WO2016035836A1

WO2016035836A1 - Light adjustment system and light

Info

Publication number: WO2016035836A1
Application number: PCT/JP2015/075011
Authority: WO
Inventors: 茂樹都; 金　成洙
Original assignee: 株式会社ルイファン・ジャパン
Priority date: 2014-09-02
Filing date: 2015-09-02
Publication date: 2016-03-10
Also published as: JP2018022704A; JP6225267B2; JP2020057613A; JP6933862B2; JP6643650B2; JPWO2016035836A1

Abstract

　Provided is a light adjustment system with which a user can easily adjust light-emission conditions, and with which it is possible to use a light to reproduce original light-emission conditions adjusted by a user. A light adjustment system for controlling the light emission of a light, wherein the system is provided with a light, and application software installed in a portable terminal that can communicate with the light.

Description

Light adjustment system and light

The present invention relates to a light adjustment system and a light, and more particularly to a light adjustment system and a light for emitting light.

Many events such as penlights, lighting, etc. that use light to enhance the production effect, and lights that attract interest by light are in circulation at events and festivals.

In particular, lights are often used to raise the venue in the event of nighttime events such as concerts.

For example, as disclosed in Patent Document 1, a safe bar-shaped light that can suppress the illuminance of light emitted forward by the light emitting unit by providing a light shielding unit at the front end of the body is known. It has been.

In the rod-shaped light in Patent Document 1, the light emitting part emits light upon receiving power supply from the power supply part and emits light using a light emitting diode or the like. A rod-shaped light in which each light emitter emits light in a single light emission color or each light emitter emits light in a plurality of light emission colors is disclosed.

JP 2013-247085 A

However, the method described in Patent Document 1 has a problem in that it cannot emit light under the light emission conditions according to the user's preference, only by emitting the color of the light emitting diode set in advance to the bar light. .

Accordingly, an object of the present invention is to provide a light adjustment system and a light that allow a user to easily adjust the light emission conditions and reproduce the original light emission conditions adjusted by the user with a light. It is.

The light adjustment system according to the present invention is a light adjustment system that performs light emission control of light, application software installed in a mobile terminal that can communicate with the light, the application software, a reception unit that receives input information from a user, The light includes a color adjustment unit that adjusts color element information including color elements based on input information, and a transmission unit that transmits the adjusted color element information to the light. A receiving unit that receives information, a light emission control unit that controls light emission conditions based on the received color element information, and a light emission unit that emits light based on the light emission conditions controlled by the light emission control unit It is characterized by that.

The light according to the present invention adjusts the color element from the application software installed in the portable terminal and receives the transmitted element information of the adjusted color via the reception unit of the application software. A receiving unit and a light emission control unit that controls the light emission condition based on the received element information of the color are provided.

The color adjustment unit adjusts the emission color among the emission conditions, and the adjustment of the emission color can be at least an RGB value.

The color adjustment unit further adjusts the light emission color among the light emission conditions. The light emission color is adjusted in brightness and / or intensity when light is emitted by adjusting the brightness. Can be things.

The color adjustment unit may be one in which the order of the light emission color is adjusted among the light emission conditions.

The color adjusting unit may be one in which the lighting and / or extinguishing time is adjusted among the light emission conditions.

The light adjustment system includes a plurality of lights, and each of the plurality of lights receives the element information of the same color.

The application software can further include a display control unit for displaying color element information on the display control unit.

In the application software, the input information received by the receiving unit is information including sound, the transmitting unit transmits information including sound and the adjusted color element information, and the light further includes sound. A sound receiving unit for receiving information is provided, and the light emitting unit can start light emission under a light emission condition based on information including sound.

The light adjustment system may be characterized in that the light includes a plurality of light emitting units, and the light emitting units emit light under different light emission conditions when the light emits light.

The light adjustment system has a plurality of lights, and by connecting a plurality of lights, the light condition received by one light is transmitted to the other light, and the plurality of lights emit light under the same light condition. Can do.

