KR20120137125A - The system for cutting off of the standby power based on a integrated elb - Google Patents

Abstract

PURPOSE: An integrated stand-by power interruption control system based on an integrated panel board is provided to prevent unnecessary power consumption by simultaneously cutting off indoor stand-by power and controlling indoor cooling, heating, and illumination. CONSTITUTION: An integrated panel board(100) includes a branch circuit for supplying external common electricity to an indoor device. An integrated switching device(200) cuts off stand-by power and controls illumination and temperature. A lighting device(300) and a stand-by power interruption plug(400) are controlled by the integrated switching device. A temperature regulator(500) controls the temperature of a cooling and heating device according to the control of the integrated switching device. A home automation device(600) remotely controls the integrated switching device. [Reference numerals] (100) Integrated ELB; (200) Integrated switching device; (300) Lighting device; (400) Stand-by power interruption plug; (500) Temperature regulator; (600) Home automation device; (AA) Room; (BB) Living room

Description

Integrated system for standby power interruption control based on integrated distribution panel {THE SYSTEM FOR CUTTING OFF OF THE STANDBY POWER BASED ON A INTEGRATED ELB}

The present invention is based on an integrated distribution board (ELB; Earth Leakage Breaker) that integrates lighting lines and heating lines, and cuts off standby power for each zone (ZONE) such as each room, living room, room 1 (room) and room 2 in the home. In addition to the home automation (home network) system, it is possible to control the control unit of each control unit in the home automation (home network) system. It is about.

In modern society, various efforts are being made to reduce the amount of energy used. One of these efforts is to minimize standby power.

Standby power refers to electric energy consumed even when the power is turned off without the user's awareness, regardless of the operation of the device.

Standby power consumption is on the rise with the increase in the number of electronic products requiring a standby state, such as remote control means such as a remote control and a reservation operation.

It is known that home appliances such as computers, monitors, printers, washing machines, air conditioners, televisions, DVD players, microwave ovens and mobile phone chargers consume a lot of standby power.

Recently, as home automation is commercialized, the amount of standby power is increasing more and more, and thus unnecessary power consumption due to standby power is increasing.

In general, about 10% of the electricity consumption per household is estimated to be standby power, and when converted into economic value means, it is a very large amount, and such unnecessary energy is lost meaninglessly.

The solution to the standby power problem is to unplug unused electrical appliances, plug it into a power strip, and use a power switch to control the plug. You will not.

The government mandates the application of standby power cut-off devices to housing construction standards. According to this, one or more standby power automatic outlets or standby power cut-off switches should be installed in each place in living room, bedroom and kitchen.

Stand-by power outlet is a plug-in connector for a plug-in wiring harness. The stand-by power disconnect switch has two or more outlets for stand-by power shutdown and has a built-in control function for turning on / And a separate control function that can be turned on and off separately.

On the other hand, according to the conventional housing construction standards, the electric branch circuit (distribution board) is configured for each load type such as lighting circuit, heating circuit (outlet).

However, according to this, a plurality of embedded pipes such as lighting circuits and outlet circuits are superimposed structurally on the slab, and when the circuit is blocked due to remodeling, condensation, and leakage, the entire generation of electricity cannot be used.

In order to solve this problem, according to the current housing construction standards, lighting and heat loads are integrated to be configured by zones such as living rooms, bedrooms, and kitchens.

Thus, if the branch circuit of the distribution panel is configured for each area, the power failure range can be reduced when the circuit is blocked due to the remodeling, condensation, and short circuit caused by the above problems. The construction cost can be reduced by integrating circuits by zone.

Therefore, there was a need for an integrated distribution board (ELB) and a suitable standby power cut-off control system for integrating lighting and heat loads according to the housing construction standards as described above to supply the living area, bedroom, and kitchen area (ZONE).

In view of the above, in the present invention, standby power cutoff control is possible by installing standby power cut-off devices for areas such as living rooms, bedrooms, and kitchens according to the integrated ELB standard in which lighting and heat loads are integrated. Blocking device enables lighting control and temperature control required for each area so that standby power blocking, lighting control, and temperature control for each control unit such as living room, bedroom, and kitchen in each area can be integrated. It is to provide a control system.

In addition, the home automation device (home network device) enables the home automation device (home network device) to centrally integrate and manage standby power blocking devices of control units in each area through the home automation device (home network device). The purpose of the present invention is to provide a standby power integrated cutoff control system based on an integrated ELB that enables remote control of standby power cutoff devices of each control unit through a device.

