JP2004185876A - Lighting control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting control system for controlling a lighting area at a constant target illuminance with good accuracy. <P>SOLUTION: A control part 33 inputs each illuminance of the lighting area 9 from a first and a second illuminance input parts 26, 27, and calculates and generates a light control signal of a lighting fixture 2 so as to almost coincide with a target illuminance LO stored in a storage part. The illuminance L2 of the lighting area 9 inputted from the second illuminance input part 27 is made to coincide with the target illuminance LO by giving priority thereto over the first illuminance input part 26, and at this time, a conversion coefficient K1 is corrected so as to make the illuminance L1 of the lighting area 9 input from the first illuminance input part 26 coincide with the target illuminance LO. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting control system for controlling the illuminance of an illumination area to a target illuminance.
[0002]
2. Description of the Related Art Illuminance of a surface to be illuminated, such as a desk top surface or a floor surface, is controlled to be constant by using an illuminance sensor. 2. Description of the Related Art Conventionally, an illuminance sensor is disposed on a building such as a ceiling surface due to a physical problem, detects reflected light from a floor surface or a wall surface, and correlates the reflected light with the illuminance on a surface to be irradiated. Here, when the position of an installation object such as a desk installed on the floor surface is changed, the reflected light input to the illuminance sensor changes and the illuminance of the illuminated surface changes. The illuminance of the irradiated surface is corrected.
[0003]
There is provided an illumination control system capable of efficiently correcting the illuminance by one person (for example, see Patent Document 1). As shown in FIG. 8, the lighting control device 50 includes a dimming control device 51, an illuminance sensor 52 that measures illuminance of an illumination area, and sends the measured illuminance to the dimming control device 51. A light control level signal is received from 51 and a light control terminal 54 for setting the illuminance of the lighting equipment 53 is connected via a multiplex transmission line L. The illuminance sensor 52 is configured to be able to wirelessly communicate with the wireless setting device 55.
[0004]
Then, the actual illuminance of the illumination area is measured by the illuminometer by the operator, and is wirelessly transmitted from the wireless setting device 55 to the illuminance sensor 52. The dimming control device 51 performs an arithmetic process on the actual illuminance from the wireless setting device 55 and the illuminance measured by the illuminance sensor 52 based on a predetermined arithmetic expression, calculates a predetermined correction ratio, and corrects the corrected illuminance to the measured illuminance. The value obtained by multiplying the ratio is recognized as the illuminance of the illumination area. Thereby, the operator can cause the dimming control device 51 to correct the illuminance only by operating the wireless setting device 55 alone.
[0005]
[Patent Document 1] JP-A-2002-75664 (page 3, FIG. 1)
[0006]
According to Patent Document 1, a value obtained by multiplying the illuminance measured by the illuminance sensor 52 by the correction ratio is the illuminance of the illumination area, and the dimming level is adjusted so that the value matches the target illuminance. By calculating and generating the signal, the illumination area can be controlled to the target illuminance. However, the correction ratio is calculated at an arbitrary illuminance of the illumination area, and does not mention that the correction ratio is calculated at the target illuminance.
[0007]
The reflected light incident on the illuminance sensor 52 does not fluctuate proportionally to the change in the illuminance of the illumination area, and the error in the illuminance measured by the illuminance sensor 52 tends to increase. Therefore, if the actual illuminance of the illumination area at the target illuminance and the illuminance measured by the illuminance sensor 52 are not obtained, there is a disadvantage that the reliability of the correction ratio at the target illuminance becomes low.
[0008]
In Patent Document 1, the actual illuminance of the illumination area is read by an illuminometer, and the illuminance is manually input to the wireless setting device 55 and transmitted wirelessly. Therefore, an error may occur in the actual illuminance, and reading and manual operation require time and effort. Has disadvantages.
[0009]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a lighting control system for accurately controlling a lighting area to a target illuminance accurately.
[0010]
According to a first aspect of the present invention, there is provided a lighting control system comprising: a lighting device provided with a dimmable lighting load; and a lighting device which mainly illuminates an illuminance of a lighting area illuminated by the lighting device. An illuminance sensor device for detecting by the reflected light from the area; and an illuminance measuring device for detecting the illuminance of the illuminated area mainly by direct light from the luminaire when the reflected light from the illumination area detected by the illuminance sensor device changes. A first illuminance input unit for inputting the illuminance of the illumination area from the illuminance sensor device, a second illuminance input unit for inputting the illuminance of the illumination area detected by the illuminance measurement device, and storing a target illuminance of the illumination area. Inputting the illuminances of the respective illumination areas from the storage unit and the first and second illuminance input units, and adjusting the dimming of the luminaire so that the illuminance substantially matches the target illuminance stored in the storage unit. A control signal is calculated and generated, and the illuminance of the illumination area input from the second illuminance input unit is given priority over the first illuminance input unit to substantially match the target illuminance. A lighting control device having a control unit for calibrating a conversion constant so that the illuminance of the lighting area input from the camera substantially matches the target illuminance, and a transmission unit for transmitting a dimming control signal calculated and generated by the control unit to the lighting equipment And;
[0011]
In the present invention and the following inventions, each configuration is as follows unless otherwise specified.
