KR101864025B1 - Electrical outlet via the standby power control system Intelligent Motion - Google Patents

Abstract

The present invention relates to a standby power control system for an electrical outlet through intelligent human body detection, and more particularly, to a system and method for effectively detecting presence or absence of a person by applying to a public use facility, So that standby power can be reduced.
The configuration of the present invention includes: n space areas (S) partitioned by arranging an electrical outlet (10) to which a lighting device and an air conditioner installed in each room and a moving path of a building,
A TIR sensor or a radar sensor connected to each of the n spatial areas S and continuously installed at predetermined intervals in each room and a moving path of the building for sensing a heat or a movement of a person, N sensor detecting unit 20 including a sensor and outputting a signal sensed by the sensor;
A main power source is inputted and the output is connected to the lighting device and the electrical outlet 10 provided in the n spatial areas S and the signals inputted from the n sensor sensors 20 are converted into digital information A lighting device provided in a space area S including a sensor sensing part 20 outputting a sensing signal in comparison with the set information, and a management controller (not shown) for applying electricity to the electrical outlet 10 30);
A display 40 for displaying the position and operating state of the space S and the sensor sensing unit 20;
And a management operating unit 50 connected to the management control unit 30 and connected to a wired or wireless communication network and capable of applying setting information to the operation and lighting apparatus and the electrical outlet 10. [
The management control unit 30 receives the sensing signal of the S-1 spatial zone and the sensing signal of the S-2 spatial zone, and receives the input time difference The electric power supply to the S-3 space zone is first applied within a shorter time, and the electric power supplied to the S-3 space zone is set to 5 to 30 seconds after the sensing signal input of the sensor sensing unit provided in the S- And a timer 31 for automatically shutting off the power supply.
The management control unit 30 stores information on the lighting fixtures and electrical outlets 10 provided in the respective spatial areas S and measures the illuminance of the sensor sensing unit 20 connected to the spatial area S and the time And the control operation unit 50 is further provided with a bypass for manually setting the setting information of the management control unit 30 and initializing the setting information to the initial management information do.

Description

Technical Field [0001] The present invention relates to a standby power control system for an electrical outlet,

The present invention relates to a standby power control system for an electrical outlet through intelligent human body detection, and more particularly, to a system for controlling standby power of an electrical outlet through intelligent human body detection, So that the standby power can be reduced by intelligently interlocking the power-on.

Recently, as interest in office automation or the convergence of home-automation and energy-saving systems has increased, there is no way to operate a lighting device such as a switch operation by a physical operation method, A power saving type sensing device for operating a lighting device or the like is widely used.

Conventionally, most of the above-mentioned sensing apparatuses are configured to be able to identify and detect human movement when a sensor capable of sensing the heat and motion of the human body is applied.

That is, when a person enters the area of the detection sensor, the operation of the illumination device is started by detecting the presence of the person, and when the predetermined time is exceeded, the light is automatically turned off. However, There is an inconvenience that an artificial movement must be made in order to turn on the illumination again because the illumination is turned off because the person can not detect it when the person is not moving.

Therefore, the conventional sensor has a problem that it can not effectively sense the sensor when the person is not moving. Also, the conventional sensor only performs on / off operation for driving the specific device, There is a problem in that it is not possible to provide an infrastructure for practical office automation or home automation by being linked with various lighting, air conditioning, air-conditioning and the like in accordance with the moving tendency or the environmental characteristic of the space.

[Patent Document 1]. Korean Patent Publication No. 10-2013-0120360. Apparatus and method for controlling power consumption devices (Published on November 04, 2013)

In order to solve the problems of the related art as described above, the present invention is applied to public offices, schools, public use facilities, and the like, and can be utilized in conjunction with lighting, air conditioning, There is a purpose.

It is another object of the present invention to provide a power supply control apparatus and a power supply control method of a power supply control apparatus which can control power supply to an electric product connected to a sensor according to detection of a sensor and prevent standby power consumption for other electric products, .

It is still another object of the present invention to provide a method and apparatus for controlling an operation of an electrical product by adjusting a control unit for controlling the operation of the electrical product by wire or wireless communication and restoring the control unit to an initial state, So as to have an operation configuration.

