KR20170051664A - Apparatus for driving light and method for controlling the same - Google Patents

Abstract

The present invention relates to an apparatus for driving a lighting device, which comprises: a luminance sensing unit for sensing a luminance in a predetermined area and outputting a luminance sensing signal corresponding to a sensed luminance level; a motion sensing unit for sensing a motion in an area and outputting a motion sensing signal of a state corresponding to a sensed motion level; an operation control unit for outputting a control signal which controls a lighting device positioned in the area to be turned off when a luminance level sensed by the luminance sensing unit is equal to or more than a predetermined luminance level, outputting the control signal which controls the lighting device to be turned on and transmitting the on-off state of the lighting device to a neighboring area positioned adjacent to the area when the sensed luminance level is equal to or less than the predetermined luminance level and a motion is sensed in the area by the motion sensing unit, and outputting the control signal which controls the on-off state of the lighting device depending on an on-off state of a neighboring lighting device transmitted from the neighboring area and transmitting the on-off state of the lighting device to the neighboring area when the sensed luminance level is equal to or less than the predetermined luminance level and no motion is sensed in the area by the motion sensing unit; and a driving unit for turning on the lighting device in accordance with the control signal outputted by the operation control unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a lighting apparatus driving apparatus and a control method thereof.

The present invention relates to an illumination device driving apparatus and a control method thereof.

The brightness control device of the lighting device generally changes the brightness of the lighting device by using a control switch using a variable resistor. Accordingly, when the resistance value of the variable resistor is determined by the operation of the control switch of the user, the state of the driving signal applied to the lighting apparatus is varied according to the determined resistance value, and the brightness of the lighting apparatus is maintained at the brightness corresponding to the predetermined resistance value .

If the desired brightness is selected by the change of the resistance value of the user, the selected brightness of the lighting device is maintained unless manual operation is performed. If the user does not control the driving switch of the lighting device to the unlit state, The state is maintained.

Accordingly, when the user can not control the driving switch of the mad lighting device to the unlit state and leaves the corresponding position, the lighting device keeps the lighting state in spite of the space where there is no person, so unnecessary power consumption occurs.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

According to another aspect of the present invention, there is provided a lighting apparatus comprising:

According to an aspect of the present invention, there is provided an illuminating device driving apparatus including an illuminance sensing unit for sensing illuminance in a predetermined area and outputting an illuminance sensing signal corresponding to a sensed illuminance level, And a motion detection unit coupled to the illumination sensing unit and the motion sensing unit for outputting a motion sensing signal in a state where the illumination intensity is detected by the illumination sensing unit, And outputs a control signal for controlling lighting of the lighting apparatus when the detected illuminance level is less than the set illuminance level and motion is detected by the motion detection unit, To the peripheral area located in the periphery of the area, A control signal for controlling the lighting state of the illumination device is output in accordance with the lighting state of the peripheral illumination device transmitted from the peripheral area if the illumination intensity is less than the set illumination intensity and motion is not detected in the area by the motion sensing part And an illumination device driving unit connected to the operation control unit and lighting the illumination device according to a control signal output from the operation control unit.

The operation control unit may control the brightness of the illumination device to be darker than the brightness of the peripheral illumination device in accordance with the lighting state of the peripheral illumination device.

The operation control unit may control the brightness of the illumination device to a brightness reduced by the dimming reduction ratio set in the brightness of the peripheral illumination device.

The operation control unit may control the brightness of the lighting apparatus to a dimming ratio of a predetermined size.

According to another aspect of the present invention, there is provided a method of controlling a lighting apparatus driving apparatus, the method comprising: reading an illuminance detection signal output from an illuminance detection unit located within a predetermined area to determine an illuminance level of the area; Outputting a control signal for turning off the illumination device located in the area to the lighting device driving section, and if the determined illumination intensity is less than the set illumination intensity, Outputting a control signal for controlling lighting of the lighting device to the lighting device driving section when motion is detected in the area, The lighting state of the peripheral illumination device Outputting a control signal for controlling the lighting state of the lighting apparatus to the lighting apparatus driving unit in accordance with the lighting state of the lighting apparatus, and transmitting the lighting state of the lighting apparatus to the surrounding area.