According to the present invention, the application software includes a reception unit that receives input information from a user, a color adjustment unit that adjusts color element information including color elements based on the input information, and an adjusted color element A light transmitting unit for transmitting information to the light, a light receiving unit for receiving the transmitted color element information, and a light emission control unit for controlling the light emission conditions based on the received color element information And a light emitting unit that emits light based on the light emitting condition controlled by the light emission control unit, the user can easily adjust the light emitting condition, and the original light emitting condition adjusted by the user is reproduced with the light. Make it possible to do.

The light according to the present invention is received by adjusting the color element from the application software installed in the portable terminal and receiving the transmitted element information of the adjusted color via the reception unit of the application software. And a light emission control unit that controls the light emission conditions based on the received color element information, the user can easily adjust the light emission conditions, and the original light emission adjusted by the user Allows conditions to be reproduced with light.

The color adjustment unit of the present invention adjusts the light emission color among the light emission conditions, and the light emission color is at least an RGB value. It becomes possible to emit light.

The color adjusting unit of the present invention may further be adjusted in brightness and / or intensity when light is emitted according to the user's preference by adjusting the lightness among the light emission conditions. It becomes possible.

The color adjusting unit according to the present invention is capable of emitting light under the light emission conditions suitable for the purpose of use according to the user's preference by adjusting the order of the light emission colors among the light emission conditions. Become.

The color adjusting unit of the present invention emits light under the light emission conditions suitable for the purpose of use according to the user's preference by adjusting the lighting and / or extinguishing time among the light emission conditions. It becomes possible.

The light adjustment system of the present invention includes a plurality of lights, and each of the plurality of lights can emit light together under light emission conditions created by other users by receiving element information of the same color. It becomes possible.

The application software of the present invention further includes a display control unit for displaying the color element information on the display control unit, so that the light emission condition selected by the user can be visually recognized on the spot.

In the application software of the present invention, the input information received by the receiving unit is information including sound, the transmitting unit transmits information including sound and the adjusted color element information, and the light further includes: A sound receiving unit that receives information including sound is provided, and the light emitting unit can automatically reproduce by starting light emission under the light emission condition based on the information including sound.

In the light adjustment system of the present invention, the light includes a plurality of light emitting units, and when the light emits light, the plurality of light emitting units emit light under different light emission conditions, for example, the right side surface of the light emitting unit is turned off, Different light emission conditions such as lighting the left side surface of the light emitting unit can be executed.

The light adjustment system of the present invention includes a plurality of lights, and by connecting a plurality of lights, the light emission condition received by one light is transmitted to the other light, and the plurality of lights have the same light emission condition. By emitting light at, a plurality of lights can emit light based on the same light emission conditions.

It is a mimetic diagram of a light adjustment system in an embodiment of the present invention. It is another schematic diagram of the light adjustment system in the embodiment of the present invention. It is a schematic diagram of the receiver for signal analysis of the infrared remote controller in the embodiment of the present invention. It is a block diagram of application software in an embodiment of the present invention and a bar light in an embodiment of the present invention. FIG. 4A is a schematic diagram illustrating implementation of a start screen of a light adjustment system in the embodiment of the present invention, and FIG. 6B is a schematic diagram illustrating implementation of a setting screen of the light adjustment system. It is a schematic diagram which shows the screen of the application software in embodiment of this invention. It is a figure which shows the data flow of the process by the application software of the light adjustment system in embodiment of this invention. It is a figure which shows the data flow of the process in the rod-shaped light of the light adjustment system in embodiment of this invention. It is another schematic diagram of the light adjustment system in the embodiment of the present invention. It is another schematic diagram of the light adjustment system in the embodiment of the present invention. It is a schematic diagram of the share screen of the light adjustment system in the embodiment of the present invention. It is a schematic diagram of the share state of the light adjustment system in embodiment of this invention.

A light adjustment system according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a schematic diagram showing an outline of a light adjustment system 100 according to an embodiment of the present invention.

In the light adjustment system according to the embodiment of the present invention, the light will be described as a bar light.

The lights in the light adjustment system according to the embodiment of the present invention are not limited to the rod-shaped lights, but include lights having shapes used for amusement events, concerts, etc., such as lights having a sphere. Shall.

As shown in FIG. 1, the light adjustment system 100 of the present invention includes a bar-shaped light 200 and application software installed in a portable terminal 1 capable of communication.

The light adjustment system 100 of the present invention can transmit the adjusted color element information created by the application software to the bar-shaped light 200 via the line 300.

