KR20160087439A - Apparatus and method for power control - Google Patents

Abstract

The present invention relates to an apparatus and a method for controlling power and, more specifically, to an apparatus and a method for controlling power, as a technology of automatically controlling power supplied to an electronic device, providing battery power to an entry sensing sensor when a human body is sensed, blocking the battery power to the entry sensing sensor when the human body is not sensed, supplying power to the electronic device when an entry to the entry sensing sensor is checked, and blocking power to the electronic device when all of the human bodies who enter exit.

Description

[0001] APPARATUS AND METHOD FOR POWER CONTROL [0002]

The present invention relates to a power supply control apparatus and method, and more particularly, to a power supply control apparatus and method for automatically controlling a power supplied to an electric apparatus. The power supply apparatus supplies power to an access detection sensor when a human body is sensed. The present invention relates to a power supply control device and method for shutting off power to a sensor, supplying power to an electric device when an entrance and exit sensor is confirmed, and shutting off electric power to an electric device when all the entered persons enter.

Modern living spaces are equipped with various power control devices that make everyday life very convenient.

In particular, in the case of an illumination lamp installed in front of a doorway, when motion of the body is sensed through a sensor, power is supplied to the illumination lamp to light the illumination lamp, and movement of the body is detected A lighting switch control technique for turning off the power supplied to the lighting lamp and turning off the lighting lamp has been known and is commonly used.

The lighting switch control technique using the counting sensor that lights up the lighting lamp when the number of people entering the room and the number of people who enter the room by counting is 1 or more and turns off the lighting lamp when the number of people is 0, There is a bar.

However, it can also be applied to electric appliances such as air conditioner, heater, ondol panel, ventilator, and standby power outlet.

Such facilities are required as facilities for saving electricity, but in the case of an access sensor for detecting the entrance / exit of a person, since the infrared ray emitting LED is generally utilized, the power consumption is excessive.

Therefore, there is a need for a technique capable of automatically controlling the power supplied to the entrance sensor.

Korean Patent Laid-Open Publication No. 10-1998-0077886 discloses an automatic lighting control apparatus and method for a lighting apparatus.

Korea Patent Publication [10-1998-0077886] (Published Date: November 16, 1998)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to reduce the power consumption of the access sensor, The power is cut off to the access detection sensor when the human body is not detected, the power is supplied to the electric device when the entry detection sensor is confirmed, and the power source for cutting off the electric power to the electric device And to provide a control apparatus and method.

According to an aspect of the present invention, there is provided a power supply control apparatus for supplying power to an electric device (20) A power switch unit 100 provided between the power supply unit 20 and the power supply unit 100 to supply or cut off power to the electric device 20; An entrance sensor unit (200) for sensing entry and exit of the body; A body sensor unit 300 which consumes less electric power than the access sensor unit 200 and detects a human body; An entrance sensor switch unit 400 provided at the power input side of the entrance sensor unit 200 and supplying or blocking power to the entrance sensor unit 200; When the human body is sensed through the human body sensor unit 300, power is supplied to the entrance sensor unit 200 by controlling the entrance sensor switch unit 400, and the human body is sensed through the human body sensor unit 300 The control unit controls the entrance sensor switch unit 400 to shut off the power to the entrance sensor unit 200. Based on the entrance and exit results of the body detected by the entrance sensor unit 200, And a control unit (500) for controlling the switch unit (100) to supply or cut off power to the electric device (20).

The control unit 500 controls the power switch unit 100 to supply power to the electric device 20 when the entering amount of the moving body is greater than the advance number of the moving body, The control unit controls the power switch unit 100 to cut off the electric power to the electric device 20.

The control unit 500 may control the entrance sensor switch unit 400 to control the entrance sensor unit 200 when the predetermined period of time has elapsed after the human body unit 300 is not detected by the human body sensor unit 300 And the power supply is cut off.

When the control unit 500 turns off the electric power to the electric device 20 and the body sensor unit 300 does not detect a human body, the controller 500 controls the entrance sensor switch unit 400 And the power is shut off to the access sensor unit 200 by controlling.