[0012]
The illuminance sensor device may include at least an illuminance sensor.
[0013]
The illuminance measuring device may be any device that directly detects the actual illuminance of the illumination area, and includes a known illuminometer. Then, for example, it is arranged on or near a desk surface on which work is performed or a work surface.
[0014]
The illuminated area is controlled to be a target illuminance L0. For example, an illuminance value obtained by multiplying the illuminance (L1) of the illuminated area detected by the illuminance sensor device by a conversion constant K1 is controlled to the target illuminance L0. . Further, an illuminance value obtained by multiplying the illuminance (L2) of the illumination area detected by the illuminance measuring device by the conversion constant K2 is controlled to the target illuminance L0. Since the target illuminance L0, the conversion constant K1, and the conversion constant K2 are each constant, the illuminance values of the illuminances (L1) and (L2) of the illumination area are determined with respect to the target illuminance L0.
[0015]
When the atmosphere or environment in the lighting area changes due to movement of a desk or work table installed in the lighting area, the actual illuminance in the lighting area is almost constant or small, whereas the illuminance sensor device detects it. The illuminance (L1) of the lighting area to be changed may change. That is, the reflected light from the illumination area may change.
[0016]
When the illuminance (L1) of the illumination area detected by the illuminance sensor device changes, the control unit of the illumination control device controls the illuminance (L1) of the illumination area even if the actual illuminance (actual illuminance) of the illumination area does not change. The dimming control signal of the lighting fixture is changed such that the illuminance value obtained by multiplying the illumination constant by the conversion constant K1 becomes the target illuminance L0. As a result, the light output from the lighting fixture changes. That is, when the reflected light from the illumination area increases and the illuminance (L1) of the illumination area detected by the illuminance sensor device increases, the control unit reduces the light output from the luminaire to reduce the reflected light from the illumination area. When the reflected light from the illumination area decreases and the illuminance (L1) of the illumination area detected by the illuminance sensor device decreases, the light from the lighting fixture increases to increase the reflected light from the illumination area. Increase output. As a result, the illumination area is not illuminated with the actual target illuminance L0. Therefore, the conversion constant K1 is calibrated.
[0017]
The conversion constant K1 is calibrated before the reflected light from the illumination area changes, and is performed when the illumination area is illuminated with the actual target illuminance L0. That is, the control unit performs constant control so that the illuminance value in the illumination area becomes the target illuminance L0 according to the illuminance (L2) of the illumination area detected by the illuminance measurement device. At this time, the illuminance (L1) of the illumination area detected by the illuminance sensor device is changing. The calibration value of the conversion constant K1 is calculated so that the illuminance value obtained by multiplying the illuminance (L1) of the changed illumination area becomes the target illuminance L0. Thereby, the illuminance value of the illuminance (L1) and the conversion constant (K1) of the illumination area with respect to the target illuminance L0 are newly set, and the control unit sets the illumination area in accordance with the illuminance (L1) of the illumination area detected by the illuminance sensor device. Is controlled to a target illuminance L0.
[0018]
The term “substantially coincident” is used to prevent being caught by an exact coincidence, and includes a coincidence. Further, “to make the illuminance of the illumination area substantially coincide with the target illuminance” means that a value obtained by multiplying the illuminance of the illumination area by the conversion constant substantially coincides with the target illuminance.
[0019]
According to the present invention, after the illuminance of the illumination area is controlled to the target illuminance, the conversion constant is calibrated so that the illuminance of the illumination area detected by the illuminance sensor device substantially matches the target illuminance. According to the illuminance of the illuminated area detected by the device, the illuminated area is precisely controlled to the target illuminance with high accuracy.
[0020]
An illumination control system according to a second aspect of the present invention includes: a lighting device provided with a dimmable lighting load; and an illuminance for detecting an illuminance of an illumination area illuminated by the lighting device mainly by reflected light from the illumination area. A sensor device; an illuminance measuring device for detecting the illuminance of the illumination area mainly by direct light from the lighting fixture when the reflected light from the illumination area detected by the illuminance sensor device changes; and an illuminance of the illumination area from the illuminance sensor device. A first illuminance input unit for inputting the illuminance, a second illuminance input unit for inputting the illuminance of the illumination area detected by the illuminance measuring device, and a second illuminance and a second illuminance when the target illuminance is set. A storage unit for storing the illuminance of the illumination area input to the illuminance input unit, and illuminances of the respective illumination areas input from the first and second illuminance input units, and from the first illuminance input unit A dimming control signal for the lighting fixture is calculated and generated so that the input illuminance substantially matches the target illuminance stored in the storage unit, and a second illuminance input unit when the target illuminance is set from the storage unit The illuminance of the illuminated area input to the second illuminance input unit is read out when the reflected light changes, and the illuminance of the illuminated area input to the second illuminance input unit is calculated, and the target illuminance is calculated in accordance with the illuminance ratio. A control unit for causing the storage unit to store the changed target illuminance together with the illuminance of the illumination area input to the second illuminance input unit when the reflected light changes, and a dimming operation calculated by the control unit A lighting control device having a transmission unit for transmitting a control signal to the lighting fixture.
