KR101127641B1 - A system and method for controlling standby power of consents installed on the floor - Google Patents

Abstract

PURPOSE: A standby power control system with respect to a socket installed on a floor and a method thereof are provided to control standby power according to a usage pattern of a user. CONSTITUTION: A distribution board supplies power through a ground wire and a power line. A plurality of socket boxes(200) has one or more control sockets and regular sockets. A control panel comprises a plurality of relays. The control panel connects each relay and a power source terminal of the control socket. The control panel interrupts or resumes power supply to the control socket. The control panel controls standby power. A controller(300) interrupts or resumes the power supply to the control socket.

Description

System and method for controlling standby power of consents installed on the floor

The present invention relates to a standby power control technology, and more particularly, standby power is individually controlled through a plurality of electric heating boxes installed on the floor of a building, that is, a box including a plurality of outlets, and the power consumption of each outlet is controlled. The present invention relates to a standby power control system and method for an outlet installed on a floor capable of measuring and storing a usage pattern to control standby power according to a stored usage pattern.

Standby power refers to electrical energy consumed without the user's awareness, regardless of the operation of the device. It is also called a power vampire, which means it eats electricity. The International Energy Agency estimates that in the OECD countries, 60 watts (W), or 10 percent of household electricity consumption, will be standby. The United States is small at 5%, but it amounts to about $ 1.3 billion annually. To address this serious stand-by power problem, the International Energy Agency advised countries around the world to reduce standby power for all electronic products to less than one watt by 2010.

Standby power consumption is on the rise with the increase in the number of electronic products equipped with a display device which is operated by a remote control and informs the operation status. In copiers and video recorders, 80% of total power is estimated to be standby. Computers, monitors, printers, facsimiles, washing machines, air conditioners, televisions, DVD players, microwave ovens, and cell phone chargers consume a lot of standby power.

On the other hand, in recent years, by law, the building is required to install a certain ratio of outlets capable of automatically controlling standby power. In general, the standby power outlet is generally installed in the space between the floor of the building and the floor to be installed spaced apart from the floor. In this case, too many wires for automatically turning on or off the outlet for standby power outlet control are inconvenient during construction, and waste of resources is also great. In addition, the standby power outlet can automatically shut off the power supply for standby power control, but in order to resume the power supply again, the user must manually input the power to manually restart the power supply. It's installed in, so manually turning the power back on is very cumbersome. For this reason, according to the law, only an outlet for standby power control is installed, and only the resources are not used because it is not used.

Accordingly, an object of the present invention in consideration of the problem of standby power as described above is a standby power control system and method for an outlet installed on the floor that can control the standby power automatically, but provide a user's convenience when manually operated In providing.

In addition, when installing the standby power control system, to simplify the construction, and to provide a standby power control system and method for the outlet installed on the floor that can reduce the length and thickness of the wire.

The present invention also provides a standby power control system and method for an outlet installed on a floor that can control standby power according to a usage pattern of each device and a user who uses the device.

Standby power control system for the outlet installed in the floor according to a preferred embodiment of the present invention for achieving the object as described above is the power through the ground line to induce the ground (ground) and the power supply line for supplying power to the ground A distribution panel provided, a plurality of outlet boxes installed on the floor of a specific space and having at least one control outlet, and a plurality of relays installed on the floor and connected to the ground terminal of the control outlet and corresponding to each of the control outlets. Branching the power cable into a plurality of power lines, and connecting the power terminals of each relay and the control outlet corresponding to each relay through the branched power lines, and turning each relay on or off to the control outlet connected to each relay. And a control panel for controlling standby power by shutting off or resuming the power supply.

The control panel according to an embodiment of the present invention further includes a power sensor for sensing the power consumption of the device connected to each of the control outlet, the control panel, if the device detects that the power using less than the set reference for a set period, The power supply can be cut off by turning off the relay corresponding to the outlet.

The outlet box according to an embodiment of the present invention may further include at least one always-on outlet to which the power supply is controlled regardless of whether the connected device is in a standby state using standby power.

