KR20130033852A - Apparatus and method for lighting control - Google Patents

Abstract

PURPOSE: A lighting device control device and a controlling method thereof are provided to increase energy efficiency by controlling a lighting device according to the existence of a person. CONSTITUTION: A lighting device control device(200) comprises an information storage part(210), a control part(220), and a communication part. The information storage part stores corresponding relation information between a computer and the mode state information of each computer. The communication part receives a mode conversion signal from multiple computer agent modules. The communication part delivers the received mode conversion signal to the control part. The control part determines the existence of a person in each domain with the mode conversion signal of multiple computers. The control part turns off lighting devices mounted in the domain where there is no person. [Reference numerals] (210) Information storage part; (220,230) Control part;

Description

Lighting control device and method {APPARATUS AND METHOD FOR LIGHTING CONTROL}

The present invention relates to a lighting control apparatus and method, and more particularly to a lighting control apparatus and method for controlling the lighting of the lighting depending on the presence of the occupants.

In the office, energy saving is being practiced in real life by turning off the lights during the absence of people or during lunch breaks.

At this time, the user directly turns off the lighting by operating the switch on the wall. Therefore, since the user often flickers or does not recognize the lighting off, the effect of energy saving is low. In order to overcome these disadvantages, a light control device capable of controlling light remotely is used, but the light control device remotely controls and monitors light through batch control or schedule control, and most of them determine whether there are occupants. There is a limit to energy saving because there is no function.

On the other hand, by adding a room detection sensor that can determine the presence of the occupants, the lighting control device controls the lighting according to the presence of the occupants as well as the collective control or schedule control, but to detect a number of occupants Additional sensors need to be installed, especially PIR (Pyroelectric Infrared Ray) occupancy detection sensor determines that there are occupants when there is a user's movement. There is this.

The technical problem to be solved by the present invention is to provide a lighting control device and method that can control the lighting of the lighting according to the presence of the occupants without the presence sensor to determine the presence of the occupants.

According to one embodiment of the present invention, there is provided an apparatus for controlling a plurality of lights that respectively emit light to a plurality of areas of an indoor space. The lighting control device includes a communication unit and a control unit. The communication unit receives a mode switching signal from the normal mode to the power saving mode or from the power saving mode to the normal mode from a plurality of computers located in each area. The controller determines whether there are occupants in each area from the mode change signals of the plurality of computers, and turns off the lighting corresponding to the area in which it is determined that there are no occupants.

The lighting control device may further include an information storage unit storing mode state information of a plurality of computers located in an area in which each light is illuminated. In this case, the controller may update the mode states of the plurality of computers from the mode change signals of the plurality of computers.

The controller may turn off the lighting by determining that there are no occupants in the corresponding area when it is determined that a plurality of computers located in an area illuminated by one of the lights is in a power saving mode.

When it is determined that at least one computer of the corresponding area is in a normal mode when the lighting of the corresponding area is turned off, the controller may determine that there are occupants in the corresponding area and turn on the lighting of the corresponding area. have.

The controller may determine that there are occupants in the corresponding area when it is determined that at least one of the plurality of computers located in the area illuminated by one of the lights is in the normal mode.

The controller counts the number of computers in the power saving mode corresponding to each of the lights, and if the number of computers in the power saving mode is equal to the number of computers located in the area in which the lighting is illuminated, You can judge that there is.

According to an embodiment of the present invention, a method of controlling an illumination that emits light in any one area of an indoor space is provided by a light control device. The lighting control method may include receiving a mode change signal from a normal mode to a power saving mode or a power saving mode to a normal mode from a plurality of computers located in the area; Determining a mode state, determining that there are no occupants in the area when the mode states of the plurality of computers are all in the power saving mode state, and turning off the illumination when it is determined that there are no occupants in the area. Include.

The determining may include updating a mode state of the computer that has transmitted the mode change signal to a power save mode when receiving a mode change signal from the normal mode to the power save mode, and from the power save mode to the normal mode. Upon receiving the mode switch signal, the method may include updating a mode state of the computer that has transmitted the mode switch signal to the normal mode state.

The lighting control method may further include determining that there are occupants in the area when a mode state of at least one of the plurality of computers is a normal mode.

According to an embodiment of the present invention, it is possible to determine the presence of the occupants without the occupancy detection sensor for determining the presence of the occupants, and to control the lighting according to the presence of the occupants, thereby increasing the energy saving effect. .

1 is a view showing a remote lighting control system according to an embodiment of the present invention.
2 is a view schematically showing the structure of the lighting shown in FIG.
3 is a block diagram of the lighting control device of FIG. 1.
4 is a flowchart illustrating an operation of a lighting control device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification and claims, when a section is referred to as "including " an element, it is understood that it does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Now, a lighting control apparatus and method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a remote lighting control system according to an embodiment of the present invention.

Referring to FIG. 1, a remote light control system includes a plurality of lights 100, a light control device 200, and a plurality of computers 300.

Each light 100 has an identifier (ID) for distinguishing it from other lights 100, and lights up a light source according to the control of the light control device 200.