Wherein the step of outputting a control signal for controlling the lighting state of the lighting apparatus to the lighting apparatus driving unit in accordance with the lighting state of the peripheral lighting apparatus transmitted from the area is performed by setting the brightness of the lighting apparatus according to the lighting state of the peripheral lighting apparatus It is preferable to control it to be darker than the brightness of the peripheral illumination device.

Wherein the step of outputting a control signal for controlling the lighting state of the lighting apparatus to the lighting apparatus driving unit in accordance with the lighting state of the peripheral lighting apparatus transmitted from the area includes a step of reducing a brightness of the lighting apparatus by a dimming reduction , Or the brightness of the lighting apparatus can be controlled to a dimming ratio of a predetermined magnitude.

According to this aspect, since the brightness and the lighting of the lighting device are automatically performed according to the movement, power consumption due to the lighting device that is lit in an unnecessary space is prevented.

In addition, since the illuminating device and the brightness are automatically controlled according to the degree of separation from the area where the motion is detected, the lighting device located in the area where no motion is detected in one space is automatically controlled, The power consumption consumed due to the illumination of the lighting apparatus in the lighting apparatus is further reduced.

Furthermore, since the lighting state of the lighting apparatus is automatically controlled according to the illuminance state and the motion detection state of the corresponding area without the user's manual operation, convenience of the user is improved.

1 is a block diagram of a driving system of a lighting apparatus according to an embodiment of the present invention.
Fig. 2 is a schematic block diagram of the lighting apparatus driving apparatus shown in Fig. 1. Fig.
3 is a view showing a plurality of areas in which a lighting apparatus driving apparatus and a lighting apparatus are installed, respectively, according to an embodiment of the present invention.
4 is an operational flowchart of a method of controlling a lighting apparatus driving apparatus according to an embodiment of the present invention.
FIG. 5 is a flow chart of the operation when the operation mode of the lighting apparatus driving apparatus in FIG. 4 is the lighting apparatus control mode.
FIG. 6 is a flowchart showing the operation of the lighting apparatus driving apparatus in FIG. 5 when the operation mode is the automatic control mode.
FIG. 7 is a diagram illustrating a lighting state change according to a region partitioned by a driving system of a lighting apparatus 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. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but it should be understood that there may be other elements in between do. On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

Hereinafter, a lighting apparatus driving apparatus and a control method thereof according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, a lighting equipment control system according to an embodiment of the present invention will be described with reference to FIG.

1, the control system of the lighting apparatus according to the present embodiment includes a plurality of lighting apparatus driving apparatuses 101-10n (here, n = 1, 2, 3, And a plurality of lighting devices 201-20n connected to the lighting device driving devices 101-10n.

At this time, as shown in FIG. 3, each of the lighting apparatus driving apparatus 101-10n and corresponding lighting apparatus 201-20n connected thereto is installed in each of the divided areas AR1 to AR9, -AR9).

In the case of Fig. 3, the number of the divided areas AR1 to AR9 is nine, but this is only one example, and the number of the areas AR1 to AR9 is variable.

The detailed configuration of the lighting device driving apparatus 101-10n and the lighting apparatus 201-20n installed in the corresponding areas AR1-AR9 is shown in Fig.

In this example, the structure of the lighting apparatus driving apparatus 101 is the same as that of the lighting apparatus driving apparatus 101-10n provided in the corresponding areas AR1-AR9.

2, the lighting apparatus driving apparatus 101 of the present embodiment includes a motion sensing unit 11, a sensing distance adjusting unit 111 connected to the motion sensing unit 11, an illumination sensing unit 12, A switch 13 and an operation mode input unit 14), a remote control transmitting and receiving unit 15, a communication unit 16, an operation control unit 17 connected to these devices 11-16, A lighting device driving unit 19 connected to the operation control unit 17, and a power supply unit 110.

