WO2014192996A1

WO2014192996A1 - Emotional state lighting system using optimization algorithm, and device and method for controlling emotional state lighting

Info

Publication number: WO2014192996A1
Application number: PCT/KR2013/004700
Authority: WO
Inventors: 김상옥; 김병오; 김동식; 김형준; 장영석
Original assignee: (주)유양디앤유
Priority date: 2013-05-29
Filing date: 2013-05-29
Publication date: 2014-12-04
Also published as: KR20140140275A

Abstract

An emotional state lighting system using an optimization algorithm, and a device and a method for controlling emotional state lighting are disclosed. The device for controlling emotional state lighting is a device for controlling emotional state lighting by connecting with a remote terminal and light-emitting devices, the device comprising: a signal acquisition unit for acquiring an emotional state lighting request signal from the remote terminal; a control unit for checking mode information included in the emotional state lighting request signal and generating an emotional state lighting control signal including luminance and color temperature adjustment values corresponding to the mode information; and a signal transmission unit for transmitting the emotional state lighting control signal to the plurality of light-emitting devices such that each of the light-emitting devices is turned on for the emotional state lighting corresponding to the mode information.

Description

Emotion Lighting System, Emotion Lighting Control System and Method Using Optimization Algorithm

This embodiment relates to an emotional lighting system, an emotional lighting control device and a method using an optimization algorithm. More specifically, the emotion using an optimization algorithm that provides an optimized indoor lighting by controlling the illuminance and color temperature of the light emitting device based on mode information such as place, situation, age, learning, etc. inputted by a user's operation from a remote terminal. A lighting system, emotional lighting control device and method.

The contents described in this section merely provide background information on the present embodiment and do not constitute a prior art.

The lighting apparatus is a mechanism for fixing or protecting a light source by reflecting, refracting and transmitting light of a light source, and means a mechanism for fixing or protecting a light source by reflecting, refracting and transmitting light of a light source.

In general, as lighting devices used for indoor lighting in buildings, incandescent lamps, fluorescent lamps, three-wavelength lamps, CCFL (Cold Cathode Fluorescent Lamp), etc. are used as light sources, and recently, high-brightness LED (Light Emitting Diode) lamps Lighting devices are spotlighted for their low power consumption (1/6 of incandescent lamps), long lifespan (8 times that of incandescent lamps), environmentally friendly properties (without harmful substances such as mercury), and ease of color and brightness control.

On the other hand, when the indoor lighting is installed using such a lighting device, the illumination light is usually generated at a constant illuminance and color temperature. By the way, there is an optimal lighting environment for the most efficient work for each type of work to be performed, and thus it is necessary to provide a lighting environment optimized for the work to be performed. In particular, the classroom of the school where the students are taught is required to provide an optimized lighting environment for each class time, or to provide indoor lighting specialized for each situation and place.

This embodiment, the sensitivity using an optimization algorithm that provides an optimized indoor lighting by controlling the illumination and color temperature of the light emitting device based on the mode information such as the location, situation, age, learning, etc. input from the remote terminal through the user's operation Its main purpose is to provide lighting systems, emotional lighting controls and methods.

According to an aspect of the present embodiment, an apparatus for controlling emotional lighting in conjunction with a remote terminal and a light emitting device, the apparatus comprising: a signal obtaining unit for obtaining an emotional lighting request signal from the remote terminal; A controller configured to check mode information included in the emotion lighting request signal and to generate an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And a signal transmission unit which transmits the emotional lighting control signals to the plurality of light emitting devices to light up the emotional light corresponding to the mode information in each of the light emitting devices. .

According to another aspect of the present embodiment, an apparatus for providing emotional lighting in conjunction with a remote terminal, the apparatus comprising: a signal obtaining unit for obtaining an emotional lighting request signal from the remote terminal; A controller configured to check mode information included in the emotion lighting request signal and to generate an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And an emotional light emitting unit for lighting the emotional light using a plurality of light emitting devices based on the emotional light control signal, and checking the state of each of the light emitting devices at regular intervals to maintain a lighting state of the emotional light. It provides an emotional lighting system characterized in that.