Receiving a type of equipment connected to each control outlet according to an embodiment of the present invention, set the parameters according to the type of the device, the relay to cut off the power supplied to each of the control outlet according to the set parameters or resume supplying power The controller may further include a controller for transmitting a control signal to control panel to turn on or off.

The standby power control system according to the embodiment of the present invention may further include an exchanger connected to the controller and a plurality of telephones connected to the exchanger. Here, the exchange receives inputs from the plurality of telephones and delivers them to the controller, the controllers turning on or off the relays to cut off the power supplied to each of the control outlets according to the input from the telephones or to resume the power supply. It characterized in that the transmission to the control panel.

The standby power control system according to an embodiment of the present invention may further include a card reader connected to the controller and generating an input signal as a card mapped to any one of the control outlets is read. The controller transmits a control signal to the control panel to turn on or off the relay to cut off the power supplied to the control outlet mapped to the card or resume powering according to the input signal.

Standby power control system according to an embodiment of the present invention is connected to the control panel has a plurality of buttons each button is mapped to each relay, and the control outlet corresponding to the relay mapped by turning on or off the relay mapped through the button A switch that cuts power to the power supply or resumes power supply, and a wireless signal that transmits a control signal to the control panel to receive an input for selecting a control outlet from a wireless transmitter and to turn on / off a relay corresponding to the selected control outlet. If the receiver does not detect the movement of the object in the preset detection area for a preset period of time, the control panel inputs a control signal to cut off the power supply to the corresponding control outlet and moves the object to the detection area while the power is cut off. Is detected, power on the corresponding control outlet. The apparatus may further include a motion sensor for inputting a control signal to resume the control panel.

The standby power control method for the outlet installed in the floor according to an embodiment of the present invention is installed in one installation target space separated from the other space and includes a plurality of outlet boxes having a plurality of control outlets standby power of each control outlet The present invention relates to a method for controlling standby power of a controller for controlling a power supply. Is a period of time in which the power supply is maintained, a waiting period for turning off the power after the sustained period elapses, an off time for turning off the power supply at the same time every day, and a time for resuming power supply at the same time every day. Storing a parameter including this on time and consuming each control outlet Monitoring the output in real time and in accordance with the monitoring result and the parameters off the power supplied to each outlet, or control the power supply to resume a step for controlling the standby power.

The standby power control method for the outlet installed on the floor according to an embodiment of the present invention resets the parameters by storing the amount of power used in each of the control outlet, the time to cut off the power supplied to each control outlet and the time to resume the supply And controlling standby power according to the reset parameter and the reset parameter.

According to the present invention as described above, the control panel has a plurality of relays for individually controlling the standby power of the plurality of control outlets, branching the power line coming from the distribution board according to the number of the plurality of control outlets, each control outlet Connect to At this time, by installing the control panel at the position closest to each outlet, the length of the power supply line and the total thickness of the plurality of branched power supply lines can be reduced, so that the construction is convenient and the cost can be reduced.

In addition, the present invention may allow the user to conveniently adjust the standby power through various devices.

In addition, the present invention can control the standby power more efficiently by controlling the standby power in consideration of the type of the device and the usage pattern of the user who uses the device.

1 is a view for explaining a standby power control system according to an embodiment of the present invention.
2 is a view for explaining a unit control system of the standby power control system according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a control panel according to an embodiment of the present invention.
4 and 5 are views for explaining an aspect in which the unit power control system of FIG. 1 is installed.
6 is a block diagram illustrating a configuration of a unit power control system according to an embodiment of the present invention.
7 is a flowchart illustrating a standby power control method according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. In addition, detailed descriptions of well-known functions and configurations that may blur the gist of the present invention will be omitted.

The terms or words used in the specification and claims described below should not be construed as being limited to the ordinary or dictionary meanings, and the inventors are appropriate to the concept of terms in order to explain their invention in the best way. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various alternatives may be substituted at the time of the present application. It should be understood that there may be equivalents and variations.

1 is a view for explaining a standby power control system according to an embodiment of the present invention.