The control unit 500 controls the power switch unit 100 to shut off the electric power of the electric device 20 when the entrance sensor unit 200 does not detect a moving body so that a predetermined time elapses, And controls the entrance sensor switch unit 400 so that the power of the entrance sensor unit 200 is also cut off.

Also, the entrance sensor unit 200 includes at least one light emitting sensor 210 for emitting light; And at least one light receiving sensor (220) for receiving the light emitted from the light emitting sensor (210).

In addition, the light emitting sensor 210 and the light receiving sensor 220 can communicate with each other wirelessly.

The human body sensor unit 300 may include at least one sensor selected from a passive infrared ray (PIR) sensor, an infrared sensor, a motion sensor, a temperature sensor, a geomagnetism sensor, an ultrasonic sensor, a Doppler sensor, .

The power control apparatus further includes a battery 600 connected to the entrance sensor unit 200, the human body sensor unit 300, and the control unit 500 to supply power.

The power supply control method according to an embodiment of the present invention includes a power switch unit 100, an entrance sensor unit 200, a human body sensor unit 300, an entrance sensor switch unit 400 and a control unit 500, A power supply control method of a power supply control device for supplying power or shutting off power to a device (20), the method comprising: a human body detection step (S10) of detecting the human body by the human body sensor part (300); The controller 500 controls the entrance sensor switch unit 400 to supply power to the entrance sensor unit 200 when the human body is sensed by the human body sensor unit 300 ); A body detecting step S30 for detecting the entrance and exit of the body by the entrance sensor unit 200; And the control unit 500 controls the power switch unit 100 to supply or cut off the electric power to the electric device 20 based on a result of the entrance and exit of the moving body sensed by the entrance sensor unit 200 And a power supply control step (S40).

The power supply controlling step S40 is a step of controlling the power switch unit 100 to supply power to the electric device 20 when the entering amount of the moving body is greater than the advance number of the moving body, And controls the power switch unit 100 to cut off the electric power to the electric device 20 when the electric power is less than or equal to the advance number.

The power supply control step S40 may control the entrance sensor switch unit 400 to control the entrance sensor unit 200 when the predetermined time has elapsed after the human body sensor unit 300 is not detected by the human body sensor unit 300 The power supply is cut off.

In addition, in the power supply control step S40, when the control unit 500 turns off the electric power to the electric device 20 and a human body is not sensed by the human body sensor unit 300, (400) to shut off power to the access sensor unit (200).

In addition, the power source control step S40 may control the power switch unit 100 to shut off the power of the electric device 20 when a moving body is not detected by the entrance sensor unit 200 so that a predetermined time elapses And controls the entrance sensor switch unit 400 to shut off the power of the entrance sensor unit 200.

According to the power control apparatus and method of the present invention, when a human body is sensed, power is supplied to the entrance / exit sensor, and when a human body is not detected, power is turned off to the entrance / exit sensor, It is possible to supply power to the electric device and to cut off the electric power to the electric device when all the entered persons enter, thereby controlling the electric power supplied to the electric device according to the time when the electric power of the electric device is needed, There is an energy saving effect.

That is, when the power supplied to the entrance sensor is turned off at the time when the entrance sensor is not used, only the human body sensor having relatively low power consumption operates, and when the human body is detected by the human body sensor, It is more effective to save energy than a facility that supplies power to the entrance sensor at all times.

In addition, since the power control apparatus according to an embodiment of the present invention can be installed wirelessly, it is possible to more conveniently perform construction as compared with wired construction, to reduce construction time and construction cost have.

1 is a conceptual diagram of a power supply control apparatus according to an embodiment of the present invention;
Figure 2 is a schematic view according to various embodiments of the access sensor portion of Figure 1;
3 is a conceptual diagram of a power supply control apparatus according to another embodiment of the present invention.
4 is a flowchart of a power control method according to an embodiment of the present invention;

Hereinafter, the present invention will be described in more detail with reference to the drawings. The following drawings are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the following drawings, but may be embodied in other forms. In addition, like reference numerals designate like elements throughout the specification. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. Further, it is to be understood that, unless otherwise defined, technical terms and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Descriptions of known functions and configurations that may be unnecessarily blurred are omitted.

