KR100724795B1 - Illuminating apparatus and method for setting illuminating data - Google Patents

Abstract

An illuminating apparatus and an illuminating data setting method are provided to increase efficiency of a user and give a stable psychological and emotional sense to the user by offering optimum light for sensitivity of the user. An illuminating apparatus(10) includes a white light source unit(13), a color light source unit(15), a control unit(17), a brightness control unit(19), an operation unit(23), a power unit(11), and a storing unit(21). The white light source unit(13) controls brightness of light. The color light source unit(15) controls color of the light. The control unit(17) controls brightness and color of the white light source unit(13) and the color light source unit(15). The brightness control unit(19) controls brightness of the white light source unit(13) according to a control signal of the control unit(17). The operation unit(23) allows a user to control suitable brightness and color. The power unit(11) supplies power. The storing unit(21) stores data of brightness and color suitable for an environment in which the illuminating apparatus(10) is used.

Description

ILLUMINATING APPARATUS AND METHOD FOR SETTING ILLUMINATING DATA}

1 is a block diagram showing the configuration of a lighting apparatus according to an embodiment of the present invention.

2 is a view schematically showing the configuration of an operation unit in the lighting apparatus according to an embodiment of the present invention.

Figure 3 is a block diagram showing the configuration of the emotion evaluation system connected to the lighting apparatus according to an embodiment of the present invention.

4 is a flowchart illustrating a method of setting lighting data according to an embodiment of the present invention.

<Description of Drawing>

10: lighting device 11: power supply

13: white light source 15: color light source

17: control unit 19: brightness control unit

21: database 23: control panel

25: RGB control button 27: Brightness control button

28: Function mode button 29: Setting mode button

30: emotional evaluation system 31: measuring device

33: Computer 35: Server

37: signal processor 39: emotion evaluation processor

41: Database 43: Color Palette

The present invention relates to a lighting apparatus and a method for setting lighting data.

It is known that 70% of the information that people experience everyday is obtained by vision. The color of each object perceived through vision plays a big role in the emotion and experience of a person. In other words, a certain color may remind you of past memories or trigger some emotions. Therefore, the color of light that can determine the color of an object in everyday life is important in human emotion. In addition, the lighting environment can change the EEG of the worker, so it is believed that the color temperature of the lighting directly affects the fatigue of the worker.

For this reason, there is a need for research of a variable color lighting apparatus capable of realizing a color suitable for a user's environment. The color variable lighting device adjusts the color of the lighting device by mixing the light emitting diode (LED) elements emitting red, green, and blue colors corresponding to the three primary colors of light at an appropriate ratio. do.

However, since such a conventional lighting device is composed of a light emitting diode having a relatively low brightness, it is difficult to realize a constant level of brightness, such as an increase in manufacturing cost. For example, in order to realize a brightness suitable for reading, the lighting apparatus must increase the number of light emitting diodes, thereby increasing the manufacturing cost of the lighting apparatus. In addition, the conventional lighting device provides a monotonous light having a constant color irrespective of the user's environment and sensitivity, causing problems such as deterioration of the user's work efficiency.

The present invention provides a lighting device and a lighting data setting method that can adjust the color and brightness at the same time and can provide a certain level of brightness.

The present invention provides a lighting device and a lighting data setting method that can increase efficiency by providing light that is optimal for the user's emotion.

The lighting apparatus according to an aspect of the present invention is a white light source unit consisting of a color light source unit that can change the color and brightness of the light by adjusting the color ratio and a white light source unit that mainly controls the brightness of the light and provides a brightness higher than a predetermined value, the user's The control unit may be configured to determine the color and brightness of the light source unit according to a selection, and a controller to adjust the color and brightness of the color light source unit according to an input of the operation unit, and to adjust the brightness of the white light source unit.

Lighting device having such a configuration is not only economical and convenient to use because it can adjust the brightness and color of the light, and can provide more than a certain level of brightness without increasing the production cost. In addition, color and brightness can be arbitrarily adjusted according to the environment in which users are used, thereby increasing the user's work efficiency or learning efficiency, and providing emotional and emotional stability.

Embodiments of the lighting apparatus according to the present invention may have one or more of the following features.

For example, the white light source unit may be configured as a white fluorescent lamp, and the controller may adjust the brightness of the fluorescent lamp through the brightness controller, and the brightness controller may be a brightness controller. The lighting apparatus may further include a storage unit in which lighting data according to the function mode selected by the user is stored, and the controller may further include a function mode button corresponding to the function mode. Accordingly, when the function mode button is selected by the user, the controller may control the color light source unit and the white light source unit by the illumination data stored in the storage unit.