In addition, according to another aspect of the present invention, a method for controlling emotional lighting in conjunction with a remote terminal and a light emitting device, the method comprising: a signal obtaining process of obtaining a emotional lighting request signal from the remote terminal; A control process of identifying mode information included in the emotion lighting request signal and generating an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And transmitting a sentiment lighting control signal to the plurality of light emitting devices so that the sentiment lighting corresponding to the mode information is turned on in each of the light emitting devices. do.

In addition, according to another aspect of the present invention, a method for providing emotional lighting in conjunction with a remote terminal, the method comprising: a signal acquisition process for obtaining the emotional light request signal from the remote terminal; A control process of identifying mode information included in the emotion lighting request signal and generating an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And an emotional light emitting process of lighting the emotional light by using a plurality of light emitting devices based on the emotional light control signal, and checking the state of each of the light emitting devices at regular intervals to maintain a lighting state of the emotional light. It provides a method for providing emotional lighting, characterized in that.

As described above, according to the present embodiment, the indoor lighting is optimized by controlling the illuminance and the color temperature based on the mode information such as the place, the situation, the age, and the learning inputted by the user's operation from the remote terminal. By doing so, there is an effect of enabling living or working efficiently according to the mode information.

In addition, in controlling the emotional lighting, the control is performed by dividing the main and sub parts into separate parts, so that the amount of power used can be saved by individually controlling the light emitting devices.

In addition, by periodically controlling the state of the light emitting device by using a sub-controller connected to the plurality of light emitting devices one-to-one, there is an effect that can maintain the emotional light even if any one of the light emitting device is broken or error. By using the mode information including the schedule information for each sub-control device to set the mode to be changed regularly in school, work, etc. has an effect that can automatically control the emotional lighting.

1 is a block diagram schematically showing the emotional lighting system according to the present embodiment.

2 is a block diagram schematically illustrating an apparatus for controlling emotional lighting according to the present embodiment.

3 is a flowchart illustrating a method of controlling emotional lighting according to the present embodiment.

4 is a block diagram schematically illustrating an apparatus for controlling emotional lighting according to another embodiment.

5 is an exemplary view showing a connection structure of the main lighting control device, the sub-light control device and the light emitting device according to the present embodiment.

6 is an exemplary view showing a structure of a light emitting device for an emotional light according to the present embodiment.

7 is an exemplary view showing a main lighting control device and a dimming control table according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

Emotional lighting system according to the present embodiment includes a remote terminal 110, a network 120, the main lighting control device 130, the sub-control device 140 and the light emitting device 150. Emotional lighting system according to this embodiment is described as including only the remote terminal 110, the network 120, the main lighting control device 130, the sub-control device 140 and the light emitting device 150, this It is merely illustrative of the technical idea of the embodiment, and those skilled in the art to which this embodiment belongs, various modifications to the components included in the emotional lighting system without departing from the essential characteristics of this embodiment And modifications may be applicable.

The remote terminal 110 refers to a terminal capable of transmitting and receiving various data via the network 120 according to a user's key operation or command, and may be a tablet PC, a laptop, or a personal computer. Personal computer), smart phone, personal digital assistant (PDA) and mobile communication terminal (Mobile Communication Terminal), etc. may be any one, and if not the network 120 infrared ( IR (infrared) or wireless sensor may be a remote control.

The remote terminal 110 according to the present exemplary embodiment transmits the emotional lighting request signal input through the user's manipulation to the main lighting controller 130. Here, the emotion lighting request signal includes mode information on learning, situation, place, and the like and identification information on the request signal.

The remote terminal 110 preferably transmits the emotional light request signal to the main lighting controller 130 using an infrared method, but is not necessarily limited thereto. The remote terminal 110 includes a remote control application in the terminal 110 and drives the same. A service that controls emotional lighting can be performed. Here, when the remote terminal 110 uses an infrared method, the remote terminal 110 may be a remote controller in which modes of each situation, place, and learning are displayed, and correspond to modes of each situation, place, and learning according to user's setting. It may be provided with a shortcut key or a hot key. Here, the mode information may be mode information for each learning, but is not necessarily limited thereto. The mode information may be set to various information such as mode information for each situation, mode information for each place, mode information for each age, and the like. Here, the mode information for each learning means a mode for the art area, the language area, the mathematical area, the rest area, and the like, and the mode information for each situation refers to a mode for conversation, reading, play, guest entertainment, and fine work.