According to an aspect of the present invention,

N space zones (S) partitioned by arranging an electrical outlet (10) to which a lighting apparatus and an air conditioner installed in each room and a moving path of the building and an air conditioning and heating system are connected;

A TIR sensor or a radar sensor connected to each of the n spatial areas S and continuously installed at predetermined intervals in each room and a moving path of the building for sensing a heat or a movement of a person, N sensor detecting unit 20 including a sensor and outputting a signal sensed by the sensor;

A main power source is inputted and the output is connected to the lighting device and the electrical outlet 10 provided in the n spatial areas S and the signals inputted from the n sensor sensors 20 are converted into digital information A lighting device provided in a space area S including a sensor sensing part 20 outputting a sensing signal in comparison with the set information, and a management controller (not shown) for applying electricity to the electrical outlet 10 30);

A display 40 for displaying the position and operating state of the space S and the sensor sensing unit 20;

And a management operation unit (50) connected to the management control unit (30) and operable to transmit setting information to the operation and lighting device and the electrical outlet (10), the control operation unit (50) being connected to the wired or wireless communication network;
The management control unit 30 is provided with information on the lighting apparatus and the electrical outlet 10 provided in each spatial area S and information on the sensor sensing unit 20 connected to the spatial area S, A sensor detecting unit 20 for detecting the illuminance of natural light and a timer sensor for detecting a sunlight or a TIR sensor for detecting human movement or a radar sensor, The lighting device has a configuration for applying or cutting off electricity to the lighting device through a signal of the lighting device,
And supplies electric power to the S-2 space zone including adjacent S-2-1 to S-2-n space zones adjacent to (adjacent to) the S-1 space zone according to the motion detection signal of the S- The lighting apparatus is operated first,
When the sensor detection unit 20 through the TIR sensor or the radar sensor for detecting the heat or movement of a person receives the motion detection signal for the S-2-1 spatial zone, which is one of the S-2 spatial zones, 2 - 1 to S - 2 - 2 to S - 2 - n space areas other than the 2 - 1 space area, the input of the operation sensing signal of S - 1 and the input of S - 2 -1 to S-3-1 adjacent to the S-2-1 spatial zone within a time shorter than the input time difference along the movement direction of the motion detection signal based on the time difference between the S- the lighting device is operated by first supplying electric power to the S-3 space area including the space area, so that electricity is supplied to the electric outlet 10,
The S-1 space area to which the electricity is applied to the lighting apparatus according to the input of the motion detection signal is set to a state in which the input of the motion detection signal is interrupted, the timer 31 included in the management control unit 30, The standby power for the lighting fixture and the electrical outlet 10 is automatically cut off,
The management operation unit 50 is provided with information on the lighting device and the electrical outlet 10 provided in each space S in the management control unit 30 and information on the electrical outlet 10 connected to the sensor sensing unit 20 connected to the space S (S) or the entire space zone (Sn) can be operated at the same time, while being capable of manually setting digital information on the human body temperature and operation through the display (40) to the wired or wireless communication network And a bypass 51 for initializing to the management setting information state,
The setting information is initialized by the function of the bypass 51 according to the selection, and the system is manually returned to the state of operating the power supply of the lighting apparatus and the electrical outlet 10 in each space section S.

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According to the present invention, the sensor sensing unit is provided in each of the n space zones and the space zone, and the electric power supply to each space zone can be applied according to the sensing signal by the sensor sensing unit, Can be saved.

In addition, according to the information set in the management control unit, the illumination of the space zone in the moving direction of the person can be operated, and the illumination of the space zone in which the person is moved and the electric outlet power source are automatically blocked after a predetermined time, Electricity can be used efficiently.

In addition, there is also an effect of improving the satisfaction of products by managing the electric state of the space area by using the management operation unit and the display unit connected to the wired and wireless communication networks.

1 is a schematic diagram of a standby power control system of an electrical outlet through intelligent human body detection according to the present invention.
2 is a flowchart of a standby power control system of an electrical outlet through intelligent human body detection according to the present invention.

The standby power control system of an electric outlet through the intelligent human body detection of the present invention is applied to public use facilities to effectively detect the presence or absence of a person and intelligently interlock the operation of the lighting apparatus and the power supply to the electric appliance, So that the standby power can be reduced.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, first, the present invention applies main power supplied from the outside to a lighting device and an electric plug installed in each room and a moving path of a building through the management control unit 30, To be saved.

To this end, an electrical outlet 10 connected to an electrical plug such as a lighting device and an air conditioner installed in each room and a moving path of a building and an air-conditioning and heating system is divided into n space regions S partitioned by a certain space.

In the n spatial areas S, a sensor sensing unit 20 including a TIR sensor or a radar sensor for sensing the heat or motion of a person and an illuminance sensor for sensing brightness is disposed in the partitioned space S ) To be detected continuously.

