, etc. to implement in detail. On the other hand, when explaining the concept of cyber energy tree, when producing 1kWh of electricity, about 0.424kg of carbon dioxide (CO2) is generated. Since it absorbs about 10kg of carbon dioxide (CO2) a year, saving 20 kWh of electricity introduces the same concept as planting a tree, and saving 20 kWh of electricity means that a cyber energy tree has grown. . Thus, the cyber energy tree of the present invention is variable in growth in one step every 0.8 kWh, divided into a total of 25 steps (20 kWh).

Meanwhile, the monitoring and management unit 119 of the individual standby power control device 110 provides an input window (not shown) for inputting user information, stores user information input through the input window, and user information from the outside. If a transfer is requested, send it.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 provides a connection icon that allows the user to access the web server 130 by one click on the execution screen.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 transmits the individual log files to the unit standby power control device 120, which will be described later, in real time through a local area network (LAN) when events occur. . Here, the individual log files include the measurement date, version information, user account, hard number, event name, operation time, power consumption, standby power saving amount, and carbon dioxide reduction amount indicating the corresponding event as shown in FIG. 8. Includes log information such as, and accumulates on a daily basis. FIG. 9 is a summary of FIG. 8. Referring to FIG. 8 in more detail, ∫: Starting separator of the day log, Normal: General distribution version, (Bulk purchasing group code grant part), 00173122ff40: HDD serial number of the installed PC, inca: Computer user account, 2006-07- 20: Measurement date, 80 ‡ 10 ‡ 45 ‡ 5 ‡ 0 ‡ 0 ‡ 3 ‡ 2 ‡ 0 ‡ 0 ‡ 0 ‡ 0 ‡ 0 ‡ 0: Consumption / standby power W units of the main body and peripherals (main unit consumption / standby, monitor Consumption / Standby, Printer, Scanner, Speaker Consumption / Standby, Fan Consumption / Standby, Electric Heater Consumption / Standby, Other Consumption / Standby), c: Starting separator of the second line, 00: 10 ‡ 00: 20 ‡ 01: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00: Timer setting (Monitor, Peripheral, Normal, Forced, Safe, Select, Return, Standby) Sequence, 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00 ‡ 00: 00: Schedule setting (Monitor, Peripheral, Normal, Forced, Safe, Select, Return, Standby) Step 101: Monitor position (Energy Saver) Old 1, AutoText 0) / With security function (1), Unused (0) ) / Using Quick Bar (1), Unused (0), 111 100 111 111: Quick Bar Registration Contents (Monitor, Peripheral, Normal, Forced, Safe, Select, Return, Standby, Reboot, Set, Always Pause), 19:00: Individual computer shutdown time, Sum: Displays the total amount [power consumption, power saving, and power saving ratio] on the day, and total: cumulative total amount [power consumption, power saving, and power saving ratio].

As shown in FIG. 3, the unit standby power controller 120 is a configuration in which only the switching function is simplified to perform the same role as the power breaker of the individual standby power controller 110. 121, an interface unit 122, a switching unit 123, an individual drive signal output unit 124, a microprocessor 125, and a monitoring and management unit 126. Here, the power of the power supply unit 121 and the switching unit 123 is increased to supply power to the individual standby power controller 110 connected in series or in parallel in group units.

In particular, the unit standby power control device 120 is connected to the main computer 300 through the interface unit 122, the plurality of individual standby power control device 110 is parallel to the switching unit 123 in series or group units The main computer 300 and the individual computer 200 are connected by a local area network (LAN) to perform bidirectional communication using the individual standby power controller 110 and the wired / wireless communication line through the individual computer 200. Under the control of the administrator, the power supply of the main computer 300 and each individual standby power controller or individual standby power controller for each group is controlled, and individual log files are received from the individual standby power controller 110 and the unit Convert it to a log file and save it.

In addition, the monitoring and management unit 126 of the unit standby power control device 120 is a basic power management, the main body of the main computer 300 in the form of an application program to provide a variety of administrator setting menu for the administrator to control the system through the menu ( It is installed in 310). In this case, the main computer 300 may be connected to the web server 130 through the Internet.

In addition, the monitoring and management unit 126 of the unit standby power control device 120 transmits the user information transmission command of the individual standby power control device 110 through the local area network, grouping based on the collected user information, and individual The individual log files are received from the standby power controller 110 and classified according to the grouping and stored as unit log files. Here, the unit log file includes the log information of the individual log file, the event name representing the corresponding event by group, the operation time, the power consumption, the standby power saving amount, and the carbon dioxide reduction amount, and are accumulated daily.

