JP5126564B2 - Illuminance sensor and illumination control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an illuminance sensor and an illumination control system that control an illumination area illuminated by a specific illumination device to a target illuminance.
[0002]
[Prior art]
An illuminance sensor is used to control the illuminance of a surface to be irradiated, such as a desk top or a floor, to be constant. Conventionally, an illuminance sensor is installed on a ceiling surface due to physical problems, and detects reflected light from a floor surface or a wall surface and correlates it with the illuminance of an irradiated surface. FIG. 6 shows an example of the illumination control system 50 disclosed in Japanese Patent Laid-Open No. 11-214179 (prior art).
[0003]
In the illumination control system 50 shown in FIG. 6, the light sensor 55 detects the reflected light reflected by the floor surface 53 and the wall surface 54 out of the external light from the sun 51 and the illumination light from the luminaire 52, and converts the reflected light into reflected light. In response, the controller 56 changes the light output of the lighting fixture 52 to change the illuminance of the floor surface 53 to the target illuminance.
[0004]
[Problems to be solved by the invention]
Since the conventional technology detects a wide range of reflected light, the illuminance of a predetermined area such as a desk top or work surface is difficult to correlate with the reflected light, and the actual illuminance differs from the target illuminance in the predetermined area, and the target illuminance is controlled constant. Has the disadvantage of not being.
[0005]
An object of this invention is to provide the illumination intensity sensor and illumination control system which carry out constant control of the predetermined area to the target illumination intensity optimal for work.
[0006]
[Means for Solving the Problems]
The invention of the illuminance sensor according to claim 1 includes a plurality of lighting devices configured to vary the dimming level based on the dimming control signal when the dimming control signal including its own address is transmitted. An optical sensor for detecting the intensity of an illumination area of a specific illumination device; a storage unit for storing a unique address assigned to the specific illumination device ; and wirelessly transmitting at least the unique address assigned to the illumination device A wireless transmission unit configured to: a target illuminance setting unit that presets the target illuminance of the illumination area; and a brightness detected by the optical sensor substantially matches the target illuminance preset by the target illuminance setting unit A control unit configured to calculate and generate a dimming control signal and wirelessly transmit the dimming control signal together with a unique address from the wireless transmission unit; And characterized in that it Bei.
[0007]
The “specific illumination device” refers to an illumination device that illuminates an illumination area in which brightness is detected by an optical sensor among a plurality of illumination devices.
[0008]
The brightness detected by the optical sensor indicates the ratio of illuminance and correlates with actual illuminance. The illuminance sensor is disposed on or near the desk surface or work surface where the actual work is performed, and indirectly detects the actual illuminance.
[0009]
The dimming control signal may be automatically transmitted wirelessly from the wireless transmission unit, or may be wirelessly transmitted by manual operation. When the dimming control signal is automatically wirelessly transmitted from the wireless transmission unit, the illuminance of the illumination area of the specific illumination device is always controlled to be constant to the target illuminance.
[0010]
According to the present invention, the light sensor detects the brightness of the illumination area of a specific lighting device, and the light control signal is calculated and generated so that the brightness detected by the light sensor by the control unit substantially matches the target illuminance. The dimming control signal is wirelessly transmitted from the wireless transmission unit together with the unique address of the specific lighting device. The dimming control signal is transmitted to a specific lighting device, and the lighting device varies the dimming level based on the dimming control signal. Thereby, the illumination area of a specific illuminating device is illuminated with target illumination intensity.
[0011]
The invention of the illuminance sensor according to claim 2 is the illuminance sensor according to claim 1, wherein at least the brightness detected by the optical sensor, the target illuminance set by the target illuminance setting means, and the unique address given to the lighting device A display portion for displaying is provided.
[0012]
According to the present invention, the brightness detected by the optical sensor, the target illuminance set by the target illuminance setting means, the unique address assigned to the illumination device, and the like can be confirmed on the display unit.
[0013]
The invention of the lighting control system according to claim 3 is a lighting device configured to vary a dimming level based on the dimming control signal when a dimming control signal including its own address is transmitted; An optical sensor that detects the intensity of an illumination area of a specific illumination device, a storage unit that stores a unique address assigned to the specific illumination device, and at least the illumination device detected by the optical sensor An illuminance sensor device having a wireless transmission unit configured to wirelessly transmit with the unique address; target illuminance setting means for presetting the target illuminance of the illumination area; and intensity transmitted wirelessly from the illuminance sensor device. A control unit that calculates and generates a dimming control signal of a specific lighting device so as to substantially match the target illuminance preset by the target illuminance setting means; Characterized in that it comprises a; a dimming control signal calculated generated by the control unit with a unique address and lighting control device and a transmission unit that transmits to a specific lighting device.