The motion sensing unit 11 senses the motion of the corresponding area (e.g., AR1) and outputs a corresponding motion sensing signal (e.g., voltage) to the motion control unit 17 according to the sensed motion level.

The sensing range adjusting unit 111 adjusts the sensing range of the motion sensing unit 11 by changing the resistance value or the like of the motion sensing unit 11 by an operation of a user or the like.

Therefore, the user adjusts the detection range of the motion sensing unit 11 using the sensing distance adjusting unit 111 according to the size of the area AR1 in which the lighting apparatus driving apparatus 101 is installed, The accuracy of the operation of the lighting apparatus driving apparatus 101 can be improved.

The illuminance sensing unit 12 senses the illuminance (i.e., brightness) of the corresponding region AR1 and outputs an illuminance sensing signal corresponding to the illuminance state to the operation control unit 17. [

The lighting switch 13 outputs the lighting device control signal in the corresponding state to the operation control part 17 according to the on or off position according to the user's operation and outputs the lighting device control signal to the lighting device 201 ) Is a lighting device driving switch for controlling the lighting state of the lighting device

Therefore, when the lighting switch 13 is on, the lighting device control signal is in the lighting state. When the lighting device control signal is off, the lighting device control signal is in the unlit state so that the lighting device 201 can be controlled to be turned on or off. do.

The operation mode input section 14 is for selecting a desired operation mode from a plurality of operation modes of the lighting apparatus 201 that can be selected by the user's selection operation.

Accordingly, the mode selection signal in a state corresponding to the operation mode selected by the operation of the operation mode input unit 14 is input to the operation control unit 17. [

The operation control unit 17 determines the operation mode selected by the user using the state of the signal applied from the operation mode input unit 14. [

In this example, the operation modes selectable by the user are the light-off mode and the automatic control mode.

The lighting mode is switched from the lighting device control signal of the lighting switch 14 to the illumination device control signal supplied from the lighting device remote control 300 through the remote control transmission and reception section 15 or from the lighting device control signal supplied from the user terminal 400 through the communication section 16 The illumination device 201 is turned on when the state of the applied illumination device control signal is turned on and the lighting device 201 is turned off when the state of the illumination device control signal is turned off.

The automatic control mode is a mode in which the illuminance detection unit 12 and the signal of the motion detection unit 11 are controlled independently of the state of the illumination device control signal applied from the lighting switch 14, And the lighting state of the lighting device 202-209 located in the lighting device 201 and its peripheral areas AR2-AR9 according to the state.

At this time, the lighting state (i.e., lighting state and brightness) of each lighting apparatus 201-209 is controlled according to the lighting state of the adjacent lighting apparatus 201-209.

At this time, in an alternative example, the lighting state of the remaining lighting devices 202-209 installed in the peripheral areas AR2-AR9 of the area where the motion is detected (e.g., AR1) can be collectively controlled in a predetermined state . For example, the brightness can be controlled by keeping all the lights off state, or by setting the dimming ratio to a maximum brightness (e.g., if the dimming ratio is 20%, the brightness of the lighting device is 20% of the maximum brightness).

The remote control transceiver unit 15 outputs a lighting device control signal for controlling the operation state of the lighting device 201-20n operated by the user or a mode selection signal corresponding to the operation mode of the selected lighting device 201-20n Receives the signal transmitted from the lighting device remote control 300 to be output, and outputs the signal to the operation control unit 17. [

In this example, the illuminating device remote control 300 outputs the corresponding signal by using infrared rays, and the remote control transmitting and receiving unit 15 receives the infrared ray transmitted from the illuminating device remote control 300. Thus, the illumination device remote control 300 and the remote control transmitting / receiving unit 15 perform transmission / reception of corresponding signals through infrared communication.

The communication unit 16 is a communication module for performing wireless or wired communication with the user terminal 400 and wireless or wired communication with adjacent lighting apparatus driving apparatuses (e.g., 102 and 104).

