JP3849739B2 - Lighting control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an illumination control system that performs automatic dimming illumination.
[0002]
[Prior art]
FIG. 8 is a block diagram of a conventional automatic light control system disclosed in, for example, Japanese Patent Laid-Open No. 10-106759, FIG. 9 is a block diagram of an illumination unit without a human sensor in this automatic light control system, and FIG. FIG. 11 is a block diagram of a transmission unit of this automatic light control system.
[0003]
In the figure, two types of lighting units 2 and 3 are connected to a signal line 4 connected to the transmission unit 1. As shown in FIGS. 9 and 10, the illumination units 2 and 3 are connected to the signal line 5, and each of the illumination units 2 and 3 is uniquely connected to the transmission processing unit 21 that transmits and receives a transmission signal transmitted through the signal line 5. And a code storage unit 22 as an identification code setting unit comprising a ROM storing a predetermined identification code.
[0004]
The transmission processing unit 21 compares the identification code included in the transmission signal and, if they match, controls the illumination load 4 based on the control data included in the transmission signal. The identification code is already set at the time of shipment from the manufacturer, and a different code is used for each of the lighting units 2 and 3 such as a serial number. The illumination load 4 is controlled via the illumination control unit 23. Here, the illumination control unit 23 may be used not only for controlling the lighting load 4 to be turned on / off, but also capable of dimming control.
[0005]
By the way, although the illumination unit 2 includes only the illuminance sensor 24 that detects the ambient illuminance, the illumination unit 3 detects the presence or absence of a person in a predetermined detection area in addition to the illuminance sensor 24 that detects the ambient illuminance. 25. Therefore, in addition to the identification code described above, the code storage unit 22 also stores a type code corresponding to the configuration of the lighting units 2 and 3.
[0006]
The transmission processing unit 21 transmits the illuminance detected by the illuminance sensor 24 to the transmission unit 1, and notifies the transmission unit 1 when the human sensor 25 detects a person entering or exiting the detection area.
The lighting units 2 and 3 are each housed in a fixture main body, and are configured to be handled as a single lighting fixture.
[0007]
Next, the operation will be described.
First, each of the lighting units 2 and 3 notifies the transmission unit 1 of the identification code of the lighting units 2 and 3 and the presence or absence of a human sensor. Next, the transmission unit 1 sequentially instructs the lighting unit 3 having the human sensor to turn on the lighting load 4. In the lighting units 2 and 3 around the lighting load 4, the output of the illuminance sensor 24 is greater than or equal to a predetermined value. If there is, the identification code is transmitted to the transmission unit 1.
[0008]
In the transmission unit 1, the transmission processing unit 11 receives the identification code and stores it in the association table 12 in association with the identification code of the lit lighting unit. Thereby, the transmission unit 1 acquires the identification code of the illumination units 2 and 3 which are arranged around the human sensor 25 and need to be turned on at the same time, and automatically creates the association table 12.
[0009]
For example, the case where the illumination unit 2 with the identification number [3] is associated with the illumination unit 3 with the human sensor of the identification number [1] in FIG.
In the lighting unit 3, when the presence of a person is detected by the human sensor 25, the lighting control unit 23 turns on the lighting load 4, and further transmits the information to the transmission unit 1 by the transmission processing unit 21.
[0010]
The transmission unit 1 refers to the association table 12 and transmits a lighting command to the illumination unit 2 with the associated identification number [3]. When the lighting unit 2 receives a lighting command via the transmission processing unit 21, the lighting control unit 23 turns on the lighting load 4.
The lighting units 2 and 3 associated as described above perform linked operation according to the detection state of the human sensor 25.
[0011]
[Problems to be solved by the invention]
In the conventional illumination control system as described above, the illumination units 2 and 3 in the vicinity of the human sensor 25 are associated with each other, and the associated illumination units 2 are associated with the detection state of the human sensor 25 (hereinafter referred to as 25A for convenience). 3 (hereinafter referred to as 2A and 3A for convenience), when the lighting load 4 is operated in conjunction with each other, the lighting units 2 and 3 (hereinafter referred to as 2B and 3B for convenience) installed in the vicinity of the lighting units 2A and 3A ) Supplements the amount of change in illuminance due to lighting / extinguishing of the lighting units 2A, 3A based on the detection of the human sensor 25A according to the ratio contributed by the lighting units 2B, 3B corresponding to the linked operation.
