JP2004030933A - Lighting control device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting control device capable of arbitrarily setting a lighting environment within the range of a specification. <P>SOLUTION: Property data concerning characteristics of light sources 16, 26 and lighting pattern data corresponding to kinds of events are stored in a data retaining part 35, data of which are rewritten by the control of a control part 34 when a command for rewriting is given from a browser 5 concerning the property data or the lighting pattern data. Control signals are generated according to the rewritten data, according to which, light controls of the light sources 16, 26 of the lighting fixtures 1, 2 are performed. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lighting control device, and more particularly to a lighting control device suitable for controlling a state of a light source such as a light bulb to provide a safe and comfortable lighting environment.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, when a comfortable lighting environment is obtained, dimming of a lighting fixture is controlled as a state of a light source such as a light bulb. For example, as described in JP-A-6-111947, when exchanging data between a console and a distributed dimmer and controlling dimming on the dimmer side, dimming level data is used. The dimming data such as change time data is stored in advance in the memory of the disperser, and when the dimmer receives a dimming signal from the console on the disperser side, the dimming data corresponding to the dimming signal is stored. From the memory and control the dimming of the load according to this dimming data, eliminating the need to wire signal lines such as serial transmission lines between the console and the dimmer, while using wireless serial A device that eliminates the time delay of transmission has been proposed.
[0003]
Further, as described in Japanese Patent Application Laid-Open No. 2000-260580, there has been proposed an apparatus in which lighting, dimming, and extinguishing of a lighting fixture are controlled by a timer and a color temperature of the lighting fixture is controlled. . Further, as described in Japanese Patent Application Laid-Open No. 2001-313184, when controlling the illuminance of a light bulb in a wake-up mode, when a predetermined wake-up time comes, the illuminance of the light bulb is changed from a low illuminance area to a high illuminance area. Some have been proposed to be varied.
[0004]
[Problems to be solved by the invention]
Among the prior arts, those described in JP-A-2000-260580 and JP-A-2001-313184 control the illuminance and color temperature of lighting fixtures and light bulbs, so that a comfortable lighting environment can be obtained. Although it can be provided, it is not enough to arbitrarily set the lighting environment according to the user's preference. That is, there are various conditions, positions, and purposes of lighting where a lighting fixture or the like is installed, and in consideration of these, in the related art, the lighting environment is arbitrarily set according to the user's preference. Is not enough.
[0005]
An object of the present invention is to provide a lighting control device capable of arbitrarily setting a lighting environment within a specification range.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides a data storage unit for storing property data related to characteristics of a light source, a rewrite command input unit for transmitting a rewrite command to a communication network in response to an operation, and the communication network. Data rewriting means for exchanging information with the rewriting command from the communication network, rewriting property data designated by the rewriting command among property data of the data storage means, and data stored in the data storage means. And a control means for controlling the state of the light source based on the property data.
[0007]
According to the above-described means, by rewriting the property data in accordance with the rewriting instruction, the lighting environment can be arbitrarily set within the range of the specification, that is, within the range of the property data according to the user's preference.
[0008]
Further, the present invention provides a data storage means for storing operation pattern data corresponding to an event type, a rewrite command input means for transmitting a rewrite command to a communication network in response to an operation, and exchanges information with the communication network. Data rewriting means for rewriting operation pattern data specified by a rewrite command among operation pattern data of the data storage means in response to a rewrite command from the communication network; and instructing occurrence of a specified event among the event types. Event generating command means for selecting operation pattern data corresponding to the specified event from the data storage means in response to a command from the event generating command means, and controlling the state of the light source based on the selected operation pattern data Comprising a lighting control device comprising: A.
[0009]
According to the means described above, the operation pattern data is rewritten according to the rewrite command, and when an event occurs, the state of the light source is controlled according to the operation pattern data corresponding to the event. The lighting environment can be set arbitrarily according to the user's preference within the range of the operation pattern data, and the state of the light source can be controlled in accordance with the operation pattern specified by the event.
[0010]
When configuring the lighting control device, the data storage means is configured to store operation pattern data corresponding to an event type in association with property data related to characteristics of a light source, and to store data in response to a rewrite command. By rewriting the data specified by the rewrite command among the data of the storage means, the property data or the operation pattern data can be rewritten arbitrarily by the rewrite command, and within the range of the specification, that is, the property data or the illumination pattern. The lighting environment can be set arbitrarily according to the user's preference within the range of the operation pattern data including the data.