FIG. 1 is a conceptual diagram of a power supply control apparatus according to an embodiment of the present invention, FIG. 2 is a schematic diagram according to various embodiments of the entrance sensor unit of FIG. 1, and FIG. 3 is a schematic view of a power supply control apparatus according to another embodiment of the present invention. FIG. 4 is a flowchart of a power control method according to an embodiment of the present invention.

Prior to the description, the terms used in this specification (and claims) will be briefly described.

"Commercial power source" refers to a power source that is used on a daily basis, and refers to domestic electricity, commercial electricity, and industrial electricity.

For example, in the 'three-phase 4-wire Y wiring' distribution system, which is called 'low pressure' among the electric power produced by KEPCO, the neutral wire and one phase are connected and supplied (two strands) When electricity is supplied and three wires of three phases and a neutral wire are supplied together (four wires), 380V 60Hz commercial or industrial electricity becomes.

"Power" refers to supplying power, and includes voltage sources, current sources, static electricity sources, variable power sources, DC power sources, and AC power sources.

"Power is supplied to the electric device" means that the electric device is powered by the power supplied to the electric device (ON), and "power is not supplied to the electric device" means that the electric device is powered off It means that the electric device stops operating (OFF). For example, when power is supplied to a lighting device, it means that the lighting device is turned on, and when the power is turned off to the lighting device, it means that the lighting device is turned off.

1, a power supply control apparatus according to an embodiment of the present invention includes a power switch unit 100, an input / output sensor unit 100, A body sensor unit 300, an entrance sensor switch unit 400, and a control unit 500. The body sensor unit 300,

The power switch unit 100 is provided between the power unit 10 and the electric device 20 and supplies or cuts off electric power to the electric device 20. [

In other words, the power switch unit 100 is provided on the electric line and serves as a switch, so that electricity can flow and electricity can not flow. For example, when it is composed of a mechanical contact switch, the switch can be closed to allow electricity to flow, and the switch can be opened to prevent electricity from flowing.

Although the mechanical contact switch is described above as an example, the present invention is not limited thereto, and it is also possible to apply any device capable of blocking the flow of electricity, such as by using an electromagnetic non-contact switch.

The entrance sensor unit 200 detects the entrance and exit of the body.

In other words, the entrance sensor unit 200 can sense the moving direction of the moving body, and can detect the entering and leaving according to the moving direction of the moving body.

For example, when installed at a doorway, it can detect whether a person is entering (entering) or leaving (advancing).

At this time, the entrance sensor unit 200 may include at least one light emitting sensor 210 and a light receiving sensor 220.

The light emitting sensor 210 emits light, and the light receiving sensor 220 receives the light emitted from the light emitting sensor 210.

Here, the light emitting sensor 210 and the light receiving sensor 220 may be installed at a height of 60 to 80 cm from the ground. This means that when installed below 60cm, the power can be supplied to the electric devices by detecting pets such as dogs, and when installed over 80cm, the power can not be supplied to the electric devices due to the inability to detect small children Because.

In addition, the light emitting sensor 210 and the light receiving sensor 220 can communicate with each other wirelessly.

If the light emitting sensor 210 and the light receiving sensor 220 are configured to be able to communicate with each other wirelessly, the construction time can be shortened as compared with the construction by wire.

The light receiving sensor 220 may include an auxiliary battery capable of supplying power to the wireless communication module and the wireless communication module so that the light emitting sensor 210 and the light receiving sensor 220 can wirelessly communicate with each other.

That is, the light receiving sensor 220 is driven by the power source of the auxiliary battery,

The light emitting sensor 210, the human body sensor unit 300 and the control unit 500 are driven by a commercial power source and the light emitting sensor 210 and the light receiving sensor 220 can communicate with each other wirelessly.

- Access sensor part Example 1 (2 light emitting parts, 2 light receiving parts - see Fig. 2 (a))

The entrance sensor unit 200 includes a light emitting sensor 210 and a light receiving sensor 220,

The light emitting sensor 210 is installed on one side of the door to illuminate the other side of the door with infrared rays and includes a first light emitting sensor 211 disposed close to the door and a second light emitting sensor 211 installed on one side of the door, And a second light emitting sensor 212 which emits infrared light to the other side and is spaced apart from the door,

The light receiving sensor 220 may include a first light receiving sensor 221 installed on the other side of the door to receive infrared rays of the first light emitting sensor 211 and a second light receiving sensor 221 installed on the other side of the door, And a second light receiving sensor 222 for receiving the infrared rays of the infrared rays.