[0014]
According to the present invention, the light intensity of the lighting area of the specific lighting device is wirelessly transmitted from the illuminance sensor device, and the light control signal is transmitted by the lighting control device so that the wirelessly transmitted light and darkness substantially matches the target illuminance. The calculation is generated and transmitted to a specific lighting device, and the specific lighting device varies the dimming level based on the dimming control signal. Thereby, the illumination area of a specific illuminating device is illuminated with target illumination intensity.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0016]
First, a first embodiment of the present invention will be described.
[0017]
1 to 4 show a first embodiment of the present invention, FIG. 1 is a configuration diagram of an illumination control system, FIG. 2 is a block diagram of an illuminance sensor, FIG. 3 is an external view of the illuminance sensor, and FIG. It is a flowchart of operation of a sensor.
[0018]
In FIG. 1, the illumination control system 1 includes an illuminance sensor 2, an illumination control device 3, and an illumination device 4.
[0019]
The illuminance sensor 2 is placed at a predetermined position on the figurine 7 placed on the upper surface of the desk 6 arranged on the floor surface 5. And the desk 6 is arrange | positioned in the illumination area of the specific illuminating device 4a. As shown in FIG. 2, the illuminance sensor 2 includes an optical sensor 8, a wireless transmission unit 9, a storage unit 10, a display unit 11, an operation unit 12, a control unit 13, and a battery 14.
[0020]
As shown in FIG. 3, the light sensor 8 is provided with a light receiving element 16 on the surface of the thin box 15, detects the brightness of the illumination area of the illumination device 4, and sends it to the control unit 13. And since the illuminance sensor 2 is arrange | positioned in the illumination area of the specific illuminating device 4a among the some illuminating devices 4, and the optical sensor 8 opposes the specific illuminating device 4a, mainly from the specific illuminating device 4a. Direct light is detected. Therefore, the brightness detected by the optical sensor 8 is correlated with the actual illuminance in the illumination area illuminated by the specific illumination device 4a.
[0021]
As shown in FIG. 3, the wireless transmitter 9 is provided with a light emitting element 17 on the surface of the box 15, and illuminates the brightness detected by the optical sensor 8 and the illumination area where the brightness is detected. The unique address assigned to the lighting device 4 is configured to be wirelessly transmittable.
[0022]
The storage unit 10 is a nonvolatile storage unit provided inside the box 15, and stores the brightness detected by the optical sensor 8, the target illuminance, the unique address assigned to the lighting device 4, and the like. The display unit 11 is provided on the surface of the box 15 and displays the brightness or illuminance detected by the optical sensor 8, the target illuminance, the unique address assigned to the illumination device 4, and the like.
[0023]
As shown in FIG. 3, the operation unit 12 includes a power supply (ON / OFF) switch 18, a mode (MOOD) changeover switch 19, a memory (MEMORY) switch 20, and an up (UP) switch provided on the surface of the box 15. 21, a down (DOWN) switch 22 and a stop (STOP) switch 23.
[0024]
When the power switch 18 is turned on, the optical sensor 8, the wireless transmission unit 9, the display unit 11, the control unit 13, and the like operate with power supplied from the battery 14. The mode change switch 19 is used to set a target illuminance, brightness, a unique address, etc. displayed on the display unit 11 and is sequentially switched every time it is pushed. When pushed, the storage switch 20 causes the storage unit 10 to store setting values displayed on the display unit 11 such as target illuminance.
[0025]
When the up switch 21 is turned on, the set value such as the target illuminance displayed on the display unit 11 is increased, and when the down switch 22 is turned on, the set value is decreased. When the stop switch 23 is pushed, the up switch 21 and the down switch 22 are turned off. At this time, the set value displayed on the display unit 11 is set.
[0026]
Then, using the up switch 21, the down switch 22, the stop switch 23, and the storage switch 20, the target illuminance of the illumination area of the illumination device 4 can be displayed on the display unit 11 and stored in the storage unit 10. That is, the target illuminance of the illumination area of the illumination device 4 can be set in advance. Thus, the storage unit 10, the display unit 11, and the operation unit 12 form a target illuminance setting unit.