[0021]
When the reflected light from the illumination area changes, the illuminance (L1) of the illumination area detected by the illuminance sensor device increases or decreases. Therefore, the control unit sets the illuminance (L1) of the illumination area to substantially match the target illuminance L0. Reduce or increase the light output of the luminaire. As a result, the illumination area is not illuminated with the actual target illuminance L0. That is, before and after the reflected light from the illumination area changes, the illuminance (L2) of the illumination area detected by the illumination measuring device changes. Here, the target illuminance is changed according to the illuminance ratio of the illuminance (L2) of the illuminated area before and after the reflected light from the illuminated area changes, and the illuminance detected by the illuminance sensor device with respect to the changed target illuminance. When the illuminances (L1) of the areas are substantially matched, the illumination area is illuminated to the actual target illuminance L0. That is, the illumination area can be illuminated with the initial target illuminance L0 before the reflected light from the illumination area changes.
[0022]
“To change the target illuminance in accordance with the illuminance ratio” means that the illuminance (L2) of the illuminated area detected by the illumination measurement device before the illuminance ratio changes the illuminance (L2) after the reflected light changes When calculated by dividing by the illuminance (L2) of the illuminated area, a new target illuminance is calculated by dividing the illuminance ratio to the target illuminance L0 before the reflected light is changed, and the illuminance is calculated after the reflected light is changed. When the illuminance (L2) of the area is calculated by dividing the illuminance (L2) of the illumination area before the change in the reflected light, the target illuminance L0 before the change in the reflected light is multiplied by the illuminance ratio to obtain a new target illuminance. It means that it is calculated.
[0023]
According to the present invention, the illuminance ratio of the illuminance of the illumination area detected by the illumination measurement device before and after the reflected light from the illumination area changes is calculated, the target illuminance is changed according to the illuminance ratio, and thereafter, the changed illuminance is changed. Since the illuminance of the illumination area detected by the illuminance sensor device is controlled to substantially match the target illuminance, the illuminance of the illumination area is accurately and constantly controlled to the initially set target illuminance.
[0024]
According to a third aspect of the present invention, in the illumination control device according to the first or second aspect, the illuminance measurement device is integrated with a transmission device that transmits the illuminance of the illumination area to the second illuminance input unit. It is characterized by being formed.
[0025]
According to the present invention, since the illuminance measurement device is formed integrally with the transmission device, it is easy to handle, and the illuminance of the illumination area detected by the illuminance measurement device is easily transmitted to the illuminance sensor device immediately.
[0026]
According to a fourth aspect of the present invention, in the illumination control system according to the third aspect, the transmitting device is a remote control device that transmits the illuminance of the illumination area to the second illuminance input unit by a wireless signal. The measurement device is characterized in that the optical sensor unit that is built in the remote control device and detects the illuminance is arranged such that the direction of detecting the illuminance and the transmission direction of the wireless signal substantially match.
[0027]
According to the present invention, the illuminance measurement device is built in the remote control device, and the optical sensor unit for detecting the illuminance is disposed so that the detection direction of the illuminance and the transmission direction of the wireless signal are substantially the same. By arranging the illuminance measuring device on the illuminated surface such as the upper surface or the work surface, the illuminance of the illumination area is detected and transmitted to the illuminance sensor device. Therefore, the labor of reading and transmitting the illuminance of the illumination area is reduced.
[0028]
According to a fifth aspect of the present invention, in the illumination control device according to the first or second aspect, the illuminance measuring device connects the transmission line to the transmitting device that transmits the illuminance of the illumination area to the second illuminance input unit. And transmitting the illuminance of the illumination area to the transmission device via the transmission line.
[0029]
According to the present invention, when the illuminance measuring device and the transmitting device are connected via the transmission line, the illuminance of the illumination area detected by the illuminance measuring device is transmitted to the transmitting device via the transmission line, and the illuminance is transmitted from the transmitting device. Sent to the sensor device. Therefore, the trouble of transmitting the illuminance of the illumination area is reduced.
[0030]
Embodiments of the present invention will be described below with reference to the drawings. First, a first embodiment of the present invention will be described.
[0031]
1 to 5 show a first embodiment of the present invention. FIG. 1 is a configuration diagram of an illumination control system, FIG. 2 is a perspective view of an illuminance sensor device, and FIG. 3 is a block configuration diagram of the illumination control device. 4 is a schematic front view of the illuminance measuring device, and FIG. 5 is a flowchart showing the operation of the illumination control device.
[0032]
As shown in FIG. 1, the lighting control system 1 includes a lighting fixture 2, an illuminance sensor device 3, an illuminance measuring device 4, and a lighting control device 5. The illumination control device 5 is integrated with the illuminance sensor device 3. The lighting fixture 2 and the illuminance sensor device 3 are arranged on the ceiling surface 6.