In this case, the entrance sensor unit 200 determines that the body of the user is entering when the infrared light is not received from the first light receiving sensor 221 to the second light receiving sensor 222, If the infrared ray is not received in the order of the first light receiving sensor 221, it can be determined that the moving body has advanced.

This is because the infrared rays emitted from the light emitting sensor are not received by the light receiving sensor because the object is obstructed in the middle, so that it is possible to detect the entry and advance of the moving body in the order in which infrared rays are not received.

That is, in a state in which the infrared rays of the first and second light emission sensors 211 and 212 are normally received by the first and second light reception sensors 221 and 222, the first light reception sensor 221 The second light receiving sensor 222 determines that the moving body has entered the second light receiving sensor 222 and the second light receiving sensor 222 determines that the second light emitting sensor 212 has received the infrared When the infrared light of the first light emission sensor 211 is not received by the first light reception sensor 221 after the infrared ray is not received by the sensor 212, it is determined that the body has advanced.

The distance between the first and second light emitting sensors 211 and 212 may be 5 mm to 10 mm and the distance between the first and second light receiving sensors 221 and 222 may be 5 mm to 10 mm.

- Access sensor part Example 2 (2 light emitting parts, 1 light receiving part - see Fig. 2 (b))

The entrance sensor unit 200 includes a light emitting sensor 210 and a light receiving sensor 220,

The light emitting sensor 210 is installed on one side of the door and emits infrared rays to the other side of the door, and includes a third light emitting sensor 213 disposed close to the door, and a third light emitting sensor 213 installed on one side of the door. And a fourth light emitting sensor (214) having a frequency different from that of the third light emitting sensor (213), the infrared light irradiating the other side of the third light emitting sensor (213)

The light receiving sensor 220 may include a third light receiving sensor 223 disposed on the other side of the door and receiving the infrared rays of the third light emitting sensor 213 and the fourth light emitting sensor 214.

At this time, the entrance sensor unit 200 determines that the moving body enters the third light receiving sensor 223 when the infrared light is not received from the third light emitting sensor 213 to the fourth light emitting sensor 214, If the infrared light is not received from the fourth light emitting sensor 214 to the third light emitting sensor 213, it can be determined that the moving body has advanced. Since the third light emitting sensor 213 and the fourth light emitting sensor 214 use different frequencies, it is determined whether a signal of a certain frequency has not been received first by the third light receiving sensor 223, Can be distinguished.

That is, in a state where the infrared rays of the third and fourth light emitting sensors 313 and 314 are normally received by the third light receiving sensor 223, after the infrared rays of the third light emitting sensor 313 are not received, When the infrared ray of the third light emission sensor 313 is not received and the body is advanced when the infrared ray of the third light emission sensor 313 is not received after the infrared ray of the fourth light emission sensor 314 is not received It can be judged.

The distance between the third and fourth light emitting sensors 313 and 314 may be 5 mm to 10 mm.

- Access sensor part Example 3 (one light emitting part, two light receiving parts - see Fig. 2 (c))

The entrance sensor unit 200 includes a light emitting sensor 210 and a light receiving sensor 220,

The light emitting sensor 210 includes a fifth light emitting sensor 215 disposed on one side of the door and irradiating infrared rays to the other side of the door,

The light receiving sensor 220 includes a fourth light receiving sensor 221 installed on the other side of the door for receiving the infrared rays of the fifth light emitting sensor 215 and a fourth light receiving sensor 221 installed on the other side of the door, And a fifth light receiving sensor 222 receiving the infrared rays of the second infrared ray receiving unit 215 and spaced apart from the door.

In this case, the entrance sensor unit 200 determines that the moving body is in the entry state when infrared rays are not received in the order of the fifth light receiving sensor 225 from the fourth light receiving sensor 224, If the infrared ray is not received in the order of the fourth light receiving sensor 224 in the order of the fourth light receiving sensor 224,

That is, in a state where infrared light is normally received from the fifth light emitting sensor 315 to the fourth and fifth light receiving sensors 324 and 325, the infrared light is not received by the fourth light receiving sensor 324, It is judged that the moving body has advanced when the infrared light is not received by the fourth light receiving sensor 324 after the infrared light is not received by the fifth light receiving sensor 325 can do.