Accordingly, the communication unit 16 may include at least one of an Internet communication module for Internet communication with the user terminal 400, a short-range communication module for short-range communication, and a wired communication module.

The communication unit 16 receives the illumination device control signal transmitted from the user terminal 400 and inputs the illumination device control signal in the corresponding state to the operation control unit 17, The current lighting state signal is transmitted to the lighting apparatus driving apparatuses (for example, 102 and 104) and the current lighting state signal applied from the lighting apparatus driving apparatuses 102 and 104 is received.

The operation control unit 17 controls the operation of the light source driving unit 19 according to the operation mode selected by the operation mode selection unit 14, the illumination device remote control 300 or the user terminal 400, And controls the lighting state.

When the selected operation mode is the automatic control mode and the illuminance value detected by the illuminance detection unit 12 is equal to or greater than the set value, the operation control unit 17 controls the operation of the peripheral illumination apparatus 202-20n The lighting apparatus 201 is controlled to be turned off.

However, if the illuminance value detected in the automatic control mode is less than the preset value, the operation control unit 17 controls the illumination device 201 to turn on / State.

That is, when motion is detected by the motion detection unit 11 in the corresponding area AR1, the operation control unit 17 lights up the corresponding lighting device 201. At this time, the lighting state is the peripheral area AR2- (That is, the dimming ratio is 100%) irrespective of the lighting state of the lighting apparatus 202-209 provided in the room.

However, when no motion is detected in the corresponding region AR1, the operation control unit 17 controls the operation of the lighting apparatus 201 according to the lighting state of the lighting apparatus 202-209 installed in the peripheral areas AR2-AR9, State.

The operation control unit 17 has a timer 171 for counting time.

The storage unit 18 is a storage medium in which data necessary for the operation of the operation control unit 17 (e.g., set illumination intensity, time, set dimming reduction ratio, etc.) and data generated during operation are stored.

The lighting device driving unit 19 is operated in the corresponding state according to the control signal applied from the operation control unit 17 and controls the state of the lighting device 201 in a desired state.

In this case, since the lighting device 201 is a light emitting diode part including at least one light emitting diode (LED), the lighting device driving part 19 also includes a light emitting diode Respectively.

The illumination device driving unit 19 controls the lighting device 201 as a light emitting diode based on the control signal applied from the operation control unit 17 as well as the state of the driving signal applied to the light emitting diode Dimming control in which the brightness of the light emitting diode is changed is performed.

As described above, the lighting device 201 is turned on and off according to a driving signal applied from the lighting device driving unit 19, and the lighting device 201 has at least one light source 21-2m (m = 1, 2, 3, ...).

In this example, the number of light sources included in the plurality of illuminating devices 201-20n may be equal to or different from each other.

The power supply unit 110 supplies power necessary for operation of these devices 11-19 and 201.

Accordingly, the power supply unit 110 may include an AC-DC converting unit that receives the AC power and converts the AC power into at least one DC voltage of a corresponding magnitude.

The illumination device remote control 300 outputs the corresponding signal using infrared rays and the remote control transmission and reception unit 15 receives infrared rays transmitted from the illumination device remote control 300. Thus, the illumination device remote control 300 and the remote control transmitting / receiving unit 15 perform transmission / reception of corresponding signals through infrared communication.

The user terminal 400 is a personal terminal capable of wireless communication such as a smart phone, a smart tablet, a personal computer and the like.

The user terminal 400 is connected to an input unit and an input unit for inputting commands and data and controls the operation of the user terminal 400 and controls the operation of the corresponding lighting apparatuses 201-20n And a communication unit connected to the control unit for wired and wireless communication with an external apparatus such as the lighting apparatus driving apparatus 101-10n.

Next, with reference to Figs. 4 to 6, the operation of the driving system of the lighting apparatus having such a structure will be described.

In this example, the operation flow charts shown in Figs. 4 to 6 are operational flowcharts related to the operation of the operation control unit of the lighting apparatus driving apparatus, and the operations of the operation control units of the respective operation control units of the plurality of lighting apparatus driving apparatus are the same. Accordingly, the operation of the operation control section 17 of the lighting apparatus drive apparatus 101 will be described below as an example with reference to Figs. 4 to 6. Fig.