That is, the present invention includes an electric outlet 10 connected to an electric plug such as a lighting apparatus and an air conditioning apparatus, an air-conditioning system, etc., provided in one space section S and controls the temperature of a person's body, And a sensor detection unit 20 including a sensor for sensing the temperature of the building. The spatial area S is divided into n blocks according to the size of the building, room, .

The sensor sensing unit 20 may be a Pyro-electricity Infrared (PIR) sensor or a radar sensor that receives a radio wave that strikes an object and emits a radio wave in the form of a pulse, An illuminance sensor is provided for detecting the heat or motion and sensing the brightness of the space S so that the situation in the space S can be more accurately detected.

The sensor sensing unit 20 has n numbers to be installed in each of the n spatial areas S and is electrically connected to the management control unit 30 to which the main power is inputted, 20 are input to the management and control unit 30 and converted into digital information, and are compared with the configuration information previously input to the management and control unit 30.

That is, by contrasting the digital information of the sensing signal input from the sensor sensing unit 20 with the body temperature and the operation of the set person, for example, the curtain moves in the wind or the movement of the cat or dog is controlled by the management controller 30 And does not apply electricity to the electrical outlet 10 of the corresponding spatial area S to which the sensing signal is transmitted.

Here, when a person is sensed in the space S through the sensor sensing unit 20, the power supplied from the main power source is preferentially applied to the lighting device in the space S, The lighting device is automatically turned on and off by comparing and judging the signals from the light intensity sensor so that the electrical supply for operating the appliance in the space S is applied to the outlet 10, The user directly turns on the electric appliance connected to the electric appliance.

That is, in the electrical appliance connected to the electrical outlet 10 to which the present invention is applied, when the power is not applied through the management controller 30, the power of the electrical appliance is turned off to interrupt the standby power , It is preferable that the power is turned on by the user even if the power is supplied from the management control unit 30 to the electrical outlet 10 through the sensor detection.

Accordingly, in the present invention, a variety of products provided with electric plugs such as an air conditioner, an air-conditioning and heating system, a television set, and the like provided in the space area S are connected to the electrical outlet 10, 10, and the product operation of the air conditioner, the cooling and heating system, the television, etc. connected to the electrical outlet 10 is performed by the user directly turning on the product.

At this time, electronic products such as an air conditioner connected to the electrical outlet 10, an air-conditioning and heating system, and a television can be turned off by using various communication methods such as an RF wireless method and a wire / wireless communication method IR sensor Are included in the invention.

The information set in the management and control unit 30 can be received and stored through the management operation unit 50 connected to the wired or wireless communication network. 20 to the display 40 so that the manager and the operator can easily check the power use state inside the building.

The management operating unit 50 is connected to the management control unit 30 and is connected to a wired or wireless communication network so that the setting information of the management control unit 30 can be manually operated or automatically manipulated by experimental data, And a bypass 51 for initializing the setting information (before the standby power control system is installed).

That is, the manager manually manipulates the setting information of the management control unit 30 arbitrarily using the management operating unit 50 so as to allow the lighting and the electrical outlet 10 corresponding to each space section S of the building to be electrically operated and operated The state of the electrical outlet 10 corresponding to the space S is adjusted again or the setting information is initialized by the function of bypass 51 in case of malfunction such as malfunction, It is possible to manually return to the situation of operating the lighting device of each space section S and the power supply of the electrical outlet.

At this time, it is also included in the present invention to initialize all the space zones S of the buildings as well as the one space zone S to the initial settings as described above by using the bypass 51 at the same time.

The management control unit 30 receives the detection signal of the S-1 spatial zone and the detection signal of the S-2 spatial zone, and outputs the input time The power supply to the luminaire located in the S-3 space zone is first applied within a shorter time.

At this time, the management control unit 30 stores information on the electrical products included in the respective space zones S, so that the illuminance of the sensor sensing unit 20 connected to the space zone S, Accordingly, the lighting device is selectively configured to be turned on or off.

Thus, as an embodiment of the present invention, when a person moves from the S-1 space area in the building to the S-2 space area including the adjacent S-2-1 to S-2-n space areas, And the sensor sensing unit 20 through the TIR sensor or the radar sensor that senses the heat or motion of the person is applied to the lighting unit of the S-1 space zone and the S-2 space zone according to the sensing signal of the S- When receiving the motion detection signal for one of the S-2 space zones, the motion detection signals for the S-2-1 to S-2-n space zones other than the S- 2 < -1 > adjacent to the space section within a shorter time than the input time difference along the moving direction of the person, that is, the movement direction of the motion detection signal, based on the time difference with the detection signal input time, Supplying electricity to the S-3 space area containing the -3-1 to S-3-n space areas Line is to be presented one trillion people to operate the luminaire.