Even if the mobile terminal is not provided with application software as an initial setting, the light adjustment system 100 of the present invention can be implemented by downloading the application software and installing it.

As shown in FIG. 2, the mobile terminal 1 can be replaced by application software 3 of a personal computer if it can be provided with application software 2 of a mobile phone.

1 and FIG. 2, a receiver for signal analysis of an infrared remote controller is used for the line 300. FIG. Since the adjusted color element information created by the application software 2 can be communicated from the portable terminal 1 equipped with the application software 2 through the line 300, the line 300 may be wired, infrared, Wi-Fi (registered) (Trademark), Bluetooth (registered trademark) or the like may be used.

When the element information of the color adjusted using infrared rays is transmitted to the bar-shaped light 200, the element of the adjusted color is applied only to the bar-shaped light 200 that brings the mobile terminal 1 closer by using weak infrared rays. Information can be communicated. By using weak infrared rays, it is possible to prevent crosstalk with other infrared information around.

In the example shown in FIG. 1, since the application software 2 and the bar light 200 are connected by the line 300 using weak infrared rays, the line 300 and the bar light 200 communicate with each other in a considerably close state.

As shown in FIG. 1, when the portable terminal 10 does not have a function for infrared communication, as shown in FIG. 3, by using a receiver 4 for signal analysis of an infrared remote controller, Infrared communication can be enabled.

As shown in FIG. 1, for example, when an Android terminal (registered trademark) is used as the portable terminal 1, infrared signal communication can be performed by connecting a receiver 4 for signal analysis of an infrared remote controller to an earphone jack. It becomes possible.

The light adjustment system 100 according to the present invention includes an application software 2 installed in a portable terminal 1 that can communicate with the bar light 200 and an application software 2 that are controlled by a user. A reception unit that receives input information, a color adjustment unit that adjusts color element information including color elements based on the input information, and a transmission unit that transmits the adjusted color element information to the bar light, The bar light 200 includes a receiving unit that receives transmitted color element information, a light emission control unit that controls light emission conditions of the bar light 200 based on the received color element information, and a light emission controlled by the light emission control unit. It is assumed that the bar-shaped light 200 includes a light emitting unit that emits light based on conditions.

First, the application software 2 in the light adjustment system 100 of the present invention will be described.

FIG. 4 is a block diagram showing mobile terminal 1 and bar-shaped light 200 including application software according to the embodiment of the present invention. As shown in FIG. 4, the application software 2 is adjusted with a receiving unit 10 that receives input information from a user, and a color adjustment unit 20 that adjusts color element information including color elements based on the input information. It is assumed that the transmission unit 30 transmits the element information of the different colors to the bar-shaped light 200.

Through the touch panel function of the mobile terminal, the user can change the emission color (for example, white, red, blue, etc.), the intensity of light emission (light intensity), the intensity of the emission color, the order in which these are emitted, and the emission time thereof.・ Rhythm information can be entered. Further, instead of the touch panel, a keyboard input function or a pen touch function may be used.

The user can reproduce the expression of a wide range of colors with the bar light 200 by adjusting the light emission color of the bar light by adjusting at least the RGB values as described above.

When the user selects the information input in the receiving unit 10 and determines it as the color element information, the information can be transmitted from the transmitting unit 30 to the bar-shaped light 200.

Specifically, the element information of the color transmitted from the transmission unit 30 can be received by the reception unit 40.

The application software 2 can include a color element information control unit that controls color element information.

The color element information can include information such as emission color, intensity of emission, intensity of emission color, order of emitting these, emission time / rhythm, and the like.

Next, the bar light 200 in the light adjustment system 100 of the present invention will be described.

As shown in FIG. 4, the bar-shaped light 200 of the present invention adjusts color elements from the application software 2 installed in the portable terminal via the receiving unit 10 of the application software 2, and the adjusted color The receiving unit 40 that receives the transmitted element information and the light emission control unit 50 that controls the light emission conditions of the bar light 200 based on the received color element information.

The receiving unit 40 is a light emission condition created by adjusting the color element of information created by the application software 2, and the bar light 200 can receive the light emission condition through the line 300. The information created by the application software 2 can include information on the color to emit light.