In addition, the monitoring and management unit 126 of the unit standby power control device 120 may monitor the operation state of the monitoring and management unit 119 of the individual standby power control device 110 on the screen of the main computer 300 to enable monitoring. Display.

In addition, the monitoring and management unit 126 of the unit standby power control device 120 receives a command for controlling the operation state of the monitoring and management unit 119 of the individual standby power control device 110 from the administrator through the remote communication and In addition, the control command is transmitted to the monitoring and management unit 126 of the unit standby power control device 120 for each individual or group according to the administrator's selection to perform individual control or group control. Here, the remote communication is used for remote access via the Internet, sending commands through SMS, e-mail, and the like, and such a remote communication method uses a conventional method.

In addition, the monitoring and management unit 126 of the unit standby power control device 120 is based on the unit log file transmitted from the unit standby power control device 120 on the execution screen, power consumption, standby power savings, carbon dioxide reduction and Count the number of savings and display it.

Here, the unit standby power control device 120 further includes an electric sign 127, and the electric power consumption, standby power saving amount, carbon dioxide reduction and saving frequency, cumulative power consumption and standby power savings through the electric sign 129. The total quantity, carbon dioxide reduction and the number of savings are displayed.

Here, the monitoring and management unit 126 of the unit standby power control device 120 provides a connection icon that allows an administrator to access the web server 130 by one click on an execution screen.

The web server 130 receives the individual log file and the unit log file and manages it in the database 135, and according to the request of the member having the individual standby power controller 110 or the unit standby power controller 120. The power saving data is provided to the user as shown in FIG. 10 by using individual log files or unit log files. In this case, the web server 130 generates and inserts an encrypted security code when generating power saving data so that the data replicated in the web server 130 and the community server 140 are registered so as not to produce imaginary numbers. The error detection code is inserted so that it cannot be arbitrarily changed. This technique is a well-known configuration, and a detailed description thereof will be omitted.

In particular, as shown in FIG. 11, when the user or the administrator accesses a web page by clicking an access icon, the web server 130 initializes a login screen and an upload window for uploading individual log files or unit log files. To provide.

4, the web server 130 includes a collection module 131, a power usage pattern input module 133, a database 135, and a power saving data processing module 137.

The collecting module 131 collects individual log files or unit log files uploaded through an upload window. Here, the collection module 131 notifies the member when duplicate individual log files or unit log files are collected, and does not reflect them in the power saving data.

As shown in FIG. 12, the power usage pattern input module 133 receives a power usage pattern such as a product purchase price, a power rate, and a device usage time from a user or an administrator.

The database 135 stores power saving data by classifying individual log files or unit log files collected by the collection module 131 according to items defined as a member ID, and the like, and the power input from the power usage pattern input module 133. The usage pattern is classified and stored by member ID. Here, the database 135 links the individual log file or the unit log file when the power saving data is stored.

The power saving data processing module 137 calculates the result on the web page by individual or group according to the power saving data classified and stored in the database 135 according to a request of a user or an administrator as shown in FIGS. 13A to 13C. Report). In this case, the result is the average power consumption and consumption amount, average standby power savings and savings, average carbon dioxide reduction, and average standby power savings compared to average power consumption by day / month / year from the first use to the present. Provide at least one of a power saving ratio, a number of savings, and a period of time, and calculate a payback period and future additional savings amount of the purchase price of the product using the power usage pattern input and stored in the power usage pattern input module 133; Provide this.

The community server 140 is connected to the database of the web server 130 and displays power consumption, standby power saving amount, and carbon dioxide reduction amount for each member based on individual log files or unit log files of the members of the web server 130. My page is provided in the community site, and the cyber energy tree corresponding to the standby power saving amount of each member is provided on the My page. Here, the my page of the community server 140 further displays at least one or more of a member's name, ID, nickname, power saving data list, and affiliation group.

In particular, the community server 140 provides a selection window and a change window so that members belong to groups such as schools, workplaces, villages, regions, and countries, and clusters cyber energy trees of members in the group and displays them as cyber energy forests. For example, cyber energy forests are displayed on a world map that can be reduced and expanded at the group's designated location. Here, the location is based on an address or region and applies various avatars and items in the cyber energy forest.