First, when a power source necessary for the operation of the lighting apparatus driving apparatus 101 is driven from the power supplying unit 110, the lighting apparatus driving apparatus 101 operates, and thereby the operation of the operation controlling unit 17 also starts (S10).

Therefore, when the operation of the operation control unit 17 is started (S10), the operation control unit 17 first reads the signals applied from the operation mode input unit 14, the remote control transceiver 15 and the communication unit 16, It is determined whether a mode selection signal is input from one of the mode input unit 14, the illumination device remote control 300, and the user terminal 400 (S12).

When it is determined that the mode selection signal is inputted from the operation mode input unit 14, the illumination device remote control 300 or the user terminal 400 through the operation mode input unit 14, the remote control transceiver unit 15 and the communication unit 16 (S12), the operation control unit 17 determines an operation mode (that is, an operation mode selected by the user) corresponding to the state of the mode selection signal among the plurality of operation modes (S13).

Then, the operation control unit 17 stores the determined operation mode in the storage unit 18 as the current operation mode (S14).

However, when the mode selection signal is not input from the operation mode input unit 14, the illumination device remote control 300, or the user terminal 400 (S12), the operation control unit 17 uses the data stored in the storage unit 18 And determines the current operation mode (S15).

Then, the operation control unit 17 proceeds to the operation mode for controlling the operation of the lighting apparatus 201 according to the determined operation mode, and operates the corresponding lighting apparatus 201 (S16).

Next, the operation of the operation control section 17 for controlling the operation of the lighting apparatus 201 according to the current operation mode will be described with reference to Figs. 5 and 6. Fig.

First, as shown in Fig. 5, the operation control section 17 determines whether the determined current operation mode is the light-off mode (S61).

When the determined current operation mode is the light-off mode, the operation control unit 17 controls the lighting switch 13, the illumination device remote control 300, and the illumination device remote controller 13 via the light switch 13, the remote control transceiver 14, The lighting device control signal output from the user terminal 400 is read and it is determined whether the lighting device control signal is in the lighting state (S62, S63).

If the determined state of the illumination device control signal is the lighting state, the operation control section 17 outputs the lighting control signal to the lighting device driving section 19. [ At this time, the lighting control signal is a maximum brightness lighting control signal for controlling the brightness of the lighting apparatus 201 to the maximum brightness (i.e., the dimming ratio is 100%).

Accordingly, the illumination device driving unit 19 operates in accordance with the maximum brightness ON control signal applied from the operation control unit 17 to turn on the lighting device 201 mounted in the corresponding area AR1 at the maximum brightness.

In the case of this example, the brightness of the lighting control signal is the maximum brightness, but it is not limited to this and may be a lighting control signal of a predetermined brightness. At this time, the predetermined brightness can be stored in the storage unit 18 by the user's operation. The operation control unit 17 determines the set brightness using the data stored in the storage unit 18, And outputs the lighting control signal in the corresponding state to the lighting device driving section 19. [

However, if the determined state of the lighting device control signal is not the lighting state, that is, the lighting control device 17 is in the unlit state, the operation control section 17 determines whether or not the lighting control signal applied to the lighting device driving section 19 is applied, It is determined whether the lighting apparatus 201 is in the lighting state (S65).

If the lighting control signal is applied to the illuminating device driving unit 19 by the current operation control unit 17 even though the lighting device control signal is in the unlit state, The control unit 17 stops the output of the lighting control signal applied to the lighting apparatus driving unit 201 and controls the lighting apparatus 201 from the lighting state to the unlit state (S66).

Then, the operation control unit 17 proceeds to step S61 to determine the current operation mode, and controls the lighting state of the lighting apparatus 201 in accordance with the determined operation mode.

