KR101362777B1 - Concent rf communication - Google Patents

Abstract

The present disclosure relates to an RF communication based outlet device and a standby power blocking method. The RF communication based outlet device according to one embodiment of the present invention includes: a detection unit detecting at least one among current consumption, voltage consumption, and power consumption applied to one device; a communication unit communicating with an external server wirelessly; and a central processing unit confirming the power consumption of the device using at least one among the current consumption, the voltage consumption, and the power consumption, transmitting the power consumption of the device through the communication unit to the server if a first mode is selected, receiving first threshold power, which is determined by the server and a criterion of the device whether to enter a standby mode, from the server via the communication unit, and cutting off standby power for the device by blocking power applied to the device if the power consumption is equal to or less than the first threshold power. [Reference numerals] (110) Input terminal; (130) Sensing unit; (140) Output terminal; (150) Input unit; (160) Central processing unit; (170) Display unit; (180) Communication unit; (30) Server

Description

Wireless communication outlet device and standby power blocking method {Concent RF Communication}

The present invention relates to an electrical outlet, and more particularly, to a wireless communication-based outlet device and a standby power blocking method capable of reducing unnecessary power consumption of home appliances / information devices.

In general, home appliances such as televisions, audio, washing machines, etc. do not perform main functions of the corresponding devices in a state of being connected to an external power source, or consume standby power while waiting for an internal or external ON signal.

This standby power has been recognized as a major power waster for many years, and is sometimes called "Power Vampire" in foreign countries.

According to the Korea Energy Management Corporation in 2004, the average standby power of 300 million electronic / information devices used in Korea is 3.6W, and 300 million electronic / information devices do nothing and consume a total of 1 million watts of electricity. .

In order to reduce wasted energy, the "movement of less than 1W standby power" is being promoted around the world, and in Korea, a national road map (Standby Korea 2010) was established in 2005 to reduce electronic standby power to less than 1W by 2010. .

The most obvious way to avoid wasting power by standby power is to plug and unplug the power supply every time the electronic / information device is turned on and off, which cuts off the power to the electronic / information device. It is not easy to move.

In addition, a multi-outlet having an ON / OFF switch for an outlet for supplying power to an electronic / information device and providing the same effect as a state in which the plug is unplugged when the switch is off is provided. There was a inconvenience to switch on / off each time.

The present invention has been made in the technical background as described above, and an object thereof is to provide a wireless communication-based outlet device and a standby power blocking method capable of detecting whether a home appliance / information device enters a standby mode.

According to an aspect of the present invention, there is provided a wireless communication-based outlet device including: a sensing unit configured to sense at least one of a current consumption, a voltage consumption, and a power consumption applied to a device; A communication unit for wireless communication with an external server; And confirming power consumption of the one device by using at least one of the current consumption, voltage consumption, and power consumption. When a first mode is selected, the power consumption of the one device is transmitted to the server through the communication unit. The first device receives a first threshold power, which is a criterion for determining whether the one device enters the standby mode, from the server through the communication unit, and the power consumption of the one device is equal to or less than the first threshold power. It characterized in that it comprises a central processing unit for shutting off the power applied to cut off the standby power of the one device.

According to another aspect of the present invention, a method for blocking standby power by a wireless communication-based outlet including a sensing unit sensing a power consumption of a device, when the first mode is selected, determines the power consumption of the one device by the sensing unit. Sensing and periodically transmitting to the server in wireless communication; Receiving a first threshold power which is a criterion for determining whether the one device enters a standby mode determined by the server through the wireless communication; And shutting off the power applied to the one device when the power consumption of the one device is less than or equal to the first threshold power to cut off standby power of the one device.

According to the present invention, the threshold power for determining whether the device enters the standby mode may be automatically set by monitoring the power consumption of the home appliance / information device.

1 is a block diagram showing a wireless communication-based outlet device of the present invention.
2 is a block diagram showing a wireless communication-based multi-tap device of the present invention.
3 is a flowchart illustrating a standby power blocking method of the present invention.
Figure 4 is a flow chart illustrating a threshold power setting method of the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used herein, the terms " comprises, " and / or "comprising" refer to the presence or absence of one or more other components, steps, operations, and / Or additions.