[0011]
As property data, data on the illuminance level, light color, light distribution, direction, and position of a light source such as a light bulb or a lighting fixture can be used. When these property data are rewritten within the range of the limit value, the lighting environment can be arbitrarily set within the range of the limit value according to the user's preference.
[0012]
Also, by connecting the data rewriting means to a communication network, for example, the Internet, the user can arbitrarily rewrite property data and operation pattern data via the Internet.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an overall configuration diagram of a lighting system to which a lighting control device according to the present invention is applied. In FIG. 1, the lighting system includes lighting devices 1 and 2 and a controller 3, and the controller 3 is connected to a browser unit 5 via an Internet network (communication network) 4. A signal transmission unit 8 is connected to the Internet network 4, and the signal transmission unit 8 is connected to the input unit 6 via a signal generation unit 7. Further, the controller 3 is connected to the information input / output device 9 and to the lighting fixtures 1 and 2 via the signal line 10.
[0014]
The lighting fixture 1 includes a power supply unit 11, a control unit 12, an Id (Identification) holding unit 13, a transmission / reception unit 14, an illuminance measurement unit 15, and a light source 16. The lighting fixture 2 includes a power supply unit 21, It comprises a unit 22, an Id holding unit 23, a transmitting / receiving unit 24, an illuminance measuring unit 25, and a light source 26. The controller 3 includes a transmission / reception unit 31, an operation reception unit 32, a timer unit 33, a control unit 34, a data holding unit 35, and a transmission / reception unit 36.
[0015]
The light sources 16 and 26 of the lighting fixtures 1 and 2 are configured using a light bulb, a light emitting element, and the like, and power is supplied to the light sources 16 and 26 from the power supply units 11 and 21, respectively. The light sources 16 and 26 can be composed of a plurality of (N) light bulbs or the like, or can be composed of a single light bulb or the like. The illuminance level, light color, light distribution, and direction of each of the light sources 16 and 26 are controlled by the control units 12 and 22. The illuminances of the light sources 16 and 26 are measured by the illuminance measuring units 15 and 25, respectively, and the measured values are output to the control units 12 and 22.
[0016]
Each of the control units 12 and 22 controls the illuminance level of each of the light sources 16 and 26 based on the measurement results of the illuminance measurement units 15 and 25. Various kinds of data and control signals (request property values) are input from the controller 3 via the. That is, the transmission / reception units 14 and 24 transmit data and signals related to the current property value that is the state of each of the lighting fixtures 1 and 2 to the transmission / reception unit 31 of the controller 3, respectively. The control unit 12 receives the request property value and outputs the received data and control signal (request property value) to the control units 12 and 22. Further, the transmission / reception units 14 and 24 are configured to output illuminance data measured by the illuminance measurement units 15 and 25 to the controller 3 as data indicating the states of the light sources 16 and 26.
[0017]
When exchanging data between the transmission / reception units 14 and 24 and the transmission / reception unit 31, only the data unique to each of the lighting fixtures 1 and 2 is referred to by referring to the Id (Identification) numbers held in the Id holding units 13 and 23. Is to be received. That is, the Id holding units 13 and 23 hold data on Id numbers for identifying the lighting fixtures 1 and 2 respectively, and when the light sources 16 and 26 are configured by a plurality of light bulbs or the like, Data relating to an identification number for identifying each of the light sources 16 and 26 is held.
[0018]
Note that the signal line 10 can be configured using a network such as a LAN (Local Area Network), infrared rays, or Bluetooth, but instead of connecting the luminaires 1 and 2 and the controller 3 with the signal line 10, Can be used to exchange data and information.
[0019]
On the other hand, various data and information are input to the operation reception unit 32 of the controller 3 via the transmission / reception unit 36 constituting a communication unit together with the Internet network 4.