In this way, the operation controller 17 turns on the corresponding lighting device 201 only when the lighting device control signal is in the on-state when the current operation mode is the on-off mode. At this time, the brightness of the lighting device 201 is set Maximum brightness).

When the operation mode of the lighting apparatus driving apparatus 101 mounted on the corresponding area AR1 is in the lighting mode as described above, the operation control unit 17 of the lighting apparatus driving apparatus 101 controls the operation of the lighting apparatus driving apparatus 101 in the peripheral areas AR2-AR9 The lighting apparatus 201 can be operated only in accordance with the lighting state or the lighting state by the lighting apparatus remote control 300, the user terminal 400 or the lighting switch 13 regardless of the lighting state of the mounted lighting apparatus 202-209, Off operation is controlled.

However, when the current operation mode determined in step S61 is the automatic mode (S67), the operation control unit 17 performs the operation of the automatic control mode as shown in Fig. 6 (S68).

6, the operation control unit 17 reads the illumination detection signal output from the illumination detection unit 12 and determines the illumination intensity of the corresponding area AR1 detected by the illumination detection unit 12 (S681).

Then, the operation control unit 17 compares the magnitude of the detected roughness with the setting roughness size (S682).

If the detected illuminance is equal to or greater than the set illumination magnitude, the operation control section 17 determines that the brightness of the corresponding area AR1 does not need to be turned on. Accordingly, the operation control unit 17 outputs the light-off control signal to the illuminating device driving unit 19 to maintain the lighting device 201 in the unlit state (S683).

However, if the detected illumination intensity is less than the set illuminance magnitude, the operation control section 17 determines that the brightness of the corresponding area AR1 is in a state requiring illumination.

Accordingly, the operation control unit 17 reads the motion detection signal output from the motion detection unit 11 and determines whether motion is detected in the corresponding region AR1 (S684).

If it is determined that the motion is detected by the state of the motion detection signal, the operation control unit 17 determines that the person is located in the area AR1 and controls the lighting device 201 to be lit. Accordingly, the operation controller 17 outputs a lighting control signal to the lighting device driver 19 to turn on the lighting device 201 (S686). At this time, the brightness of the lighting device 201 is the brightness which is already set as the maximum brightness.

The operation control unit 17 then determines whether the lighting state of the lighting apparatus 101 itself, that is, whether the lighting apparatus 201 is turned on and the brightness (i.e., dimming ratio) AR2, and AR4 to the lighting apparatus driving apparatuses 102 and 204 (S687).

Therefore, the lighting state of the lighting apparatus 202-209 mounted on the peripheral areas AR2-AR9 can be influenced by the lighting state of the lighting apparatus 201 in the current area AR1.

However, when the illuminance state of the corresponding area AR2-AR9 is less than the set illuminance size and movement is detected in the corresponding area AR2-AR9 as in the present area AR1, The device 202-209 maintains the turned-on state with the brightness set in the state regardless of the lighting state of other peripheral areas.

However, if the movement in the corresponding area AR1 is not sensed during the set time in step S685 (S688), the operation control part 17 of the corresponding area AR1 transmits the peripheral area (e.g., AR2 and AR4 from the peripheral illumination device driving devices 102 and 104 (S689).

At this time, the range of the peripheral illuminating apparatus driving apparatus can be determined according to the communication distance with the two adjacent illuminating apparatus driving apparatuses (for example, 101 and 102).

Then, the lighting state of the applied peripheral illumination device driving device is determined, and it is determined whether the corresponding peripheral lighting devices (e.g., 202, 204) are lit or not (S6810).

Next, the operation control unit 17 uses the data stored in the storage unit 18 to display the brightness of the adjacent lighting apparatus (e.g., 202) at a brightness reduced by a set dimming reduction ratio of a predetermined size in the brightness of the adjacent lighting apparatus And controls the lighting state (S6811).

For example, if the brightness of the immediately adjacent lighting device (e.g., 202) is 100% and the dimming reduction rate is 20%, the operation controller 17 Outputs a control signal to the lighting device driving unit 19.