The distance between the fourth and fifth light receiving sensors 324 and 325 may be 5 mm to 10 mm.

The human body sensor unit 300 uses a smaller amount of electricity than the entry / exit sensor unit 200 and senses a human body.

At this time, the human body sensor unit 300 includes at least one sensor selected from a passive infrared ray (PIR) sensor, an infrared sensor, a motion sensor, a temperature sensor, a geomagnetism sensor, an ultrasonic sensor, a Doppler sensor, .

The entrance sensor switch unit 400 is provided at the power input side of the entrance sensor unit 200 and supplies or blocks power to the entrance sensor unit 200.

The control unit 500 controls the entrance sensor switch unit 400 to supply power to the entrance sensor unit 200 when the human body is sensed through the human sensor unit 300, When the human body is not detected through the input sensor unit 200, the entrance sensor switch unit 400 is controlled to shut off the power to the entrance sensor unit 200. Based on the result of the entrance and exit of the body detected by the entrance sensor unit 200, , And controls the power switch unit (100) to supply or cut off power to the electric device (20).

Control Unit Embodiment 1 (Power control according to the number of entrances and advances of a moving body)

The control unit 500 controls the power switch unit 100 to supply electric power to the electric device 20 when the entering amount of the moving body is greater than the advancing number of the moving body so that the entering amount of the moving body is smaller than the advance number of the moving body The power switch unit 100 is turned off to cut off the electric power to the electric device 20.

For example, the control unit 500 initializes the number of entrances of the moving object to zero during initial driving, and controls the power switch unit 100 to supply power to the electric device 20 when the number of entrances of the moving object is one or more , And controls the power switch unit (100) to control the power switch unit (100) to cut off power to the electric device (20) when the number of entrances of the body is zero. Here, the initial driving refers to a case where the initial power is applied and a case where the electric power is cut off to the electric device 20 by operating the power switch unit 100.

If the entry number of the body is negative (-), it is desirable to initialize the entry number of the body to zero. This is because the count of the number of entrances may be missed.

Control Unit Embodiment 2 (When the time when the human body is not detected is continued, the power of the entrance sensor unit is turned off)

The control unit 500 controls the entrance sensor switch unit 400 to supply power to the entrance sensor unit 200 when a predetermined period of time has elapsed after the human body sensor unit 300 is not detected And blocking the signal.

In other words, the power of the entrance sensor unit 200 can be shut off irrespective of whether power is applied to the electric device 20 or not.

That is, when a human body is sensed by the human body sensor unit 300, the control unit 500 controls the entrance sensor switch unit 400 to supply power to the entrance sensor unit 200, The control unit 500 controls the input / output sensor switch unit 400 to turn off the power to the input / output sensor unit 200.

When the power is supplied to the access sensor unit 200, the controller 500 controls the power switch unit 100 based on a result of the entrance and exit of the body detected by the entrance sensor unit 200, And supplies or cuts off the electric power to the electric device (20).

At this time, even if the power of the entrance sensor unit 200 is shut off, since the entrance and advancement results of the body detected by the entrance sensor unit 200 are stored in the control unit 500, There is no obstacle to this.

Control Unit Embodiment 3 (Power supply of the entrance sensor unit is turned off when the power of the electric device is turned off and the human body is not detected)

When the control unit 500 turns off the electric power to the electric device 20 and the human body is not sensed by the human body sensor unit 300, the controller 500 controls the entrance sensor switch unit 400 And the power is shut off to the access sensor unit 200.

It is preferable to apply this when it is not necessary to supply the electric power at all times.

Control Unit Embodiment 5 (power saving when there is no long-term access)

The control unit 500 controls the power switch unit 100 to shut off the electric power of the electric device 20 when the entrance sensor unit 200 does not detect a moving body so that a predetermined time elapses, The controller may control the switch unit 400 to disconnect the power source of the access sensor unit 200. This is because, even if there is no human being, the count of the advance of the body may be missed.