[0020]
For example, by operating the browser unit 5 or the input unit 6, information according to the operation of the user is input. The input unit 6 is configured using, for example, a keyboard, a mouse, and the like, and by user operation, property data related to characteristics and performance of the light sources 16 and 26, such as illuminance, light color, light distribution, and direction. Rewriting command input means for inputting a rewriting command for rewriting data or illumination pattern data is configured. Further, the input unit 6 is configured to input information for generating various events, input time specification information for specifying an event occurrence time, or input elapsed time specification information by user operation. ing. The input unit 6 causes the signal generation unit 7 to output a signal according to a user operation. That is, when information accompanying a user's operation is input to the input unit 6, a signal according to the user's operation is output from the signal generation unit 7, and the signal is transmitted from the signal transmission unit 8 via the Internet 4. Is transmitted to the transmission / reception unit 36. In this case, the input unit 6, the signal generation unit 7, and the signal transmission unit 8 constitute a rewrite command input device or a time information input / output device.
[0021]
Further, the browser unit 5 and the information input / output device 9 are configured to have functions as an input unit 6, a signal generation unit 7, and a signal transmission unit 8, respectively. An air conditioner), a video (video tape recorder), a television, an electronic musical instrument, a game machine, and the like.
[0022]
The browser unit 5 displays information by a user's operation on the screen, and also displays information from the controller 3 on the screen.
[0023]
The operation receiving unit 32 of the controller 3 receives various kinds of information via the transmitting / receiving unit 36. When the operation receiving unit 32 receives various kinds of information, the control unit 34 When it is necessary to rewrite the data by analyzing various kinds of information input to the data storage unit 32, the data stored in the data storage unit 35 is rewritten, and a control signal (request property value) according to the rewritten data is generated. The control signal is transmitted to the control units 12 and 22 of the lighting fixtures 1 and 2 via the transmission / reception unit 31 so as to control the state of the light sources 16 and 26, for example, the illuminance level and dimming according to the control signal. Has become. That is, the control unit 34 constitutes a control unit together with the control units 12 and 22, and is configured as a rewriting unit for rewriting data in the data holding unit 35.
[0024]
As shown in FIG. 2, data relating to the current illuminance, light color, and position of the light sources 16 and 26 are stored in the data holding unit 35 constituting the data storage unit as property data relating to the characteristics and performance of the light sources 16 and 26. Is stored. As property data, it is also possible to hold other data. For example, when the light sources 16 and 26 can control the light distribution and illumination direction of the three primary colors of light, these data are held as property data. You can also.
[0025]
The property data held in the data holding unit 35 is rewritten by the control unit 34. However, the property data has restrictions on illuminance, light color, and position depending on the light sources 16 and 26. Therefore, when rewriting the property data, the control unit 34 rewrites the property data within the range of the limit value of the property data, for example, within the range of the maximum value and the minimum value, and transmits the control signal according to the rewritten property data. It generates or compares a request property value with a property limit value, rewrites property data within the range of the limit value, and generates a control signal according to the rewritten property data. Note that the property limit value is also stored in the data holding unit 35.
[0026]
Further, in the data relating to the position in the property data shown in FIG. 2, detailed data as shown in FIG. 3 is set. That is, in order to correspond to various indoor conditions and the positions of the lighting fixtures, data relating to the illuminance applied to the illuminance measurement point j is set. For example, based on the time when the light source 16 is turned on, as the illuminance at the position pi = (c1, c2,... CM), the illuminance in front of the television is c1, the illuminance in the center of the living room is c2, and the installation position of another light source a Is set to ca. When the light source b is cut off, the light source b having the highest illuminance at the position of the light source b can be used as a substitute for the light source b.
[0027]
Further, the data holding unit 35 stores lighting pattern data (request property values related to a plurality of light sources in the lighting system) corresponding to the event. As shown in FIG. 4, the illumination pattern data is set for each event number 1 to 9 as data corresponding to the event type. Specifically, the event numbers 1 to 9 are set corresponding to various events such as an alarm time 1, an alarm time 2, an alarm time 3, and a breakfast. For example, data for setting the color temperature of the light color to 30%, 50%, 70%, or the like in order to control the light color is stored as the illumination pattern data for controlling the state.
[0028]
The occurrence of each event is instructed based on a timer signal from the timer section 33 or information received by the transmission / reception section 36. In this case, the timer unit 33 and the transmission / reception unit 36 constitute an event instruction unit. When an event is generated by setting time information in the timer unit 33, it is necessary to hold a lighting time, a lighting time, and other conditions in association with an event number. The other conditions are limited to when the illuminance is equal to or less than a threshold value (for example, a value determined by inputting an illuminance measurement value at a predetermined position to the control unit 34) or limited to when the user goes out (at a predetermined position). (A value determined by inputting the human sensed measurement value to the control unit 34).