In addition, the community server 140 calculates the amount of carbon dioxide that can be absorbed by the cyber energy trees of each member along with the cyber forest, and based on this, the items symbolizing the prevention of global warming are varied in stages and displayed. For example, based on the calculated amount of carbon dioxide, it is possible to restore the Arctic and Antarctic ice and alpine glaciers that melt due to global warming, or to restore the islands and coastal cities that are flooded due to global warming. You can do it.

Hereinafter, the operation of the energy-saving experience system through the standby power blocking according to the present invention will be described in detail with reference to the accompanying drawings. It will be described with reference to the process that is connected to the operation 120).

First, an individual standby power control device 110 is connected and installed to each individual computer 200 connected through a local area network. At this time, the user using each individual standby power control device 110 installs the monitoring and management unit 119 of the individual standby power control device 110 in the individual computer 200.

Then, each individual standby power control device 110 is connected to the socket of one unit standby power control device 120 and then the unit standby power control device 120 is connected to the main computer 300 and installed. At this time, the manager managing each unit standby power control device 110 installs the monitoring and management unit 126 of the unit standby power control device 120 in the main computer (300).

When the installation is completed as described above, by executing the monitoring and management unit 119 of the individual standby power control device 110 and the power consumption of each device in the main body 210 of the individual computer 200 through the power consumption input window and The user inputs power consumption and standby power of peripheral devices and electronic devices.

In this state, the monitoring and management unit 126 of the unit standby power control device 120 transmits a command for searching for the monitoring and management unit 119 of the individual standby power control device 110 through the local area network.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 transmits an IP, a Mac address, a work group, a computer name, a user name, version information, etc. of the individual computer 200 when a search command is received. .

Then, the monitoring and management unit 126 of the unit standby power control device 120 groups the plurality of individual standby power control device 110 connected to one socket based on this.

In addition, the monitoring and managing unit 126 of the unit standby power control device 120 displays a screen indicating an operation state of the individual standby power control device 110 on the monitor 210 of the main computer 200, respectively. Allow monitoring. In this case, it is preferable that the screen indicating the operation state is a schematic diagram, and the power supply control of each individual standby power controller 110 and the power supply control of the individual standby power controller 110 of the group can be directly performed on the screen. have. On the other hand, the administrator through the monitoring and management unit 126 of the unit standby power control device 120 may update the firmware of each individual standby power control device 110, notification / banner transmission, setting changes, and the like.

On the other hand, the monitoring and management unit 119 of the individual standby power control unit 110 manages the power of the individual computer 200 and the peripheral device according to the user's settings, and stores the individual log file every time the event occurs, this unit standby power Real time transmission to the control device 120. At this time, the individual log file is based on real time, but may be transmitted at the request of the monitoring and management unit 126 of the unit standby power control device 120, or may be transmitted at a predetermined time.

In addition, the monitoring and management unit 119 of the individual standby power control device 110 provides a quick bar on the desktop so that a user can input a command with one click, and consumed based on the individual log files stored on the execution screen. The amount of power, standby power savings, carbon dioxide reduction and the number of savings are calculated and displayed, and the size of the cyber energy tree is displayed in varying stages of growth to correspond to the reduction through carbon dioxide reduction.

In addition, the monitoring and management unit 126 of the unit standby power control device 120 classifies individual log files transmitted from the monitoring and management unit 119 of the individual standby power control device 110 into group log files based on grouping. Based on the unit log file, the power consumption, standby power saving, carbon dioxide reduction and the number of savings are calculated and displayed. In addition, the unit standby power control device 120, the power consumption and standby power savings, the amount of carbon dioxide reduction and the number of times and the cumulative power consumption and standby power savings, carbon dioxide through the display board 127 installed to be easily visible from the outside Displays savings and savings, and can be controlled remotely by the administrator by sending control commands via remote communication.

On the other hand, when the administrator clicks the connection icon on the execution screen of the monitoring and management unit 126 of the unit standby power control device 120, the web browser is executed as shown in Figure 11, the web server provided with a login screen and upload window A web page of 130 appears.

After the administrator logs in and sends individual log files or unit log files to the web server 130 through the upload window, the individual log files or unit log files collected by the collection module 131 of the web server 135 are transferred to the member ID. The power saving data is stored in the database 135 by being classified according to the defined items. Here, the database 135 links the individual log file or the unit log file when the power saving data is stored. On the other hand, the administrator is given an ID through membership registration, through the power usage pattern input module 133 through the process of inputting the power usage pattern, such as product purchase price, power bill, device usage time, etc. The used power usage pattern is classified by member ID and stored in the database 135.

The web server 130 generates power saving data using individual log files or unit log files according to a request of a member having the individual standby power controller 110 or the unit standby power controller 120. To members in the awards.