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings. 1 is a block diagram illustrating a wireless communication-based outlet device according to an embodiment of the present invention.

As shown in FIG. 1, the wireless communication-based outlet device 10 according to an embodiment of the present invention includes an input unit 150, a switch 120, an input terminal 110, an output terminal 140, a sensing unit 130, It includes an input unit 180, a central processing unit 160 and a display unit 170, and communicates with the server 30 through the communication unit 180.

The input unit 150 provides a user interface for selecting an automatic mode or a manual mode and setting a threshold power.

The switch 120 is provided between an input terminal 110 connected to a power supply source and an output terminal 140 connected to a device that operates by receiving power such as a home appliance / information device. Here, since a typical device is supplied with AC power, the power supply source may be an outlet provided on a wall or the like for supplying AC power.

The switch 120 opens or shorts the path between the input terminal 110 and the output terminal 140 under the control of the central processing unit 160.

The detector 130 measures at least one of current consumption, voltage consumption, and power consumption of the device connected to the output terminal 140. Here, if the power supplied from the power output terminal 140 and applied to the device is AC power, the detector 130 rectifies the AC power and converts the digital power to at least one of current consumption, power consumption, and power consumption of the device. It can be measured.

The central processing unit 160 determines whether the device enters the standby mode using the first threshold power received from the server 30 in the automatic mode, and waits for the device using the second threshold power set by the user in the manual mode. Determine whether to enter the mode.

The central processing unit 160 checks the power consumption of the device by using at least one of the current consumption, voltage consumption, and power consumption sensed by the sensor 130. Here, when the sensing unit 130 detects the current consumption and the voltage consumption, the central processing unit 160 may check the power consumption of the device by the formula that the sum of the current consumption and the voltage consumption.

If the power consumption of the device is less than the first or second threshold power, the central processing unit 160 determines that the device is in the standby mode, and opens the switch 120.

<< automatic In mode  Block standby power to the device >>

When the automatic mode is set, the central processing unit 160 short-circuits the switch 120 to apply power from a power supply to the device, and informs the server 30 of the automatic mode through the communication unit 180 at least once. .

The central processing unit 160 transmits power consumption of the device to the server 30 at predetermined intervals through the communication unit 180 in the automatic mode. In this case, the central processing unit 160 may transmit power consumption of the device to the server 30 only when there is no predetermined first threshold power.

The server 30 is a wall pad of a home network system. The server 30 receives power consumption of the device from the outlet device 10 and determines a first threshold power that determines whether the device enters a standby mode. 10) to pass.

The server 30 calculates a power consumption pattern of the device by monitoring the power consumption of the device received from the outlet device 10 by a predetermined algorithm in the automatic mode of the outlet device 10. In addition, the server 30 sets the first threshold power using the power consumption pattern. Here, the first threshold power may be reference power for determining whether the device enters the standby mode.

For example, the server 30 may determine a value obtained by dividing the average of the maximum and minimum values of power consumption according to the power consumption pattern of the device by a real number between 0 and 1 as the first threshold power. In general, since the standby power is less than half of the power consumption, it is possible to determine whether the device is in the standby mode by dividing the average value of the maximum and minimum values of the power consumption by the decimal.

As another example, the server 30 may determine, as the first threshold power, an average power of a section in which the power consumption varies within a predetermined predetermined power for more than a predetermined threshold time in the power consumption pattern of the device.

In detail, the server 30 may determine the average power of the section in which the power consumption varies continuously within 1 W for 3 minutes or more as the first threshold power.

When the server 30 determines the first threshold power through the above-described process in the automatic mode of the outlet device 10, the server 30 transmits the first threshold power to the outlet device 10.

When the central processing unit 160 receives the first threshold power from the server 30 through the communication unit 180, the central processing unit 160 sets the first threshold power as a reference for determining whether the device enters the standby mode.

The central processing unit 160 monitors the power consumption of the device to determine whether it is less than or equal to a predetermined first threshold power, and when it is less than or equal to the first threshold power, the central processing unit 160 opens the switch 120 so that power from a power supply is not applied to the device. do.

The central processing unit 160 displays at least one of the power consumption and the first threshold power of the device through the display unit 170 in the automatic mode to be recognized by the user.

<< manual In mode  Block standby power to the device >>

When the manual mode is set, the central processing unit 160 checks whether there is a second threshold power preset by the user.

