KR20160033083A - Control Apparatus for Lighting Device Using Power Switching Operation and Controlling Method thereof - Google Patents

Abstract

The present invention relates to a lighting control device, and a lighting control method thereof. According to the present invention, the lighting can be controlled by using an operation of turning on/off a plurality of lighting switches which are previously installed, so a user can control the lighting as the user wants without a separate wiring construction or additional costs. The lighting control device comprises: a detection unit for detecting whether a power status of each of a plurality of lighting switches is turned on or off; and a signal output unit for determining a control operation, and outputting a control signal for controlling at least one lighting device according to the determined control operation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting control apparatus and a lighting control method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting control apparatus and a lighting control method thereof, and more particularly, to an apparatus and a control method for controlling lighting using a lighting switch that can turn on or off a lighting.

A plurality of lights are installed in a room or a tunnel of a building, and a lighting switch for turning on or off the lighting is provided. The user can control the turn-on / turn-off of the illumination using the illumination switch.

A device for controlling the illumination is needed to adjust the properties of the turned-on illumination, such as illumination, color temperature, brightness, color, brightness, saturation, etc., as needed. Conventionally, a roughness adjusting device including a rotary knob type rotary knob has been mainly employed. In such a rotary knob system, the illuminance can be adjusted by adjusting the power supplied to the illumination lamp by using a variable resistor whose resistance value is variable according to the rotational position of the knob. 50%, 75%, and 100% of the maximum brightness each time the switching button is depressed, for example, depending on the number of times the switching button is pressed to control the lighting lamp as the microcomputer control technique is developed recently. So that the brightness is sequentially increased. However, in these methods, in addition to the illumination switch for controlling the turn-on / turn-off of the illumination, the illumination operation panel including the rotary knob or the illumination operation panel including the switching button for illumination adjustment must be separately installed. There is a problem in that the installation is complicated and the cost is increased because additional wiring work for installation of the operation panel must be performed in a non-lighting system.

In order to solve this inconvenience, Korean Patent Registration No. 970613 discloses a configuration in which the illumination switch for turning on / off the illumination is turned off for a short time, and the illumination is operated by using a snapping operation for turning on the illumination switch again . However, when the illuminance is manipulated by such a method, there is a problem in that the illumination is temporarily turned off while the power supply to the illumination is interrupted during the snapping operation.

Korean Patent No. 970613

In order to solve the above-described problems, it is possible to control the on / off state of the illumination and the illumination property without providing a separate illumination control switch and the illumination control wiring. In addition, And an object of the present invention is to provide a device and a lighting control method.

According to an aspect of the present invention, there is provided an illumination control apparatus for controlling at least one illumination according to an embodiment of the present invention, the illumination control apparatus comprising: ; And a controller for controlling at least one of a plurality of power states before the at least one power state is changed and at least one of the at least one power state when the at least one power state is changed, And a signal output unit for outputting a control signal for determining the control operation based on the combination of the states and for controlling the at least one illumination in accordance with the determined control operation.

According to another embodiment, the control signal may include at least one of a dimming signal for adjusting the illumination of the at least one illumination and a color adjustment signal for adjusting the color temperature or color of the light outputted from the at least one illumination .

According to another embodiment of the present invention, the plurality of illumination switches include a first illumination switch and a second illumination switch, and the signal output section may be configured such that the power state of the first illumination switch is on, When the power state of the second illumination switch is turned on when the power state of the second illumination switch is in an off state and controls the plurality of states of the at least one illumination to alternate, The controller outputs a control signal corresponding to the state of the at least one illumination when the snapping operation is sensed.

According to another embodiment of the present invention, the plurality of illumination switches include a first illumination switch and a second illumination switch, and the signal output section may be configured such that the power state of the first illumination switch is on, The dimming signal for adjusting the illuminance of the illumination is output when the power state of the first illumination switch is in an off state and the power state of the first illumination switch is in an off state The color adjustment signal for adjusting the color temperature or the color of the illumination may be output.

According to another embodiment of the present invention, the plurality of light switches include a first light switch, a second light switch, and a third light switch, and the signal output unit may be configured such that the power state of the first light switch is on And outputs a dimming signal for adjusting the illuminance of the illumination when the second illumination switch is in an ON state. When the power state of the first illumination switch is ON and the third illumination switch is ON, And a color adjustment signal for adjusting the color of the image.