The network 120 refers to a network capable of transmitting and receiving data using a communication protocol using various wired and wireless communication technologies such as an intranet network, a mobile communication network, an internet network, and a satellite communication network. The network 120 is not only an open network such as a local area network (LAN), a wide area network (WAN), an open network such as the Internet, but also code division multiple access (CDMA) and wideband code division multiple (WCDMA). It is a concept that collectively refers to networks such as Access (GSM), Global System for Mobile Communications (GSM), Long Term Evolution (LTE), and Evolved Packet Core (EPC), as well as next-generation networks and cloud computing networks.

The main lighting controller 130 obtains the emotion lighting request signal input through the user's manipulation from the remote terminal 110 and checks the information included in the obtained emotion lighting request signal. In more detail, the main lighting control device 130 receives an emotional lighting request signal including the mode information on the learning, the situation, the place and the like and identification information on the request signal from the remote terminal 110, the emotional lighting request signal If it is determined that the identification information is valid, the mode information is checked. For example, when the mode information is the learning mode information, the main lighting controller 130 may check whether the learning mode information corresponds to an art area, a language area, a mathematical area, a rest area, or the like.

The main lighting controller 130 generates an emotion control signal including an adjustment value for illuminance and color temperature of the emotional light corresponding to each mode information based on the identified mode information. For example, when the hourly mode information is confirmed, the main lighting controller 130 may generate an emotion control signal to be adjusted to '5 lx illuminance and color temperature 3000 K' at 10 minutes before sunrise based on the hourly mode information. In addition, when the mode information for each learning is confirmed, the main lighting control device 130 may generate an emotion control signal to be adjusted to the color temperature 5000 K at the time of learning the language region based on the mode information for each learning. The emotion control signal may be adjusted in combination with illumination according to age.

On the other hand, the main lighting control device 130 may transmit a request signal corresponding to the mode information to the database to obtain the emotion control signal corresponding to the request signal previously stored in the database. Such a database may be provided in the main lighting control device 130 or implemented as a separate external server.

The main lighting controller 130 generates a sub setting signal corresponding to the plurality of sub lighting controllers 140 based on the emotion control signal. That is, the main lighting control device 130 generates a sub setting signal including at least one or more information among a unique number, an identification number, a position coordinate value, etc. for each sub lighting control device 140, and generates the generated sub setting. The signal is transmitted to each sub-illumination controller 140. Here, the unique number may be a number preset to each sub-light control device 140, the identification number may be a number assigned to each sub-light control device 140 in the installation order for identification, location coordinates The value may be set to x and y coordinate values for each sub-illumination controller 140 in the indoor area.

Meanwhile, when the light emitting device 150 operates by being divided into main emotional lighting and sub emotional lighting, the main lighting control device 130 may change the sub control signal into a main control signal and transmit it directly to the light emitting device 150. .

The sub-light control device 140 generates an emotional light control signal for turning on the light emitting device 150 based on the sub-control signal received from the main light control device 130. Here, the sub-illumination control device 140 may be implemented in plural, and it is preferable that the sub-light control device 140 is matched with the plurality of light emitting devices 150 in a one-to-one manner.

On the other hand, when the sub-illumination control device 140 is matched with the plurality of light-emitting devices 150 in a one-to-one manner, the sub-light control device 140 checks the state of the light-emitting device 150 at predetermined intervals between the sub-light control devices 140 to emit light. The device 150 can be controlled to maintain a constant illuminance and color temperature. In addition, the sub-illumination controller 140 controls the illuminance and color temperature of the remaining light emitting devices 150 when a predetermined light emitting device 150 of the plurality of light emitting devices 150 reaches the end of life or cannot operate normally. It may be operable to maintain the illuminance and color temperature corresponding to the mode information requested by the user.