[0012]
That is, even if the human sensor 25A detects that there is no person and the lighting units 2A and 3A are turned off in response to this detection and the power is reduced, the lighting units 2B and 3B determine that the illuminance is insufficient. A large amount of electric power is consumed to compensate for the ratio of the change in illuminance caused by turning off the units 2A and 3A and to increase the illuminance.
Therefore, the entire system has a problem that the energy reduction effect cannot be sufficiently increased.
[0013]
The present invention has been made to solve the above-described problems, and is intended to improve the energy reduction effect and obtain a lighting control system having a high energy saving effect.
[0014]
[Means for Solving the Problems]
In the lighting control system according to the present invention, the lighting device includes at least one of a communication unit that communicates with another lighting device via a communication line, a lighting fixture that illuminates a predetermined area, and a lighting area of a neighboring lighting device. An illuminance sensor for detecting the illuminance of a predetermined area where the parts overlap , a storage means, a communication means, and a lighting controller for controlling the luminaire based on the detection result by the illuminance sensor, and linked operation Before one lighting device blinks its own lighting fixture and transmits an identification number assigned to itself to another lighting device via the communication means , and the illumination detected by the illuminance sensor within the other lighting device A lighting device having a change in illuminance due to blinking of the device exceeding a predetermined value recognizes the identification number of the blinking lighting device received via the communication means as that of the neighboring lighting device. The operation of storing in the personal storage means is sequentially executed for all of the plurality of lighting devices, and at least one lighting controller of the lighting device that has caused a change in the lighting output during the linked operation is stored in the storage means. A neighboring lighting device is identified based on one identification number, a specific command is transmitted to the identified neighboring lighting device, and the lighting controller of the neighboring lighting device that has received the specific command sends a specific command to the lighting fixture. The change of the output is suppressed to be smaller than the normal change amount.
[0015]
Further, the specific command transmitted by the illumination controller of the illumination device that has caused the illumination output change is a change suppression command .
[0016]
Further, in the lighting device that has turned off the lighting during the linked operation, the lighting controller specifies a neighboring lighting device based on at least one identification number stored in the storage unit, and the specified neighboring lighting device When a change suppression command is transmitted to the lighting device and a lighting operation is performed, a release command is transmitted to the neighboring lighting device .
[0017]
Further, before the linked operation, the lighting device repeats blinking for a certain period after a predetermined time delay according to its own identification number .
[0018]
The lighting device further includes a human sensor that detects the presence or absence of a person in a predetermined area, and the lighting controller further controls blinking of the lighting fixture based on the detection result of the human sensor, and the lighting controller transmits the lighting device. The specific command is an absence detection command .
[0019]
In addition, the predetermined area is divided into a plurality of units, a means for detecting the illuminance and the presence / absence of a person for each divided area, a communication unit for communicating with a plurality of lighting devices via a communication line, and a control target for each divided area A multi-area sensor having an identification number of the illumination controller and a means for storing a target brightness setting value, and the communication means of each illumination device communicates with other illumination devices and the multi-area sensor via a communication line. The lighting device of the lighting device illuminates the divided area, the controller of the lighting device further controls the lighting device based on the detection result by the multi-area sensor, and the lighting device is arranged for each divided area. To the lighting controller of the lighting device that illuminates the neighboring area according to the degree of influence on other areas due to the output change due to the blinking of the lighting fixtures in the specific area A change in output to the serial luminaire is to send a specific command to suppress to less than the normal amount of change.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a configuration diagram of a lighting control system according to Embodiment 1 of the present invention, FIG. 2 is a diagram showing the arrangement of the lighting control system, and FIG. 3 is a procedure for setting neighborhood lighting performed when the lighting control system is installed. FIG. 4 is a diagram illustrating the operation of the illumination control system.
[0021]
In the figure, 5 is a signal line, 30 is an illuminating device, an illumination controller 31, a human sensor 32 for detecting the presence or absence of a person in a predetermined area, an illuminance sensor 33 for measuring the illuminance in the predetermined area, a communication means 34, and an illumination. It is comprised from the lighting fixture 35 which is an output load.