Referring to FIG. 1, the standby power control system according to an exemplary embodiment of the present invention includes a plurality of unit control systems, and each unit control system is installed at a bottom of a space that is separated from other spaces. The unit control system is shown only two unit control systems indicated by reference numerals A, B, etc. in the figures.

The unit control system basically includes a control panel 100 and a plurality of outlet boxes 200. The plurality of outlet boxes 200 includes at least one control outlet 210. In addition, the outlet box 200 may further include at least one always outlet 220. The distribution panel 10 supplies power to each control panel 100. In this case, the distribution panel 10 may supply power through a ground line providing ground and a power line providing a voltage or current with respect to the ground. Accordingly, the control panel 100 may supply power to the outlets 210 and 220 of the plurality of outlet boxes 200. The control panel 100 is for controlling standby power or power of the outlets 210 and 220. As shown, the control panel 100 of the unit control systems may be connected via the communication line (1).

2 is a view for explaining a unit control system of the standby power control system according to an embodiment of the present invention.

2 shows a part of the unit control system of FIG. 1. The control panel 100 receives power from a distribution panel (not shown). Power is supplied through a ground line leading to ground and a power line supplying a real voltage (current) to the ground, which is connected to the ground terminals of all outlets 210 and 220 of each outlet box 200. Commonly connected as one, the power line is branched by the required number to connect the relay 110 of the control panel 100 and the power terminals of the outlets. In this case, the power outlet 220 is always connected to a power line through one relay 110, and the control outlet 210 is connected to a power line through an individual relay 110. Therefore, the constant outlet 220 is commonly controlled by one relay 110, the control outlet 210 is each of the standby power is individually controlled.

The control outlet 210 is to control the standby power at all times, and the power used by the device connected to the control outlet 210 uses power below a preset reference voltage, and the use of power below the reference voltage is maintained for a predetermined period. Then, the corresponding relay 110 of the control panel 100 is turned off to stop the power supply.

The regular outlet 220 is basically an outlet that does not perform standby power control such as the control outlet 210. While the standby power is controlled in the control outlet 210 according to the embodiment of the present invention, the standby outlet 220 is not applied to the standby power control according to the embodiment of the present invention. That is, the power outlet 220 is controlled to supply power to the power outlet 220 regardless of whether the device connected to the power outlet 220 is in a standby state using standby power.

For example, devices such as facsimile and refrigerator are devices that must be powered at all times regardless of whether they are used or not. In the case of such devices, it is connected to the outlet 220 at all times, so as not to stop the power supply arbitrarily even when using the power of the predetermined reference voltage or less. However, the regular outlet 220 may cut off the power supply or resume through one relay 110 as needed.

Referring to FIG. 2, a plurality of relays 110 are required to cut off and supply power for standby power control of the plurality of control outlets 210. At this time, although there is only one power line connected to the control panel 100 in the distribution panel (not shown), a plurality of power lines branched to a relay for standby power control are connected to the relay, and each control outlet 210 through the relay. Is connected to the power terminal. According to the related art, the control panel 100 is not installed in the space in which the outlet box 200 is installed, but is installed outside of the space, so that the length of the wires due to the plurality of power lines becomes long, and the unit Since the relays for all the control systems existed in one device, there was a construction difficulty due to the thickness of the wires due to the plurality of wires. However, as in the embodiment of the present invention, by installing the control panel 100 having the relay 110 for standby power control on the floor in a specific space, the relay 110 of the control panel 100 and corresponding thereto The length of the wires between the outlets 210 and 220 can be reduced, and by installing a power line for standby power control separately for each unit control system, inconveniences caused by the thickness thereof can be solved. In addition, since the unit control system for stand-by power control can be installed independently in individual spaces, it can be modularized, thereby reducing the costs of various devices, equipment production and construction for installing the unit control system. That is, according to the present invention, when there is a power line and a ground line for power supply, the power line must be branched to control standby power for a plurality of outlets, and branching of the power line is provided with a relay 110 for standby power control. It should be made in the control panel 100, the control panel 100 is installed on the floor of the space that becomes the basic unit for the standby power control. This means that the control panel 100 is installed at the position closest to the outlet box 200 having a plurality of outlets to be controlled. Therefore, when the power line is branched, the length and volume of the branched power line can be minimized.