[0029]
Here, the event numbers 1 to 3 define illumination pattern data at the time of waking up. For example, when an event is generated 30 minutes, 15 minutes, and 2 minutes before the time at which the user wants to wake up, FIG. As shown in FIG. 5, when the user operates the wake-up button 40 displayed on the screen of the browser unit 5 and operates the on-timer reservation button 41, the off-timer reservation button 42, and the like as shown in FIG. Time information regarding the occurrence of the event is set in the timer unit 33. Thus, the light colors of the light sources 16 and 26 are sequentially increased from the time of occurrence of each event, and the user can be awakened comfortably.
[0030]
Specifically, when inputting the time designation information for generating an event from the time of the operation or the elapsed time designation information for generating the event when the set time has elapsed from the time of the operation from the browser unit 5, In response to the time information input operation, a button (switch) screen for designating the start time of each event and the like is displayed on the screen of the browser unit 5 as shown in FIG. When the user operates the wake-up button 40, a timer setting screen is displayed on the display screen of the browser unit 5, as shown in FIG. At this time, the user operates the ON timer reservation button 41 or the OFF timer reservation button 42 on the display screen, and inputs a number as time specification information or elapsed time specification information into the ON timer reservation or OFF timer reservation, The user can set when the light sources 16 and 26 are to be turned on. In this case, it is desirable to use the light sources 16 and 26 that have a refreshing feeling with a high color temperature of the light color.
[0031]
Event number 4 defines breakfast illumination pattern data, and the illuminance at the dining table is measured by the illuminance measurement units 15 and 25. If the measured value does not reach the illuminance set in advance by the user, this illumination is used. The illuminance of the light sources 16 and 26 is controlled according to the pattern data. Also in this case, it is desirable to use the light sources 16 and 26 that have a refreshing feeling with a high color temperature of the light color.
[0032]
Event number 5 defines the illumination pattern data at the time of dinner, and when an event at the time of dinner occurs, illumination according to the illumination pattern data is performed. Also in this case, it is desirable to use light sources 16 and 26 that have a low color temperature of light color and have a warm feeling. In addition to turning on the light sources 16 and 26 according to the operation by the user, the light source may be switched to the light source for dinner at the time registered by the user.
[0033]
The event number 6 defines lighting pattern data when watching a program for children on a television. When a program for children is broadcast from a television constituting the information input / output device 9, the event pattern data is defined in accordance with the illumination pattern data. Lighting of the light sources 16 and 20 will be performed. Further, the illumination of the light sources 16 and 26 may be controlled according to the illumination pattern data designated by the event number 6 at the designated time by the operation of the user, that is, in accordance with the time of the program for children.
[0034]
Event numbers 7 and 8 define illumination pattern data when watching a program for adults on a television. When a program for adults is input from a television constituting the information input / output device 9, this illumination pattern is used. The illumination of the light sources 16 and 20 is switched according to the data. In this case, the illumination of the light sources 16 and 26 may be controlled according to the illumination pattern data at the time according to the operation by the user, that is, at the time when the program for adults starts.
[0035]
When the information input / output device 9 is configured as a television or an audiovisual device, a signal generation unit 7 and a signal transmission unit 8 are provided in the information input / output device 9 so that when the television program starts, the light sources 16 and 26 A signal for switching the illuminance and the like is sent to the transmission / reception unit 36, and the illuminance of the light sources 16 and 26 can be controlled by the control unit 34. For example, normally, the illuminance of the light sources 16 and 26 is controlled according to the illumination pattern data for the TV adult 1, and then the illumination pattern data for the TV adult 2 or the TV adult 3 is controlled according to the signal received from the signal transmission unit 8. Switch to. At the time of this switching, the designation of “at once” or “smooth” is received, and switching is performed according to this reception, so that the atmosphere is not spoiled. For example, when the designation of smooth is received, the illumination pattern data of the weighted average value of the illumination pattern data before switching and the illumination pattern data after switching is generated, and the illuminance of the light sources 16 and 26 according to the generated illumination pattern data. Switch.
[0036]
If the event is a movie, the signal generation unit 7 generates lighting pattern data for the TV adult 3 as so-called theater mode lighting pattern data, and matches the TV adult with a screen such as a gunfire or a fanfare. Lighting pattern data for the second direction is generated.