Standby power integrated cutoff control system based on the integrated distribution panel of the present invention,

An integrated distribution board (ELB) that includes a branch circuit for supplying external commercial power to the home and integrates lighting and heat transfer, and standby power that blocks and controls standby power in the installed space area for each control unit space area. It is composed of the integrated blocking switching device and the standby power interrupting outlet controlled by the integrated switching device installed in each control unit area.

The integrated switch device includes a standby power blocking unit for cutting off standby power by switching a power line of a connected standby power blocking outlet, and detecting a voltage or current of a power line of the standby power blocking outlet to detect standby power. The power sensor, a display unit for displaying standby power and standby power cutoff control information, and a user operation switch for inputting control information for performing standby power cutoff setting, standby power cutoff value, and standby power cutoff, And the amount of power of the detected standby power cut-off outlet according to any one of the current or voltage detected by the manual standby power cut-off and the power sensor by the user's operation of the standby power cut-off switch. Standby power set in standby power off mode by comparing the calculated power It characterized in that it comprises a switching control unit for performing the cut-off control of the standby power to the power cut-off outlet.

Therefore, the present invention can cut off the standby power of the room and control the lighting and the heating and cooling of the room at the same time, thereby preventing unnecessary power consumption and reducing and managing the installation cost since it is linked with the home automation system. It is very convenient.

Another object of the present invention is to set the standby power on and off and the standby power amount of the electric power of the low-power electronics are misinterpreted as the standby power power is not cut off, there is an effect that the user's convenience is increased.

1 is a block diagram showing the configuration of a standby power integrated cut-off control system based on the integrated distribution panel of the present invention.
2 is a view showing the external configuration of the integrated switching device in the present invention.
3 is a block diagram showing a detailed configuration of an integrated switching device in the present invention.
4 is a flowchart illustrating a standby power cutoff control process according to the present invention.
5 is a flowchart illustrating a passive standby power cutoff control process according to the present invention.

The configuration and operation of the standby power integrated cutoff control system according to the present invention will be described with reference to the embodiments shown in FIGS. 1 to 5.

An integrated distribution board (ELB) 100 that includes a branch circuit for supplying external commercial power to the home and integrates lighting and heat transfer, and is installed in each control unit space area such as a living room and a room, and is provided with an atmosphere of an installed space area. Lighting device 300 and standby power blocking outlet 400 which is controlled by an integrated switching device 200 for performing power cutoff, lighting control, temperature control, and an integrated switching device installed for each control unit area such as a living room or a room. And a temperature control device 500 for adjusting the temperature of the air conditioning and heating device according to the control of the integrated switching device 200, and a remote control function for the integrated switching device 200 by communicating with the integrated switching device 200. It comprises a home automation device 600 to provide.

The integrated switching device 200, the lighting control unit 201 for switching on and off the power supply line of the lighting device 300 to control the lighting of the lighting device 300 and the standby power blocking outlet 400 is connected A standby power cutoff unit 202 for cutting off standby power by switching a power line of the communication unit, a communication unit 203 for communicating with the temperature controller 500 or the home automation device 600, and a temperature for measuring temperature A sensor 204, a power sensor 205 for detecting a voltage or current of a power line of the standby power blocking outlet 400 for detecting standby power, and a display unit 206 for displaying temperature and standby power. And a switch unit 207 including a plurality of user operation switches for inputting the control information by the user for turning on / off the temperature of the lighting device 300 and setting the standby power cutoff, and generating an alarm sound. Alarm sound generating unit 208 and the present A time information providing unit 209 for setting time and operation time and time count information for a set time, and a switching control unit 210 for controlling the lighting device 300, controlling temperature, and controlling standby power. It is configured to include.

Such a technical feature of the present invention is that the standby power cutoff control can be configured for each spatial area in accordance with the integrated distribution panel (ELB).

The integrated distribution panel 100 is a means for supplying external commercial power to the home, and in a general cabinet panel including switches that are cut off for each branch circuit due to a short circuit, etc. Has

The integrated switching device 200 is installed in each control unit space area, that is, is installed in each living room, room, kitchen, etc., means for performing standby power blocking, lighting control, temperature control of the installed space area.

In the embodiment of the present invention shown in Figure 1 for the purpose of understanding, the embodiment is composed of a control unit of two rooms and the living room.

The lighting control unit 201 is a switching means for switching off or energizing the power supplied to the lighting device 300 in the room by switching the power line connected to the lighting device 300 by the control of the switching control unit 210. .

