KR20160140049A - Power Supply Method for Smart Outlet using an Vibration Sensor - Google Patents

Abstract

Provided is a method of applying power for a smart outlet using a vibration sensor. The method of applying power for a smart outlet using a vibration sensor according to an embodiment of the present invention comprises: a power control unit transferring power to a connected device; a sensor detecting movement; and a metering unit controlling a power control unit to block transferring of power to a device when the device consumes standby power and controlling the power control unit to resume that the transferring of power to the device when movement is generated. Therefore, the method of applying power for a smart outlet using a vibration sensor can very simply, directly, and conveniently apply power of a smart outlet and have an advantage in which an external device or an additional appurtenance, such as a button, an infrared light receiving unit, an FR remote control, a smart phone, or the like, is not needed.

Description

Technical Field [0001] The present invention relates to a power supply method for a smart outlet,

The present invention relates to a smart outlet, and more particularly, to a method that can be turned on easily when a smart outlet is turned off.

A method of powering a smart outlet, a standby power cutoff device, a smart plug, and a smart multitap (hereinafter, referred to as a smart outlet) is mainly as follows.

1) How to use the button

When the user presses a button on the case of the smart outlet, the power of the smart outlet is applied and the connected household appliance can be used.

2) Extension of the length of the button using cable (wire)

In case of '1)', because the button is located in the case of the smart outlet, it is difficult for the user to directly press depending on the installed position. To do this, the button is isolated from the smart outlet through a cable (or wire).

 3) Use of infrared receiver

A remote control signal is received, and an infrared receiver capable of learning is connected to a smart outlet by a cable (or wire), and power is applied in response to a previously learned remote control signal.

4) Use separate RF remote control

It is a way to put the RF receiver in the smart outlet and separate RF remote control for each smart outlet so that the user can turn it on and off at will.

5) How to integrate smartphone app

In the case of a smart outlet that incorporates a wireless communication module such as Bluetooth or Wi-Fi, it can be turned on and off remotely through an app on a smartphone.

However, the above methods have the following problems.

1) Use of buttons

There is an inconvenience that the button is mounted to the case and the user must directly reach the smart outlet and press the button accurately

2) Extension of the length of the button using cable (wire)

This is the most commonly used method, but there is a problem that the outside of the cable becomes dirty.

3) Use of infrared receiver

Only the remote control signals using a specific frequency band can be learned, the learning process is complicated, and the remote control can be turned on only by operating the remote control twice. Once the smart outlet is turned on, the other one is after confirming that the smart outlet product is powered and there is a further inconvenience to operate the remote control again to turn on the appliances.

4) Use separate RF remote control

However, since it is necessary to place a separate remote control for each smart outlet device, it is troublesome to find and control the corresponding remote control to turn on the corresponding outlet.

5) How to integrate smartphone app

The WiFi or Bluetooth of the smartphone should be always on, and after running the app, it is troublesome to find and control the corresponding smart outlet through the UI of the app.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of turning on a smart outlet and turning on a smart outlet by using a vibration sensor, The method of the present invention.

According to an aspect of the present invention, there is provided an apparatus for automatically interrupting standby power, the apparatus comprising: a power controller for transmitting power to a connected device; A sensor for sensing motion; And a metering unit for controlling the power control unit to stop power transmission to the device when the device consumes standby power, and to control the power control unit to restart power transmission to the device when the motion occurs.

The movement may be caused by a hand motion or a motion of the user.

In addition, the metering unit may control the power control unit such that power transmission to the device is not resumed if the movement is greater than a predetermined size.

The automatic standby power interruption device according to the embodiment of the present invention may further include a communication unit for externally transmitting power consumption information of the device measured by the metering unit, It is possible to transmit the occurrence of the motion to the metering unit.

In addition, the communication unit may read the sensing information by an interrupt method or a polling method.

According to another aspect of the present invention, there is provided a power supply control method comprising the steps of: when a device connected to an automatic standby power cutoff device consumes standby power, disconnecting power to the device; And restarting power transmission to the device when a movement of the automatic standby power blocking device occurs.

As described above, according to the embodiments of the present invention, by using the vibration sensor provided in the smart outlet, when the smart outlet is in a position directly touching the user's hand, Is under the user's foot, the user can lightly touch the foot or automatically apply the power when the power is off.

Thereby, the user can power on the smart outlet in a very simple, intuitive, and convenient manner, and does not need any preliminary learning work.

In addition, according to embodiments of the present invention, additional accessories such as a button, an infrared receiver, an RF remote controller, a smart phone, or an external device are not required.