[0037]
In addition, by providing the signal generating unit 7 and the signal transmitting unit 8 in an electronic musical instrument, a game machine, or a personal computer, a signal is sent to the control unit 34 in accordance with the game or the program software, and the light sources 16 and 26 are controlled according to the signal. Illuminance can be controlled.
[0038]
Also, a method of creating lighting pattern data for simulating the movement of light on an outdoor day in a living room, a greenhouse, a sickroom, or the like, and changing the created lighting pattern data according to the time can be adopted. . In addition to creating illumination pattern data representing weather such as sunny, cloudy, and rainy, observing outdoor weather, inputting illumination pattern data suitable for this weather from the input unit 6, and setting a light source according to the input illumination pattern data. The illuminances 16 and 26 can be switched.
[0039]
When the operation target includes not only the lighting of each of the lighting fixtures 1 and 2 but also the air conditioner, the television, and the video as the information input / output device 9, the operation pattern data obtained by expanding the illumination pattern data shown in FIG. And can be performed similarly. For example, similarly to the item of the light source 1 shown in FIG. 4, the item of the air conditioner 1, the television 1, and the video 1 is provided, and operation pattern data corresponding to an event is held for each item. The contents of the operation pattern data relate to power on / off, operation mode, display channel, and the like.
[0040]
As a specific implementation method, it is assumed that the lighting fixtures 1, 2, the air conditioner, the television, and the video accept an operation by the infrared remote control, and the operation content includes a value capable of specifying an infrared remote control signal to be operated. It is stored in association with the data. The controller 3 can be realized by emitting an infrared remote control signal specified by the operation content.
[0041]
When storing various data in the data holding unit 35, when the lighting designer designs a request property value of the lighting system, the data relating to the request property value is stored in a server on the Internet, and the user transmits the request property value via the Internet. If the data relating to the request property value is downloaded and registered in the data holding unit 35 by FTP or the like, it is easy to incorporate the lighting designed by the lighting designer into the user's residential environment. In this case, the user can adjust the lighting pattern according to the user's preference to match the user's residential environment. Further, the lighting designer can easily upgrade the lighting pattern and supply the lighting system to the user so that the user can enjoy the lighting system including a plurality of lighting fixtures. In this case, the lighting system is standardized according to the floor plan type of the house and the interior style (modern / country, etc.), and if the user can select from these, the user can select a lighting pattern suitable for his / her home environment. Easy to select.
[0042]
Furthermore, by providing the controller 3 with a function of controlling the information input / output device 9 and a device (home electric appliance) on the Internet 4 in addition to the function of controlling the lighting of each lighting fixture, more complicated device operation can be performed. Can be possible. In this case, by supplying an operation pattern (including an illumination pattern) including the operation of the information input / output device 9, the following operation becomes possible.
[0043]
For example, when the controller 3 detects that the television (information input / output device 9) is turned on on a specific day such as a birthday, the controller temporarily turns off all the lights and then repeatedly turns on and off at random. For all lights, music is played from a sound source (information input / output device 9), and the lighting and the air conditioner are simultaneously operated according to the DVD (information input / output device 9).
[0044]
Next, the operation of controlling the illuminance of the light sources 16 and 26 will be described with reference to FIG. First, when a command for controlling the light sources 16 and 26 is input from the browser unit 5 by a user operation, the control unit 34 captures the property data and the illumination pattern data stored in the data holding unit 35 and captures them. The data is stored (step S1). At this time, if the user performs an operation for confirming whether the set lighting environment is as intended, a lighting review is performed (step S2). In this case, an image for reproducing the lighting environment according to the lighting pattern data shown in FIG. 4 is displayed on the screen of the browser unit 5 according to the operation of the user.
[0045]
Next, the controller 34 waits for a signal for generating an event to be output from the timer unit 33 or the transmission / reception unit 36 (step S3). At this time, when the generation of a lighting event is instructed, the lighting pattern data corresponding to the event number is fetched from the data holding unit 34, and a dimming signal is generated as a control signal according to the lighting pattern data. Is transmitted to the lighting fixtures 1 and 2, and the dimming of each of the light sources 16 and 26 is controlled according to the transmitted dimming signal (steps S4, S5 and S6).