The standby power blocking unit 202 is a switching means for switching off or energizing the power by switching the supply power line of the standby power outlet 400 in the space under the control of the switching control unit 210.

The communication unit 203 is a means for communicating with the temperature control device 500 and the home automation device 600 as a wired or wireless communication interface means for communicating with external devices.

The temperature sensor 204 is a means for measuring the room temperature at the installed position.

The power sensor 205 is a means for detecting standby power of the connected standby power outlet 400. The power sensor 205 senses a power line voltage or a current of the connected standby power blocking outlet 400 and provides the switching power to the switching controller 11. .

The display unit 206 displays the detected room temperature and the current standby power value, and is means for displaying a control screen for inputting control information by the user through the switch unit 207 including time information.

The switch unit 207 is a means for the user to input control information regarding the lighting operation of the lighting device 300, the temperature control, and the standby power cutoff setting.

2 is a diagram illustrating an external configuration of the display unit 206 and the switch unit 207 of the integrated switching device 200. The display unit 206 includes a power amount display unit 206a for displaying the calculated power value of the standby power cutoff outlet 400, and an illumination control setting and a temperature setting display unit 206b.

When the standby power cutoff switch 400a selects the standby power cutoff switch 400a, the power amount display unit 206a sets the standby power cutoff setting of the standby power cutoff switch 400 designated by the standby power cutoff switch 400a. By specifying the information and the setting switch (M) indicates a progress screen for the standby power cut off and on the standby power cut outlet 400, the lighting control setting and temperature setting display unit 206b for the lighting control and temperature setting Displays the control screen and set status.

The standby power cutoff setting is information on standby power value to be cut off when the function on / off setting of the standby power cutoff and the standby power cutoff function on are set.

Here, the reference of the standby power may be provided so that the user can selectively set within the range of 0 ~ 25W in consideration of the rated capacity of the indoor large-capacity electronic devices and small-capacity electronic devices.

The alarm sound generator 208 is a means for generating an alarm sound to the user.

The time information providing unit 209 is a means for providing the current time and operation time setting and time count information for the set time, and may be included in the switching controller 210.

Switching control unit 210 is a control means for performing the control of the lighting device 300, temperature control, standby power cutoff control, providing the standby power cutoff control information to the user and setting the standby power cutoff blocking mode by the user and standby Standby power cutoff control information setting process for performing the control process for setting the mode cutoff power value, to provide lighting control information and temperature control information to the user, and to set the control information and temperature control information such as lighting by the user The lighting control and temperature control information setting process, the lighting control process for controlling the lighting power line according to the control information set by the user, and the temperature control value of the temperature control device 500 is adjusted in accordance with the control information set by the user. The power line of the standby power cut-off outlet 400 is controlled in accordance with the temperature control process and the control information set by the user. A means for providing a power cutoff control process.

In addition, it includes a remote control process in communication with the home automation device 600 to control the lighting control process, temperature control process, standby power cut-off control process according to the control information of the home automation.

The lighting device 300 and the standby power cut-off outlet 400 are connected to the integrated switching device 200 installed in each control unit area and installed in the installed area, and are controlled by the integrated switching device 200.

And further comprising a remote control means that is a remote control means of the integrated switching device 200, and further comprising a remote control receiving means for receiving the transmission signal of the remote control to configure the user installed communication switching device 200 remotely indoors You can control it.

The remote controller may be configured by the integrated switching device 200 installed for each control unit as necessary, or may be configured by integrating them.

Temperature control device 500 is a means for controlling the temperature in the home to the indoor cooling / heating device.

The home automation device 600 is a home automation (HA) device in a home, and includes communication means, lighting control, standby power cutoff control, and temperature control means with each integrated switching device 200 installed in a living room or a room.

Therefore, through the home automation device 600, the user can centrally control each integrated switching device 200 installed in the living room, room, etc., and also can be remotely controlled from the outside using a communication terminal such as a mobile phone from the outside.

It is not necessary to be associated with the home automation device 600, the system design for controlling the integrated switching device 200 as described above by linking the functions provided by the home automation device 600 when linked with the home automation device 600 It is possible.

Referring to the operation of the present invention standby power integrated cutoff control system having such a configuration as follows.

In accordance with the present invention, the standby power integrated cutoff control system sets a space for each control unit such as a room, a living room, and a kitchen based on the integrated distribution panel 100 configured by integrating lighting and heat transfer loads, and controls standby power cutoff for each space. And to enable the control of the lighting devices, the control of the temperature control device is required to control each space.