In FIG. 1, the sub-illumination control device 140 is described as being a separate device from the main lighting control device 130 and the light emitting device 150, but is not necessarily limited thereto, and the sub-lighting may be performed on the main lighting control device 130. It may be implemented in the form of a control unit and may be connected to the light emitting device 150 through a network line, or may be implemented as one device in combination with the light emitting device 150.

The light emitting device 150 is a device for converting electrical energy into light energy. The light emitting device 150 according to the present embodiment includes a plurality of light emitting devices, and receives from the sub-light control device 140 among the plurality of light emitting devices. The light emitting device corresponding to the sentimental lighting control signal is emitted. Here, the plurality of light emitting devices preferably include a white light emitting device (Pure LED) and a warm white light emitting device (Warm LED), but is not necessarily limited thereto. Red light emitting devices, green light emitting devices, and blue light emitting devices may be used as necessary. It may further include an RGB-based light emitting device.

Here, the light emitting device included in the light emitting device 150 is preferably operated by separating the white light emitting device and the warm white light emitting device, but is not necessarily limited thereto. It may be formed.

In addition, the light emitting devices included in the light emitting device 150 according to the present embodiment are preferably light emitting diodes (LEDs), but are not necessarily limited thereto, and if they can be used as emotional lighting, OLEDs (Organic Light Emitting Diodes) may be used. ) And any lighting, including PLS (Plasma Lighting System).

The main lighting controller 130 according to the present exemplary embodiment includes a signal obtaining unit 210, a signal checking unit 220, an emotion adjusting unit 230, a sub control setting unit 240, and a signal transmitting unit 250. do. The main lighting controller 130 according to the present embodiment includes only a signal acquisition unit 210, a signal confirmation unit 220, an emotion control unit 230, a sub-control setting unit 240, and a signal transmission unit 250. However, this is merely illustrative of the technical idea of the present embodiment, those skilled in the art to which the present embodiment belongs to the main lighting control device without departing from the essential characteristics of the present embodiment ( The components included in 130 may be modified and modified in various ways.

The signal acquisition unit 210 performs an operation of acquiring an emotional light request signal input through a user's manipulation from the remote terminal 110. Here, the emotion lighting request signal includes mode information on learning, situation, place, and the like and identification information on the request signal.

The signal confirmation unit 220 confirms the information included in the emotional light request signal. The signal checking unit 220 according to the present embodiment checks the identification information and, if the remote terminal 110 is authenticated, checks the mode information and transmits it to the emotion adjusting unit 230. For example, when the mode information is the learning mode information, the signal checking unit 220 determines whether the learning mode information corresponds to an art area, a language area, a mathematical area, a rest area, etc. The control unit 230 transmits the emotion control signal for the corresponding area.

The emotion control unit 230 generates an emotion control signal corresponding to the mode information based on the mode information checked by the signal confirmation unit 220. Here, the mode information may be mode information for each learning, but is not necessarily limited thereto. The mode information may be information such as mode information for each situation, mode information for each place, mode information for each age, and the like. , Mode for repair area, rest area, etc., mode information for each situation means a mode for conversation, reading, play, entertaining guests, fine work.

That is, the emotion adjusting unit 230 generates an emotion control signal including an adjustment value for the illumination and color temperature of the emotion light corresponding to each mode information, and the emotion control signal is based on the illumination and color temperature shown in Table 1 below. It is preferably generated by.

Table 1 shows an embodiment of the illuminance and color temperature of the mode information and the emotional light accordingly.

Table 1

Mode	Condition	Roughness	Color temperature
Hourly	10 minutes before sunrise	5 lx	3000 K
	Sunrise	30 lx	3500 K
	10 minutes after sunrise	60 lx	4000 K
	Morning
		150 lx	5500 K
	Before and after sunset	300 lx	4000 K
Sleep
	5 lx-> 1 lx	3000 K
By situation	Conversation		150 lx	3000 K
	Reading	300 lx	5000 K
	play
		150 lx	6500 K
	Entertaining guests	500 lx	4500 K
Fine work	700 lx	5500 K
By age	10 sets	Standard roughness	-
	20's	Standard illuminance * 1.2	-
	30s	Standard roughness * 1.3	-
	40s	Standard illuminance * 1.4	-
	Fifties	Standard roughness * 1.6	-
	60s	Standard roughness * 1.8	-
By learning	Art Area	-	7000 K
	Language	-	5000 K
	Repair Area	-	3000 K
	Resting area	-	3500 K