If motion is not detected in the area AR1, the lighting state of the lighting device 201 is controlled in accordance with the influence of the nearby lighting device (e.g., 202) 17 transmits the lighting state of the own lighting apparatus 201 to another adjacent lighting apparatus driving apparatus through the communication unit 16 (S6812).

As described above, depending on the detected illumination intensity and movement of each of the corresponding areas AR1 to AR9, not only the lighting state of the lighting device 201-209 mounted on the corresponding area AR1 to AR9 but also the peripheral areas AR1 to AR9, Is automatically controlled in accordance with the lighting state of the lamp.

Accordingly, the lighting device of the area where the person is present is normally lit, whereas the lighting device of the surrounding area where the person is not detected is turned on or off at a brightness reduced by the dimming reduction ratio set in the brightness of the lighting device of the person's area So that unnecessary power consumption is prevented.

As shown in FIG. 7, in the space partitioned by the sixteen areas AR11-AR26, when the illumination intensity detected by all the areas AR11-AR26 is less than the setting illuminance size, human motion is detected only in the area AR21, When the motion is not detected in the areas AR11-AR20 and AR22-AR26, the lighting device 205 installed in the reference area AR21, which is the area where motion is detected, is turned on at a dimming ratio of 100%.

However, neighboring areas AR17, AR20, AR22, and AR25 immediately adjacent to the reference area AR21 (e.g., areas located at the first location step) are brighter than the reference area AR21 by a set dimming reduction ratio The lighting device is turned on in a reduced state.

The peripheral areas AR13, AR16, AR18, AR19, AR24 and AR26 immediately adjacent to the corresponding areas AR17, AR20, AR22 and AR25 (for example, The lighting apparatus is turned on in a state in which the brightness is decreased by the set dimming reduction ratio according to the brightness of the areas AR17, AR20, AR22 and AR25, and the remaining lighting areas AR11, AR12, AR14 and AR23 (I.e., areas located at the positional stage) again control the lighting state of the lighting apparatus according to the brightness of the adjacent areas AR17, AR20, AR22, and AR25.

At this time, the corresponding set dimming reduction ratio among the plurality of set dimming decreasing ratios having different values according to the separation distance or the position step is determined on the basis of the brightness of the reference region, and the brightness of the reference region is decreased The brightness of the corresponding lighting apparatus can be controlled with the brightness that has been obtained. In this case, different set dimming reduction ratios are specified for each separation or position step, and the set dimming reduction ratio increases as the separation distance and position step increases (eg, 30% → 60% → 100%).

Alternatively, the brightness of the lighting apparatus can be controlled to a brightness reduced to a predetermined dimming reduction ratio based on the brightness of the immediately neighboring peripheral region. In this case, if the set dimming reduction ratio is set to one value (e.g., 50% ). Therefore, when the set dimming reduction ratio is 50%, if the brightness of the immediately adjacent neighboring region has a dimming ratio of 50%, the brightness of the other neighboring region in the neighboring region is set to be dimmed at a dimming ratio of 25% do.

As a result, the brightness of the lighting device, which is distant from the area where the movement is detected, is gradually decreased, and the lighting device is turned off in some cases.

Unlike the present example where the dimming ratio decreases by a set dimming reduction ratio in proportion to the distance from the motion sensed area, in an alternative example, each time the motion is spaced a predetermined distance from the sensed area, The lighting state of the lighting apparatus can be controlled with the dimming ratio. Thus, in this case, the lighting device of the area in which no motion is detected is controlled to have a dimming ratio of a predetermined size which is darker than the brightness of the lighting device of the area in which the motion is detected.

In an alternative example, the dimming ratio of the lighting device of the motion sensing area (i.e., reference area) ARref is 100%, the dimming ratio of the lighting device in the area located within the first set distance from the reference area is 60% The dimming ratio of the illuminating device in the area located within the second set distance larger than the first set distance from the reference area is 30% and the dimming rate of the illuminating device located in the area outside the second set distance from the reference area is 0% State).