In addition, the integrated switching device installed in each room, kitchen, and living room in the center by allowing the user to control the integrated switching device 200, such as a connection device connected to the home automation device 600 through the connection with the home automation device 600 The control unit 200 can be controlled, and the remote control can be performed from the outside.

Referring to the operation process for this in detail as follows.

First, the power supplied through the integrated distribution panel 100 is provided to the lighting device 300 and the standby power cut-off outlet 400.

The lighting device 300 is controlled to switch operation in accordance with the operation of the integrated switch device 200 lighting line switch and may be controlled by turning on and off according to time information set by the user.

In addition, according to the operation (207a) of the standby power cutoff switch of the integrated switch device 200 to control the switching line of the power line of the standby power cutoff outlet 400 to cut off the power of the standby power cutoff outlet 400, According to the standby power cutoff value set by the user, the power is cut off to the outlet set to the standby power cutoff.

The standby power cutoff control and the lighting control process in the integrated switching device 200 will be described in detail with reference to the configuration of the integrated switching device shown in FIG. 3.

When the user selects any one of the illumination line switch 207a of the switch unit 207, as shown in Figure 2, the switching control unit 210 recognizes the switch signal and the corresponding illumination in the lighting device 300 Select to turn on / off the light.

The master switch can be configured to turn on / off all lights at once.

In addition, the switching controller 210 determines whether the time reservation point / off control mode for lighting is set, and when the time reservation point / off control mode is set, according to the time information provided by the time information providing unit 209. The lighting device 300 is controlled to control the lighting / lighting off.

In addition, the switching controller 210 calculates the power of the standby power cut-off outlet 400 using the voltage or current value of the power line of the standby power cut-off outlet 400 input from the power sensor 205 and calculates the calculated power. The value is displayed on the power amount display unit 206a as shown in FIG. 2 through the display unit 206.

In the power amount display unit 206a of the display unit 206, the standby power cutoff switch 400a designated by the standby power cutoff switch 400a when the user selects the standby power cutoff switch 400a designating the standby power cutoff outlet 400. ) Can indicate whether or not the standby power cutoff setting information, and a setting screen (M) to indicate the progress screen for the standby power cutoff setting and release of the standby power cutoff outlet 400.

The switching controller 201 checks whether the standby power cut-off outlet 400 has a standby power cut-off mode, and uses the voltage or current value input from the power sensor 205 when the standby power cut-off mode is set. The power of the standby power blocking outlet 400, that is, the power value of the heating line, is compared with the standby power blocking setting value set by the user to cut off the power of the standby power blocking outlet 400.

4 is a flowchart illustrating a standby power blocking control process of the switching controller 210 as described above.

5 is a flowchart illustrating a control process of the switching controller 210 when the user wants to manually turn off the power of the standby power cut-off outlet 400 by operating the standby power cut-off switch 207a.

According to this process, the user determines whether the standby power cut-off switch 400a for the standby power cut-off outlet 400 has been input, and if the user enters the standby power cut-off outlet designated by the corresponding standby power cut-off switch 400a ( If it is not set to the standby power cut-off mode by checking whether 400 is set to the standby power cut-off mode, the display unit 206 or the alarm sound generator 208 determines that the power is set to the constant power. Inform the user through whether to cut off the power and cut off the power of the corresponding standby power blocking outlet 400.

In this case, if the standby power blocking mode is set, the power of the corresponding standby power blocking outlet 400 is immediately cut off.

This is to prevent the user from recognizing that it is set as a constant power and performing standby power cutoff.

Here, the power sensor 205 is configured for each power line of the standby power blocking outlet 400 so that the switching controller 210 calculates the power for each standby power blocking outlet 400, thereby shutting down each standby power. Power consumption determination and standby power cutoff control of the outlet 400 may be performed.

By selecting the setting switch (M) can be set by specifying the standby power blocking outlet 400 to execute the standby power blocking, the standby power blocking outlet 400 is not set to the standby power blocking mode is managed as a constant power outlet.

In addition, by allowing the user to set the standby power cutoff value to set the standby power cutoff, it is possible to prevent the low-power consumption products with small power consumption is judged as standby power and is blocked.

On the other hand, the switching controller 210 recognizes the indoor temperature detected by the temperature sensor 204, and controls the indoor temperature control value of the temperature control device 500 compared with the set temperature set by the user.

The lighting control setting and temperature setting display unit 206b of the display unit 206 shown in FIG. 2 is a means for displaying a control screen and a set state for lighting control and temperature setting, and a user manipulates the switch unit 207. As described above, the lighting control information and the temperature setting control information of the lighting apparatus 300 can be set.