When there is no second threshold power preset in the manual mode or when threshold power setting is requested through the input unit 150, the central processing unit 160 displays a guide message for inducing the input of the second threshold power on the display unit 170. .

When the second threshold power is input through the input unit 150, the central processing unit 160 sets the second threshold power as a reference for determining entering of the standby mode of the device.

Thereafter, the central processing unit 160 checks whether the power consumption of the device is less than or equal to the preset second threshold power. If the power is less than the second threshold power, the central processing unit 160 opens the switch 120 so that power from the power supply is not applied to the device. do.

The central processing unit 160 displays at least one of the power consumption and the second threshold power of the device through the display unit 170 in the manual mode to be recognized by the user.

Meanwhile, the server 30 checks the operation state (normal operation state / standby state / off state) of the device by using the power consumption of the device in at least one of the automatic mode and the manual mode, and through its display unit. I can display it.

Alternatively, the server 30 may output a warning message when the abnormality indication is confirmed from the power consumption pattern identified from the power consumption of the device in the automatic mode.

For example, when the server 30 checks the power consumption pattern of the device and determines that the device does not have a standby mode for a predetermined time (eg, 24 hours), the server 30 outputs a message for inducing power saving through its display unit or a speaker. Or a message indicating a possible failure.

Meanwhile, in the above-described example, the input unit 150 has been described as an example of one driving element. However, the input unit may have a plurality of automatic mode setting buttons, manual mode setting buttons, and standby power setting buttons.

As such, the present invention can provide a system-level algorithm-based control by providing an outlet device capable of interworking with a wall pad in a home network and system level through wireless communication.

Furthermore, the present invention can measure the power consumption of the device by the outlet device, determine the power consumption pattern of the device from the power consumption of the device by the server, and set the first threshold power from which the standby mode of the device is determined. .

In addition, the present invention transmits the first threshold power set by the server to the outlet device to perform the standby power blocking function by the outlet device, and performs the standby power blocking function by the second threshold power set by the user. In addition, due to the poor wireless communication environment due to the structure of the house, it is very effective for controlling devices in areas where system level control is not possible through the wall pad in the house.

Hereinafter, a wireless communication-based multi-tap device according to an embodiment of the present invention will be described with reference to FIG. 2. 2 is a block diagram showing a wireless communication-based multi-tap device according to an embodiment of the present invention.

2, a wireless communication-based multi-tap device 20 according to another embodiment of the present invention may include an input unit 250, an input terminal 210, a plurality of switches 220, a plurality of output terminals 240, and a plurality of input terminals. The detector 230, the communication unit 280, the central processing unit 260, and the display unit 270 are included.

The input unit 250 is a user interface that receives at least one of a manual mode, an automatic mode, and at least one second threshold power.

The input terminal 210 receives power from an external power supply source, and the plurality of output terminals 240 supply power from the input terminal 210 to a plurality of devices respectively connected to the plurality of output terminals 240 when the plurality of switches 220 are shorted.

Here, although one or more devices may be connected to the plurality of output terminals 240, the following description will be given by taking a case where a plurality of devices are respectively connected to the plurality of output terminals 240 for convenience of description.

The plurality of switches 220 are respectively provided between the input terminal 210 and the plurality of output terminals 240 to short-circuit the path between the input terminal 210 and the plurality of output terminals 240 at the time of short-circuit and to open the input terminal 210 at the open. ) And a path between the plurality of output terminals 240.

The plurality of detectors 230 detect power consumption consumed by a plurality of devices respectively connected to the plurality of output terminals 240.

The central processing unit 260 determines whether the device enters the standby mode using the plurality of first threshold powers received from the server 30 in the automatic mode, and uses the plurality of second threshold powers set by the user in the manual mode. It is determined whether the device enters the standby mode.

<< automatic In mode  Shutdown standby power of multiple devices >>

The central processing unit 260 periodically transmits the plurality of power consumptions sensed by the plurality of sensing units 230 to the server 30 through the communication unit 280 in the automatic mode. Here, the central processing unit 260 divides the plurality of power consumption into unique identifiers and transmits them to the server 30.