The lighting control apparatus 200 receives a mode switching signal from at least one computer 300 located in an area in which each of the lights 100 can emit light, and outputs each lighting device from the mode switching signals received from the plurality of computers. 100) lights on and off.

These lighting control device 200 may be connected to the computer 300 through a network, it may have a communication unit that can be connected to the network.

The computer 300 is installed in an indoor space such as an office to control lighting and has an identifier (ID) for distinguishing it from other computers 300.

The computer 300 enters a power saving mode when there is no user input for a set time. At this time, the computer transmits a mode change signal to the lighting control device 200 informing the switch to the power saving mode from the normal mode before the power saving mode. On the contrary, when the computer 300 receives the user's input in the power saving mode, the computer 300 switches to the normal mode, and after switching to the normal mode, transmits a mode change signal to the light control device 200 informing the switching from the power saving mode to the normal mode. To pass.

That is, when the mode switch is made from the normal mode to the power saving mode or from the power saving mode to the normal mode, the computer 300 may notify the lighting control device 200 of the mode switching signal before or after the mode switching signal. ) May be included.

In detail, the lighting control apparatus 200 may determine that all of the computers located in each region are switched to the power saving mode from the mode switching signal received from the agent module 310 of each computer 300. The lighting 100 is controlled to turn off 100, and at least one of the computers located in the area to which the lighting 100 belongs is switched from the power saving mode to the normal mode while the lighting 100 is turned off. If it is determined, the lighting 100 is controlled so that the lighting 100 illuminating the corresponding area is turned on.

In addition, the lighting control device 200 may control the lighting and turning off of the plurality of lighting devices 100 in a set schedule or collectively.

2 is a view schematically showing the structure of the lighting shown in FIG.

Referring to FIG. 2, the lighting 100 is a minimum unit that can be controlled by the lighting control apparatus 200 and may include a plurality of lighting modules 110 such as an incandescent lamp, a fluorescent lamp, a compact fluorescent lamp (CFL), and an LED. .

Such an illumination 100 may have a different area in which one illumination 100 may shine according to the number of illumination modules 110, and the illumination 100 may be provided according to the structure and circumstances of the indoor space. The illumination may correspond to the computer 300 in the area.

When all of the computers 300 corresponding to one light 100 are recognized to switch to the power saving mode, the light control device 200 outputs a light-out control signal to the corresponding light 100, thereby providing the corresponding light 100. Turns off the lighting module 110.

In addition, the lighting control apparatus 200 when at least one of the lights (100) is turned off when at least one of the computer 300 corresponding to the lighting 100 is in the normal mode state or the transition to the normal mode state is recognized The lighting module 110 of the lighting 100 is turned on by outputting a lighting control signal to the lighting 100.

3 is a block diagram of the lighting control device of FIG. 1.

Referring to FIG. 3, the lighting control apparatus 200 includes an information storage unit 210, a control unit 220, and a communication unit 230.

The information storage unit 210 stores correspondence information between each light 100 and at least one computer 300 located in an area illuminated by each light 100 and mode state information of each computer 300. For example, the information storage unit 210 may store the ID of at least one computer 300 located in the area illuminated by each light 100 as being associated with the ID of the corresponding light.

The communication unit 230 receives a mode switch signal from the agent module 310 of the plurality of computers 300, and transmits the received mode switch signal to the controller 220.

The controller 220 updates the mode state information of the computer stored in the information storage unit 210 from the mode change signal received from the agent module 310 of each computer 300. For example, assume that the mode state of the computer A stored in the information storage unit 210 is in the normal mode state. At this time, when the control unit 220 receives a mode change signal indicating a change from the normal mode to the power saving mode from the agent module of the computer A, the control unit 220 changes the mode state of the computer A stored in the information storage unit 210 to the power saving mode state. Change it.

The control unit 220 corresponds to any one of the lights 100 while updating the mode state information of the corresponding computer stored in the information storage unit 210 from the mode change signal received from the agent module 310 of each computer 300. When the mode state of all the computers 300 is in the power saving mode state, it is determined that there are no occupants in the corresponding area, and the lights 100 are turned off by outputting a light-out control signal to the corresponding light 100.

In addition, the controller 220 determines that there are occupants in the corresponding area when the mode state of the at least one computer 300 corresponding to the light 100 becomes a normal mode state when any one light 100 is turned off. Then, the lighting 100 is turned on by outputting a lighting control signal to the lighting 100.

That is, the controller 220 does not turn off the lighting 100 when the mode state of at least one computer among all the computers 300 corresponding to any one lighting 100 is normal.

As described above, according to an exemplary embodiment of the present invention, the presence or absence of occupants can be determined by using a power saving mode function of the computer 300 installed in an indoor space without installing an occupancy sensing sensor for determining the presence of occupants. Can be. In addition, by using the power saving mode function of the computer 300 to determine the presence of the occupants, by turning off the lights when it is determined that there are no occupants, it is possible to prevent unnecessary lighting is wasted without user intervention.

4 is a flowchart illustrating an operation of a lighting control device according to an embodiment of the present invention.