In addition, the web server 130 controls the power saving data processing module 137 according to the member's request and calculates the result on a web page for each individual or group according to the power saving data classified and stored in the database 135 (economic review report). To provide.

Meanwhile, the community server 140 is associated with the web server 130 and provides a community site.

The community server 140 displays power consumption, standby power saving amount, and carbon dioxide reduction amount to each member based on the individual log file or unit log file of the member of the web server 130 in association with the database of the web server 130. My page is provided in the community site, and the cyber energy tree corresponding to the standby power saving amount of each member is provided on the My page.

On the other hand, users and members who are administrators are connected to the community server 140 to belong to a group such as single, school, work through the selection window and change window, the community server 140 is a cyber energy tree of members in the group Clustered and represented as a cyber energy forest. At this time, the cyber energy forest is displayed on the world map matching the corresponding location designated by the group. In addition, the location is preferably based on an address or a region, and may be based on a job, a community, or the like. Meanwhile, the method of displaying the cyber energy forest on the world map can be implemented by conventional map matching technology, and can be reduced and expanded freely, thereby displaying the individual cyber energy trees, the cyber energy forest, and the cyber energy forest and the individual cyber. Gives an identifying element to distinguish the energy tree.

In addition, the community server 140 may apply various avatars, streams, and fields such as people and plants in the cyber energy forest. Such avatars and items are implemented in a conventional manner. Furthermore, members may purchase avatars and items by converting the amount of reduction of carbon dioxide (CO 2 ) into an amount.

On the other hand, even if an individual user who is not a group or a user who belongs to a group clicks the connection icon on the execution screen of the monitoring and management unit 119 of the individual standby power control apparatus 110, the above-described series of operations are the same. Is done.

In addition, the community server 140 calculates the amount of carbon dioxide that can be absorbed by the cyber energy trees of each member along with the cyber forest, and based on this, the items symbolizing the prevention of global warming are varied in stages and displayed.

As those skilled in the art would realize, the described embodiments may be modified in various ways, all without departing from the spirit or scope of the present invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. Should be.

Energy-saving experience system through the standby power cut off according to the present invention can perform the standby power saving and power saving measurement in the home, school, industry, and can estimate the economics, such as payback period, and can also be used in the education field In addition, precise standby power savings can be measured and applied to CO2 trading. Energy saving experience system through the standby power cut off according to the present invention

Standby power savings and power savings can be measured at regional, national, continental, and global scales, and economics can be estimated, including payback periods, and can be a powerful tool for implementing climate change agreements. It can also be used in the field.

Energy-saving experience system through the standby power cut off according to the present invention naturally forms energy-saving and carbon dioxide reduction community that encompasses the world, as well as the workplace, region, and country through the community site consisting of the unit member and individual member participation Shopping malls such as eco-friendly products and eco-friendly products can be operated.

1 is a schematic diagram showing the configuration of an energy saving experience system through the standby power cut off according to the present invention;

Figure 2 is a block diagram showing an individual standby power control device of the configuration of the energy saving experience system through the standby power cut off according to the present invention,

Figure 3 is a block diagram showing a unit standby power control device of the configuration of the energy saving experience system through the standby power cut off according to the present invention,

Figure 3 is a block diagram showing a web server of the configuration of the energy saving experience system through the standby power cut off according to the present invention,

5 is a diagram illustrating a power consumption input window of the energy saving experience system through the standby power blocking according to the present invention;

6 is a view illustrating a quick bar of the energy saving experience system through the standby power blocking according to the present invention;

7 is a diagram illustrating an execution screen of the energy saving experience system through the standby power blocking according to the present invention;

8 and 9 are diagrams illustrating individual log files of the energy saving experience system through the standby power cut-off according to the present invention;

10 is a view illustrating power saving data provided by a web server of an energy saving experience system through standby power blocking according to the present invention;

11 is a view illustrating an initial screen provided by a web server of an energy saving experience system through the standby power blocking according to the present invention;

12 is a diagram illustrating an input window of a power usage pattern provided by a web server of an energy saving experience system through the standby power blocking according to the present invention;

13A to 13C illustrate results provided by a web server of an energy saving experience system through standby power cutoff according to the present invention.