As shown in Table 1, the emotion control unit 230 is a sensitivity control including an adjustment value for adjusting the illuminance and color temperature of the light emitting device 150 using mode information such as time, situation, age and learning Generate a signal. For example, when the mode information for each hour is confirmed, the emotion controller 230 may generate an emotion control signal to be adjusted to '5 lx illuminance at 10 minutes before sunrise and color temperature 3000 K' based on the hourly mode information. In addition, when the mode information for each learning is confirmed, the emotion adjusting unit 230 may generate an emotion control signal to be adjusted to the color temperature 5000 K at the time of learning the language region based on the mode information for each learning. Emotion control signal may be adjusted by combining the illumination according to age.

On the other hand, the emotion control unit 230 is described as generating an emotion control signal corresponding to the mode information, but is not necessarily limited to this, by transmitting a request signal corresponding to the mode information to the database stored in advance corresponding to the request signal Emotion control signal may be obtained. Such a database may be provided in the main lighting control device 130 or implemented as a separate external server.

The sub control setting unit 240 generates an operation of generating a sub setting signal corresponding to the plurality of sub illumination controllers 140 based on the emotion control signal. Here, the sub-control setting unit 240 generates a sub-setting signal including at least one or more information among the unique number, identification number, position coordinate value, etc. for each sub-light control device 140, the generated sub-setting The signal is transmitted to each sub-illumination controller 140 through the signal transmitter 250. Here, the unique number may be a number preset to each of the sub-light control device 140, such as '101', '102', '103', the identification number is identified to each sub-light control device 140 The number of '# 1', '# 2', '# 3' and '# 4' may be given in order of installation, and the position coordinate value is for each sub-illumination controller 140 in the indoor area. It may be set as (1,2), (2,2), etc. using the preset x, y coordinate values.

The signal transmitter 250 is connected to the sub-illumination controller 140 to transmit a sub control signal. On the other hand, when the light emitting device 150 is divided into a main emotional light and a sub emotional light to operate, the signal transmitter 250 may change the sub control signal into a main control signal and transmit the signal directly to the light emitting device 150.

The main lighting controller 130 obtains the emotional lighting request signal input through the user's manipulation from the remote terminal 110 (S310). Here, the emotion lighting request signal includes mode information on learning, situation, place, and the like and identification information on the request signal.

The main lighting controller 130 checks the current light emitting state and identification information of the current light emitting device 150 (S320), and checks the mode information included in the obtained emotional light request signal (S360). That is, the main lighting control device 130 checks the identification information and checks the mode information when the remote terminal 110 is authenticated. For example, when the mode information is learning mode information, the main lighting control device 130 checks whether the learning mode information corresponds to an art area, a language area, a mathematical area, a rest area, or the like.

The main lighting control device 130 generates a sub setting signal based on the mode information checked in step S360 (S340), and transmits the generated sub setting signal to the sub light control device 140 (S350). In operation S340, the main lighting control device 130 may generate an emotion control signal corresponding to the mode information based on the identified mode information, and generate a sub setting signal based on the emotion control signal. Here, the emotion control signal refers to a signal including an adjustment value for illuminance and color temperature of an emotional light corresponding to each mode information. For example, when the mode information for each hour is confirmed, the emotion controller 230 may generate an emotion control signal to be adjusted to '5 lx illuminance at 10 minutes before sunrise and color temperature 3000 K' based on the hourly mode information. In addition, when the mode information for each learning is confirmed, the emotion adjusting unit 230 may generate an emotion control signal to be adjusted to the color temperature 5000 K at the time of learning the language region based on the mode information for each learning.

The main lighting controller 130 generates a sub setting signal by including at least one or more information of a unique number, an identification number, a position coordinate value, etc. for each sub lighting controller 140 based on the emotion control signal. The generated sub setting signal is transmitted to each sub lighting controller 140.