Although the outlet box 200 of the unit control system includes both the control outlet 210 and the constant outlet 220 in the present embodiment, in another embodiment, the outlet box 200 is the control outlet 210 and the constant outlet ( Only one of 220 may be provided.

3 is a block diagram illustrating a configuration of a control panel according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the control panel 100 according to the embodiment of the present invention includes a plurality of relays 110, a power sensor 120, and an I / O interface 130.

There are a plurality of relays 110, some of the plurality of relays 110 is connected to the individual control outlet 210 and the power line. In addition, any one of the relay 110 is connected to the plurality of always-out outlet 220 and the power line. The relay 110 may basically control standby power of an outlet connected to itself and a power line. Typically, when less than the reference power set for a predetermined period of time consumed in a device connected to a specific control outlet 210, the power supply is stopped by turning off the relay 110 connected to the corresponding control outlet 210.

The power amount sensor 120 monitors power consumption of the outlets 210 and 220 connected to the relays 110. For example, the power sensor 120 is connected to each of the outlets 210 and 220 or each of the outlets 210 and 220 through a voltage or current applied to a power line between the relay 110 and the outlets 210 and 220. The power consumption of the devices can be monitored. In particular, the control panel 100 detects that less than the reference power set for a predetermined period of time is consumed in the device connected to the control outlet 210 connected to the relay 110, the relay connected to the corresponding control outlet 210 110 may be turned off.

According to an embodiment of the present invention, it is possible to control the on or off of the relay 110 by various methods. This may be accomplished through communication with devices external to the control panel 100, and the I / O interface 130 is for communication with such external devices. A method of controlling standby power by controlling ON or OFF of the relay 110 through communication with external devices will be described later.

4 and 5 are diagrams for describing an aspect in which the unit power control system of FIG. 1 is installed. 3 is a perspective view showing a unit power control system including a control panel 100 and a plurality of outlet boxes 200, and FIG. 4 is a cross-sectional view of one of the plurality of outlet boxes 200.

As shown, the floor 33 is spaced apart from the floor 31 by a predetermined interval, and the support 35 supports the floor so as to be spaced apart from the floor by a predetermined distance. In the spaced space, the control panel 100 and the plurality of outlet boxes 200 are installed. The control panel 100 and the plurality of outlet boxes 200 are connected by a cable 30. The cable 30 may include a power line and a ground line therein, and serve to connect the power line and the ground line and protect the power line and the ground line.

As described above, the outlet box 200 may have outlets 210 and 220, and may supply power received through a power line through the outlets 210 and 220. Reference numeral 37 is a lid installed on the floor, when the power cable of each device is connected to the outlets (210, 220) of the outlet box 200, the lid 37 for the purpose of protection of aesthetics or devices It is closed.

On the other hand, the relays 110 of the control panel 100 when the power consumption of the devices connected to the outlet corresponding to each relay 110 consumes less than the set reference voltage, if the consumption period of less than the reference voltage lasts for the set period, Shut off the power at the outlet. As such, after the power supply is cut off, power supply must be resumed by a specific input in order to resume power supply. According to the related art, while the input box is mounted inside the outlet box 200 to resume power supply to each outlet, it is too cumbersome for the user to open the lid and resume power supply through the input device. Accordingly, the present invention proposes a technique for resuming power supply through various methods.

6 is a block diagram illustrating a configuration of a unit power control system according to an embodiment of the present invention.

Referring to FIG. 6, a unit control system according to an embodiment of the present invention includes a control panel 100, an outlet box 200, a controller 300, a switch (PBX, private branch exchange, 400), a telephone 500, The card reader 600, the card 610, the switch 700, the wireless receiver 800, the wireless transmitter 810, and the motion sensor 900 are included.

As described above, the control panel 100 and the outlet box 200 are installed between the floor and the floor. The outlet box 200 includes a plurality of outlets 210 and 220. In more detail, the outlet box 200 includes at least one control outlet 210 and at least one always-out outlet 220.