<Explanation of symbols on main parts of the drawings>

110: individual standby power control device 120: unit standby power control device

130: web server 140: community server

200: individual computer 300: main computer

Claims (33)

  1. In a power saving system using a standby power control device comprising a power supply unit, an interface unit, a switching unit, an input / output terminal unit, an individual load detection unit, a sensing sensor, a microprocessor, an individual drive signal output unit, and a monitoring and management unit. ,
    An individual computer, peripheral devices and electronic devices connected thereto are connected, and the individual computer is connected through a wired or wireless communication line to control power of the individual computer, peripheral devices, and electronic devices according to a user's control, and consume power and standby power. A power consumption input window for storing individual log files including the power saving amount and inputting power consumption of each device in the main body of the individual computer, power consumption and standby power of peripheral devices and electronic devices, to the user. And a table storing power consumption and standby power for each device or product of each device or each device in the main body of the individual computer, and for each device or product for each device or model of the device. Individual standby power control station that provides a search box to search power consumption and standby power for each device And;
    The main computer and the plurality of individual standby power control devices are connected in series or in parallel in a group unit, and the main computer and the individual computer to perform bidirectional communication through the wired and wireless communication lines with the individual standby power control device through the individual computer. Is connected to a local area network to control the power supply of the main computer and each of the individual standby power controllers or the individual standby power controllers for each group under the control of an administrator, and the user of the individual standby power controllers through the network. Unit standby power control for transmitting an information transmission command, grouping based on the collected user information, receiving the individual log file from the individual standby power control device and classifying it based on the grouping and storing it as the unit log file An apparatus;
    The individual log file and the unit log file are received and managed in a database, and the power is saved using the individual log file or the unit log file according to a request of a member having the individual standby power control device or the unit standby power control device. A web server for providing data to a user; And
    Provides a My Page displaying power consumption, standby power saving amount and carbon dioxide reduction amount to each member based on the individual log file or unit log file of the member of the web server in association with the database of the web server. Energy saving experience system through the standby power off, characterized in that consisting of a community server providing a cyber energy tree corresponding to the amount of standby power savings of each member on the page.
  2. delete
  3. delete
  4. The method of claim 1,
    The monitoring and management unit of the individual standby power control device,
    And a table storing power consumption and standby power of each device in the main body of the individual computer or each product or model, and reading the device driver information of the operating system of the individual computer and comparing the table with the table. Energy-saving experience system through the standby power off, characterized in that it automatically sets the power consumption of each device in the main body and the power consumption of each device.
  5. The method of claim 1,
    The monitoring and management unit of the individual standby power control device,
    Energy-saving experience system through the standby power off, characterized in that the user provides a plurality of icons in the form of a bar on the desktop of the individual computer so that one-click commands can be performed.
  6. The method of claim 1,
    The monitoring and management unit of the individual standby power control device,
    Based on the individual log files on the execution screen, the amount of power consumption, standby power savings, carbon dioxide reduction, and the number of savings are calculated and displayed, and the size of the cyber energy tree is varied according to the growth stage to correspond to the carbon dioxide reduction. Energy saving experience system through the standby power cut off characterized in that.
  7. The method of claim 6,
    The monitoring and management unit of the individual standby power control device,
    When the growth of the cyber energy tree is terminated, the tree energy is added and the size of the cyber energy tree is initialized and the size of the cyber energy tree is changed in stages according to the carbon dioxide reduction amount. Saving experience system.
  8. The method of claim 1,
    The monitoring and management unit of the individual standby power control device,
    Energy-saving experience system through the standby power cutoff characterized in that it provides an input window for inputting the user's information, stores the user information input through the input window, and transmits the user information when requested from the outside.
  9. The method of claim 1,
    The monitoring and management unit of the individual standby power control device,
    Energy-saving experience system through the standby power cut-off, characterized in that the user provides a connection icon that allows the user to access the web server by one click on the execution screen.
  10. The method of claim 1,
    The monitoring and management unit of the individual standby power control device,
    Energy saving experience system through the standby power cut off, characterized in that for transmitting the individual log file to the unit standby power control device in real time.
  11. The method of claim 1,
    The individual log file,
    Energy-saving experience system through the standby power off, characterized in that it includes the event name indicating the event, the operation time, log information such as power consumption, standby power savings and carbon dioxide reduction.
  12. The method of claim 11,
    The individual log file,
    Energy-saving experience system by blocking the standby power, characterized in that accumulates in units of one day.
  13. delete
  14. delete