The sub-illumination controller 140 generates an emotional lighting control signal for turning on the emotional light based on the received sub-setting signal (S360), and transmits the generated emotional lighting control signal to the light emitting device 150 (S370). In operation S380, the light emitting device 150 lights up the emotional light based on the emotional light control signal received from the sub-light control device 140.

In FIG. 3, steps S310 to S380 are described as being sequentially executed. However, this is merely illustrative of the technical idea of the present embodiment, and those of ordinary skill in the art to which the present embodiment pertains will be described. 3 may be modified and modified in various manners, such as by changing the order described in FIG. 3 or executing one or more steps of steps S310 to S380 in parallel without departing from the essential characteristics, and thus, FIG. It is not limited.

As shown in FIG. 4, the emotional lighting device 410 according to another embodiment of the present invention includes a signal acquirer 210, a signal checker 220, an emotion controller 230, an illumination controller 420, and an emotion. The illumination light emitting unit 430 is included. Since the signal acquisition unit 210, the signal confirmation unit 220, and the emotion adjustment unit 230 included in the emotional lighting device 410 are the same as those shown in FIG. 2, a detailed description thereof will be omitted.

The emotion control unit 230 generates an emotion control signal including an adjustment value for illuminance and color temperature of the emotional light corresponding to each mode information based on the mode information confirmed by the signal confirmation unit 220. Here, the mode information may be mode information for each learning, but is not necessarily limited thereto. The mode information may be information such as mode information for each situation, mode information for each place, mode information for each age, and the like. , Mode for repair area, rest area, etc., mode information for each situation means a mode for conversation, reading, play, entertaining guests, fine work.

The lighting controller 420 generates the emotion lighting control signal based on the emotion control signal received from the emotion controller 230. That is, the lighting control unit 420 controls the emotional light emitting unit 430 based on the emotion control signal, but uses the dimming control to correspond to the color temperature of the light in proportional relationship to change the color temperature and the illumination of the light. Generate a control signal.

In addition, the lighting controller 420 may control the illuminance and color temperature for each region by dividing the plurality of light emitting elements provided in the emotional lighting emitter 430 into predetermined regions, and the light emission state between the regions may be set at predetermined intervals. Emotion lighting control signal can be changed and modified to maintain constant illuminance and color temperature.

Emotional light emitting unit 430 includes a light emitting device for converting electrical energy into light energy. The emotional light emitting unit 430 according to the present exemplary embodiment includes a plurality of light emitting devices and lights up the emotional light based on the emotional light control signal received from the lighting controller 420. Here, the plurality of light emitting devices preferably include a white light emitting device (Pure LED) and a warm white light emitting device (Warm LED), but is not necessarily limited thereto. Red light emitting devices, green light emitting devices, and blue light emitting devices may be used as necessary. It may further include an RGB-based light emitting device.

As shown in FIG. 5, when the main lighting control device 130 according to the present embodiment receives mode information for each learning, the emotional lighting control signal is generated using color temperature, illuminance, and dimming control, and the emotional lighting control is performed. The signal is transmitted to the plurality of light emitting devices 150 to control the lighting of the emotional light. Here, the main lighting control device 130 may generate an emotional lighting control signal and transmit it directly to the light emitting device 150 through a network line, but the present invention is not limited thereto. When the sub-illumination control device 140 corresponding to 150 is provided, the main lighting control device 130 may include at least one or more of a unique number, an identification number, a position coordinate value, and the like for each sub-light control device 140. A sub setting signal including information is generated and transmitted to each sub illumination controller 140, and the sub illumination controller 140 emits the emotional light for turning on the light emitting device 150 based on the received sub control signal. The control signal may be generated and transmitted to the light emitting device 150. Here, the sub-illumination control device 140 is described as being implemented on a network line, but is not necessarily limited thereto, and may be included in the flat panel light, that is, the light emitting device 150.

As shown in FIG. 6, the light emitting device 150 includes an LED (LED) substrate 610. Here, the LED substrate 610 may include a plurality of light emitting devices, and a printed wiring board (PCB), a mixture of ceramic and aluminum, or a flexible printed wiring board (FPCB) may be used as a configuration for installing the light emitting devices. .