The control panel 100 includes a plurality of relays 110 that block or resume power supply to the outlets 210 and 220 installed in the plurality of outlet boxes 200. That is, according to the on or off operation of the plurality of relays 110, the power supply of the corresponding outlet is cut off or resumed. According to the present invention, the control panel 100 may control standby power or control power through on / off of the relay 110.

First, the control panel 100 controls standby power for the control outlet 210 of the outlets 210 and 220. The control panel 100 includes a sensor for sensing power in each relay 110. The control panel 100 senses power consumption of the device connected to the control outlet 210 through this sensor. In addition, the control panel 100 consumes less than a predetermined reference power, and when the period of using the reference power is less than the predetermined period, by turning off the relay 110, power to the control outlet 210. Shut off the supply.

The control panel 100 does not sense the power consumption in the case of the power outlet 220 at all times. However, the control panel 100 controls the power by turning on / off the relay 110 connected to the outlet 220 when the power supply is cut off by various inputs described below or when an input for resuming is received. .

The controller 300 is connected to the control panel 100 to control the on or off of the relay 110 of the control panel 100. Controller 300 may be a device that includes at least a general purpose processor, memory, and I / O devices. In addition, the controller 300 may further include a display device. Controller 300 may representatively represent a computer.

One controller 300 may be installed per unit control system, or may be installed to integrate and manage a plurality of unit control systems. When one controller 300 is installed per unit control system, the controller 300 is connected to the control panel 100 of each unit control system. When the controller 300 is installed to integrate and manage a plurality of unit control systems, the controller 300 is connected to any one control panel 100 of the plurality of unit control systems. Referring to FIG. 1, a communication line 1 may be connected between control panels 100 of each unit control system so that one controller 300 may integrate and manage a plurality of unit control systems. The communication line 1 may be a line according to a communication method supported by the I / O interface 130 of the control panel 100. For example, when the I / O interface of the control panel 100 supports serial communication, the communication line 1 may be a line used for serial communication. In addition, the controller 300 and the control panel 100 may be connected to each other by a communication line 1 to communicate with each other. Accordingly, the I / O device of the controller 300 is implemented to support the communication scheme of the communication line (1).

The controller 300 is for controlling standby power of devices connected to the control outlet 210. That is, the controller 300 may control standby power for each control outlet 210. At this time, the controller 300 controls the standby power according to the equipment connected to each control outlet 210. To this end, the controller 300 receives a type of each device, and sets a parameter corresponding to the type. Then, the controller 300 may control the relay 110 of the control panel 100 according to the parameter to control the standby power of the device connected to each control outlet 210. Here, the parameters include reference power, standby period, off time, on time, and the like. The reference power refers to the amount of power when the device is not used, that is, the amount of power in the standby state using standby power. The standby power is recommended to be less than 1 Watt, but standby power may vary depending on the device, and even the same device may vary depending on the degree of aging. Therefore, enter the standby power according to the device. In addition, the standby period means a time period in which the device uses the reference power. According to an embodiment of the present invention, after the device is switched to the standby state using standby power, when the standby period elapses, the standby power is automatically cut off from the corresponding outlet. For example, if a user shuts down standby power while going to the bathroom for a while while using the computer, the computer must be rebooted and consume more power than not shutting down the standby power. Therefore, you can solve this problem by setting the waiting period. However, if they are often used like copiers but all end up as a one-time task, it is desirable to shorten the waiting period. The off time means, for example, a time when the standby power should be cut off at a fixed time repeatedly every day, such as leaving time. On time is a time for automatically supplying power again and again at a certain time repeatedly every day, in consideration of the user's convenience, it is preferable to automatically supply power again in the case of going to work. This parameter may be changed according to the power consumption pattern of users of the corresponding space. That is, the controller 300 continuously monitors and stores the amount of power used, standby power cut-off time, and power supply resumption time according to the use of the devices from the control panel 100, and accordingly resets parameters for controlling standby power. can do. The controller 300 may control the standby power by the reset parameter.

Meanwhile, the controller 300 may receive inputs according to various input devices and control standby power according to the devices connected to the control outlets 210 according to the inputs.