According to another embodiment of the present invention, the lighting control apparatus may further include a power cutoff unit that can cut off power of at least one of a plurality of power lines connected through the plurality of lighting switches.

According to another embodiment of the present invention, the illumination control apparatus further includes a storage means for storing information on a state of the illumination, wherein the signal output section is configured to turn on the illumination when the illumination is turned off, A control signal for controlling the illumination in accordance with the state of the illumination stored in the storage means may be output together.

Further, according to another embodiment, the information on the state of the illumination may include at least one of illuminance, color temperature, hue, saturation, and luminance of the illumination.

A method of controlling at least one light according to an embodiment of the present invention includes: a power sensing step of detecting whether a power state of each of a plurality of light switches is on or off; Wherein when at least one power state of the plurality of power states sensed by the sensing unit is changed, a plurality of power states before the at least one power state is changed and at least two power states among the at least one power state A control operation determining step of determining a control operation based on a combination of the control operations; And a signal output step of outputting a control signal for controlling the at least one illumination in accordance with the determined control operation.

According to another embodiment, the plurality of illumination switches include a first illumination switch and a second illumination switch, and the control operation determination step determines whether or not the power state of the first illumination switch is on and the second illumination Performing a control operation such that when the power state of the switch is in an off state and the power state of the second illumination switch is in an on state, the at least one illumination is alternated to a plurality of states; And determining a control operation corresponding to a state of the at least one illumination at a time when a snapping operation is sensed when a snapping operation of the first illumination switch is sensed.

According to another embodiment of the present invention, the plurality of lighting switches include a first lighting switch and a second lighting switch, and the control operation determined in the control operation determination step is performed when the power state of the first lighting switch is on State and the power state of the second illumination switch is changed from the off state to the on state, the power supply state of the first calling switch is in an off state, And a color adjustment operation of adjusting the color temperature or color of the illumination when the power state is changed from the off state to the on state.

According to another embodiment of the present invention, the plurality of illumination switches include a first illumination switch, a second illumination switch, and a third illumination switch, Is a dimming operation for adjusting the illuminance of the illumination when the power state of the first illumination switch is on and the second illumination switch is on, and when the power state of the first illumination switch is on and the third illumination switch is on And a color adjustment operation for adjusting a color temperature or a color of the illumination.

According to the present invention, there is provided an effect that the property of illumination can be controlled in a state in which the power of the illumination is not turned off.

Further, since the lighting can be controlled in a state in which the supply of power to the lighting is maintained, the lighting can be controlled without a charging section for continuously supplying power to the circuit.

Further, there is an effect that it is possible not only to control the illumination stepwise but also to control the property of the illumination to change linearly.

In addition, since the attributes of various lights can be simultaneously controlled, there is no need to perform an operation for controlling the illumination separately for each illumination, so that the user can conveniently control the illumination.

In addition, since the lighting can be controlled using the installed lighting switch, the user can control the lighting as desired without additional wiring work or additional cost.

1 is a view showing a simple structure of a general illumination system.
2 is an exemplary view showing a form of a lighting switch installed on a wall surface.
3 is a diagram illustrating the structure of a lighting system according to an embodiment.
4 is a block diagram briefly showing a structure of a lighting control apparatus according to an embodiment.
5 is a block diagram briefly illustrating the structure of an illumination system configured with two light switches according to one embodiment.
6 is a view for explaining the operation of an illumination system configured by including two light switches according to an embodiment.
7 is a view for explaining the operation of an illumination system configured by including two light switches according to another embodiment.
8 is a block diagram briefly illustrating the structure of an illumination system constructed by including three light switches according to another embodiment.
9 is a view for explaining the operation of an illumination system configured by including three illumination switches according to another embodiment.
10 is a flow chart illustrating a process by which a lighting control apparatus controls illumination in accordance with one embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. 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.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, in the absence of any other description, the singular presentation includes a plurality of concepts. It also includes the concept of being electrically connected as well as being physically connected when a part is "connected" to another part. In addition, a plurality of elements described in the present specification may be included in one apparatus or may be distributed in separate apparatuses.