1 is a block diagram of a smart outlet according to an embodiment of the present invention,
2 is a flow chart provided in the description of a power control method of a smart outlet according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a block diagram of a smart outlet according to an embodiment of the present invention. A smart outlet according to an embodiment of the present invention is a type of a standby power automatic shutoff device for automatically shutting down standby power consumption of a connected device.

A smart outlet according to an embodiment of the present invention resumes power supply to the device when it is hand-held or kicked by the user.

1, the smart outlet according to the embodiment of the present invention includes a current sensing unit 110, a voltage sensing unit 120, a metering IC 130, a power control module 140 A communication IC 150, and a vibration sensor 160.

The power control module 140 is a switching device that outputs or cuts the AC input to the AC output terminal and supplies / cuts off power to the device connected to the AC output terminal. The power supply control module 140 is controlled by a communication IC 150 or a metering IC 130 to be described later.

The current sensing unit 110 measures the current of the AC power source applied from the external socket to the device side, and the voltage sensing unit 120 measures the voltage of the applied power source.

The metering IC 130 calculates various power consumption information such as current, voltage, power, power factor, and frequency using the measurement results of the current sensing unit 110 and the voltage sensing unit 120, and stores the information in an internal register.

The communication IC 150 transmits the power consumption information stored in the internal register of the metering IC 130 to an external device (a home server, a gateway, a user PC, or a smartphone). There is no restriction on the communication method such as ZigBee, Bluetooth, and wireless LAN.

The vibration sensor 160 senses the movement of the smart outlet. The movement of the smart outlet occurs when the smart outlet is touched by the user's hand, when the smart outlet is removed by the user's action, or the like.

In addition, the communication IC 150 reads the sensing information of the vibration sensor 160 to determine whether the smart socket has been moved by the user. This can be achieved by using a CPU core provided inside the communication IC 150. [ The communication IC 150 can read the sensing information of the vibration sensor 160 by an interrupt method or a polling method.

A program for processing it must be added to the CPU core in the communication IC 150. [ If it is determined by the sensing information that the smart socket has been moved, the power supply control module 140 is controlled to resume power supply to the connected device. This corresponds to the case where the communication IC 150 controls the power supply control module 140. [

When the metering IC 130 controls the power supply control module 140, the communication IC 150 transmits the fact of occurrence of movement of the smart outlet to the metering IC 130, And controls the module 140 to restart the power supply to the connected device.

On the other hand, when the movement of the smart outlet is very large beyond a predetermined size, the communication IC 150 or the metering IC 130 keeps the cutoff state by the power control module 140, It can be prevented from being restarted.

This is because, when the smart socket is moved by an external force other than a hand motion or a motion of the user, the user must treat the smart socket as a case where the power supply of the device is not intended to be resumed.

2 is a flow chart provided in the description of a power control method of a smart outlet according to another embodiment of the present invention.

2, the communication IC 150 and the metering IC 130 control the power control module 140 to supply power to the device when the connected device is consuming standby power (S210-Y) (S220).

If the movement of the smart outlet is detected through the vibration sensor 160 at step S230-Y and the magnitude of the movement is less than the predetermined threshold size at step S240-Y, As a result.

Accordingly, the communication IC 150 or the metering IC 130 controls the power supply control module 140 to resume power supply to the device (S250).

Up to now, preferred embodiments of a smart outlet using a vibration sensor and a method of applying power thereto have been described in detail.

It is a matter of course that the technical idea of the present invention can also be applied to a standby power automatic shut-off device other than a smart outlet.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

110: current sensing unit 120: voltage sensing unit
130: Metering IC 140: Power control module
150: Communication IC 160: Vibration sensor

Claims (6)

A power control unit for transmitting power to a connected device;
A sensor for sensing motion; And
And a metering unit for controlling the power supply control unit to shut off the power supply to the device when the device consumes standby power and to control the power supply control unit to restart the power supply to the device when the movement occurs Automatic standby power cutoff device.
The method according to claim 1,
The movement may include,
Wherein the automatic standby power interruption device is generated by a hand motion or a motion of a user.
The method according to claim 1,
Wherein the metering unit comprises:
And controls the power control unit so that power transmission to the device is not resumed if the movement is greater than a predetermined size.
The method according to claim 1,
And a communication unit for transmitting power consumption information of the device measured by the metering unit to the outside,
Wherein,
And transmits a movement occurrence occurrence to the metering unit when it is determined that the movement is generated through sensing information of the sensor.
The method of claim 4,
Wherein,
And the sensing information is read by an interrupt method or a polling method.
Disconnecting the power to the device when the device connected to the standby power automatic shutdown device consumes standby power; And
And restarting power transmission to the device when a movement of the automatic standby power interruption device occurs.

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