First, the controller 300 may control the standby power by input through the telephone 500. To this end, the switch 400 connects the controller 300 and the plurality of telephones 500. For example, in an office building, a plurality of desks are disposed in one space, and one outlet box 200 is generally installed below one desk. Accordingly, the devices used by the user of the desk are generally connected to the outlets 210 and 220 of the outlet box 200. Thus, according to one embodiment of the present invention, each telephone 500 maps a corresponding outlet box 200 or control outlet 210, and the controller 300 switches a particular input of the telephone 500 to the switch 400. Can be received via). For example, this input may be a specific dual tone multi frequency (DTMF) such as "##". As such, upon receiving the input through the switch 400, the controller 300 may control to cut off or resume the power supply to the control outlet 210 corresponding to the input of the received telephone 500. . This is done by the controller 300 transmitting a control signal that controls the on and off of the corresponding relay 110 of the control panel 100.

Second, the controller 300 may control standby power according to the input of the card reader 600. To this end, the controller 300 may be connected to the card reader 600. Again, taking an office building as an example, assume that users of certain spaces in the office building carry cards. Here, the card may be an RFID, and the card reader 600 may be an RFID reader. Each user's card may be mapped to a particular control outlet 210. Accordingly, the card reader 600 may read the card possessed by a specific user and provide the controller 300 with information for identifying the read card. Then, the controller 300 cuts off or resumes the power supply to the control outlet 210 corresponding to the corresponding card. This is done by the controller 300 controlling the on and off of the corresponding relay 110 of the control panel 100.

Meanwhile, according to an exemplary embodiment of the present invention, standby power may be controlled through an input device directly connected to the control panel 100. It includes a switch 700, a wireless receiver 800 and a motion sensor 900.

The switch 700 has a plurality of buttons and is connected to the control panel 100. Each button of the switch 700 may be mapped to each relay 110 of the control panel 100. Accordingly, the relay 110 may be turned off by turning on / off the corresponding button of the switch 700. Accordingly, the user may control the standby power of the device connected to the desired outlet of the outlets 210 and 220 through the switch 700.

The wireless receiver 800 may receive an input from the wireless transmitter 810 and control standby power according to a corresponding input. The wireless transmitter 810 may be a so-called remote controller, and the wireless receiver 800 is a device capable of receiving and reading an input signal of the wireless transmitter 810. The wireless receiver 800 and the wireless transmitter 810 may transmit and receive an input signal through an infrared ray (IR) communication, a radio frequency (RF) communication, a visible light communication scheme, or the like. In this case, when the wireless receiver 800 receives an input for individually selecting the outlets 210 and 220 from the wireless transmitter, the wireless receiver 800 may turn on and off the relay 110 corresponding to the corresponding outlet. The control signal can be transmitted. Accordingly, the user may control the standby power of the device connected to the desired outlet of the outlets 210 and 220 through the wireless transmitter 810.

The motion sensor 900 may detect a user's movement and control standby power according to the movement.

For example, in an office building, a plurality of desks are disposed in one space, and one outlet box 200 is generally installed below one desk. Accordingly, the devices used by the user of the desk are generally connected to the outlets 210 and 220 of the outlet box 200. The motion sensor 900 is installed to be mapped to each outlet box 200, sets a preset radius around each outlet box 200 as a sensing area, and detects movement of an object based on the set sensing area. At this time, if the motion sensor 900 does not detect the movement of the object in the detection area for a predetermined period, the control to block the power supply to the control outlet 210 of the outlet box 200 corresponding to the motion sensor 900. The signal is input to the control panel 100. Accordingly, the control panel 100 turns off the corresponding relay 110 to cut off the power supply. In a state in which the power supply is cut off, when the motion of the object is detected in the sensing area, the motion sensor 900 resumes the power supply to the control outlet 210 of the outlet box 200 corresponding to the motion sensor 900. The control signal is input to the control panel 100. Accordingly, the control panel 100 turns on the corresponding relay 110 to cut off the power supply.

7 is a flowchart illustrating a standby power control method according to an embodiment of the present invention.