The color light source unit may adjust the color by adjusting the ratio of red cyan. In addition, the color light source unit may be formed of a light emitting diode (LED) of red cyan. In addition, the white light source unit may be formed of a white fluorescent lamp. Since white fluorescent lamps are about 10 times brighter than conventional LEDs, it is not necessary to have a large number of LEDs to achieve a constant brightness. And the color light source unit 15 is also involved in the brightness of the lighting device 10 to some extent.

The lighting apparatus may be connected to an emotion evaluation system that evaluates the user's emotion according to the use environment and transmits the evaluation result to the controller. At this time, the control unit determines the lighting data suitable for the environment based on the evaluation result of the emotion evaluation system, and controls the light source unit based on this.

The lighting apparatus may further include a storage unit in which the lighting data according to the lighting mode selected by the user is stored, and the controller may store the selected lighting data in the storage unit and extract the selected lighting data by the user's selection. The lighting data includes data for adjusting the brightness of the lighting device 10 and data for adjusting the color. The brightness of the lighting device 10 is determined by the brightness of the white light source unit 13 and the color light source unit 15, and the color is determined by the ratio of the white light source unit 13 and the color light source unit 15.

The operation unit includes a color table provided with a plurality of colors, and further includes a storage unit in which data about a color corresponding to the color table is stored, and the control unit selects a color selected from the storage unit when a color included in the color table is selected. The white light source unit and the color light source unit may be controlled by extracting data corresponding to the control unit. Here, the color table may be operated by a touch panel method, and the operation unit may use a remote control method.

According to an aspect of the present invention, there is provided a method of setting lighting data, in which an environment in which an illumination device is used is input by a user, an emotion of a user is evaluated by an emotion evaluation system, brightness of a light source unit for an environment selected by a user, and Determining whether the color is an optimal state for the user, and if the lighting data is an optimal value for the selected environment, controlling the light source unit after storing the lighting data corresponding to brightness and color corresponding to the selected environment, and determining If it is not optimal, the process of changing the illumination data for the corresponding brightness and color, controlling the light source unit, and then performing the emotional evaluation.

Embodiments of the lighting data setting method according to the present invention may have one or more of the following features. For example, the environment preferably includes a learning environment, a rest environment, and a general environment.

Hereinafter, an embodiment of a lighting apparatus and an illumination data setting method according to the present invention will be described in detail with reference to the accompanying drawings, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and Duplicate description thereof will be omitted.

1 is a block diagram showing the configuration of a lighting apparatus 10 according to an embodiment of the present invention. Referring to FIG. 1, the lighting apparatus 10 according to an exemplary embodiment of the present invention may include a white light source 13 capable of mainly adjusting the brightness of light and a color light source 15 capable of mainly adjusting the color of light. And a control unit 17 for performing a function of adjusting color and brightness thereof, an operation unit 23 allowing a user to adjust appropriate brightness and color, and a power supply unit 11 for supplying power. In addition, the brightness control unit 19 and the illumination device 10 for adjusting the brightness of the white light source unit 13 and the lighting device 10 may be stored according to the control signal of the controller 17. It includes a storage unit 21. In addition, the lighting device 10 according to an embodiment of the present invention may be connected to the emotion measurement system 30.

The lighting device 10 according to an embodiment of the present invention may not only control color and brightness through the color light source unit 15 and the white light source unit 13, but also provide a brightness higher than a predetermined value. Since the white light source 13 uses a white light source such as a fluorescent lamp that is about 10 times brighter than a general light emitting diode, it is not necessary to include many light emitting diodes, thereby reducing the manufacturing cost of the lighting device 10. .

The white light source unit 13 mainly controls the brightness of the light emitted from the lighting device 10 and is configured by a white light source, that is, a general fluorescent lamp. Fluorescent lamps may use either a method in which electrodes are formed at both ends or an electrodeless method. That is, it is possible to use both the Cold Cathode Florescent Lamp (CCFL) or the External Electrode Fluorescent Lamp (EEFL) which induces the discharge by applying a high voltage to the surface of the Cold Cathode Florescent Lamp (CCFL) that receives the voltage supplied from the inverter through the terminal or the fluorescent lamp. . Since the white light source 13 is about 10 times larger in brightness than the light emitting diode, the number of light emitting diodes constituting the color light source 13 can be reduced. The brightness of the white light source unit 13 may be controlled by the brightness controller 19 controlled by the controller 17. The brightness controller 19 may be a general brightness circuit.