The element of the above color may be one element or a plurality of elements. For example, it is possible to emit a single color by one element, or to emit light by adjusting RGB values.

The light emission conditions include information such as light-related colors, light-color shades, blinking rhythm, light intensity, light intensity, the order of light emission, and conditions for reproducing these information. Can be included.

The light emission control unit 50 can control the light emission condition of the bar light 200 with respect to the light emission condition received by the reception unit 40. That is, the information created by the application software 2 can be controlled by the control unit built in the bar light 200.

The light emission control unit 50 can have a control circuit. Examples of the control circuit include a substrate circuit such as a CPU or an IC chip.

The light adjustment system 100 of the present invention may store default light emission conditions in the control circuit in advance in the bar light 200.

The bar light 200 may have a holding part 110 for a user to hold the bar light 200. The holding unit 110 may have a protrusion that can be attached with a strap or the like. The holding unit 110 may further include the light emission control unit 50.

The bar-shaped light 200 may have a power supply unit that supplies power to the light emitting unit 90. Specific examples include dry batteries and button batteries. The power supply unit is preferably one that stores electric power inside, such as the above-described dry cell, but may be connected to an external power source and supplied with power, such as a battery.

The bar-shaped light 200 can further include a switch unit that gives a light emission condition switching instruction to the light emission control unit 50.

The switch unit can switch the illuminance of the light emitting unit 40 step by step, for example, by the number of times the switch unit is pressed.

The holding unit may further include the switch unit.

The color adjustment unit 20 adjusts the emission color among the emission conditions, and can be adjusted using at least RGB values.

The RGB value is a kind of color expression used for image reproduction in liquid crystal displays, digital cameras, etc., and mixes the three primary colors of red (Red), green (Green), and blue (Blue). It is a kind of additive mixture to reproduce. Further, color setting may be performed using CMYK instead of RGB values. RGBW values can also be used.

By specifying RGB values, each color of red, green, and blue is specified by a value of 0 to 255, and the color is determined by a combination of these values, so that the color desired by the user can be emitted more finely. it can.

The color adjustment unit 20 further adjusts the brightness and / or intensity when light is emitted by adjusting the brightness and / or adjusting the output with respect to the light emission conditions of the bar light 200. It can be adjusted.

The color adjustment unit 20 may be one in which the order of the light emission color is adjusted among the light emission conditions.

The color adjusting unit 20 may be one in which the lighting and / or extinguishing time is adjusted among the light emission conditions. In this way, the flashing rhythm can be adjusted numerically.

The light adjustment system 100 includes a plurality of bar lights 200, and each of the plurality of bar lights 200 can receive element information of the same color.

For example, when there is a community that participates in the same event, the plurality of bar lights 200 receive the same lighting conditions used in the event via the mobile terminal, so that the bar lights 200 emit the same light at the event venue. Can do. The light emission conditions may be set in advance by themselves, or may be set by downloading an application corresponding to the event from the server.

The application software 2 can further include a display control unit 80 for displaying color element information on the display unit. The light emission conditions determined by the display control unit 80 can be confirmed in real time. This information can be selected and confirmed while viewing the display control unit 80, and this information can be transmitted to the bar light 200.

The receiving unit 40 can transmit the light emission condition received by the receiving unit 40 to another bar-shaped light 200.

The accepting unit 10 can accept the light emission condition received by the receiving unit 40.

In addition, the display control unit 80 can check the light emission conditions, and the bar light 200 can be used to check the light emission conditions in real time.

The bar light 200 can further include a light emitting unit 90 that emits light based on the light emission conditions controlled by the light emission control unit 50.

In the light emitting unit 90, the bar light 200 emits light based on the light emission condition controlled by the light emission control unit 50. Specifically, a light emitting diode or the like can be used. The light emitting unit 90 may emit light in a single emission color or may emit light in a plurality of emission colors.

In the application software 2, the input information received by the receiving unit 10 is information including sound, the transmitting unit 30 transmits information including sound and element information of the adjusted color, and the bar light 200 is Furthermore, the sound receiving part which receives the information containing a sound is provided, and the light emission part 90 can start the light emission of light emission conditions based on the information containing a sound.