Referring to FIG. 7, the controller 300 receives a type of a device connected to each control outlet 210 of the outlet box 200 in step S10.

As described above, the outlet box 200 includes at least one control outlet 210, and different devices may be connected to each control outlet 210. The user has a different usage pattern according to the type of the device, and in the embodiment of the present invention, the standby power may be controlled differently according to the type of the device. For this reason, after the controller 100 receives the type of equipment connected to each control outlet 210, the controller 100 sets a parameter for controlling standby power preset according to the type of equipment in step S15. Here, the parameters include reference power, standby period, off time, on time, and the like.

When the parameter is set, the controller 300 monitors in real time the power usage used in each control outlet 210 in step S20. This is done through the power sensor 120 of the control panel 100.

According to an embodiment of the present invention, the controller 300 controls the standby power by the monitoring result and the set parameter. In this case, the set parameter may be changed by a learning method. The controller 300 may collect and accumulate the power consumption and the time when the standby power is cut off and the time when the power is resumed again, which will be described below, and reset the parameters for the standby power control accordingly. To this end, the controller 300 stores the monitored power usage for each control outlet in step S25.

Then, the controller 300 determines whether to shut off the standby power of the specific control outlet 210 according to the parameter currently set in step S30. If a parameter is followed, it depends on the parameter reference power and the standby period. As a result of the determination in step S30, when it is necessary to cut off the standby power of the specific control outlet 210, the controller 100 blocks the standby power for the control outlet 210 in step S535. Then, the controller 300 stores the time that the standby power is cut off for the control outlet 210 in step S40.

On the other hand, unless the standby power should be cut off according to the currently set parameter, the controller 100 determines whether to resume power supply to the specific control outlet 210 according to the parameter in step S545. As a result of this determination, when the power supply to the specific control outlet 210 needs to be resumed, the controller 100 resumes the power supply to the corresponding control outlet 210 in step S50, and then the corresponding control outlet in step S55. Save when 210 resumes power supply.

Next, the controller 100 resets the parameters according to the monitored power usage previously stored in step S60, the time when the standby power is cut off for the specific control outlet 210, or the time when the power is resumed. The resetting of these parameters is done as follows. First, it is assumed that the device connected to one of the control outlets 210 is a copy machine, and the parameter set in the copy machine in step S20 is that the reference power is 1 Watt and the standby period is set to 10 minutes. As a result of the power measurement, when the standby power is measured at 0.8 Watt, the reference power may be reset to 0.8 Watt. In addition, as a result of storing the amount of power used, standby power off time, and power supply resume time through the control outlet 210 connected to the copier, the copier is used by many users between 9 am and 12 am and uses standby power. It is assumed that there is not much time to enter the standby state, and there is not much use at 4 to 6 o'clock, so it is assumed that there are many times to wait. In this case, the set parameters are divided and reset according to the time. That is, at 9:00 to 12 o'clock, the standby period is gradually increased from 10 minutes to reduce the number of times that the standby power is automatically cut off. On the other hand, at 4 o'clock to 6 o'clock, the parameter is reset so that the standby time is gradually reduced to cut off the standby power as quickly as possible under the reference power. That is, when the parameter is reset, the power usage may be measured to increase or decrease the reference power. In addition, the standby period can be increased or decreased in consideration of the standby power cutoff time and the power supply resumption time. In addition, the off time may be adjusted in consideration of the standby power off time. The on time can be adjusted in consideration of the power supply resumption time. For example, assume that an outlet drops to reference power at 6:30 every day, then shuts off at 6:40 by the standby period parameter, and resumes power supply manually or automatically at 8:30 every morning. . In this case, 6:30 is set to the off time. Accordingly, when the controller 300 detects that the control outlet 210 falls below the reference power after 6:30, the controller 300 may immediately cut off the standby power without waiting. In addition, by setting 8:30 every morning as the on time, it is possible to automatically supply power at 8:30.

When the parameter is reset, the controller 300 repeats the steps S20 to S60 described above, and this repetition is repeated until the standby power control system is powered off. By gradually resetting the parameters according to the repetition, the standby power can be controlled by adapting to the user's device usage pattern.