[0033]
The lighting fixture 3 is directly attached to the ceiling surface 6 and has a fluorescent lamp 7 as a dimmable lighting load, and a lighting device 8 for dimming and lighting the fluorescent lamp 7 therein. I have. Usually, a plurality of lighting fixtures 2 are arranged on the ceiling surface 6, and a predetermined lighting area 9 is formed by illumination by the plurality of lighting fixtures 2.
[0034]
The lighting device 8 is a high-frequency lighting device, and causes the fluorescent lamp 7 to perform dimming lighting in response to a dimming control signal, for example, a PWM dimming signal transmitted from the illumination control device 5. That is, the light output of the fluorescent lamp 7 is controlled by the illumination control device 5. The illuminance of the illumination area 9 changes according to the light output.
[0035]
As shown in FIG. 2, the illuminance sensor device 3 includes a sensor device main body 10, a cover 11, and mounting springs 12, 12, and the like. The cover 11 is provided with an illuminance sensor 13, a human body detection sensor 14, a reception element 15, a transmission LED 16, a display LED 17, and the like so as to be exposed on the outer surface 11a. The sensor device main body 10 houses the illumination control device 5 (not shown) therein, and has a terminal group 18 on the side surface 10a. The terminal group 18 is formed by output terminals and the like that connect the lighting control device 5 and the lighting device 8 of the lighting fixture 2.
[0036]
The illuminance sensor 13 is configured to indirectly detect the illuminance of the illumination area 9 mainly by reflected light from the illumination area 9 illuminated by the illumination device 2 and to transmit the illuminance to the illumination control device 5. The human body detection sensor 14 detects a human body approaching the illumination area 9 and turns on the fluorescent lamp 7 via the illumination control device 5.
[0037]
The receiving element 15 is formed of, for example, CdS, and is configured to receive illuminance of an illumination area, various control signals, and the like transmitted from a remote control device 19 as a transmitting device, and transmit the received signals to the illumination control device 5. The transmission LED 16 transmits a reply signal or the like transmitted from the lighting control device 5 to the remote control device 19. The display LED 17 is lit when the illuminance sensor device 3 such as the illumination control device 5 and the illuminance sensor 13 is operating normally.
[0038]
As described above, the illuminance sensor device 3 includes the illuminance sensor 13 that mainly detects the illuminance of the illumination area 9 illuminated by the luminaire 2 by light reflected from the illumination area 9.
[0039]
As shown in FIG. 4, the illuminance measuring device 4 is a well-known illuminometer, and an illuminated surface such as a desk top in the illumination area 9 with the light receiver 20 as an optical sensor unit facing the lighting fixture 2 side. It is arranged in. In the present embodiment, the irradiation light from the lighting fixture 2 is directly incident on the light receiving unit 20, and the incidence of the reflected light from the wall surface or the like is minimized. Therefore, the illuminance measuring device 4 measures the actual illuminance of the illumination area 9, and mainly detects the illuminance of the illumination area 9 by direct light from the lighting fixture 2.
[0040]
The illuminance measurement device 4 and the remote control device 19 are each provided with an external terminal (not shown), and the transmission line 21 is detachably connected to the external terminal. When the illuminance measuring device 4 detects the illuminance (actual illuminance) of the illumination area 9, the illuminance measuring device 4 displays the actual illuminance on the display unit 22 and transmits the actual illuminance to the remote control device 19 via the transmission line 21. I have. Here, the transmission to the remote control device 19 can be performed automatically or by pressing an operation button (not shown) provided on the surface.
[0041]
The illuminance measurement device 4 is configured to detect the change in the reflected light from the illumination area 9 detected by the illuminance sensor device 3 due to movement of a desk or a work table arranged in the illumination area 9. Can be arranged.
[0042]
The remote control device 19 includes a transmission unit 23, a display unit 24, and an operation input unit 25. Then, the actual illuminance of the illumination area 9 transmitted from the illuminance measuring device 4 is displayed on the display unit 24, and is transmitted from the transmitting unit 23 by pressing a transmission button (not shown) of the operation input unit 25. It is transmitted to the receiving element 15 of the illuminance sensor device 3.
[0043]
Further, the remote control device 19 transmits an ON / OFF control signal for turning on / off the fluorescent lamp 7, a dimming control signal for dimming, a control signal such as a setting signal or a canceling signal for setting or canceling the target illuminance, an address signal, and the like. It is configured to receive a return signal from the illumination control device 5 such as the dimming lower limit value of the lighting device 8, the dimming rate status of the fluorescent lamp 7, and whether or not the target illuminance is set.
[0044]
As shown in FIG. 3, the illumination control device 5 includes a first illuminance input unit 26, a wireless reception unit 27, a wireless transmission unit 28, a human body detection unit 29, a storage unit 30, a transmission unit 30 that constitutes a second illuminance input unit. It comprises a unit 31, a power supply unit 32 and a control unit 33.