A speaker can be provided in the bar light 200 as the receiving unit 40 that can recognize sound.

In the light adjustment system 100, the bar light 200 includes a plurality of light emitting units 90, and when the bar light 200 emits light, the light emitting units 90 can emit light under different light emission conditions.

The light adjustment system 100 includes a plurality of bar lights 200, and by connecting the plurality of bar lights 200, the light emission condition received by one bar light 200 is transmitted to another bar light 200, A plurality of bar lights 200 can emit light under the same light emission conditions.

As shown in FIG. 1, the rod-shaped light 200 may be configured by connecting a body portion 120 and a holding portion 110. The light emitting unit 90 can be provided at the front end of the body unit 120.

Here, the body portion 120 is a material having transparency so that the light emission state of the light emitting portion 90 can be confirmed from the outside. For example, it may be made of translucent plastic or glass.

Subsequently, an example of light adjustment processed by the light adjustment system 100 of the present invention will be described with reference to the drawings.

FIG. 5 is a schematic diagram illustrating an example of the light adjustment system 100 of the present invention. FIG. 5A is a schematic diagram including a screen in which the application software 2 is activated in the mobile terminal 1, and FIG. In the activated application software 2, a schematic diagram including a screen for selecting and determining color element information is displayed.

The example shown in FIG. 5 shows a light adjustment system 100 in which a bar-shaped light 200 and a portable terminal 1 are communicated by a signal analysis receiver 4 of an infrared remote controller. Input information from the user is received from the touch panel of the portable terminal 1 and necessary information is adjusted.

As shown in FIG. 5B, the selected color can be displayed so that the user can visually recognize it. Then, when the user finishes the adjustment, the button indicating “SET” is pressed to determine the color element information.

It should be noted that the position of the button is not particularly limited as long as it is designed to be easy for the user to operate.

FIG. 6 is a schematic diagram showing an example of a screen of application software generated by the light adjustment system 100 of the present invention, and shows an example of a screen for adjusting the color tone using RGB values.

As shown in FIG. 6, ID registration and color settings can be set using the numeric version at the bottom of the screen. Furthermore, by displaying the default color, the relationship between the actual color tone and the RGB value can be easily perceived.

For example, for the interruption of the display control unit 80 shown in FIG. 6, a numerical value is set in the Default Color column. In the 01 column, R is 255, G is 0, and B is 0. As a color table, red, which is a color to be displayed, can be placed as a sample between 01 and RGB values.

Similarly, in the 02 column, R is 0, G is 0, and B is 255. In this case, blue as a color to be displayed can be placed as a sample.

The user can select and input RGB values from the numeric keypad shown in FIG. 6 while referring to the default color.

Thus, by making it easier for the user to intuitively understand the color tone adjustment using the RGB values, the color desired by the user can be reproduced more precisely.

FIG. 6 illustrates the adjustment using RGB values, but other values such as RGBW values can be adjusted in the same manner.

Embodiment of the light adjustment method of the present invention will be described with reference to FIG.

The light adjustment method of the present invention is a light adjustment method for controlling light emission of the bar-shaped light 200. By the application software 2 installed in the portable terminal 1 that can communicate with the bar-shaped light 200, a reception step S10, a color adjustment step S20, The transmission step S30 is processed, and the bar light 200 is used to process the reception step S40 and the light emission control step S50.

In the accepting step S10, the accepting means of the computer accepts input information from the user. The accepting unit may be the accepting unit 10 described above. Details are as described above.

In the color adjustment step S20, the color adjustment means of the computer adjusts the color element information including the color elements based on the input information. The color adjustment unit can be the color adjustment unit 20 described above. Details are as described above.

In the transmission step S30, the transmission means of the computer transmits the adjusted color element information to the bar light 200. The transmission means may be the transmission unit 30 described above. Details are as described above.

In the reception step S40, the reception means of the computer receives the transmitted color element information. The receiving unit may be the receiving unit 40 described above. Details are as described above.

In the light emission control step S50, the light emission control means of the computer controls the light emission conditions of the bar light based on the received color element information. The light emission control unit may be the light emission control unit 50 described above. Details are as described above.

Subsequently, an embodiment of the light adjustment method of the present invention in the bar light 200 will be described with reference to FIG.