According to the present invention as described above, by separately installing (installing) the standby power control system in a space separated from other spaces, the length of the wire can be reduced, the complexity during construction can be reduced, and the cost can be reduced. In addition, by controlling the standby power in consideration of the space, the type of the device installed in the space, and the usage pattern of the user who uses the device, the standby power can be controlled more efficiently.

On the other hand, the present specification and drawings have been described with respect to the preferred embodiment of the present invention, it is common in the art that other modifications based on the technical spirit of the present invention can be carried out even in the embodiments disclosed herein. It is self-evident to those who have knowledge. In addition, although specific terms are used in the specification and the drawings, they are only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention, and are not intended to limit the scope of the present invention.

1: communication line 10: distribution board
30: cable 31: bottom
33: floor 35: support
37: lid 100: control panel
110: relay 120: power sensor
130: I / O interface 200: outlet box
210; Control outlet 220: always outlet
300: controller 400: exchanger (PBX)
500: phone 600: card reader
610: card 700: switch
800: wireless receiver 810: wireless transmitter
900: motion sensor

Claims (9)

A distribution panel providing power through a ground line for inducing ground and a power line for supplying power to the ground;
A plurality of outlet boxes installed at a bottom of a specific space and having at least one control outlet and at least one always-on outlet for which power supply is controlled regardless of whether a connected device is in standby state using standby power;
It is installed on the same floor as the floor, the ground wire is connected to the ground terminal of the control outlet, and provided with a plurality of relays corresponding to each of the control outlet, branched power line by branching the power line to a plurality By connecting the power terminals of each relay and the control outlet corresponding to each relay through, by turning on or off each relay, the standby power is controlled by shutting off or restarting the power supply to the control outlet connected to each relay; Control panel; And
The reference power, which is the amount of power when the device is not used corresponding to the type of the device and the type of the device connected to each of the control outlets, and the period in which the device uses the amount of power less than the reference power continues. A waiting period for turning off the power after a specified period of time, an off time for turning off the power at the same time every day, and a time for turning on the power at the same time every day. Save it,
The parameters are reset by monitoring the amount of power used for each of the control outlets, the time when the power supply to each of the control outlets is cut off, and the time when the supply is resumed in real time, and reset the parameters according to the reset parameters. A controller which controls to cut off the power supplied to the power supply or resume supplying power to the power supply;
The control panel
Further comprising a power sensor for sensing the power consumption of the device connected to each of the control outlet,
When the control panel detects that the devices connected to each of the control outlets use less than a reference level for a set period of time, the control panel turns off a relay corresponding to the outlet connected to the device to cut off the power supply. Standby power control system for installed outlets. delete delete delete The method of claim 1,
An exchanger connected with the controller; And
Further comprising; a plurality of telephones connected to the exchange,
The exchange receives input from the plurality of telephones and delivers it to the controller,
The controller transmits a control signal to the control panel to control power to cut off the power supplied to each of the control outlets according to an input from the telephone, or to turn on or off the relay to resume power supply. Standby power control system for outlets installed on the floor. The method of claim 1,
And a card reader connected to the controller and generating an input signal according to reading a card mapped to any one of the control outlets.
The controller transmits a control signal to the control panel to control power to cut off the power supplied to the control outlet mapped to the card or to turn on or off the relay to resume power supply according to an input signal. Standby power control system for outlets installed on the floor. The method of claim 1,
Connected to the control panel, each of the buttons has a plurality of buttons mapped to each relay, and the relay mapped through the buttons is turned on or off to cut off the power supplied to the control outlet corresponding to the mapped relay; A switch to resume power supply;
A wireless receiver receiving an input for selecting a control outlet from a wireless transmitter and transmitting a control signal to the control panel to turn on and off a relay corresponding to the selected control outlet; And
If the movement of the object is not detected in the preset detection area for a preset period of time, a control signal is input to the control panel to cut off the power supply to the corresponding control outlet. And a motion sensor for inputting a control signal to the control panel to resume power supply to a corresponding control outlet when the motion of the controller is detected. delete delete

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