The plurality of light emitting devices installed on the LED substrate 610 may include a white light emitting device (Pure LED) and a warm white light emitting device (Warm LED), but is not necessarily limited thereto. Red light emitting device, green light emitting device, and It may further include an RGB-based light emitting device including a blue light emitting device. On the other hand, the white light emitting device and the warm white light emitting device is preferably installed alternately one by one in the horizontal and vertical of the LED base 610.

Meanwhile, the light emitting device 150 shown in FIG. 6 may be implemented by attaching the main lighting control device 130 to the upper part, and the main lighting control device 130 attached to the upper part may include the sub-lighting control device 140. The light emitting device 150 may be attached to each other and may be implemented as a single emotional lighting device 410 combined with the light emitting device 150.

FIG. 7A illustrates an example of actual equipment in which the main lighting control device 130 is implemented. The sub-lighting control device 140 uses a network line located at the lower left of FIG. 7A. Alternatively, the light emitting device 150 may be connected to control emotional lighting.

7 (b) is a table for controlling the emotional lighting through the dimming control, the main lighting controller 130 is used to vary the color temperature and the illuminance of the light by using a dimming control to correspond to the color temperature of the light in a proportional relationship In this case, a table such as (b) of FIG. 7 can be used, and an emotional lighting control signal is generated based on the table. For example, when the lighting level of the white light emitting device and the warm white light emitting element is set to 0 to 10, respectively, the level of the white light emitting device is set to '0' and the level of the white light emitting device is set to '10' for the emotional light control signal. In the case of generating the illumination, the illuminance and color temperature for the sensitized lighting mainly using a warm white light emitting device can be turned on.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which the present embodiment belongs may make various modifications and changes without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the present invention, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

(Explanation of the sign)

110: remote terminal 120: network

130: main lighting controller 140: sub-light controller

150: light emitting device

210: signal acquisition unit 220: signal confirmation unit

230: emotion adjustment unit 240: main lighting control unit

250: sub-control setting unit 260: signal transmission unit

CROSS-REFERENCE TO RELATED APPLICATION

This patent application claims priority under Patent Application No. 10-2013-0060885, filed in Korea on May 29, 2013, pursuant to Article 119 (a) (35 USC § 119 (a)). All content is incorporated by reference in this patent application. In addition, if this patent application claims priority for the same reason for countries other than the United States, all its contents are incorporated into this patent application by reference.

Claims

An apparatus for controlling emotional lighting in conjunction with a remote terminal and a light emitting device,

A signal obtaining unit obtaining an emotional lighting request signal from the remote terminal;

A controller configured to check mode information included in the emotion lighting request signal and to generate an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And

A signal transmitter which transmits the emotional lighting control signals to the plurality of light emitting devices so that the emotional light corresponding to the mode information is turned on in each of the light emitting devices

Emotional lighting control device comprising a.
The method of claim 1,

The control unit,

A main lighting controller which checks the mode information included in the emotional lighting request signal, and generates a sub setting signal including illumination and color temperature adjustment values corresponding to the mode information and including division information according to the light emitting device; And

A sub-light control unit connected to the plurality of light emitting devices one-to-one, and generating an emotional light control signal based on the sub-setting signal and transmitting the same to the respective light emitting devices;

Emotional lighting control device comprising a.
The method of claim 2,

The main lighting control unit,

A signal confirmation unit confirming the mode information included in the emotional light request signal;

An emotion controller configured to generate an emotion control signal including an adjustment value of illuminance and color temperature of the emotion light corresponding to the mode information; And

A sub-control including the emotion control signal and generating the sub-set signal including at least one of the identification information, an identification number, and a position coordinate value of the sub-light control unit connected to the light emitting device one-to-one; Setting part

Emotional lighting control device comprising a.
The method of claim 3, wherein

The signal confirmation unit,

Emotional lighting control device characterized in that for confirming the identification information included in the emotional lighting request signal, the mode information, if the remote terminal is authenticated.
The method of claim 3, wherein