In this illumination control system, a system configuration example by three illumination devices 30 is shown, and the illumination devices 30 are connected to each other by a transmission line 5.
[0022]
Next, the operation will be described.
First, identification numbers a, b, and c are assigned to the three lighting devices 30, respectively, the lighting device 30 with the identification number a is set as the lighting device a30, and similarly, the lighting devices 30 with the identification numbers b and c are respectively set in the lighting device b30. , C30.
[0023]
Therefore, the three lighting devices a30, b30, and c30 are arranged side by side as shown in FIG. Then, each lighting device 30 is operated, and first, each lighting device 30 repeats blinking for a certain period after a predetermined time delay according to its own identification number. At the same time, as shown in FIG. 3, the communication means 34 transmits its own identification number, and enters the setting mode for a predetermined period, and detects the neighboring illumination.
[0024]
The detection of the neighborhood illumination will be described in detail.
The lighting device a30 starts blinking of the lighting fixture 35 by the lighting controller 31, and at the same time transmits a command to the lighting devices b30 and c30 to notify the communication device 34 that it is blinking with its own identification number a. Therefore, the illumination devices b30 and c30 detect changes in brightness by the illuminance sensors 32. If the change width is equal to or greater than a predetermined value indicating the neighborhood, the communication unit 34 receives the above-described command, and the illumination controller 31 stores that it is the neighborhood illumination of the illumination device a30.
[0025]
In the case of the arrangement of FIG. 2, the illumination area of the illumination device a30 overlaps with the installation area of the illumination device b30, and therefore the brightness change width detected by the illuminance sensor 33 in the illumination device b30 is a predetermined value indicating the neighborhood. Since the value is equal to or greater than the value, the illumination device a30 is recognized as neighboring illumination, and this is stored in the illumination controller 31.
Moreover, in the illuminating device c30, since the brightness | luminance change width detected by the illumination intensity sensor 33 does not become more than the predetermined value which shows a neighborhood, the illuminating device a30 is not recognized as a neighborhood illumination.
The lighting device a30 stops blinking and transmitting the self-identification number after a predetermined time has elapsed.
[0026]
Next, the illumination device b30 starts blinking and transmitting its own identification number in the same manner as the illumination device a30. Since the illumination area of the illumination device b30 overlaps with the illumination devices a30 and c30, the illumination devices a30 and c30 recognize the illumination device b30 as neighboring illumination and store this in the same procedure as described above.
Similarly, initial illumination detection is performed for the illumination device c30.
Each lighting device 30 shifts to normal operation after the above-described predetermined setting mode period has elapsed.
[0027]
Therefore, when the three lighting devices a30, b30, and c30 are arranged as shown in FIG. 2, the lighting device a30 is the lighting device b30, the lighting device b30 is the lighting devices a30 and c30, and the lighting device c30 is the lighting device. Each device b30 is registered as a neighborhood illumination.
[0028]
The neighborhood lighting is set as described above, and the normal operation is started. Therefore, for example, when an output change of illumination occurs in the illumination device b30, a change suppression command is transmitted to the neighboring illumination devices a30 and c30 stored by the communication unit 34. In the lighting devices a30 and c30, even if the change suppression command is received by the communication unit 34, and the illumination controller 31 detects a change in brightness, the amount of change in output to the lighting fixture 35 is normally set. Control is made to be smaller than the amount of change.
[0029]
That is, in the lighting device b30, when the absence of a person is detected in the lighting area by the human sensor 32, the lighting fixture 35 is turned off, and the power consumption by the lighting fixture 35 is reduced, the inside of the lighting area The illuminance sensor 33 of the neighboring lighting devices a30 and c30 detects a decrease in illuminance. Here, if the lighting devices a30 and c30 are not registered as neighboring lighting, the lighting devices a30 and c30 determine that the illuminance is reduced, increase the illuminance of the lighting fixture 35 of the lighting devices a30 and c30, and increase power consumption. However, since it is registered as the neighborhood lighting, the increase in the illuminance of the lighting fixture 35 is lowered to suppress the increase in power consumption.