[0046]
On the other hand, in the process of waiting for the occurrence of the event in step S3, in addition to the event responding in real time to the instruction from the user, a plurality of events for each elapsed time in the controller 3 from one event received by the controller 3 Is set, for example, if a timer is set, the specified illumination pattern data is read at each set time, and a dimming signal according to the read illumination pattern data is used as a control signal. Then, the dimming of each of the light sources 16 and 26 is controlled according to the control signal.
[0047]
In step S3, when a user inputs a rewrite command related to property data or lighting pattern data in a process of waiting for the occurrence of an event, an operation instruction is interactively received with the user, and the operation instruction is received. An update process for rewriting property data or illumination pattern data is executed. Thereafter, the light control for each of the light sources 16 and 26 is performed according to the updated data. If the end of the event is instructed while waiting for the event in step 3, the processing in this routine is ended.
[0048]
According to the present embodiment, even if the conditions, positions, and purposes of the places (indoor or outdoor) where the light sources 16 and 26 are installed are various, an illumination environment that meets the user's preference within the specification range is provided. be able to.
[0049]
4 is displayed on the screen of the browser unit 5, and the user performs an operation for changing the illumination pattern data relating to the light sources 16 and 26 and the operation pattern data relating to the information input / output device 9. The illumination pattern data relating to the light sources 16 and 26 and the operation pattern data relating to the information input / output device 9 can be changed.
[0050]
【The invention's effect】
As described above, according to the present invention, by rewriting property data or operation pattern data in accordance with a rewrite command, it is possible to arbitrarily set a lighting environment according to a user's preference within specifications.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a lighting system to which a lighting control device according to the present invention is applied.
FIG. 2 is a diagram for explaining a relationship between a light source and property data.
FIG. 3 is a diagram for explaining illuminance at an illuminance measurement point in property data.
FIG. 4 is a diagram illustrating the configuration of illumination pattern data corresponding to an event.
FIG. 5 is a diagram for describing an example of screen display of a browser unit.
FIG. 6 is a diagram for explaining another example of screen display of the browser unit.
FIG. 7 is a flowchart for explaining the operation of the system shown in FIG. 1;
[Explanation of symbols]
1,2 lighting equipment
3 Controller
4 Internet network
5 Browser section
6 Input section
7 Signal generator
8 Signal transmission section
9 Information input / output device
16, 26 light source
12, 22 control unit
14, 24, 31, 36 transmitting / receiving unit
32 Operation reception unit
33 Timer section
34 control unit
35 Data holding unit

Claims (5)

Data storage means for storing property data relating to the characteristics of the light source; rewrite command input means for transmitting a rewrite command to the communication network in response to an operation; and exchanging information with the communication network, A data rewriting means for rewriting property data designated by the rewriting command among property data of the data storage means in response to a rewriting command, and controlling a state of the light source based on the property data stored in the data storage means. An illumination control device comprising a control unit. Data storage means for storing operation pattern data corresponding to the event type; rewrite command input means for transmitting a rewrite command to the communication network in response to the operation; and exchanging information with the communication network, Data rewriting means for rewriting the operation pattern data specified by the rewrite command among the operation pattern data of the data storage means in response to a rewrite command; and event occurrence command means for commanding the occurrence of a specified event among the event types. Control means for selecting operation pattern data corresponding to the specified event from the data storage means in response to a command from the event generation command means, and controlling a state of a light source based on the selected operation pattern data. Lighting control device. Data storage means for storing operation pattern data corresponding to an event type in association with property data relating to characteristics of a light source; rewrite command input means for transmitting a rewrite command to a communication network in response to an operation; Data rewriting means for exchanging information with the data, and rewriting data specified by the rewrite command among data in the data storage means in response to a rewrite command from the communication network; And an operation pattern data corresponding to the specified event from the data storage means in response to a command from the event generation command means, and a state of the light source based on the selected operation pattern data. A lighting control device comprising: a control unit that controls the lighting. 4. The lighting control device according to claim 1, wherein the data rewriting unit rewrites property data specified by the rewrite command among data in the data storage unit in accordance with the rewrite command within a range of the limit value. 5. A lighting control device, comprising: 4. The lighting control device according to claim 2, wherein the event generation command unit receives time designation information or elapsed time designation information, and generates an event when designated by the time designation information or elapsed time designation information. 5. A lighting control device characterized by being instructed.

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