[0045]
The first illuminance input unit 26 is electrically connected to the illuminance sensor 13 of the illuminance sensor device 3, and is configured to input an output voltage of the illuminance sensor 13 and transmit the output voltage to the control unit 33. Here, the output voltage of the illuminance sensor 13 is correlated with the illuminance of the illumination area 9 illuminated by the luminaire 2. That is, the illuminance of the illumination area 9 detected by the illuminance sensor 13 of the illuminance sensor device 3 is input to the first illuminance input unit 26.
[0046]
The wireless receiving unit (second illuminance input unit) 27 is connected to the receiving element 15, inputs the illuminance of the illumination area 9 detected by the illuminance measuring device 4 transmitted from the remote control device 19, and sends the illuminance to the control unit 33. It is configured as follows. Further, an illumination control signal such as an on / off control signal and a dimming control signal transmitted from the remote control device 19, an external signal such as a target illuminance setting signal and a release signal, an address signal, and the like are input and transmitted to the control unit 33. .
[0047]
The wireless transmission unit 28 is connected to the transmission LED 16 and is configured to transmit a reply signal transmitted from the control unit 33 from the transmission LED 16 to the remote control device 19.
[0048]
The human body detection unit 29 is connected to the human body detection sensor 14 and configured to transmit a detection signal of a human body detected by the human body detection sensor 14 to the control unit 33. When a detection signal of a human body is input from the human body detection unit 23, the control unit 33 transmits an illumination control signal for turning on the fluorescent lamp 7 from the transmission unit 31 to the lighting fixture 2 via the transmission line 34.
[0049]
The storage unit 30 stores various data such as the target illuminance of the illumination area 9 and the dimming lower limit value of the lighting device 8. The target illuminance is set from, for example, the remote controller 19.
[0050]
The transmission unit 31 transmits the dimming control signal calculated and generated by the control unit 33 to the lighting fixture 2 via the transmission line 34 in addition to the lighting control signal transmitted from the remote control device 19 and input to the wireless reception unit 27. It is configured to
[0051]
The power supply unit 32 is connected to the commercial AC power supply Vs, and is configured to convert an AC voltage into a DC voltage, adjust the voltage to a predetermined voltage value, and supply drive power to the control unit 33 and other circuit units. ing.
[0052]
The control unit 33 includes a CPU, a ROM in which programs are stored, and the like. Then, the control unit 33 inputs the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 from the first illuminance input unit 26, and inputs the illuminance measurement device from the wireless reception unit (second illuminance input unit) 27. 4 inputs the illuminance (L2) of the detected illumination area. Then, the illuminance value obtained by multiplying the illuminance (L1) of the illumination area 9 by the conversion constant K1 or the illuminance value obtained by multiplying the illuminance (L2) of the illumination area 9 by the conversion constant K2 is used as the target illuminance L0 stored in the storage unit 30. A dimming control signal of the lighting fixture 2 is arithmetically generated so as to substantially match, and transmitted from the transmission unit 31 to the lighting device 8 of the lighting fixture 2. When the illuminance (L1) of the illumination area 9 and the illuminance (L2) of the illumination area 9 are input simultaneously, the illuminance (L2) of the illumination area 9 is given priority over the illuminance (L1) of the illumination area 9. Control is performed so as to substantially match the target illuminance L0.
[0053]
Since the relational expression between the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 and the target illuminance L0 is L1 * K1 = L0, the control unit 33 determines the illumination area 9 detected by the illuminance sensor device 3 A dimming control signal of the lighting fixture 2 is calculated and generated so that the illuminance (L1) becomes the illuminance value L1a = L0 / K1, and the light output of the lighting fixture 2 is changed. That is, when the illumination area 9 is illuminated with the target illuminance L0, the illuminance value of the illumination area 9 detected by the illuminance sensor device 3 is set in advance to L1a (L0 / K1).
[0054]
Similarly, since the relational expression between the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 and the target illuminance L0 is L2 * K2 = L0, the control unit 33 determines the illumination area detected by the illuminance measuring device 4 The illuminance (L2) of No. 9 is controlled so that the illuminance value L2a = L0 / K2. That is, when the illumination area 9 is illuminated with the target illuminance L0, the illuminance value of the illumination area 9 detected by the illuminance measuring device 4 is set in advance to the illuminance value L2a (L0 / K2).
[0055]
When the illumination area 9 is illuminated at the target illuminance L0 and the environment or atmosphere in the illumination area 9 changes due to movement of a desk or workbench disposed in the illumination area 9, the illumination area 9 is illuminated. The reflected light from the illuminance sensor device 3 toward the illuminance sensor 13 changes. When the reflected light changes, the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 changes, and the illuminance value increases or decreases from the illuminance value L1a (L0 / K1). The control unit 33 increases or decreases the light output of the lighting fixture 2 so that the illuminance value of the illuminance (L1) in the illumination area 9 substantially matches the illuminance value L1a (L0 / K1). As a result, the illumination area 9 is not illuminated with the target illuminance L0.
[0056]
When the environment and atmosphere in the illumination area 9 change and the light reflected from the illumination area 9 changes, the illuminance measuring device 4 is provided in the illumination area 9. Then, the control unit 33 sets in advance the illuminance value of the illuminance (L2) of the illumination area 9 detected by the illuminance measurement device 4 in preference to the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3. The illumination area 9 is illuminated with the target illuminance L0 by controlling the illumination area 9 to substantially match the illuminance value L2a (L0 / K2).