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

FIG. 1 is a view showing a simple structure of a general lighting system, and FIG. 2 is an illustration showing an example of the shape of a lighting switch installed on a wall.

The lighting system may include a lighting switch 110 that connects or disconnects power to a lighting device 120 that supplies power to the lighting device 120 and the lighting device 120 to the lighting device 120.

A plurality of switches 110 installed at one location may be included in the illumination system to enable the user to turn on or off multiple lights 120 at one location. For example, as shown in FIG. 2, a two-way switch 210 with two switches 215 together or a three-way switch 220 with three switches 225 together may be included in the lighting system have. Here, each of the plurality of switches 110 may be connected to correspond to the plurality of lights 120. For example, when a plurality of switches 110 include a first illumination switch, a second illumination switch, a first illumination, and a second illumination, the user uses the first illumination switch to turn on / off the first illumination switch Off and turn on / off the second illumination using the second illumination switch. In this case, the user can control ON / OFF of the power of each illumination using the illumination switch.

3 is a diagram illustrating the structure of a lighting system according to an embodiment.

According to one embodiment, an illumination system according to one embodiment may include a power source 130, a plurality of illumination switches 110, a lighting control device 300, and at least one illumination 120. 3, the power source 130 is shown as an AC power source, but is not limited thereto. 3, the lighting control apparatus 300 is connected to the lighting switch 110 and the lighting 120, but may be further connected directly to the AC power source. In addition, the lighting control apparatus 300 may be connected to a location other than between the lighting switch 110 and the lighting 120, according to an embodiment. In particular, the lighting control device 300 is coupled to a plurality of lighting switches 110 and at least one lighting 120 to sense the power state of each of the plurality of lighting switches 110, The light 120 can be controlled. Here, the illumination control device 300 can detect whether the power state of each of the plurality of illumination switches 110 is on or off. Here, the lighting state of the lighting switch 110 indicates that the lighting control device 300 is connected to the power source 130 because the lighting switch 110 is closed. Conversely, when the lighting switch 110 is in the off state, it means that the lighting switch 110 is opened and the electrical connection between the lighting control device 300 and the power source 130 is disconnected. For example, if there are three lighting switches 110, the lighting control device 300 may sense whether each of the three power states for the three lighting switches is on or off.

The lighting control apparatus 300 may determine the control operation of the illumination to be controlled by the lighting control apparatus 300 when at least one of the detected plurality of power states is changed. Here, the control operation may mean an operation of changing the attribute of the illumination 120. [ Here, the attribute of the illumination 120 may mean a characteristic of light output from the illumination 120 such as illumination, luminance, color temperature, color, and the like. That is, for example, the control operation may mean an operation of changing the illuminance, the color temperature, and the like of the light output from the illumination unit 120.

The lighting control apparatus 300 may control the at least one lighting 120 by outputting a control signal for controlling the at least one lighting 120 according to the determined control operation. For example, the control signal may include a dimming signal to adjust the illumination of the illumination 120 according to the determined control operation, or may include a hue adjustment signal to adjust the color temperature or hue of the illumination 120. Or control signals may simultaneously include several types of signals to control multiple attributes of the illumination 120 simultaneously.

4 is a block diagram briefly showing a structure of a lighting control apparatus according to an embodiment.

The illumination control apparatus 300 according to an exemplary embodiment may include a sensing unit 310 and a signal output unit 320. 4 is an illustration for explaining an embodiment of the present invention, and according to the embodiment, the lighting control apparatus 300 may be configured to include more or fewer components than the components shown in FIG. 4 . In addition, plural components may be included in one device or may be distributed in separate devices. For example, the sensing unit 310 and the signal output unit 320 may be included in the lighting switch 110 and one device, or may include the sensing unit 310, the signal output unit 320, and the lighting switch 110, May be provided in separate apparatuses.

3, when a plurality of power lines are connected to the lighting control device 300 through the plurality of lighting switches 110, a problem that the power source 130 is connected to the lighting device 120 in multiple Lt; / RTI > In order to solve such a problem, the lighting control apparatus 300 may further include a power supply cutoff unit (not shown) for cutting off power supply lines other than one of the power supply lines connected to the light 120.