In the automatic mode, when the server 30 receives a plurality of power consumptions identified by the unique identifiers, the server 30 checks the power consumption patterns corresponding to the unique identifiers and uses the power consumption patterns corresponding to the unique identifiers, respectively. Determine a first threshold power corresponding to the identifier. In this case, the method for calculating the first threshold power by the server 30 is as described above with reference to FIG. 1.

The server 30 transmits the determined first threshold power to the wireless communication-based multi-tap device 20.

When the central processing unit 260 receives the first threshold power corresponding to each unique identifier in the automatic mode, the central processing unit 260 sets a reference for determining whether the device connected to each output terminal 240 enters the standby mode.

Thereafter, the central processing unit 260 checks whether each device connected to each output terminal 240 enters the standby mode using the first threshold power corresponding to each unique identifier, and switches the switch corresponding to the device entering the standby mode. Open to cut off standby power of the device.

<< manual In mode , Shutdown standby power of multiple devices >>

In the manual mode, the input unit 250 receives a plurality of second threshold powers corresponding to the respective output terminals 240 according to a user's manipulation.

In the manual mode, the central processing unit 260 sets the plurality of second threshold powers as a reference for determining whether the device connected to each output terminal 240 enters the standby mode.

The central processing unit 260 cuts off standby power of the device by opening a switch corresponding to the device entering the standby mode.

The display unit 270 displays at least one of power consumption of the plurality of devices and first and second threshold powers under the control of the central processing unit 260.

On the other hand, in at least one of the automatic mode and the manual mode, when the server 30 receives a plurality of power consumption divided by the unique identifier, the operation of the device corresponding to each unique identifier in comparison with the predetermined first threshold power Status (normal operation mode / standby mode / off state) can be displayed.

Hereinafter, a standby power blocking method according to an embodiment of the present invention will be described with reference to FIG. 3. 3 is a flowchart illustrating a standby power blocking method according to an embodiment of the present invention.

Referring to FIG. 3, the wireless communication-based outlet device 10 checks whether a manual mode is set (S310).

When the manual mode is set, the wireless communication-based outlet device 10 checks whether there is a second threshold power preset by the user (S320).

If there is a preset second threshold power, the wireless communication-based outlet device 10 detects power consumption of a device connected to the output terminal and checks whether the second threshold power is less than or equal to the second threshold power (S330).

If the power consumption of the device is less than the second threshold power, the wireless communication-based outlet device 10 cuts off the power applied to the output terminal to block the standby power of the device (S340).

If there is no preset second threshold power, the wireless communication-based outlet device 10 receives a second threshold power by requesting the user (S350).

When the automatic mode is set, the wireless communication-based outlet device 10 periodically detects the power consumption of the device connected to the output terminal and transmits it to the server 30 (S360).

The wireless communication-based outlet device 10 receives a first threshold power from the server 30 to determine whether the device set by the server 30 enters the standby mode (S370). In this case, the server 30 may set a value obtained by dividing the average value of the maximum and minimum values of power consumption according to the power consumption pattern of the device by a real number between 0 and 1 as the first threshold power. Alternatively, the server 30 may set the average power of the section in which the power consumption varies within a predetermined predetermined power as the first threshold power in the power consumption pattern of the device for more than a predetermined threshold time.

The wireless communication-based outlet device 10 checks whether the power consumption of the device is less than or equal to the first threshold power (S380).

When the power consumption of the device is less than the first threshold power, the wireless communication-based outlet device 10 cuts off the power applied to the output terminal connected to the device to block standby power of the device (S340).

As described above, the present invention can maximize the energy saving effect by applying the wireless communication and standby power blocking function to the conventional wired outlet.

Hereinafter, a method of setting a threshold power of a server according to an exemplary embodiment of the present invention will be described with reference to FIG. 4. 4 is a flowchart illustrating a method of setting a threshold power of a server according to an embodiment of the present invention.

Referring to FIG. 4, when the server 30 receives a message indicating the automatic mode from the outlet device 10 (S410), the server 30 uses the power consumption of the device periodically transmitted from the outlet device 10 to determine a power consumption pattern. Check (S420).

The server 30 determines the first threshold power for determining whether the device enters the standby mode by using the power consumption pattern (S430).

The server 30 transmits the determined first threshold power to the outlet device 10 (S440).