The management control unit 30 is further provided with a timer 31 for shutting down the electricity. For example, the S-1 space zone where the person has passed may include a timer 31 for stopping the output of the detection signal of the sensor detecting unit 20, The S-2 space zone in which human heat or movement is being detected is continued to be supplied with electric power, and the S- In the third space zone, electricity is automatically cut off after 5 to 30 seconds in a state in which the sensing signal of the sensor sensing unit 20 is not inputted, thereby reducing unnecessary power consumption.

Accordingly, the electric outlet 10 connected to the plug of the electric appliance such as the lighting apparatus, the air conditioner, and the heating and cooling system only in the corresponding space S sensing the heat or movement of the person and the brightness of the space, The electric power is supplied to the electrical outlet 10 from the management control unit 30 in the other space zone S where no human heat or motion is detected, thereby preventing standby power consumption, .

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

10. Electrical outlet 20. Sensor detection unit
30. Management Control Unit 31. Timer
40. Display 50. Management console
51. Bypass S. Space District

Claims (4)

N space zones (S) partitioned by arranging an electrical outlet (10) to which a lighting apparatus and an air conditioner installed in each room and a moving path of the building and an air conditioning and heating system are connected;
A TIR sensor or a radar sensor connected to each of the n spatial areas S and continuously installed at predetermined intervals in each room and a moving path of the building for sensing a heat or a movement of a person, N sensor detecting unit 20 including a sensor and outputting a signal sensed by the sensor;
A main power source is inputted and the output is connected to the lighting device and the electrical outlet 10 provided in the n spatial areas S and the signals inputted from the n sensor sensors 20 are converted into digital information A lighting device provided in a space area S including a sensor sensing part 20 outputting a sensing signal in comparison with the set information, and a management controller (not shown) for applying electricity to the electrical outlet 10 30);
A display 40 for displaying the position and operating state of the space S and the sensor sensing unit 20;
And a management operation unit (50) connected to the management control unit (30) and operable to transmit setting information to the operation and lighting device and the electrical outlet (10), the control operation unit (50) being connected to the wired or wireless communication network;
The management control unit 30 is provided with information on the lighting apparatus and the electrical outlet 10 provided in each spatial area S and information on the sensor sensing unit 20 connected to the spatial area S, A sensor detecting unit 20 for detecting the illuminance of natural light and a timer sensor for detecting a sunlight or a TIR sensor for detecting human movement or a radar sensor, The lighting device has a configuration for applying or cutting off electricity to the lighting device through a signal of the lighting device,
And supplies electric power to the S-2 space zone including adjacent S-2-1 to S-2-n space zones adjacent to (adjacent to) the S-1 space zone according to the motion detection signal of the S- The lighting apparatus is operated first,
When the sensor detection unit 20 through the TIR sensor or the radar sensor for detecting the heat or movement of a person receives the motion detection signal for the S-2-1 spatial zone, which is one of the S-2 spatial zones, 2 - 1 to S - 2 - 2 to S - 2 - n space areas other than the 2 - 1 space area, the input of the operation sensing signal of S - 1 and the input of S - 2 -1 to S-3-1 adjacent to the S-2-1 spatial zone within a time shorter than the input time difference along the movement direction of the motion detection signal based on the time difference between the S- the lighting device is operated by first supplying electric power to the S-3 space area including the space area, so that electricity is supplied to the electric outlet 10,
The S-1 space area to which the electricity is applied to the lighting apparatus according to the input of the motion detection signal is set to a state in which the input of the motion detection signal is interrupted, the timer 31 included in the management control unit 30, The standby power for the lighting fixture and the electrical outlet 10 is automatically cut off,
The management operation unit 50 is provided with information on the lighting device and the electrical outlet 10 provided in each space S in the management control unit 30 and information on the electrical outlet 10 connected to the sensor sensing unit 20 connected to the space S (S) or the entire space zone (Sn) can be operated at the same time, while being capable of manually setting digital information on the human body temperature and operation through the display (40) to the wired or wireless communication network And a bypass 51 for initializing to the management setting information state,
The setting information is initialized by the function of the bypass 51 in accordance with the selection so as to manually return to the state of operating the power supply of the lighting apparatus and the electrical outlet 10 in each space section S Stand - by power control system for electrical outlets through human body detection.

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