On the other hand, the switching controller 210 communicates with the home automation device 600 through the communication unit 203 to provide the current control information to the home automation device 600, and also provides control information from the home automation device 600. Provided to perform the above control process.

The home automation device 600 is provided with control information received from the switching control unit 210 of the integrated switching device 200 installed in each control unit space to provide the control status of each living room, room, etc. according to the user's request. In addition, according to the user's request to the integrated switching device 200, the control of the standby power blocking outlet 400 and the control of the lighting device 300, the temperature control device 500 according to the control information requested by the user Control can be made.

Claims (5)

An integrated distribution board (ELB) that includes a branch circuit for supplying external commercial power to the home and integrates lighting and heat transfer, and standby power that blocks and controls standby power in the installed space area for each control unit space area. It is composed of the integrated blocking switching device and the standby power interrupting outlet controlled by the integrated switching device installed in each control unit area.
The integrated switch device includes a standby power blocking unit for cutting off standby power by switching a power line of a connected standby power blocking outlet, and detecting a voltage or current of a power line of the standby power blocking outlet to detect standby power. The power sensor, a display unit for displaying standby power and standby power cutoff control information, and a user operation switch for inputting control information for performing standby power cutoff setting, standby power cutoff value, and standby power cutoff, And the amount of power of the detected standby power cut-off outlet according to any one of the current or voltage detected by the manual standby power cut-off and the power sensor by the user's operation of the standby power cut-off switch. Standby power set in standby power off mode by comparing the calculated power Standby power integrated cut-off control system based on the integrated distribution panel, characterized in that it comprises a switching control unit for performing the cut-off control for the power cut-off outlet. The method of claim 1, wherein the switching control unit of the integrated switching device further comprises a user standby power cutoff setting process for allowing the user to set the standby power cutoff power value to the user, the standby set by the user when setting the standby power cutoff mode Standby power integrated cutoff control system based on the integrated distribution panel, characterized in that to perform the standby power cutoff according to the power cutoff set value. The method of claim 1, wherein the switching control unit of the integrated switching device when the standby power cut-off switch designating the standby power cut-off outlet is input from the user, standby power cut-off setting information of the standby power cut-off outlet specified by the standby power cut-off switch It provides a through the display unit, and further comprising a means for providing a process including a process for setting and releasing the standby power cut off of the standby power cut off by specifying a setting switch,
The standby power cutoff setting is a standby power integrated cutoff control system based on the integrated distribution panel, characterized in that the standby power off function on / off setting and standby power off function on setting the standby power value information to be cut. The method according to claim 1, wherein the switching control unit of the integrated switching device manually cuts the power of the standby power cut-off outlet according to the input of the standby power cut-off switch, wherein the selected standby power cut-off outlet is set to the standby power cut-off mode. Means for determining whether the state is set to the constant power, if the state is set to the continuous power means to provide a message to inform the user that the state is set to the constant power to provide a process for shutting off the power of the standby power blocking outlet according to the user's selection Standby power integrated cutoff control system based on the integrated distribution panel, characterized in that further comprises a. The apparatus of claim 1, further comprising: a temperature controller for adjusting the temperature of the air conditioner according to the control of the integrated switching device, and a home automation device communicating with the integrated switching device to provide a remote control function for the integrated switching device. Composed,
The integrated switching device comprises a lighting control unit for switching on the power line of the lighting device to control the lighting of the lighting device, a communication unit for communication with a temperature control device or a home automation device, a temperature sensor for measuring the temperature; An alarm sound generating unit for generating an alarm sound, and a time information providing unit for providing time count information for the current time and operation time setting and the set time, the switch unit is configured to control for lighting control and temperature control It further comprises a switch for inputting information,
The switching control unit,
The standby power cutoff control information setting process for providing the standby power cutoff control information to the user and performing the control process for setting the standby power cutoff mode by the user and setting the standby mode cutoff power value, and lighting control information and temperature for the user. A lighting control and temperature control information setting process for providing control information and setting lighting control and temperature control information by the user, and a lighting control process for controlling the lighting power line according to the control information set by the user; A temperature control process for adjusting the temperature control value of the temperature control device according to the control information set by the user, a standby power cut control process for controlling the power line of the standby power cut-off outlet according to the control information set by the user, and home automation In communication with the device according to the control information of the home automation Process, the temperature control process, the standby power-down standby power control block integration control system of the remote control means to provide a process for controlling the process based on the integration panel board, characterized in that comprises.

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