[0057]
At the time of the priority, the illuminance value of the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 has changed to the illuminance value L1b increased or decreased from the illuminance value L1a (L0 / K1). Here, the control unit 33 calibrates the conversion constant K1 so that the illuminance value L1b substantially matches the target illuminance L0. That is, in the relational expression L1 * K1 = L0 between the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 and the target illuminance L0, the conversion constant K1 is changed to the conversion constant K1a = L0 / L1b. Then, the control unit 33 calculates and generates a dimming control signal of the lighting fixture 2 so that the illuminance (L1) of the lighting area 9 detected by the illuminance sensor device 3 becomes the illuminance value L1b = L0 / K1a. To change the light output. That is, when the illumination area 9 is illuminated with the target illuminance L0, the illuminance value of the illumination area 9 detected by the illuminance sensor device 3 is changed to the illuminance value L1b (L0 / K1a). Thus, after the reflected light from the illumination area 9 changes, the illumination area 9 is illuminated at the target illumination L0 in accordance with the illumination (L1) of the illumination area 9 detected by the illumination sensor device 3.
[0058]
The illumination control device 5 does not need to be integrated with the illuminance sensor device 3 as shown in FIG. 2, and may be separate.
[0059]
Hereinafter, the operation of the illumination control device 5 will be described with reference to the flowchart shown in FIG.
[0060]
When the wall switch or the like is turned on (power ON), an AC voltage is supplied from the commercial AC power supply Vs to the power supply unit 32, and the lighting control device 5 operates (step S1). Then, the control unit 33 reads out the target illuminance L0 and the dimming rate of the fluorescent lamp 7 before or after turning off stored in the storage unit 30 (step S2), and turns on the fluorescent lamp 7 at the dimming rate. (Step S3). Thereby, the illumination area 9 is illuminated.
[0061]
The control unit 33 inputs the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 from the first illuminance input unit 26 (Step S4), and an illuminance value obtained by multiplying the illuminance (L1) by a conversion constant K1. Is calculated to determine whether or not it substantially matches the target illuminance L0 (step S5). If the illuminance value does not substantially match the target illuminance L0, a dimming control signal for the lighting fixture 2 is computed and transmitted from the transmission unit 31 to the lighting fixture 2, and the dimming rate of the fluorescent lamp 7 is determined. It is changed (step S6). Then, the process returns to step S3, and is repeated until the illuminance value of the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 becomes the illuminance value L1a.
[0062]
If the illuminance value of the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 is the illuminance value L1a (L0 / K1), the illuminance value obtained by multiplying the illuminance value L1a by the conversion constant K1 is equal to the target illuminance L0. Since they substantially match, the control unit 33 determines whether or not the illuminance (L2) of the illumination area 9 detected by the illuminance measurement device 4 has been input from the wireless reception unit (second illuminance input unit) 27. (Step S7). If the illuminance (L2) of the illumination area 9 has not been input from the wireless reception unit 27, the process returns to step S3, and thereafter, the control in steps S3 to S7 is performed. That is, there is no change in the reflected light from the illumination area 9, and the illumination area 9 is controlled to be constant at the target illuminance L0 according to the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3.
[0063]
When the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 is input to the wireless reception unit 27, the control unit 33 gives priority to the wireless illuminance input unit 26 and gives the wireless reception unit 27 a 27, the illuminance (L2) of the illumination area 9 is input (step S8).
[0064]
Then, an illuminance value obtained by multiplying the illuminance (L2) of the illumination area 9 by the conversion constant K2 is calculated, and it is determined whether or not the illuminance substantially matches the target illuminance L0 (step S9). If the illuminance value does not substantially match the target illuminance L0, the dimming rate of the fluorescent lamp 7 is changed (step S10), and the fluorescent lamp 7 is turned on with this dimming rate (step S11). Then, the process returns to step S8, and is repeated until the illuminance value of the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 becomes the illuminance value L2a (L0 / K2). Thus, the illumination area 9 is illuminated with the target illuminance L0.
[0065]
When the illumination area 9 is illuminated with the target illuminance L0, the control unit 33 inputs the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 from the first illuminance input unit 26 (Step S12). . Then, a conversion constant K1a is calculated based on the illuminance value L1b of the illuminance (L1) of the illumination area 9, and the conversion constant K1 is overwritten on the conversion constant K1a and stored in the storage unit 30 (step S13). That is, the conversion constant K1 is calibrated to the conversion constant K1a. Then, the process returns to step S3. Thereby, after the reflected light from the illumination area 9 changes, the illumination area 9 is illuminated at the target illumination L0 in accordance with the illumination (L1) of the illumination area 9 detected by the illumination sensor 3.