When the power switch unit 100, the entrance sensor unit 200, the body sensor unit 300, the entrance sensor switch unit 400 and the control unit 500 are installed by wire, the entrance sensor unit 200, The sensor unit 300 and the control unit 500 may be connected to a commercial power source.

1, the power supply control apparatus according to an embodiment of the present invention may be connected to the entrance sensor unit 200, the human body sensor unit 300, and the control unit 500, And a battery 600 for supplying power.

4, a power supply control method according to an exemplary embodiment of the present invention includes a power switch unit 100, an entrance sensor unit 200, a human body sensor unit 300, an entrance sensor switch unit 400, (500), the method comprising the steps of: detecting a human body (S10); operating a body detecting sensor (S20); detecting a body (S30) and a power source control step (S40).

In the human body detection step S10, the human body sensor unit 300 senses a human body.

When the human body is sensed by the human body sensor unit 300, the control unit 500 controls the entrance sensor switch unit 400 to turn on the power source sensor unit 200 Supply.

In the moving body detection step S30, the entrance sensor unit 200 detects the entry and advance of the body.

In the power supply control step S40, the control unit 500 controls the power switch unit 100 on the basis of the entrance and exit results of the moving body sensed by the entrance sensor unit 200, Supply or cut off power.

When the number of entrances of the body is greater than the number of entries of the body, power is supplied to the electric apparatus 20 by controlling the power switch unit 100. When the entry of the body is less than or equal to the number of entries of the body, And controls the power switch unit 100 to cut off power to the electric device 20. [

For example, in the case of an office having a constant commute time, the power can be set to be cut off to the access sensor unit 200 when a predetermined power saving time (for example, 20:00) is reached. When the human body sensor unit 300 senses a person coming to work early, power is supplied to the access sensor unit 200, and the result of counting is counted by the access sensor unit 200, On / off (ON / OFF).

The power supply control step S40 may control the entrance sensor switch unit 400 to control the entrance sensor unit 200 when the predetermined time has elapsed after the human body sensor unit 300 is not detected by the human body sensor unit 300 The power supply is cut off.

For example, when the access time of a person such as a lecture room is constant, the power is turned off to the entrance sensor unit 200 at a time when no person enters or exits, such as a river time or a lecture time, Since the human body is sensed by the sensor unit 300, power can be supplied to the access sensor unit 200. At this time, it is possible to set the predetermined time to 5 seconds to 60 seconds or the like.

In addition, in the power supply control step S40, when the control unit 500 turns off the electric power to the electric device 20 and a human body is not sensed by the human body sensor unit 300, The control unit 400 controls the power supply to the access sensor unit 200.

For example, if it is confirmed that there is no person inside the room, such as a classroom, a conference room, a restroom, etc., The power can be turned off and the counting can be initiated.

In addition, the power source control step S40 may control the power switch unit 100 to shut off the power of the electric device 20 when a moving body is not detected by the entrance sensor unit 200 so that a predetermined time elapses And controls the entrance sensor switch unit 400 to shut off the power of the entrance sensor unit 200.

For example, in the case of a toilet, if there are fewer people than the number of people entering the toilet, the power is continuously supplied to the entrance sensor unit 200. In this case, however, it is determined that the counting is wrong, and the power source of the electric device 20 and the power source of the entrance sensor unit 200 are turned off, and the counting is initiated can do.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Power supply unit 20: Electrical equipment
100: Power switch unit 200:
210: Light emitting sensor 220: Light receiving sensor
300: human body sensor part 400: entrance sensor switch part
500: control unit 600: battery
S10: Human body detection step S20: Moving body detection sensor operation step
S30: Moving body detection step S40: Power supply control step

Claims (14)