The sensing unit 310 may detect whether the power state of each of the illumination switches 110 is ON or OFF. The sensing unit 310 may sense whether a current or voltage is input through the power line connected to the sensing unit 310 through the lighting switch 110. [ The method of sensing the power state by the sensing unit 310 may be variously implemented according to the embodiment.

When at least one power state of the plurality of power states sensed by the sensing unit 310 is changed, the signal output unit 320 outputs a plurality of power states before the at least one power state is changed, The control operation can be determined based on a combination of two or more power states among the power state. Further, the signal output unit 320 can control the illumination 120 by outputting a control signal corresponding to the determined control operation.

In addition, the illumination control apparatus 300 may further include a storage means (not shown) for storing information on the state of illumination. When the power of the illumination 120 is turned off by turning the power state of all the lighting switches 110 off, the storage means (not shown) Information about the state of the < / RTI > Herein, the information on the state of the illumination 120 may include information about the properties of the illumination 120, such as at least one of illumination, color temperature, color, brightness, saturation, and luminance of the light output by the illumination 120 However, this is not the case. When the illumination control apparatus 300 further includes a storage means (not shown), the illumination control apparatus 300 controls the state when the illumination 120 is turned off when the illumination 120 is turned off, The light 120 may be controlled to be turned on in the same state as that of FIG.

FIG. 5 is a block diagram briefly illustrating the structure of an illumination system constructed by including two light switches according to an embodiment, and FIG. 6 illustrates an operation of an illumination system constructed by including two light switches according to an embodiment Fig. In particular, Figure 6 shows a first process 610 for controlling illumination intensities and a second process 620 for controlling the color temperature of illumination.

The illumination system according to one embodiment may include a first illumination switch 511, a second illumination switch 512, a lighting control device 300, a first illumination 521 and a second illumination 522. The illumination system may include a power supply 540 for supplying power to the first illumination 521 and the second illumination 522, respectively. The power supply unit 540 may include one component to supply power to the first illumination unit 521 and the second illumination unit 522. The power supply unit 540 may include a plurality of components, 2 light source 522. In this case, Alternatively, the power supply unit 540 may be included in the illumination control device 300. [ In addition, the number of lighting switches and the number of lights do not always have to be the same, and at least one lighting may be provided.

First, when the power state of the first lighting switch 511 and the power state of the second lighting switch 512 are both off, as in step 1 of the first process 610, since the power is not supplied, The first light source 521 and the second light source 522 are turned off. Thereafter, when the user operates the first illumination switch 511 in step 2, the power state of the first illumination switch 511 can be changed to the ON state. In this case, the illumination control device 300 may turn on the first illumination 521 and the second illumination 522. That is, the power state of the first lighting switch 511 before the change is in the off state, the power state of the second lighting switch 512 before the change is in the off state, and the first lighting switch 511 after the change is in the off state. The lighting control apparatus 300 can turn on the power of the first illumination 521 and the second illumination 522 when the power state of the first illumination 521 is on. Thereafter, when the user operates the second illumination switch 512 in step 3, the power state of the second illumination switch 512 is changed to the ON state. In this case, the illumination control device 300 may output a dimming signal for adjusting the illuminance of the first illumination 521 and the second illumination 522. [ That is, if the power state of the first lighting switch 511 in Step 2 before the change is on and the power state of the second lighting switch 512 in Step 3 is on after the change, The apparatus 300 may cause the illumination of the first illumination 521 and the illumination of the second illumination 522 to change. Here, the lighting control apparatus 300 may control the first illumination 521 and the second illumination 522 so that the illumination gradually changes linearly while the second illumination switch 512 is on, or alternatively, It may be controlled so as to change stepwise. When the power state of the second lighting switch 512 is turned off in step 4, the lighting control apparatus 300 switches the power of the second lighting switch 512 from the first lighting 521 and the second lighting 522, The first illumination 521 and the second illumination 522 can be controlled so that light is fixedly outputted at the illuminance at the time when the state is turned off. Thereafter, when the power state of the second lighting switch 512 is turned on again in step 5, the lighting control apparatus 300 controls the color temperature to be gradually changed linearly while the second lighting switch 512 is turned on The first illumination 521 and the second illumination 522 can be controlled. If the power state of the second lighting switch 512 is turned off in step 6, the lighting control apparatus 300 switches the power of the second lighting switch 512 from the first lighting 521 and the second lighting 522, The first illumination 521 and the second illumination 522 can be controlled so that light is fixedly output at the color temperature at the time when the state is turned off. When the first power switch 511 and the second power switch 512 are both turned off in step 7, the power of the first and second lights 521 and 522 is turned off.