[0066]
As described above, after the reflected light from the illumination area 9 changes, the illumination control system 1 controls the actual illuminance of the illumination area 9 to the target illuminance L0, and the illumination area detected by the illuminance sensor device 3 at this time. Since the conversion constant K1 is calibrated (changed) to the conversion constant K1a so that the illuminance (L1) of the illuminator 9 substantially matches the target illuminance L0, the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 is thereafter changed. Accordingly, the actual illuminance of the illumination area 9 is accurately controlled to the target illuminance L0.
[0067]
Next, a second embodiment of the present invention will be described.
[0068]
FIG. 6 is a flowchart illustrating the operation of the illumination control device according to the second embodiment of the present invention. The same parts as those in FIGS. 1 to 5 are denoted by the same reference numerals, and description thereof will be omitted.
[0069]
The lighting control device having the operation shown in FIG. 6 has the same configuration as the lighting control device 5 shown in FIG. 3, and the control method by the control unit 33 is different as follows.
[0070]
When the illumination area 9 is illuminated with the target illuminance L0, the illuminance value of the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 is the illuminance value L1a (L0 / K1). The illuminance value of the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 is an illuminance value L2a (L0 / K2).
[0071]
When the reflected light of the illumination area 9 changes and the reflected light incident on the illuminance sensor 13 of the illuminance sensor device 3 changes, the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 changes. The unit 33 changes the light output of the lighting fixture 2 so that the illuminance value of the illuminance (L1) of the illumination area 9 becomes the illuminance value L1a (L0 / K1). As a result, the actual illuminance of the illumination area 9 is not the target illuminance L0. That is, the target illuminance L0 has substantially changed to the target illuminance L3. At this time, the illuminance value of the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 is the illuminance value L2b (L3 / K2).
[0072]
When the target illuminance L0 changes from the target illuminance L3 to the target illuminance L3, the illuminance value of the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 is changed from the illuminance value L2a (L0 / K2) to the illuminance value L2b (L3 / K2). Here, since the relational expression L3 = L0 * L2b / L2a holds, the change of the reflected light from the illumination area 9 is corrected by setting the target illuminance of the illumination area 9 to the target illuminance L3 of the above relational expression. Can be. That is, the illumination area 9 is substantially illuminated with the target illuminance L0 before the reflected light from the illumination area 9 changes. For this purpose, the control unit 33 calculates the illuminance ratio (L2b / L2a) of the illuminated area 9 detected by the illuminance measuring device 4 before and after the reflected light from the illuminated area 9 changes, and calculates this illuminance ratio as the target illuminance. A new target illuminance L3 is set by multiplying L0. That is, the target illuminance L0 is changed, and the changed target illuminance L3 is overwritten and stored in the storage unit 30 together with the illuminance value L2b.
[0073]
Hereinafter, the operation of the lighting control device will be described with reference to the flowchart shown in FIG.
[0074]
Steps S1 to S8 are as described in FIG. In step S14, if the illuminance value obtained by multiplying the illuminance (L2) of the illumination area 9 by the conversion constant K2 substantially matches the target illuminance L0, the light reflected from the illumination area 9 does not change or the reflected light Is returned to step S3, and the illumination area 9 is controlled to be constant at the target illuminance L0 according to the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3.
[0075]
If the illuminance value does not substantially match the target illuminance L0, the control unit 33 sets the illuminance value L2a of the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 when the target illuminance L0 is set. Is read from the storage unit 30 (step S15). Then, an illuminance ratio (L2b / L2a) of the illuminance (L2) of the illumination area 9 detected by the illuminance measurement device 4 at the present time with the illuminance value L2b is calculated (step S16), and the illuminance ratio (L2b / L2a) is calculated. The target illuminance L0 is multiplied and changed to a new target illuminance L3 (step S17). Then, the storage unit 30 stores the new target illuminance L3 and the illuminance value L2b of the illuminance (L2) of the illumination area 9 detected by the illuminance measuring device 4 at the present time (step S18), and returns to step S3. According to the illuminance (L1) of the illuminated area 9 detected by the device 3, the illuminated area 9 is constantly illuminated at the target illuminance L3. At this time, the actual illuminance of the illumination area 9 is the illuminance before the light reflected from the illumination area 9 changes.
[0076]
As described above, the illumination ratio (L2b / L2a) of the illumination area 9 detected by the illumination measuring device 4 before and after the reflected light from the illumination area 9 changes is calculated, and according to this illumination ratio (L2b / L2a). The target illuminance L0 is changed, and thereafter, the illuminance (L1) of the illuminated area 9 detected by the illuminance sensor device 3 is controlled to substantially match the changed target illuminance L3. Even after the change, the illumination area 9 is constantly controlled at the illuminance corresponding to the initially set target illuminance L0.
[0077]
Before the reflected light from the illumination area 9 changes, the illuminance measurement device 4 stores the actual illuminance of the illumination area 9 when the target illuminance L0 is set, and stores the actual illuminance as the target illuminance L0. The illuminance ratio can be transmitted from the remote control device 19 to the illuminance sensor device 3 together with the illuminance (L2) of the illumination area 9 detected at the time of the change, and the control unit 33 can calculate the illuminance ratio. It is also possible to calculate the illuminance ratio in the illuminance measuring device 4 and transmit the calculated illuminance ratio. However, in these cases, since addresses for the plurality of lighting fixtures 2 are added, the operation of storing the actual illuminance of the illumination area 9 is complicated, and the illuminance measuring device 4 storing the actual illuminance is prevented from being lost. It has the disadvantage of requiring management to perform.