The light adjustment method of the present invention for the bar light 200 is characterized in that the computer processes the reception step S60 and the light emission control step S70.

In the reception step S60, the reception means of the computer adjusts the color element from the application software 2 installed in the portable terminal 1 through the reception step of the application software 2, and the adjusted color element information Receive what was sent. The receiving unit may be the receiving unit 40 described above. Details are as described above.

In the light emission control step S70, the light emission control means of the computer controls the light emission conditions of the bar light 200 based on the received color element information. The light emission control unit may be the light emission control unit 50 described above. Details are as described above.

Finally, the game program of the present invention will be described.

The light adjustment program of the present invention is a light adjustment program for performing light emission control of the bar light 200. The application software 2 installed in the portable terminal 1 capable of communicating with the bar light 200 and the application software 2 are installed in a computer. In addition, the color adjustment function and the transmission function are realized, and the bar light 200 realizes the reception function and the light emission control function.

The reception function receives input information from the user. The reception function can be realized by the reception unit 10 described above. Details are as described above.

The color adjustment function adjusts color element information including color elements based on input information. The color adjustment function can be realized by the color adjuster unit 20 described above. Details are as described above.

The transmission function transmits the adjusted color element information to the bar light. The transmission function can be realized by the transmission unit 30 described above. Details are as described above.

The reception function receives the transmitted color element information. The reception function can be realized by the reception unit 40 described above. Details are as described above.

The light emission control function controls the light emission conditions of the bar light 200 based on the received color element information. The light emission control function can be realized by the light emission control unit 50 described above. Details are as described above.

The light adjustment program of the present invention in the bar light 200 realizes a reception function and a light emission control function.

In the reception function, the color element is adjusted from the application software 2 installed in the portable terminal 1 to the computer via the reception function of the application software 2, and the adjusted color element information is transmitted to the computer. Receive things. The reception function can be realized by the reception unit 40 described above. Details are as described above.

The light emission control function controls the light emission conditions of the bar light based on the received color element information. The light emission control function can be realized by the light emission control unit 50 described above. Details are as described above.

By the way, the light adjustment system 100 according to the present embodiment is not limited to the above embodiment. For example, as shown in FIG. 9, a communication terminal 400 that can be connected to a bar light 200 via a connection cord 401 is provided, and color element information including the color element adjusted in the color adjustment step S20 is wirelessly (or wired). You may use for receiving.

At this time, the communication terminal 400 includes a receiver 401 that receives element information (light emission conditions) via a line 300 corresponding to a communication method (for example, Bluetooth (registered trademark)) that can be transmitted by the mobile terminal 1, The device 401 includes a connection cord 402 that can be wound and pulled out in a reel manner, and a terminal pin 403 that can be connected to a connection hole (not shown) provided in the bar-shaped light 200. The communication terminal 400 receives the element information (light emission condition) from the portable terminal 1 received by the receiver 401 and stores it in the control circuit (internal memory). At this time, the received element information (light emission condition) may be replaced with a default light emission condition, or it may be possible to select which issuance condition to use. In addition, the receiver 401 can wind the connection cord 402 by a reel method or the like, and can be an accessory such as a key holder as an idol goods, for example. Note that the communication terminal 400 may be a communication terminal 500 that can communicate with the bar-shaped light 200 in a wireless manner, for example, as shown in FIG.

In this case, the communication terminal 500 includes a male connector 501 that can be connected to an existing female connector (not shown) of the mobile terminal 1, a connection cord 502 that connects the male connector 501 at one end, and the bar light 200. A transmitter 503 capable of contactless communication. Thereby, the communication terminal 500 receives the element information from the portable terminal 1 transmitted from the transmitter 501 by an internal receiver (not shown) and stores it in the control circuit (internal memory). The transmitter 501 can wind the connection cord 502 by a reel method or the like. For example, the transmitter 501 can be an accessory such as a key holder as an idle goods. Note that the communication terminal 500 abolishes the male connector 501 and the connection cord 502, wirelessly receives element information (light emission conditions) transmitted from the mobile terminal 1, and transmits wirelessly (non-contact) to the bar light 200. You may do it.