[0027]
The control unit 13 includes a CPU and a ROM in which a program is stored. When the brightness of the illumination area of the specific illumination device 4a is input from the optical sensor 8, the brightness is previously set by the target illuminance setting unit. A dimming control signal is calculated and generated so as to substantially match the set target illuminance, and this dimming control signal is disposed on the ceiling surface 24 from the wireless transmission unit 9 together with a unique address assigned to the specific lighting device 4a. The receiver 25 is configured to transmit wirelessly.
[0028]
The battery 14 is a button-type battery provided inside the box 15 and supplies power to the optical sensor 8, the wireless transmission unit 9, the display unit 11, the control unit 13, and the like.
[0029]
And the illuminating device 4 which comprises the illumination control system 1 is equipped with the fluorescent lamps 26 and 26, and the lighting fixture 27 and terminal which have arrange | positioned the lighting device which is not shown in figure which carries out the dimming lighting of the fluorescent lamps 26 and 26 inside It consists of a container 28. And the some lighting fixture 27 is embed | buried under the ceiling surface 24, The illumination area which illuminates the desk 6 in which the illumination intensity sensor 2 was mounted by the specific lighting fixture 27a among these is formed. Each of the plurality of lighting devices 4 is given a unique address.
[0030]
The ceiling surface 24 receives a wireless signal wirelessly transmitted from the wireless transmission unit 9 of the illuminance sensor 2, that is, a dimming control signal and a unique address, and transmits them to the terminal device 28 via the transmission signal line 28. A receiver 25 is provided.
[0031]
When the terminal 28 determines that the unique address transmitted from the receiver 25 is its own address, the terminal 28 inputs the dimming control signal transmitted together with the unique address. And the light control information memorize | stored in the memory | storage part in the terminal device 28 is read, Based on this light control information, a light control signal, for example, a PWM light control signal, is produced | generated and sent to a lighting device. The lighting device performs dimming lighting of the fluorescent lamps 26 and 26 according to the dimming signal. As described above, when a dimming control signal including its own address is transmitted, the plurality of lighting devices 4 are configured to vary the dimming level based on the dimming control signal.
[0032]
The lighting control device 3 is connected to the terminal device 28 via the transmission signal line 28. Similar to the illuminance sensor 2, the illumination control device 3 is set with a target illuminance, and can transmit a dimming control signal corresponding to the target illuminance to a specific illumination device 4a together with a unique address.
[0033]
Next, the operation of the first embodiment of the present invention will be described.
[0034]
FIG. 4 is a flowchart illustrating the operation of the illuminance sensor 2. In the illuminance sensor 2, the switches 18 to 23 of the operation unit 12 illustrated in FIG. 3 are operated.
[0035]
First, the power switch 18 is turned on (step S1). Thereby, the optical sensor 8, the wireless transmission unit 9, the display unit 11, the control unit 13 and the like operate from the battery 14.
[0036]
Then, the display and the operation mode are selected by the mode change switch 19 (step S2). When MOOD1 is selected, the display of the brightness detected by the optical sensor 8 can be adjusted (step S3). When MOOD2 is selected, the address or target illuminance of a specific lighting device 4a can be set (step S3). S6).
[0037]
In step S3, it is determined whether or not the brightness detected by the optical sensor 8 is associated with the actual illuminance. At this time, the brightness detected by the optical sensor 8 and the actual illuminance may be the same display value, and may be displayed as a converted value obtained by converting the brightness to the actual illuminance, for example, a voltage value. May be. When the brightness detected by the optical sensor 8 is associated with the actual illuminance and the display adjustment of the brightness is already set, the brightness detected by the optical sensor 8 is displayed on the display unit 11. (Step S5).
[0038]
Then, when the brightness detected by the optical sensor 8 is not associated with the actual illuminance, and the display adjustment of the brightness is not set, the brightness detected by the optical sensor 8 and the actual illuminance Correlation is performed (step S4). That is, in the illumination area of the specific illumination device 4a, for example, the illuminance sensor 2 and the illuminance meter are placed on the desk 6, and the brightness of the display unit 11 of the illuminance sensor 2 is increased with respect to the actual illuminance of the illuminance meter. 21, the down switch 22 and the stop switch 23 are used to vary the corresponding set values. Then, by turning on the memory switch 20, the brightness detected by the optical sensor 8 is associated with the actual illuminance. Then, when the brightness detected by the optical sensor 8 is associated with the actual illuminance, the brightness is displayed on the display unit 11.