[0030]
By reducing the amount of output to the lighting fixture 35 in this way, for example, when the lighting device b30 is turned off, an increase in output of the neighboring lighting devices a30 and c30 is suppressed, and the effect of reducing power consumption due to turning off is reduced. Can be prevented. Moreover, it is possible to avoid an unpleasant feeling of being too bright for a person who is only in the illumination area of the illumination devices a30 and c30.
[0031]
After that, when the lighting device b30 is turned on, the lighting controller 31 of the lighting device b30 transmits a command for canceling the output suppression to the lighting fixture 35 to the lighting devices a30 and c30 by the communication unit 34. Return to the operation mode.
[0032]
Embodiment 2. FIG.
FIG. 5 is a diagram showing the operation of the illumination control system according to Embodiment 2 of the present invention. Also, FIG. 1 and FIG. 2 are used for the configuration diagram and layout of the lighting control system, respectively.
[0033]
Next, the operation will be described.
First, when a person is absent in the illumination area of the illumination device b30, the presence sensor 32 of the illumination device b30 detects the absence as shown in step 1 of FIG. Change the output to and turn it off. At this time, the illuminating device b30 transmits the absence detection command to the neighboring neighboring illuminating devices a30 and c30 by the communication means 34.
[0034]
The lighting devices a <b> 30 and c <b> 30 receive the absence detection command by the lighting controller 31 via the communication unit 34. Thereby, even if the illuminance sensor 33 of the lighting devices a30 and c30 detects a change in brightness, the amount of change in output to the lighting fixture 35 is controlled to be smaller than the normal amount of change.
[0035]
Next, when a person is absent in the illumination area of the illumination device a30, the presence sensor 32 of the illumination device a30 detects the absence as shown in step 2 of FIG. The output to 35 is changed to turn off the light. At this time, the illuminating device a30 transmits the absence detection command to the stored neighboring illuminating device b30 by the communication means 34.
[0036]
The illumination device b30 receives the absence detection command by the illumination controller 31 via the communication means 34. Thereby, even if the illuminance sensor 33 of the lighting device b30 detects a change in brightness, the amount of change in output to the lighting fixture 35 is controlled to be smaller than the normal amount of change. At this time, command transmission to the illumination device c30 is not performed.
[0037]
Next, when a person enters the illumination area of the illumination device b30, the human sensor 32 of the illumination device b30 detects the presence of a person as shown in step 3 of FIG. The output to 35 is changed to light up. Furthermore, the lighting controller 31 transmits a command for staying in the room by the communication means 34 to the lighting devices a30 and c30.
[0038]
The lighting devices a30 and c30 receive the in-room command by the lighting controller 31 via the communication means 34. Thereby, output suppression to the lighting fixture 35 is cancelled | released, and it resets to a normal driving | operation mode.
[0039]
As described above, by reducing the amount of output from nearby lighting in accordance with the presence or absence of people, it is possible to prevent the effect of reducing power consumption by turning off lights from being reduced, and avoiding the uncomfortable feeling of being too bright it can.
[0040]
Embodiment 3 FIG.
FIG. 6 is a block diagram of a lighting control system according to Embodiment 3 of the present invention, and FIG. 7 is a diagram showing an arrangement of this lighting control system. In the figure, the same reference numerals are assigned to the same or corresponding parts as those in the above embodiment.
The lighting device 30 includes a lighting controller 31 having a function for adjusting the lighting output and an identification number, a communication means 34, and a lighting fixture 35 of a continuous light control inverter.
[0041]
Reference numeral 36 denotes a multi-area sensor, which divides a predetermined area into a plurality of areas, detects detection means for detecting illuminance and the presence / absence of a person for each divided area, and identifies the illumination controller 31 to be controlled for each divided area. It is comprised from the memory | storage means which memorize | stores a number and the target brightness setting value.
The lighting control system is configured such that a plurality of lighting devices 30 are installed and the lighting device 30 and the multi-area sensor 36 are connected to each other by the communication means 34.
[0042]
Further, the illumination area is, for example, side by side area A, area B, and area C as shown in FIG. 7, and the illumination controller 31 is arranged in each area, and the multi-area sensor 36 is arranged in the center of the illumination area, Illuminance and presence / absence of people are detected for each area.