Furthermore, as shown in FIG. 11, the mobile terminal 1 displays a matrix type two-dimensional code (QR) in which color element information including the color element adjusted in the color adjustment step S20 is displayed on the display control unit (display screen) 80. It is possible to share (share) with other users by a reading function using the camera function of another portable terminal 1 using a (code) mark.

Thereby, as shown in FIG. 12, the lighting state can be made different between the bar light 200 sharing the color element information including the color element and the bar light 200 not sharing. The matrix type two-dimensional code mark displayed on the display control unit (display screen) 80 is held as individual identification information by, for example, a QR code sticker attached to the back surface of the battery cover 100a of the holding unit 100 of the bar light 200. This code can be handled by reading it with the portable terminal 1. Then, the color element information including the color element adjusted by the mobile terminal 1 is developed on the read code mark and displayed on the display control unit 80.

Also, the communication terminal 400 can receive element information from one mobile terminal 1 for a plurality of communication terminals 400, for example. For this reason, for example, the organizer of the song concert sells the communication terminal 400 as goods such as a key holder, and transmits element information corresponding to the tone of one or more song songs desired by the user to the bar light 200. Can do. At this time, the user can select a plurality of popular songs and set a unit price for each selected song.

As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It is apparent that various changes or improvements can be added to the above embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Mobile terminal 2 Application software 3 Personal computer 4 Receiver for signal analysis of infrared remote control 10 Reception part 20 Color adjustment part 30 Transmission part 40 Reception part 50 Light emission control part 80 Display control part 90 Light emission part 100 Light adjustment system 110 Holding part 120 Body part 130 Color element information control part 200 Bar light 300 Line 400 Communication terminal 500 Communication terminal

Claims

In the light adjustment system that controls the light emission,
Application software installed in a portable terminal capable of communicating with the light;
The application software is
A reception unit that receives input information from the user;
A color adjustment unit that adjusts color element information including color elements based on the input information;
A transmission unit that transmits the adjusted color element information to the light,
The light is
A receiving unit for receiving the transmitted color element information;
A light emission control unit for controlling light emission conditions based on the received color element information;
A light adjustment system comprising: a light emitting unit that emits light based on the light emission condition controlled by the light emission control unit.
The color adjustment unit
2. The light adjustment system according to claim 1, wherein the light emission color is adjusted among the light emission conditions, and the light emission color is at least an RGB value.
The color adjustment unit further includes:
The light adjustment system according to claim 1, wherein brightness and / or intensity at the time of light emission is adjusted by adjusting brightness among the light emission conditions.
The color adjustment unit
The light adjustment system according to any one of claims 1 to 3, wherein an order of colors to be emitted is adjusted among the light emission conditions.
The color adjustment unit
5. The light adjustment system according to claim 1, wherein the light emission condition is adjusted for lighting and / or extinguishing time. 6.
The light adjustment system includes a plurality of lights,
The light adjustment system according to claim 1, wherein each of the plurality of lights receives element information of the same color.
The application software further includes:
The light adjustment system according to claim 1, further comprising a display control unit configured to display the color element information on a display control unit.
The application software further includes:
The input information received by the reception unit is information including sound,
The transmitter is
Transmitting information including the sound and element information of the adjusted color;
The light is further
A sound receiving unit for receiving information including the sound;
The light emitting unit
8. The light adjustment system according to claim 1, wherein light emission under a light emission condition is started based on information including the sound.
The light adjustment system further includes:
The light includes a plurality of light emitting units,
9. The light adjustment system according to claim 1, wherein when the light emits light, the plurality of light emitting units emit light under different light emission conditions.
The light adjustment system includes a plurality of lights,
10. The light emission condition received by one light is transmitted to another light by connecting the plurality of lights, and the plurality of lights emit light under the same light emission condition. The light adjustment system according to item 1.
From the application software installed in the portable terminal, through the reception unit of the application software, adjust the color element, and receiving the transmitted transmitted element information of the adjusted color,
A light comprising: a light emission control unit that controls light emission conditions based on the received color element information.
A mobile terminal installed with application software for accepting input information from a user and adjusting color element information including color elements;
A light that is turned on by switching light emission conditions based on predetermined element information;
At least a communication terminal that receives the element information from the mobile terminal and transmits the received element information to the light;
Light adjustment system with.