[0039]
The illuminance sensor 2 is thin and can be placed at a predetermined position in the illumination area of the illumination device 4. Therefore, by placing the illuminance sensor 2 on the work surface where the work is performed, for example, on the upper surface of the desk 6 or in the vicinity thereof, the illuminance of the work surface where the work is actually performed can be confirmed.
[0040]
In step S6, it is confirmed that the address setting of the specific lighting device 4a and the brightness of the illuminance sensor 2 are set to the target illuminance. When the address is not set and the brightness of the illuminance sensor 2 is not set to the target illuminance, the address is set (step S7), and the target value of the target illuminance is set (step S8).
[0041]
When the address is set, the address is displayed on the display unit 11 by a push operation of the mode change switch 19, and the display value of the address is changed using the up switch 21, the down switch 22, and the stop switch 23. It is displayed at the address 4a. Then, by turning on the storage switch 20, the address of the specific lighting device 4a is set.
[0042]
Also, when setting the target value of the target illuminance, the illuminance value or brightness is displayed on the display unit 11 by the push operation of the mode changeover switch 19 as in the address setting, and the up switch 21, down switch 22 and stop The switch 23 is used to display the illuminance value or the brightness target value. Then, by turning on the memory switch 20, the target illuminance in the illumination area of the specific illumination device 4a is set.
[0043]
In step S6, when the address setting of the specific lighting device 4a and the brightness of the illuminance sensor 2 are set to the target illuminance, or the address setting is performed in step S7, the target value of the target illuminance is set in step S8. When the above setting is performed, automatic control or manual control is selected (step S9). Selection of automatic control or manual control is performed by causing the display unit 11 to display automatic control or manual control by a push operation of the mode switching switch 19 and turning on the storage switch 20.
[0044]
When automatic control is selected in step S9, the control unit 13 calculates and generates a dimming control signal so that the brightness detected by the optical sensor 8 substantially matches the target illuminance preset in step S8. The dimming control signal is sent to the wireless transmitter 9 together with the specific address of the specific lighting device 4a set in step S7. Then, the wireless transmission unit 9 wirelessly transmits the dimming control signal and the unique address from the light emitting element 17 (step S10).
[0045]
When manual control is selected in step S9, the brightness or illuminance detected by the optical sensor is displayed on the display unit 11, and then the up switch 21, the down switch 22, and the stop switch 23 are used to specify a specific value. The illuminance or brightness of the illumination area of the illumination device 4a can be varied. That is, the control unit 13 calculates and generates a dimming control signal so that the brightness detected by the optical sensor 8 increases or decreases according to the operation of the up switch 21 or the down switch 22, and the dimming control signal. Are transmitted to the wireless transmission unit 9 together with the unique address of the specific lighting device 4a. Then, the wireless transmission unit 9 wirelessly transmits the dimming control signal and the unique address from the light emitting element 17 (step S10).
[0046]
As described above, by placing the illuminance sensor 2 on the work surface illuminated by the illuminating device 4, for example, the upper surface of the desk 6, the illuminance on the work surface is determined by the brightness or illuminance displayed on the display unit 11. Can be confirmed. Then, based on the brightness or the illuminance displayed on the display unit 11, the target illuminance 4a that illuminates the work surface is set by setting a target illuminance optimum for the work, and the work surface is illuminated with the target illuminance. Can be made.
[0047]
Next, a second embodiment of the present invention will be described.
[0048]
FIG. 5 is a block diagram of a lighting control device showing a second embodiment of the present invention. In addition, the same code | symbol is attached | subjected to FIGS. 1-3, and the description is abbreviate | omitted.
[0049]
In the illumination control system 1 shown in FIG. 1, the illumination control device 3 is configured as shown in FIG. 5, and the illuminance sensor 2 is configured in the illuminance sensor device 30. That is, in the illuminance sensor device 30, in the illuminance sensor 2 shown in FIGS. 2 and 3, the control unit 13 does not have the function of generating and controlling the dimming control signal, and the wireless transmission unit 9 is operated by the optical sensor 8. The detected brightness is wirelessly transmitted to the receiver 25 together with the unique address assigned to the specific lighting device 4a. The brightness and the unique address detected by the optical sensor 8 wirelessly transmitted to the receiver 25 are transmitted to the illumination control device 3 via the transmission signal line 29.