1. A power supply control device for supplying electric power to or cutting off electric power to an electric device (20)
A power switch unit (100) provided between the power unit (10) and the electric device (20) to supply or cut off electric power to the electric device (20);
An entrance sensor unit (200) for sensing entry and exit of the body;
A body sensor unit 300 which consumes less electric power than the access sensor unit 200 and detects a human body;
An entrance sensor switch unit 400 provided at the power input side of the entrance sensor unit 200 and supplying or blocking power to the entrance sensor unit 200; And
When the human body is sensed through the human body sensor unit 300, power is supplied to the entrance sensor unit 200 by controlling the entrance sensor switch unit 400, and when a human body is sensed through the human body sensor unit 300 The controller controls the entrance sensor switch unit 400 to shut off the power to the entrance sensor unit 200. Based on the entrance and exit results of the body detected by the entrance sensor unit 200, A control unit (500) for controlling the unit (100) to supply or cut off power to the electric device (20);
And a power supply control unit.
The method according to claim 1,
The control unit 500
When the entrance number of the moving body is greater than the advance number of the moving body, power is supplied to the electric device 20 by controlling the power switch section 100, and when the entering number of the moving body is smaller than or equal to the advance number of the moving body, And controls the switch unit (100) to cut off power to the electric device (20).
The method according to claim 1,
The control unit 500
If a predetermined time has elapsed after the human body sensor unit 300 is not sensed,
And controls the entrance sensor switch unit (400) to shut off power to the entrance sensor unit (200).
The method according to claim 1,
The control unit 500
When the control unit 500 cuts off power to the electric device 20 and a human body is not sensed by the human body sensor unit 300,
And controls the entrance sensor switch unit (400) to shut off power to the entrance sensor unit (200).
The method according to claim 1,
The control unit 500
When the body sensor is not detected by the entrance sensor unit 200 so that a predetermined time elapses, the electric power of the electric device 20 is shut down by controlling the power switch unit 100, and the entrance sensor switch unit 400 And the power source of the access sensor unit (200) is also cut off.
The method according to claim 1,
The entrance sensor unit 200
At least one light emitting sensor (210) for emitting light; And
At least one light receiving sensor (220) for receiving the light emitted from the light emitting sensor (210);
And a power supply control unit.
The method according to claim 6,
The light emitting sensor 210 and the light receiving sensor 220
And the power switch unit (100) can communicate with each other wirelessly.
The method according to claim 1,
The human body sensor unit 300 includes:
Wherein the at least one sensor includes at least one sensor selected from a passive infrared ray (PIR) sensor, an infrared sensor, a motion sensor, a temperature sensor, a geomagnetism sensor, an ultrasonic sensor, a Doppler sensor, and a human body sensor.
The method according to claim 1,
The power supply control device
A battery 600 connected to the entrance sensor unit 200, the human body sensor unit 300, and the control unit 500 to supply power, a capacitor 600;
Further comprising:
And includes a power switch unit 100, an entrance sensor unit 200, a human body sensor unit 300, an entrance sensor switch unit 400 and a control unit 500, The power control method comprising:
A human body sensing step (S10) of sensing the human body by the human body sensor unit 300;
The controller 500 controls the entrance sensor switch unit 400 to supply power to the entrance sensor unit 200 when the human body is sensed by the human body sensor unit 300 );
A body detecting step S30 for detecting the entrance and exit of the body by the entrance sensor unit 200; And
The control unit 500 controls the power switch unit 100 based on a result of the entrance and exit of the moving body sensed by the entrance sensor unit 200 to supply power to the electric device 20 Control step S40;
.
11. The method of claim 10,
The power supply controlling step S40
When the entrance number of the moving body is greater than the advance number of the moving body, power is supplied to the electric device 20 by controlling the power switch section 100, and when the entering number of the moving body is smaller than or equal to the advance number of the moving body, And controls the switch unit (100) to cut off power to the electric device (20).
11. The method of claim 10,
The power supply controlling step S40
If a predetermined time has elapsed after the human body sensor unit 300 is not sensed,
And controls the entrance sensor switch unit (400) to shut off power to the entrance sensor unit (200).
11. The method of claim 10,
The power supply controlling step S40
When the control unit 500 turns off the power to the electric device 20 and the body is not sensed by the body sensor unit 300, the control unit controls the entrance sensor switch unit 400, (200) is turned off.

11. The method of claim 10,
The power supply controlling step S40
When the body sensor is not detected by the entrance sensor unit 200 so that a predetermined time elapses, the electric power of the electric device 20 is shut down by controlling the power switch unit 100, and the entrance sensor switch unit 400 And the power source of the access sensor unit (200) is also cut off.

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