If the power state of the first lighting switch 511 and the power state of the second lighting switch 512 are both off as in step 1 of the second process 620, since the power is not supplied, the first light 521 And the second illumination 522 are turned off. Thereafter, when the user operates the second illumination switch 512 in step 2, the power state of the second illumination switch 512 can be changed to the ON state. In this case, the illumination control device 300 may turn on the first illumination 521 and the second illumination 522. Thereafter, when the user operates the first illumination switch 511 in step 3, the power state of the first illumination switch 511 is changed to the ON state. In this case, the illumination control device 300 may output a color adjustment signal for adjusting the color temperature or color of the first illumination 521 and the second illumination 522. [ That is, when the power state of the second power switch 512 in the step 2 before the power state change is on and the power state of the first power switch 511 in the step 3 after the change is on, The control device 300 may output a color adjustment signal. Here, the lighting control apparatus 300 may control the first illumination 521 and the second illumination 522 so that the color temperature or color gradually changes linearly while the first illumination switch 511 is on , Or may be controlled to change stepwise. When the power state of the first lighting switch 511 is turned off in step 4, the lighting control apparatus 300 controls the power of the first lighting switch 511 from the first lighting 511 and the second lighting 522, It is possible to control the first illumination 521 and the second illumination 522 so that light is fixedly output at the color temperature or color at the time when the state is turned off. Thereafter, when the power state of the first illumination switch 511 is turned on again in step 5, the illumination control device 300 controls the first illumination switch 511 so that the illumination is gradually changed while the first illumination switch 511 is on (521) and the second illumination (522). When the power state of the first lighting switch 511 is turned off in step 6, the lighting control apparatus 300 controls the power of the first lighting switch 511 from the first lighting 521 and the second lighting 522, The first illumination 521 and the second illumination 522 can be controlled so that light is fixedly outputted at the illuminance at the time when the state is turned off. When the first power switch 511 and the second power switch 512 are both turned off in step 7, the power of the first and second lights 521 and 522 is turned off.

However, the process shown in FIG. 6 is an example for explaining an embodiment, and the power state or the control operation, which is a condition for determining the control operation, can be variously implemented according to the embodiment.

7 is a view for explaining the operation of an illumination system configured by including two light switches according to another embodiment.

In step S710, the lighting control apparatus 300 can sense the power state of the first power switch 511 and the second power switch 512. [ If the power state of the first illumination switch 511 is turned on in step S720, the illumination control device 300 may turn on the power of the lights 521 and 522 (step S725).

Thereafter, in step S730, the lighting control apparatus 300 can determine whether the power state of the second lighting switch 512 is turned on. When the power state of the second lighting switch 512 is changed to the ON state, the lighting control apparatus 300 can control the lighting apparatuses 521 and 522 to be in a plurality of states in step S735. For example, the lighting control apparatus 300 can control the lights 521 and 522 so that the lights 521 and 522 alternately output light of 3000K color temperature and light of 6000K every one second.

Thereafter, in step S740, the illumination control device 300 can sense the snapping operation of the second illumination switch 512. [ When the snapping operation of the second illumination switch 512 is detected, the illumination control apparatus 300 can determine the state of the illumination at the time when the snapping operation is detected in step S745. The lighting control apparatus 300 may control the lights 511 and 512 so that the lights 511 and 512 execute control operations corresponding to the states of the lights sensed in step S745. That is, when the number of states of illumination being changed in step S735 is N (N > = 2), the illumination control apparatus 300 performs an operation corresponding to the state of illumination in which the snapping operation is detected among N states (Steps S751 and S750). For example, in the case where the lights 521 and 522 alternately output light having a color temperature of 3000K and light having a color temperature of 6000K in step S735, the illumination control device 300 may be configured such that the lights 521 and 522 output light having a color temperature of 3000K The illuminance of the illuminations 521 and 522 can be gradually changed when the snapping operation of the second illumination switch 512 is detected. When the snapping operation of the second illumination switch 512 is detected while the lights 521 and 522 output light of the color temperature of 6000K, the color temperature of the illumination 521 gradually increases . The user can select a desired control operation by inputting the snapping operation to the second illumination switch 512 while watching the state of the illumination changed in step S735.