[0050]
The illuminance sensor device 30 is placed in the illumination area of the illuminating device 4 so that the optical sensor 8 faces the illuminating device 4, similarly to the illuminance sensor 2. The illuminance sensor device 30 has at least the optical sensor 8, the wireless transmission unit 9, and the battery 14 as long as it has an address setting function or a specific address of a specific lighting device 4a. It only has to be configured.
[0051]
As shown in FIG. 5, the illumination control device 3 includes a nonvolatile storage unit 31, a setting operation unit 32, an external signal input unit 33, a wireless reception unit 34, a transmission unit 35, and a control unit 36. Has been.
[0052]
Similar to the storage unit 10 of the illuminance sensor 2 shown in FIG. 2, the storage unit 31 stores the brightness detected by the optical sensor 8, the target illuminance, the unique address assigned to the illumination device 4, and the like.
[0053]
The setting operation unit 32 can set in advance the target illuminance of the illumination area of the specific illumination device 4a for which the brightness is detected by the optical sensor 8. That is, the setting operation unit 32 constitutes target illuminance setting means.
[0054]
The external signal input unit 33 inputs, for example, a wall switch on / off control signal. When this on / off control signal is input, the control unit 36 transmits the on / off control signal together with the unique address of the lighting device 4 from the transmission unit 35 to the lighting device 4 via the transmission signal line 29.
[0055]
The wireless reception unit 34 receives an illumination control signal such as an on / off control signal or a dimming control signal from a wireless transmitter (remote controller). When this illumination control signal is input, the control unit 36 transmits the illumination control signal together with the unique address of the illumination device 4 from the transmission unit 35 to the illumination device 4 via the transmission signal line 29.
[0056]
The transmission unit 35 receives the brightness and the unique address detected by the optical sensor 8 transmitted from the illuminance sensor device 30 and transmits them to the control unit 36. In addition to the on / off control signal and the illumination control signal, the dimming control signal calculated and generated by the control unit 36 is transmitted to the specific illumination device 4a through the transmission signal line 29 together with the unique address. Yes.
[0057]
The control unit 36 calculates and generates a dimming control signal for a specific lighting device 4a so that the brightness transmitted wirelessly from the illuminance sensor device 30 substantially matches the target illuminance preset by the setting operation unit 32. The dimming control signal is transmitted to the transmission unit 35 together with the unique address wirelessly transmitted from the illuminance sensor device 30.
[0058]
Thus, an illumination control system including the illuminance sensor device 30 and the illumination control device 3 is configured.
[0059]
Next, the operation of the second exemplary embodiment of the present invention will be described.
[0060]
The brightness of the illumination area of the specific illumination device 4 a of the plurality of illumination devices 4 is detected by the optical sensor 8 of the illuminance sensor device 30. The brightness detected by the optical sensor 8 is wirelessly transmitted from the wireless transmission unit 9 to the receiver 25 together with the unique address of the specific lighting device 4a.
[0061]
The receiver 25 transmits the brightness detected by the optical sensor 8 wirelessly transmitted from the illuminance sensor device 30 and the specific address of the specific lighting device 4 a to the transmission unit 35 of the lighting control device 3 via the transmission signal line 29. To do. The brightness detected by the optical sensor 8 and the specific address of the specific lighting device 4a are sent from the transmission unit 35 to the control unit 36.
[0062]
The control unit 36 calculates and generates a dimming control signal so that the brightness detected by the optical sensor 8 substantially matches the target illuminance preset by the setting operation unit 32, and specifies this dimming control signal. Together with the unique address of the lighting device 4a.
[0063]
Then, the transmission unit 35 transmits the dimming control signal calculated and generated by the control unit 36 and the specific address of the specific lighting device 4 a to the specific lighting device 4 a via the transmission signal line 29.
[0064]
The dimming control signal transmitted to the specific lighting device 4 a is input to the terminal device 28. And the terminal device 28 reads the dimming information memorize | stored in the internal memory | storage part, produces | generates a dimming signal, for example, a PWM dimming signal based on this dimming control signal from this dimming information, and sends it out to a lighting device. . The lighting device performs dimming lighting of the fluorescent lamps 26 and 26 according to the dimming signal. Thereby, in the illumination area of the specific illuminating device 4a, the optical sensor 8 of the illuminance sensor device 30 is illuminated to the target illuminance.