On the other hand, the server 30 may check the operation state of the device using the power consumption of the device in at least one of the automatic mode and the manual mode of the outlet device 10, and may display through its display.

In addition, in the automatic mode, the server 30 does not transmit the first threshold power to the outlet device 10 separately, but compares the power consumption of the device from the outlet device 10 with the first threshold power. You can also determine whether you have entered. In this case, the server 30 may instruct the outlet device 10 to open a switch between an input terminal and an output terminal connected to the corresponding device.

As described above, the present invention can automatically set the threshold standby power value by intelligently distinguishing the standby power and power consumption at the system level such as the wall pad in the home network. Can cut off standby power.

While the present invention has been described in detail with reference to the accompanying drawings, it is to be understood that the invention is not limited to the above-described embodiments. Those skilled in the art will appreciate that various modifications, Of course, this is possible. Accordingly, the scope of protection of the present invention should not be limited to the above-described embodiments, but should be determined by the description of the following claims.

Claims (8)

A detector configured to detect at least one of a current consumption, a voltage consumption, and a power consumption applied to one device;
A communication unit for wireless communication with an external server; And
The power consumption of the one device is checked using at least one of the current consumption, the voltage consumption, and the power consumption. When a first mode is selected, the power consumption of the one device is transmitted to the server through the communication unit. Receives a first threshold power, which is a criterion for determining whether the one device enters the standby mode, from the server through the communication unit. It includes a central processing unit for cutting off the power applied to cut off the standby power of the one device,
The central processing unit,
Transmitting power consumption of the one device to the server only when there is no first threshold power;
Wireless communication based outlet device. The method of claim 1, wherein the central processing unit,
When the second mode is selected, the second threshold power, which is a criterion for determining whether the one device enters the standby mode, is determined by the user, and when the power consumption of the one device is less than or equal to the second threshold power, Wireless communication-based outlet device to cut off the standby power. The method of claim 1,
If it further comprises a sensing unit for sensing at least one of the current consumption, power consumption voltage and power consumption of other devices other than the one device,
The central processing unit checks the power consumption of the other device from at least one of the current consumption, the voltage consumption, and the power consumption of the other device, and calculates the power consumption of the one device and the power consumption of the other device separated by a unique identifier. Transmits to the server through the communication unit, receives a first threshold power of the one device and a first threshold power of the other device from the server through the communication unit, and identifies the first threshold power of the other device. And determining whether the one device enters the standby mode by using a threshold power, and determining whether the other device enters the standby mode by using the first threshold power of the other device. The server according to claim 1,
The power consumption pattern of the one device is checked by checking the power consumption of the one device for a predetermined period or more, and the average value of the maximum and minimum values of the power consumption of the one device according to the power consumption pattern is between 0 and 1. The wireless communication-based outlet device for determining the value divided by the real number as the first threshold power. The server according to claim 1,
And determining an average power of a section in which power consumption of the one device varies over a predetermined threshold time and within a predetermined predetermined power as the first threshold power. A standby power blocking method by a wireless communication-based outlet including a sensing unit sensing power consumption of a device,
If a first mode is selected, detecting power consumption of the one device by the detector and periodically transmitting the wireless power to a server;
Receiving a first threshold power which is a criterion for determining whether the one device enters a standby mode determined by the server through the wireless communication; And
If the power consumption of the one device is less than or equal to the first threshold power, cutting off power applied to the one device to cut off standby power of the one device;
The step of transmitting in the wireless communication,
Transmitting power consumption of the one device to the server only when there is no first threshold power;
Standby power off method. The method according to claim 6,
If a second mode is selected, receiving a second threshold power as a criterion for determining whether the one device enters a standby mode according to an operation by a user; And
If the power consumption of the one device is less than or equal to the second threshold power, shutting off standby power of the one device;
Standby power blocking method further comprising. The method according to claim 6,
Checking, by the server, the power consumption of the one device over a predetermined period of time to identify a power consumption pattern of the one device; And
Determining a value obtained by dividing an average of a maximum value and a minimum value of power consumption of the one device by a real number between 0 and 1 according to the power consumption pattern as the first threshold power; or
Determining an average power of a section in which the power consumption of the one device varies over a predetermined threshold time and within a predetermined predetermined power as the first threshold power
Standby power blocking method further comprising.

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