Thereafter, when the second illumination switch 760 is turned off in step S760, the illumination control device 300 may terminate the control operation (S770). For example, it is possible to stop changing the illuminance or the color temperature of the illumination which is being changed in one of steps S751 to S750, and to output the light with a fixed output such as illuminance and color temperature at the end of the control operation.

In this specification, terms such as " first "and" second "are intended to illustrate an embodiment and may be modified according to an embodiment. For example, the illumination control device may perform the same operation even if the "first switch" and the "second switch"

FIG. 8 is a block diagram briefly illustrating the structure of an illumination system constructed by including three light switches according to another embodiment, and FIG. 9 is a block diagram of an operation of an illumination system constructed by including three light switches in accordance with another embodiment Fig. 9 is a diagram illustrating a process 910 for controlling illumination and color temperature of illumination.

The illumination system according to one embodiment includes a first illumination switch 811, a second illumination switch 812, a third illumination switch 813, a light control device 300, a first illumination 821, 822, and a third illumination 823. The illumination system may include a power supply 840 for supplying power to the first illumination 821, the second illumination 822, and the third illumination 823, respectively. The power supply unit 840 may include one component and may supply power to the first illumination unit 821, the second illumination unit 822, and the third illumination unit 823, or may be provided with a plurality of components . Alternatively, the power supply unit 840 may be included in the illumination control device 300. [ In addition, the number of lighting switches and the number of lights do not always have to be the same, and at least one lighting may be provided.

First, if all of the lighting switches 811, 812, and 813 are in the off state as in step 1 of the process 910, power is not supplied, so that the lights 821, 822, and 823 are turned off do. Thereafter, when the user operates the first illumination switch 811 in step 2, the power state of the first illumination switch 811 can be changed to the ON state. In this case, the lighting control apparatus 300 can turn on the lights 821, 822, and 823. Thereafter, when the power state of the second illumination switch 812 is turned on in step 3, the illumination control apparatus 300 may output a dimming signal for adjusting the illuminance. That is, when the power state of the first lighting switch 811 is turned on and the power state of the second lighting switch 812 is changed from the off state to the on state, the illumination control apparatus 300 controls the illumination (821, 822, 823). Thereafter, when the power state of the second lighting switch 812 is changed to the off state in step 4, the lighting control apparatus 300 sets the light to the illuminance at the time when the power state of the second lighting switch 812 is changed to the off state, To control the lights 821, 822, and 823 to output to the light sources 821, 822, and 823. Thereafter, in step 5, when the power state of the third illumination switch 813 is changed from the off state to the on state, the illumination control apparatus 300 may output a color adjustment signal for adjusting the color temperature or color. When the power state of the first lighting switch 811 is on and the power state of the third lighting switch 813 is on, the lighting controller 300 controls the lighting of the lights 821, 822, 823 Can be controlled. Thereafter, when the power state of the third lighting switch 813 is changed to the off state in step 6, the lighting control apparatus 300 controls the lighting state of the third lighting switch 813 in accordance with the color temperature or color 822, and 823 so as to output a fixed output of the light sources 821, 822, and 823. Thereafter, when the power state of the illumination switches 811, 812, 813 is changed to the off state in step 7, the power of the lights 821, 822, 823 is turned off.

10 is a flow chart illustrating a process by which a lighting control apparatus controls illumination in accordance with one embodiment.

First, in the power sensing step (S1010), the lighting control apparatus can detect whether the power state of each of the plurality of lighting switches is on or off. Thereafter, in step S1020, the lighting control apparatus may determine whether there is a changed power state among the power states detected in the power sensing step (S1010).

If there is at least one changed power state, the lighting control apparatus in the control operation determination step (S1030) may determine the control operation based on the combination of the plurality of power states before the power state is changed and the at least one changed power state . Thereafter, in the signal output step (S1040), the illumination control apparatus can control the illumination by outputting a control signal for controlling at least one illumination in accordance with the determined control operation. The control operation determined in the control operation determination step (S 1030) may be determined with reference to what is shown in the description related to FIG. 6, FIG. 7, and FIG. 9, but is not limited thereto.