Since the white light source unit 13 has a certain degree of brightness, the lighting device 10 of the present invention can be used for learning lighting (stand), home and office lighting, and the like. The lighting device according to the present invention may be used as a commercial lighting such as a merchandise display stand or a cafe in addition to learning or office work by adjusting the brightness of the white light source unit 13, and of course, may also be used in a billboard. The white light source unit 13 mainly adjusts the brightness of the lighting device 10, but may also be involved in the change of color by adjusting its intensity.

The color light source unit 15 serves to variously change the color and the brightness of the light irradiated by the lighting device 10, and is made of red, green, and blue light emitting diodes. However, the color light source unit 15 is not limited to the light emitting diode, and any light emitting device having red, green, and blue colors may be used. It is also possible to adjust the color by adjusting the ratios of yellow, magenta and cyan as well as red, green and blue.

As such, the color light source unit 15 can produce a desired color by adjusting the intensity of the red cyan light emitting diode. For example, when an electric signal of the same size is input to the red LED, the green LED, and the blue LED, the light irradiated by the color light source unit 15 becomes white, which is the brightness of the light together with the white light source unit 13. To increase. When the red LED and the green LED are turned on and the blue LED is turned off, the color light source unit 15 emits yellow light. At this time, by adjusting the intensity of the red LED and the green LED can be made of red light similar to yellow or green light similar to yellow.

In addition, the color light source unit 15 may turn on the green LED and the blue LED to turn off the green LED, and turn off the green LED, and to turn off the red LED and the blue LED, turn off the green LED.

The power supply unit 11 converts an AC voltage supplied from the outside into a direct current and supplies it to the white light source unit 13 and the color light source unit 15.

The controller 17 receives a user's selection signal input through the manipulation unit 23 and controls the brightness of the white light source unit 13 and the color and brightness of the color light source unit 15. In addition, when a specific function mode button (28 of FIG. 2) is selected by the user, the white light source unit 13 may be configured using brightness information, color information, and the like according to a use environment of the lighting device 10 stored in the storage unit 21 in advance. ) And the color light source 15. That is, the controller 17 controls the lighting on / off and lighting duty ratio for each light emitting diode according to the function mode selected by the operation of the function mode button 28 of the operation unit 23. Generate a Pulse Width Modulation (PWM) signal to control the

The control unit 17 is connected to the emotion evaluation system 30. As a result of the measurement of the emotion evaluation system 30, the user's emotion index is maximum in an environment desired by the user (learning environment, rest environment, work environment, general environment, etc.). Lighting data such as data about brightness and color when it is set to is selected and stored in the storage unit 21. In the case where the user uses the lighting device 10 in a desired environment, the lighting data stored in the storage unit 21 is extracted and then the white light source 13 and the color light source 15 are controlled using the lighting data.

When one of the color tables 43 of the operation unit 23 is selected by the user, the controller 17 extracts data corresponding to the data, that is, data about brightness and data about color from the storage unit 21. The white light source unit 13 and the color light source unit 15 are controlled to produce a color according to the selected color table 43.

The storage unit 21 stores the optimal lighting data according to the environment in which the lighting device 10 is used. The environment in which the lighting device 10 is used is illustrated by the function mode button 28 shown in FIG. 2, which shows a learning mode, a rest mode and a normal mode. That is, when the user selects one of the resting mode, the learning mode, and the general mode, the controller 17 extracts data about the optimal brightness and color stored in the storage 21. The controller 17 controls the brightness and the color of the white light source 13 and the color light source 15 using the extracted illumination data.

As shown in FIG. 1, the illumination data stored in the storage unit 21 includes data about an optimal brightness according to each environment according to a measurement result of the emotion evaluation system 30 connected to the illumination device 10. Data about the color is stored. How to set the lighting data will be described in more detail below.

In addition, the storage unit 21 stores brightness and color data for each color displayed on the color table 43 of the operation unit 23. Therefore, when the user selects any one of the colors in the color table 43, the controller 17 can conveniently extract the data for the selected color from the storage unit 21 to produce the color desired by the user.

2 is a view schematically showing the operation unit 23 of the lighting device 10 according to an embodiment of the present invention. The operation unit 23 is an RGB control button 25 for adjusting the intensity of the red LED, the green LED and the blue LED, a brightness control button 27 for mainly adjusting the brightness of the white light source 13, a function mode button 28, The setting mode button 29 and the color palette 43 are included.