Referring to FIG. 4, when each of the agent modules 310 of the plurality of computers 300 located in the indoor space needs to perform mode switching by a predetermined event, the mode switching signal is controlled before or after the mode switching. Send to device 200. Here, the event may mean that there is no user input for a set time or there is no user input for a set time and thereafter a user input.

When there is no user input for a predetermined time, the agent module 310 of each computer 300 may transmit a mode switching signal from the normal mode to the power saving mode to the lighting control device 200. In addition, when there is no user input for a set time and thereafter a user input, the agent module 310 of each computer 300 transmits a mode switching signal from the power saving mode to the normal mode to the lighting control device 200. Can transmit

When the lighting control device 200 receives a mode switch signal from the agent module 310 of each computer 300 (S402), it grasps the mode state of the computer 300 from the received mode switch signal (S404), The information storage unit 210 updates the mode state of the computer in response to the identifier of the computer 300 (S406).

At this time, the lighting control device 200 counts the number of computers in the power saving mode corresponding to each lighting.

For example, the lighting control apparatus 200 may increase the variable value N 'by the number of computers in the power saving mode when it is determined that the mode state of the computer corresponding to each light is the power saving mode.

In this way, the lighting control device 200 always updates the mode state of each computer 300 with the latest state information.

If the number N of computers corresponding to any one of the plurality of lights 100 and the variable value N 'representing the number of computers in the power saving mode are identical (S408), It is determined that there are no occupants in the area illuminated by the illumination (S410). That is, when all of the computers corresponding to any one of the lights are in the power saving mode, the lighting control apparatus 200 determines that there are no occupants in the area illuminated by the corresponding lights. At this time, when the lighting is in the lighting state (S412), the lighting control device 200 outputs a light-out control signal to the lighting (S414), the lighting is turned off.

On the other hand, if the number N of the computer corresponding to any one of the plurality of lights 100 (N) and the variable value (N ') does not match (S408), the lighting control device 200 is located in the area illuminated by the corresponding light. It is determined that there are occupants (S416). That is, when one of the computers corresponding to any one of the lights is in the normal mode, the lighting control apparatus 200 determines that there are occupants in the area illuminated by the corresponding light. At this time, when the lighting is in an unlit state (S418), the lighting control apparatus 200 turns on the lighting by outputting a lighting control signal to the lighting (S420).

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, It belongs to the scope of right.

Claims (11)

In the device for controlling a plurality of lights that respectively light the plurality of areas of the interior space,
A communication unit for receiving a mode switching signal from the normal mode to the power saving mode or the power saving mode to the normal mode from a plurality of computers located in each area; and
The control unit determines whether there are occupants in each area from the mode change signals of the plurality of computers, and turns off the lighting corresponding to the region in which the occupants are not present.
Lighting control device comprising a. In claim 1,
Information storage unit that stores the mode status information of a plurality of computers located in the area illuminated by each light
Further comprising:
And the control unit updates the mode states of the plurality of computers from the mode change signals of the plurality of computers. In claim 2,
The control unit,
And determining that there are no occupants in the area when all of the plurality of computers located in the area illuminated by any one of the lights are in a power saving mode. In claim 2,
The control unit,
And when it is determined that at least one computer in the region is in a normal mode when the illumination of the region is off, determining that there are occupants in the region and lighting the illumination of the region. In claim 2,
The control unit,
And at least one of the plurality of computers located in an area illuminated by one of the lights determines that there are occupants in the area. In claim 2,
The control unit,
Counting the number of computers in the power saving mode corresponding to each of the lights, and determines that there are occupants in the area only if the number of computers in the power saving mode is equal to the number of computers located in the area illuminated by the lighting Lighting control device. In claim 1,
The mode switching signal from the normal mode to the power saving mode is generated when there is no user input to each computer for a predetermined time.
The mode switching signal from the power saving mode to the normal mode is generated when there is no input of the user to the respective computers for the predetermined time and there is an input of the user after the predetermined time. In a method in which a light control device controls the illumination of light to any one area of the indoor space,
Receiving a mode switching signal from a normal mode to a power saving mode or a power saving mode to a normal mode from a plurality of computers located in the area,
Determining a mode state of the plurality of computers from the mode change signals of the plurality of computers,
Determining that there are no occupants in the area when the mode states of the plurality of computers are all in the power saving mode state, and
Turning off the illumination if it is determined that there are no occupants in the area
≪ / RTI > 9. The method of claim 8,
The step of identifying,
Updating a mode state of the computer that has transmitted the mode change signal to the power save mode when receiving the mode change signal from the normal mode to the power save mode; and
And updating a mode state of the computer that has transmitted the mode change signal to the normal mode state when receiving the mode change signal from the power saving mode to the normal mode. 9. The method of claim 8,
Determining that there are occupants in the area when the mode state of at least one of the plurality of computers is a normal mode;
Lighting control method further comprising. 11. The method of claim 10,
If it is determined that there are occupants in the area, turning on the light if the light is off
Lighting control method further comprising.

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