In this example, the set dimming reduction ratio is adjustable by the user, and the dimming ratio along the distance from the reference area is also adjustable as needed.

In addition, since the operation of a lighting device in a desired space is controlled externally through the user terminal 400, the convenience of the user is greatly improved.

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.

101-10n: Lighting device driving device 201-20n: Lighting device
300: Lighting device remote control 400: User terminal
11: motion detection unit 12: illuminance detection unit
13: ON switch 14: Operation mode input section
15: Remote control transmitting / receiving unit 16:
17: Operation control unit 18:
19: Lighting device driving part 21-2m: Light source

Claims (8)

An illuminance sensing unit for sensing an illuminance within a predetermined area and outputting an illuminance detection signal corresponding to the illuminance level detected,
A motion detection unit for detecting motion in the region and outputting a motion detection signal in a corresponding state according to the detected motion,
And outputs a control signal for turning off the lighting device located in the area if the illumination intensity detected by the illumination sensing unit is equal to or greater than the illumination intensity detected by the illumination sensing unit, And outputs a control signal for controlling the illumination device to be turned on when the illumination intensity is less than the set illuminance level and motion is detected by the motion detection section and the illumination state of the illumination device is set to a peripheral region The control unit controls the lighting state of the lighting device according to the lighting state of the peripheral illumination device transmitted from the peripheral area if the detected illumination intensity is less than the set illuminance level and motion is not detected in the area by the motion detection unit And outputs a control signal to the lighting device Area, and
A lighting device driving unit connected to the operation control unit for lighting the lighting device according to a control signal outputted from the operation control unit,
And a lighting device driving device for driving the lighting device. The method of claim 1,
Wherein the operation control unit controls the brightness of the illumination device to be darker than the brightness of the peripheral illumination device in accordance with the lighting state of the peripheral illumination device. 3. The method of claim 2,
Wherein the operation control unit controls the brightness of the illumination device to a brightness reduced by a dimming reduction ratio set in the brightness of the peripheral illumination device. 3. The method of claim 2,
Wherein the operation control unit controls the brightness of the lighting apparatus to a dimming ratio of a predetermined size. Determining an illuminance level of the area by reading an illuminance detection signal outputted from an illuminance detector located in a predetermined area,
Outputting a control signal to the lighting device driving unit to turn off the lighting device located in the area if the determined illumination intensity is equal to or greater than the setting illumination intensity,
Reading the motion detection signal output from the motion detection unit located in the region to determine whether motion is detected in the region if the determined illumination intensity is less than the set illumination magnitude,
Outputting a control signal for controlling lighting of the lighting apparatus to the lighting apparatus driving unit when motion is detected in the area,
Outputting a control signal for controlling the lighting state of the illuminating device to the illuminating device driving part according to the lighting state of the peripheral illuminating device transmitted from the peripheral area if motion is not detected in the area,
A step of transmitting a lighting state of the lighting device to a surrounding area
And controlling the driving of the lighting device. The method of claim 5,
Wherein the step of outputting a control signal for controlling the lighting state of the lighting apparatus to the lighting apparatus driving unit in accordance with the lighting state of the peripheral lighting apparatus transmitted from the area is performed by setting the brightness of the lighting apparatus according to the lighting state of the peripheral lighting apparatus Controlling the lighting device driving device to control the brightness of the surrounding lighting device to be darker than the brightness of the surrounding lighting device. In the sixth,
Wherein the step of outputting a control signal for controlling the lighting state of the lighting apparatus to the lighting apparatus driving unit in accordance with the lighting state of the peripheral lighting apparatus transmitted from the area includes a step of reducing a brightness of the lighting apparatus by a dimming reduction And controlling the brightness of the lighting device driving device to be reduced by a predetermined ratio. In the sixth,
Wherein the step of outputting a control signal for controlling the lighting state of the lighting device to the lighting device driving part in accordance with the lighting state of the peripheral lighting device transmitted from the area includes a step of controlling the brightness of the lighting device to a dimming ratio of a predetermined size A method of controlling a drive system.

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