[0065]
As described above, the target illuminance is set by the setting operation unit 32 of the illumination control device 3, the illuminance sensor device 30 is placed on the work surface on which the work is performed, and the light sensor 8 adjusts the brightness of the illumination area of the specific illumination device 4a. When the degree is detected, the brightness of the work surface is transmitted from the illuminance sensor device 30 to the illumination control device 3, and the light control level of the specific illumination device 4a is varied by the illumination control device 3 to target the work surface. It can be illuminated with illuminance.
[0066]
When the illuminance sensor device 30 is turned on, the brightness of the work surface is always transmitted from the illuminance sensor device 30 to the illumination control device 3, so that the illuminance of the work surface is constant to the target illuminance optimum for the work. Can be controlled.
[0067]
Further, when the work place is moved, the moving place can be illuminated with the target illuminance by placing the illuminance sensor device 30 on the moving place.
[0068]
【Effect of the invention】
According to the invention of claim 1, the illuminance sensor detects the brightness of the illumination area of the specific lighting device, and calculates and generates the dimming control signal so that the brightness substantially matches the target illuminance. Therefore, the illumination area of the specific illumination device can be illuminated with the target illuminance optimum for the work.
[0069]
According to the second aspect of the present invention, the display unit displays the brightness detected by the optical sensor, the target illuminance set by the target illuminance setting means, the unique address assigned to the lighting device, and the like. can do.
[0070]
According to the invention of claim 3, the illuminance sensor device detects the brightness of the illumination area of the specific illumination device and wirelessly transmits the illumination control device, and the illumination control device determines that the brightness transmitted wirelessly from the illuminance sensor device is the target illuminance. Therefore, the dimming control signal is calculated and generated so as to substantially match the signal, and is transmitted to the specific illumination device, so that the illumination area of the specific illumination device can be illuminated with the target illuminance optimum for the work.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a lighting control system showing a first embodiment of the present invention.
FIG. 2 is a block diagram of an illuminance sensor.
FIG. 3 is an external view of an illuminance sensor.
FIG. 4 is a flowchart of the operation of the illuminance sensor.
FIG. 5 is a block diagram of an illumination control device showing a second embodiment of the present invention.
FIG. 6 is a configuration diagram of a conventional illumination control system.
[Explanation of symbols]
1. Illumination control system 2 ... Illuminance sensor 3 ... Illumination control device 4 ... Illumination device 8 ... Optical sensor 9 ... Wireless transmitter 11 ... Display constituting target illumination setting means Unit 12 …… Operation unit 13 constituting target illuminance setting means …… Control unit 30 …… Illuminance sensor device 32 …… Setting operation unit as target illuminance setting means

Claims (3)

When a dimming control signal including its own address is transmitted, it detects the brightness of the lighting area of a specific lighting device of a plurality of lighting devices configured to vary the dimming level based on the dimming control signal An optical sensor to perform;
A storage unit for storing a unique address assigned to the specific lighting device;
Even without least a wireless transmission unit configured a unique address assigned to the lighting device to wirelessly transmit;
Target illuminance setting means for presetting the target illuminance of the illumination area;
A dimming control signal is calculated and generated so that the brightness detected by the optical sensor substantially matches the target illuminance preset by the target illuminance setting means, and this dimming control signal is wirelessly transmitted from the wireless transmitter together with the unique address. A controller configured to cause;
An illuminance sensor comprising:   2. The illuminance according to claim 1, further comprising a display unit for displaying at least the brightness detected by the optical sensor, the target illuminance set by the target illuminance setting means, and the unique address assigned to the lighting device. Sensor. A lighting device configured to vary a dimming level based on the dimming control signal when a dimming control signal including its own address is transmitted;
An optical sensor that detects the intensity of an illumination area of a specific illumination device, a storage unit that stores a unique address assigned to the specific illumination device, and at least the illumination device detected by the optical sensor An illuminance sensor device having a wireless transmitter configured to wirelessly transmit with the generated unique address;
Target illuminance setting means for presetting the target illuminance of the illumination area, and adjustment of a specific lighting device so that the brightness transmitted wirelessly from the illuminance sensor device substantially matches the target illuminance preset by the target illuminance setting means. A lighting control device having a control unit that calculates and generates a light control signal, and a transmission unit that transmits the dimming control signal calculated and generated by the control unit to a specific lighting device together with a specific address;
A lighting control system comprising:

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