  15. The method of claim 1,
    The unit log file,
    The log information of the individual log file, the event name representing the event for each group, the operating time, power consumption, standby power savings and carbon dioxide reduction amount, characterized in that the energy saving experience system.
  16. The method of claim 15,
    The unit log file,
    Energy-saving experience system by blocking the standby power, characterized in that accumulates in units of one day.
  17. The method of claim 1,
    The monitoring and management unit of the unit standby power control device,
    Energy-saving experience system through the standby power off, characterized in that for displaying the operation state of the monitoring and management of the individual standby power control device on the screen of the main computer.
  18. The method of claim 1,
    The monitoring and management unit of the unit standby power control device,
    Energy saving experience system through the standby power cut-off, characterized in that for receiving a command to control the operating state of the monitoring and management of the individual standby power control device from the administrator through a remote communication.
  19. The method of claim 1,
    The monitoring and management unit of the unit standby power control device,
    Energy saving experience system by the standby power off, characterized in that for performing individual control or group control by transmitting a control command to the monitoring and management unit of the unit standby power control device for each individual or group according to the administrator's selection.
  20. The method of claim 1,
    The monitoring and management unit of the unit standby power control device,
    Based on the unit log file transmitted from the unit standby power controller on the execution screen, the energy consumption, standby power saving amount, carbon dioxide reduction amount and the number of savings are calculated and displayed. Experience system.
  21. The method of claim 1,
    The unit standby power control device,
    The electronic device further includes an electronic display board, and displays the power consumption, standby power saving amount, carbon dioxide reduction amount, and the number of savings through the electronic display board.
  22. The method of claim 1,
    The monitoring and management unit of the unit standby power control device,
    Energy-saving experience system through the standby power off, characterized in that the administrator provides a connection icon that allows the administrator to access the web server by one click on the execution screen.
  23. The method of claim 9 or 22,
    The web server,
    When a user or an administrator clicks a connection icon to access a web page, energy saving through standby power blocking is provided as a login screen and an upload window for uploading the individual log file or unit log file as an initial screen. Experience system.
  24. The method of claim 23,
    The web server,
    A collection module for collecting the individual log file or the unit log file uploaded through the upload window;
    A power usage pattern input module for receiving a power usage pattern such as a product purchase price, a power rate, a device usage time, etc. from a user or an administrator;
    The power saving data is stored by classifying the individual log file or the unit log file collected by the collection module according to an item defined such as a member ID, and the power usage pattern input by the power usage pattern input module is classified and stored by member ID. Said database; And
    And a power saving data processing module which calculates for each individual or group according to the power saving data stored in the database and provides a result according to a request of a user or an administrator.
  25. The method of claim 23,
    The database,
    Energy saving experience system by blocking the standby power, characterized in that for linking the individual log file or unit log file when saving the power saving data.
  26. The method of claim 24,
    The result is,
    Average power consumption and amount of money consumed by the day / month / year from the time of first use to the present, average standby power savings and savings, average carbon dioxide reduction, average power savings ratio And providing at least one of a number of savings and a period, and calculating a recovery period of a product purchase price and an additional saving amount in the future through the pre-stored power usage pattern inputted from the power usage pattern input module. Energy saving experience system by shutting off standby power.
  27. The method of claim 23,
    The collection module of the web server,
    Energy saving experience system by blocking the standby power, characterized in that notified to the member if duplicate individual log files or unit log files are collected and not reflected in the power saving data.
  28. The method of claim 1,
    The community server,
    Providing a selection window and a change window to allow members to belong to groups such as schools, workplaces, villages, regions, and countries, and grouping members' cyber energy trees and displaying them as cyber energy forests. Energy saving experience system through.
  29. 29. The method of claim 28,
    The cyber energy forest,
    Energy-saving experience system by blocking the standby power, characterized in that displayed on the world map that can be reduced and enlarged in the location specified by the group.
  30. 30. The method of claim 29,
    The corresponding position is,
    Energy-saving experience system through standby power blocking, characterized in that based on the address or region.
  31. 29. The method of claim 28,
    The community server,
    Energy saving experience system through the standby power cut off, characterized in that for applying various avatars and items in the cyber energy forest.
  32. 29. The method of claim 28,
    In my page of the community server,
    Energy saving experience system through the standby power cut off, characterized in that further display at least one or more of the member's name, ID, nickname, the list of the power saving data, belonging to the group.
  33. The method of claim 1,
    The community server,
    Energy saving experience system by calculating the amount of carbon dioxide that each member's cyber energy tree can absorb, and by varying and displaying items symbolizing global warming step by step based on this.
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KR101709331B1 (en) 2014-11-03 2017-02-23 주식회사 아이시냅스 Smart multi-tab device and method for controlling the same

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