[0043]
Next, the operation will be described.
First, as an initial setting, the multi-area sensor 36 sequentially sends a blinking command to the lighting controller 31 in each area, and turns on / off the lighting fixture by the lighting controller 31, and detects the degree of influence on other areas at that time. And remember.
[0044]
Thereafter, the normal operation is started, and the multi-area sensor 36 sends a command to each illumination controller 31 via the communication means 34 while detecting the illuminance for each area so that the target brightness set for each area is obtained. The output to the lighting fixture 35 is adjusted, and the brightness is controlled to be constant.
[0045]
Here, in the area B, for example, when the absence of the multi-area sensor 36 is detected, a command for turning off or dimming is transmitted to the illumination controller 31 in the area B via the communication unit 34. At this time, to the illumination controllers 31 in the area A and the area C, a light increase command with a reduced output increase width is transmitted according to the influence level of the area B being turned off or dimmed.
[0046]
In this way, when there is a change in the lighting output of a certain area, it is possible to control the lighting output so that the brightness in the vicinity of the area does not become extremely bright, so that the lighting output is suppressed to a comfortable level. Realize energy saving while maintaining the characteristics.
In addition, since the multi-area sensor 36 can automate the procedure for detecting the influence of neighboring lighting, it is possible to realize a lighting system that achieves both energy saving effects and comfort with easy settings.
[0047]
In the above lighting control, the lighting controller 31 is directly instructed to output the lighting. However, for the neighborhood area of the absent area, the target brightness setting is reduced according to the degree of the absence and the illumination output is reduced. Control may be performed to limit the control so as not to become excessive, and the same effect is produced.
[0048]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0049]
Before the linked operation, one lighting device blinks its own lighting fixture and transmits an identification number assigned to it to another lighting device, and the change in illuminance detected by the illuminance sensor within the other lighting device. A lighting device having a predetermined value equal to or greater than a predetermined value sequentially executes the operation of recognizing that the received identification number of the blinking lighting device belongs to the neighboring lighting device and storing it in its own storage means for all of the plurality of lighting devices. In addition, during the linked operation, the lighting controller of the lighting device that has caused the change in the lighting output identifies the neighboring lighting device based on at least one identification number stored in the storage means, and this specified neighboring lighting A lighting controller of a neighboring lighting device that transmits a specific command to the device and receives the specific command causes a change in output to the lighting fixture to be smaller than a normal amount of change. Since suppressed so that a low cost master station required for control can be obtained and a high effect of energy saving by the illumination control does not impair the comfort lighting control system.
[0050]
In addition, it detects neighboring lighting devices that overlap in the lighting area, and when the lighting fixture blinks based on the detection result of the human sensor, the illuminance sensor of the neighboring lighting device detects the illuminance change due to this blinking, When the lighting device controls the lighting fixture by the lighting controller, the illumination intensity of the lighting fixture is suppressed, so the master station for control is unnecessary and low cost, the energy saving effect by the lighting control is high, and the comfort is hindered. A lighting control system that does not.
[0051]
In addition, the lighting device detects neighboring lighting devices with overlapping lighting areas, and the multi-area sensor detects and stores the degree of influence on other areas due to output changes caused by blinking of lighting fixtures in a specific area at the initial setting. In addition, when a lighting fixture blinks based on the detection result of the multi-area sensor in normal operation, the multi-area sensor detects a change in illuminance due to this blinking, and illuminates a neighboring area according to the influence on other stored areas. Since a specific command is sent to the lighting controller of the lighting device so as to suppress the change in the output to the lighting fixture to be smaller than the normal amount of change, the degree of mutual relation between the lighting controllers is grasped by the multi-area sensor, and the lighting Can be controlled with a single sensor according to the degree of relevance. It is possible to obtain a lighting control system with improved adaptability. Furthermore, since the procedure for detecting the influence of neighboring illumination can be automated by the multi-area sensor, an illumination system that achieves both an energy saving effect and comfort with an easy setting can be obtained.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a lighting control system showing Embodiment 1 of the present invention.
FIG. 2 is a layout diagram of a lighting control system according to Embodiment 1 of the present invention.