The emotion adjustment unit,

And transmitting a request signal corresponding to the mode information to a database, and obtaining the previously stored emotion control signal corresponding to the request signal from the database.
The method of claim 3, wherein

The sub control setting unit,

The unique number which is a preset number to the sub-lighting control unit corresponding to each of the light emitting devices, the identification number assigned in order of installation for identification of the sub-lighting control unit, and the position of the sub-lighting control unit in the indoor area. Emotion lighting control device, characterized in that for generating the sub-set signal based on the at least one or more of the position information of the position coordinate value.
The method of claim 1,

The mode information,

Information including at least one mode of time, situation, age and learning,

The mode information for each learning includes at least one mode of an art area, a language area, a mathematical area, and a rest area.

The mode information for each situation includes at least one or more modes of conversation, reading, play, entertaining guests, and fine work.

The mode information for each hour includes at least one mode of before and after sunrise, morning, afternoon and sunset,

The mode information for each age group is emotional lighting control device comprising at least one or more of the 10, 20, 30, 40, 50, 60 and 70 mode.
In the system for providing emotional lighting in conjunction with a remote terminal,

A signal obtaining unit obtaining an emotional lighting request signal from the remote terminal;

A controller configured to check mode information included in the emotion lighting request signal and to generate an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And

Emotional light emitting unit for lighting the emotional light by using a plurality of light emitting elements on the basis of the emotional light control signal, and checks the state of each of the light emitting elements at regular intervals to maintain the lighting state of the emotional light

Emotional lighting system comprising a.
The method of claim 8,

The control unit,

The emotional lighting light emitting unit is controlled based on the emotional control signal, and the color temperature and light intensity of the light emitting device included in the emotional light emitting unit are varied by using a dimming control to correspond the color temperature of the light in proportion. Emotional lighting system, characterized in that for generating an illumination control signal.
The method of claim 8,

The control unit,

A plurality of the light emitting elements connected to the emotional light emitting unit and the network line (Network Line), and controlled by controlling a plurality of the emotional light emitting unit by each of the emotional light emitting unit, or the plurality of light emitting elements included in the emotional light emitting unit Emotional lighting system, characterized in that for controlling by classifying the predetermined area.
In the method of controlling the emotional lighting in conjunction with the remote terminal and the light emitting device,

A signal acquiring step of acquiring an emotional light request signal from the remote terminal;

A control process of identifying mode information included in the emotion lighting request signal and generating an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And

A signal transmission process of transmitting the emotional lighting control signals to the plurality of light emitting devices so that the emotional light corresponding to the mode information is turned on in each of the light emitting devices;

Emotional lighting control method comprising a.
The method of claim 11,

The control process,

A sub-setting signal generation process of identifying the mode information included in the emotional light request signal and generating a sub-setting signal including illumination and color temperature adjustment values corresponding to the mode information and including division information according to the light emitting device; ; And

Emotional lighting control signal generation process that is connected to the plurality of light emitting devices one-to-one, and generates an emotional lighting control signal based on the sub-set signal to transmit to each of the light emitting devices

Emotional lighting control method comprising a.
The method of claim 12,

The sub setting signal generation process,

A signal checking process of checking the mode information included in the emotional lighting request signal;

An emotion control process of generating an emotion control signal including an adjustment value of illumination intensity and color temperature corresponding to the mode information; And

A sub-control including the emotion control signal and generating the sub-setting signal including at least one of the identification information, an identification number, and a position coordinate value of the sub-light control unit connected to the light emitting device one-to-one; Setup process

Emotional lighting control method comprising a.
In a method for providing emotional lighting in conjunction with a remote terminal,

A signal acquiring step of acquiring an emotional light request signal from the remote terminal;

A control process of identifying mode information included in the emotion lighting request signal and generating an emotion lighting control signal including an illumination intensity and a color temperature adjustment value corresponding to the mode information; And

Emotional light emitting process for lighting the emotional light by using a plurality of light emitting devices based on the emotional light control signal, and checks the state of each light emitting device at regular intervals to maintain the lighting state of the emotional light

Emotional lighting providing method comprising a.