Thereafter, in step S1050, when all the power states are turned off, the power of the illumination is turned off, and when there is the power state that is on, the lighting controller may perform step S1010 again.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

110: Lighting switch
120: Lighting
130: Power supply
300: Lighting control device
310:
320: Signal output section

Claims (10)

A lighting control apparatus for controlling at least one illumination,
A sensing unit for sensing whether the power state of each of the plurality of light switches is on or off; And
Wherein when at least one power state of the plurality of power states sensed by the sensing unit is changed, a plurality of power states before the at least one power state is changed and at least two power states among the at least one power state And a signal output section for outputting a control signal for controlling the at least one illumination in accordance with the determined control operation.
The method according to claim 1,
Wherein the control signal comprises:
A dimming signal to adjust the illumination of the at least one illumination and a hue adjustment signal to adjust the color temperature or hue of the light output from the at least one illumination.
The method according to claim 1,
The plurality of illumination switches including a first illumination switch and a second illumination switch,
Wherein the signal output section comprises:
When the power state of the first illumination switch is on and the power state of the second illumination switch is off and the power state of the second illumination switch is on, And when the snapping operation of the second illumination switch is sensed, outputs a control signal corresponding to the state of the at least one illumination at the time when the snapping operation is sensed. Lighting control device.
The method according to claim 1,
The plurality of illumination switches including a first illumination switch and a second illumination switch,
Wherein the signal output section comprises:
And outputs a dimming signal for adjusting the illuminance of the illumination when the power state of the first illumination switch is on and the power state of the second illumination switch is changed from the off state to the on state,
And outputs a hue adjustment signal for adjusting the color temperature or hue of the illumination when the power state of the first illumination position is in an off state and the power state of the first illumination switch is changed from an off state to an on state.
The method according to claim 1,
Wherein the plurality of illumination switches include a first illumination switch, a second illumination switch, and a third illumination switch,
Wherein the signal output section comprises:
And outputs a dimming signal for adjusting the illuminance of the illumination when the power state of the first illumination switch is on and the power state of the second illumination switch is on,
And outputs a color adjustment signal for adjusting the color temperature or color of the illumination when the power state of the first illumination switch is on and the power state of the third illumination switch is on.
The method according to claim 1,
The illumination control device includes:
Further comprising power cut-off means for cutting off at least one of a plurality of power lines connected through said plurality of lighting switches.
The method according to claim 1,
The illumination control device includes:
Further comprising storage means for storing information on the state of the illumination,
Wherein the signal output section comprises:
And outputs a control signal for controlling the illumination in accordance with the state of the illumination stored in the storage means when the power of the illumination is turned on in a state where the power of the illumination is turned off.
A method of controlling at least one illumination,
A power sensing step of detecting whether a power state of each of the plurality of light switches is on or off;
Wherein when at least one power state of the plurality of power states detected in the power sensing step is changed, a plurality of power states before the at least one power state is changed and at least two power states among the at least one power state A control operation determining step of determining a control operation based on a combination of the control operations; And
And a signal output step of outputting a control signal for controlling the at least one light in accordance with the determined control operation.
9. The method of claim 8,
The plurality of illumination switches including a first illumination switch and a second illumination switch,
Wherein the control operation determining step includes:
When the power state of the first illumination switch is on and the power state of the second illumination switch is off and the power state of the second illumination switch is on, A control operation for causing the control unit to perform the control operation; And
And determining a control operation corresponding to a state of the at least one illumination at a time when a snapping operation is sensed when a snapping operation of the first illumination switch is sensed.
9. The method of claim 8,
The plurality of illumination switches including a first illumination switch and a second illumination switch,
Wherein the control operation determined in the control operation determination step includes:
A dimming operation for adjusting the illuminance of the illumination when the power state of the first illumination switch is on and the power state of the second illumination switch is changed from an off state to an on state,
Wherein the color adjustment operation is for adjusting the color temperature or hue of the illumination when the power state of the first calling switch is off and the power state of the first lighting switch is changed from an off state to an on state.

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