FIG. 3 is a diagram showing the operation of the illumination control system showing Embodiment 1 of the present invention.
FIG. 4 is a diagram showing the operation of the illumination control system showing Embodiment 1 of the present invention.
FIG. 5 is a diagram showing the operation of the illumination control system showing Embodiment 2 of the present invention.
FIG. 6 is a block diagram of an illumination control system showing Embodiment 3 of the present invention.
FIG. 7 is a layout diagram of a lighting control system according to Embodiment 3 of the present invention.
FIG. 8 is a configuration diagram of a conventional lighting control system.
FIG. 9 is a configuration diagram of a lighting unit of a conventional lighting control system.
FIG. 10 is a configuration diagram of a lighting unit of a conventional lighting control system.
FIG. 11 is a configuration diagram of a transmission unit of a conventional lighting control system.
[Explanation of symbols]
5 transmission line, 30 lighting device, 31 lighting controller, 32 human sensor, 33 illuminance sensor, 34 communication means, 35 lighting fixture, 36 multi-area sensor.

Claims (6)

In a lighting control system that connects a plurality of lighting devices to a communication line and operates in conjunction between the lighting devices,
The lighting device includes:
Communication means for communicating with other lighting devices via a communication line;
A luminaire for illuminating a predetermined area;
An illuminance sensor that detects the illuminance of the predetermined area where at least a part of the illumination area of a neighboring lighting device overlaps ; and
A storage unit, and a lighting controller that controls the communication unit and controls the lighting apparatus based on a detection result of the illuminance sensor;
Before the linked operation, one lighting device flashes its own lighting fixture and transmits an identification number assigned to itself to the other lighting devices via the communication means,
Among other lighting devices, a lighting device whose change in illuminance due to blinking of the lighting device detected by the illuminance sensor is equal to or greater than the predetermined value is the identification number of the blinking lighting device received via the communication means. The operation of recognizing that it belongs to the neighboring lighting device and storing it in its own storage means is sequentially executed for all of the plurality of lighting devices,
During the linked operation, the lighting controller of the lighting device that has caused the change in the lighting output identifies a neighboring lighting device based on at least one identification number stored in the storage means, and for the identified neighboring lighting device Send a specific command,
An illumination control system, wherein a lighting controller of a neighboring lighting device that has received this specific command suppresses a change in output to the lighting fixture to be smaller than a normal amount of change . The illumination control system according to claim 1, wherein the specific command transmitted by the illumination controller of the illumination device that has caused the illumination output change is a change suppression command. The lighting controller of the lighting device that has turned off the lighting during the linked operation specifies a neighboring lighting device based on at least one identification number stored in the storage means, and changes with respect to the specified neighboring lighting device. The lighting control system according to claim 1, wherein when a suppression command is transmitted and a lighting operation is performed, a release command is transmitted to the neighboring lighting device. The lighting control system according to claim 1, wherein the lighting device repeats blinking for a predetermined period after a predetermined time delay according to its own identification number before interlocking operation. The lighting device includes:
  Furthermore, it has a human sensor that detects the presence or absence of people in a given area,
  The lighting controller further controls blinking of the lighting fixture based on a detection result by the human sensor,
  The illumination control system according to claim 1, wherein the specific command transmitted by the illumination controller is an absence detection command. A predetermined area is divided into a plurality of areas, a means for detecting the illuminance and the presence / absence of a person for each divided area, a communication means for communicating with a plurality of lighting devices via a communication line, and a lighting controller to be controlled for each divided area A multi-area sensor having a means for storing the identification number and a target brightness setting value,
  The communication means of each lighting device communicates with other lighting devices and the multi-area sensor via the communication line,
  The lighting device of the lighting device illuminates the divided area,
  The controller of the lighting device further controls the lighting device based on the detection result by the multi-area sensor,
  The lighting device is arranged for each of the divided areas,
  The multi-area sensor is configured to output a change in output to the lighting fixture to a lighting controller of a lighting device that illuminates a neighboring area according to a degree of influence on another area due to a change in output caused by blinking the lighting fixture in the specific area. The lighting control system according to claim 1, wherein the specific command is transmitted so as to be suppressed to be smaller than the change amount.

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