The RGB control button 25 may adjust the color and brightness of the lighting device 10 by adjusting the intensity of the red LED, the green LED, and the blue LED. The user can implement a desired color and brightness by adjusting the duty ratio of the LED corresponding to each color by using the (+) button and the (-) button provided in the RGB control button 25. In addition, the user may adjust the brightness of the white light source unit 13 by moving the brightness adjustment button 27 up and down. It can be seen that the brightness of the lighting device 10 according to the present embodiment is controlled through the white light source 13 and the color light source 15. In addition, the color of the lighting device 10 may be mainly controlled through the color light source unit 15, and the color may be finely adjusted by adjusting the brightness control button 27. For example, when purple is produced by the color light source unit 15, the brightness is increased by using the brightness control button 27, and the light purple is produced. When the brightness is reduced, the dark purple is produced.

The function mode button 28 includes a learning mode button 28a, a rest mode button 28b, and a normal mode button 28c. When the learning mode button 28a is selected, the color and brightness of the lighting device 10 optimized for the user's learning are provided, and when the resting mode button 28b is selected, the color and the brightness suitable for the user's rest are provided. do. When the normal mode button 29c is selected, color and brightness suitable for daily activities of the user, for example, watching television are provided.

When the function mode button 28 is selected, the controller 17 extracts the illumination data corresponding to the function mode button 28 from the storage 21 and uses the white light source unit 13 and the color and brightness. The color is determined by controlling the light source unit 15.

The setting mode button 29 is used when the lighting data corresponding to the function mode button 28 is initially set or used, or the existing lighting data is changed from the optimum conditions according to the respective environments according to the change of the overall environment, and thus the optimal lighting data. Used when needs to reset. When the setting mode button 29 is selected, the controller 17 controls the emotion evaluation system 30 connected to the lighting device 10 to measure the user's emotion, and selects the optimal lighting data according to the selected environment. To store in the storage 21.

The color table 43 is provided with various colors, and a color to be produced by the user may be selected from the color table 43. The color table 43 may be configured in a touch panel manner and operated in a one-touch manner. When the user selects any color among the colors in the color table 43, the controller 17 may adjust the brightness corresponding to the selected color. And extracting color information from the storage unit 21 to control the white light source unit 13 and the color light source unit 15, respectively.

The operation unit 23 is provided integrally with the lighting device 10 to operate the lighting device 10, but may be configured in a remote control (remote control) method for the user's convenience.

Before describing how to set the lighting data will be briefly described for the general emotion evaluation system (30).

3 is a block diagram showing the configuration of a general emotion evaluation system 30. Referring to FIG. 3, the emotion evaluation system 30 includes a measuring device 31 for measuring a physiological signal, a computer 33, and a server 30.

Measuring device 31 is a means for measuring the EEG, pulse wave (PPG), skin resistance (GSR), skin temperature (SKT), the amplifier and data collection board of each measurement signal to a single A / D board It is an integrated form. The computer 33 receives each measurement signal measured from the measuring device 31 and sends it to the server 35. The server 35 is a means for evaluating emotion by analyzing each physiological signal, and is composed of a signal processor 37, an emotion evaluation processor 39, and an emotion database 41.

The signal processor 37 derives the amount of delta, theta, alpha, and beta of the EEG using the power density of each waveform as the EFT FFT, and the peak and amplitude of the signal from the remaining signals. (amplitude), the slope of the peak, and so on. In addition, the emotion evaluation processor 39 defines the variable derived from the signal processor 37 as an increase (+), an invariant (0), and a decrease (-) variable, and sets a combination of the corresponding variables in a rule base. Apply emotion to evaluate. And the change in the physiological signal based on the evaluated emotion is represented by bar graph and numerical value so that the user can know it through the monitor.

The emotion database 41 stores physiological variables and evaluation results of which the emotion evaluation has been completed. A table storing information related to the user's initial selection, a pulse wave (PPG) variable storage table, an EEG variable storage table, a skin resistance variable table, Skin temperature parameter table, and the like. The emotion database 41 may store general optimal illumination data for each environment, that is, the brightness of the white light source unit 13 and the color and brightness of the color light source unit 15.

When the user selects the setting mode through the setting mode button 29, the emotion evaluation system 30 having the above configuration evaluates the user's emotion by the control signal of the control unit 17, The optimal illumination data is transmitted to the control unit 17. Since the process of processing the emotional result by the emotional evaluation system 30 corresponds to a general technique, a detailed description thereof will be omitted.

4 is a flowchart illustrating a method of setting lighting data according to an embodiment of the present invention.

Referring to FIG. 4, the user first selects and inputs an environment to be set in operation S11. In the input method, the setting mode button 29 is pressed in FIG. 2 and then the function mode button 28 to be set is pressed. For example, in order to set the brightness and color of the lighting device 10 suitable for the learning mode, the setting mode 29 is pressed, and then the learning mode button 28a is pressed.

When the environment desired by the user is input in step S11, the controller 17 uses the existing illumination data of the selected environment stored in the storage unit 21 to control the white light source 13 and the color light source 15. Initialize the strength. In addition, the control unit 17 instructs the emotion evaluation system 30 to measure the user's emotional signal, thereby performing the user's emotional evaluation in step S13.

In step S13, the sensitivity evaluation is performed on the user, and the user's brain wave (EEG), pulse wave (PPG), skin resistance (GSR), skin temperature (SKT) and the like are measured by the measuring device 31. The controller 17 uses the measured value to determine whether the user is optimal brightness and color for the environment selected in step S15. For example, when the user wants to select a brightness and color suitable for the learning mode, the brightness and color when the alpha wave is measured by the sensitivity evaluation system 30 for the current brightness and color as maximum as illumination data. You can choose.

As a result of the determination of step S17 by the controller 17, when the brightness and color are optimal for the environment selected by the user, the controller 17 stores the illumination data in the storage 21 (S19) and the white light source 13. And controlling the color light source unit 15 to maintain brightness and color according to the selected illumination data (S21). The illumination data set by the above method is later extracted by the controller 17 when the function mode button 28 is selected and used as information for controlling the white light source 13 and the color light source 13.

If the current brightness and color are not optimal lighting data for the environment selected in step S15, the lighting data is changed in step S17, and the white light source 13 and the color light source 15 are changed by the changed lighting data. To control. The method of changing the lighting data in step S17 may be performed by a user manually inputting the control panel 23 directly, or by the controller 17 automatically changing the brightness and the color based on the measured emotion evaluation.

The controller 17 controls the white light source unit 13 and the color light source unit 17 based on the illumination data input by the user or the illumination data arbitrarily selected by the controller 17. Then, the user's emotional evaluation is performed again in the atmosphere of color and brightness by the changed lighting data (S13).

Thus, through the lighting data setting method of the present invention, the user can select the optimal color and lighting in the desired environment, thereby increasing the learning efficiency or the work efficiency, as well as obtaining the psychological and emotional stability.

Although the embodiments of the present invention have been described above, various changes and modifications of the present invention should also be construed as falling within the scope of the present invention as long as the technical idea of the present invention is realized.

The present invention can provide a lighting device and a lighting data setting method that can adjust the color and brightness at the same time, and can provide a certain level of brightness without increasing the production cost.

The present invention can provide a lighting device and a method of setting the lighting data that can increase the efficiency of the user by providing the light that is optimal for the user's emotion, and can provide a sense of stability psychologically and emotionally.

Claims (14)

A light source unit including a color light source unit capable of changing color and brightness of light by adjusting a color ratio, and a white light source unit mainly controlling brightness of light and providing brightness above a predetermined value; An operation unit for determining brightness and color of the light source unit according to a user's selection; And a controller configured to adjust the color and brightness of the color light source unit according to an input of the manipulation unit, and to adjust the brightness of the white light source unit by providing a brightness controller. The method of claim 1, And the white light source unit is a white fluorescent lamp. The method of claim 1, The apparatus may further include a storage unit for storing lighting data according to a function mode selected by the user. The control unit includes a function mode button corresponding to the function mode, And the control unit controls the color light source unit and the white light source unit by the illumination data stored in the storage unit when the function mode button is selected by a user. The method of claim 1, The color light source is a lighting device for adjusting the color by adjusting the ratio of red green blue (RGB). The method of claim 4, wherein The color light source unit is an illumination device consisting of a light emitting diode (LED). delete delete delete The method of claim 1, The operation unit has a color table provided with a plurality of colors, Further comprising a storage unit for storing the illumination data corresponding to the color table, And the controller controls the white light source unit and the color light source unit by extracting the illumination data corresponding to the selected color from the storage unit when a color included in the color table is selected. The method of claim 9, The color table is a lighting device that is operated by the touch panel method. The method of claim 1, The operation unit is a lighting device using a remote control method. delete delete delete

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