[0078]
The illuminance ratio can be calculated from the illuminance ratio (L1a / L1b) of the illuminance (L1) detected by the illuminance sensor device 3 before and after the reflected light from the illumination area 9 changes. However, the illuminance (L1) of the illumination area 9 detected by the illuminance sensor device 3 is unstable and has low accuracy, and thus has a disadvantage that the calculated illuminance ratio lacks reliability.
[0079]
Next, a third embodiment of the present invention will be described.
[0080]
FIG. 7 is a schematic front view of an illuminance measuring device according to a third embodiment of the present invention. The same parts as those in FIG. 4 are denoted by the same reference numerals, and description thereof will be omitted.
[0081]
The illuminance measuring device 35 shown in FIG. 7 is built in the remote controller 19 and integrated, and the optical sensor unit 36 for detecting the illuminance of the illumination area 9 has a direction in which the illuminance is detected substantially coincides with the transmission direction of the wireless signal. It is arranged facing the surface.
[0082]
The actual illuminance of the illumination area 9 is detected and transmitted to the illuminance sensor device 3 only by arranging the illuminance measurement device 4 on a surface to be illuminated such as a desk surface or a work surface due to a change in the environment or atmosphere of the illumination area 9. . Therefore, the manual operation of reading and transmitting the actual illuminance of the illumination area 9 can be reduced, so that it is easy to handle and labor can be saved.
[0083]
In the first to third embodiments, the remote control device 19 has been described as the transmitting device. However, the external setting device is connected to the external input unit (not shown) of the lighting control device 5 by wire. Is also good. In the external setting device, the same operation and effect as those of the remote control device 19 can be obtained.
[0084]
According to the first aspect of the present invention, after the illuminance of the illumination area is controlled to the target illuminance, the conversion constant is calibrated so that the illuminance of the illumination area detected by the illuminance sensor device substantially matches the target illuminance. Therefore, the illumination area can be accurately controlled to the target illuminance in accordance with the illuminance of the illumination area detected by the illuminance sensor device.
[0085]
According to the invention of claim 2, the illuminance ratio of the illuminance of the illumination area detected by the illumination measuring device before and after the reflected light from the illumination area changes is calculated, and the target illuminance is changed according to the illuminance ratio. Since the illuminance of the illumination area detected by the illuminance sensor device is controlled so as to substantially match the changed target illuminance, the illuminance of the illumination area can be accurately and constantly controlled to the initially set target illuminance.
[0086]
According to the third aspect of the present invention, since the illuminance measuring device is formed integrally with the transmitting device, it is easy to handle and the illuminance of the illumination area detected by the illuminance measuring device can be immediately transmitted to the illuminance sensor device. .
[0087]
According to the fourth aspect of the present invention, the illuminance measuring device is built in the remote control device, and the optical sensor unit for detecting the illuminance is disposed so that the direction of detecting the illuminance and the transmitting direction of the wireless signal substantially match. Therefore, by arranging the illuminance measuring device on the illuminated surface such as the desk top surface or the work surface, the illuminance in the illumination area can be detected and transmitted to the illuminance sensor device.
[0088]
According to the invention of claim 5, when the illuminance measurement device and the transmission device are connected via the transmission line, the illuminance of the illumination area detected by the illuminance measurement device is transmitted to the transmission device via the transmission line and transmitted. Since the data is transmitted from the device to the illuminance sensor device, it is possible to reduce the manual operation of reading and transmitting the illuminance of the illumination area.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a lighting control system according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the illuminance sensor device.
FIG. 3 is a block diagram of the illumination control device.
FIG. 4 is a schematic front view of the illuminance measuring device.
FIG. 5 is a flowchart showing the operation of the lighting control device.
FIG. 6 is a flowchart showing an operation of the lighting control device according to the second embodiment of the present invention.
FIG. 7 is a schematic front view of an illuminance measuring device showing a third embodiment of the present invention.
FIG. 8 is a configuration diagram showing a main part of a lighting control system of Patent Document 1.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 lighting control system 2 lighting fixture 3 illuminance sensor device 4, 35 lighting measurement device 5 lighting control device

Claims (5)

A lighting fixture having a dimmable lighting load;
An illuminance sensor device for detecting the illuminance of the illumination area illuminated by the illumination device mainly by reflected light from the illumination area;
An illuminance measuring device for detecting the illuminance of the illumination area mainly by direct light from the luminaire when the reflected light from the illumination area detected by the illuminance sensor device changes;
A first illuminance input unit for inputting the illuminance of the illumination area from the illuminance sensor device, a second illuminance input unit for inputting the illuminance of the illumination area detected by the illuminance measurement device, and a target illuminance of the illumination area are stored. The illuminance of each lighting area is input from the storage unit and the first and second illuminance input units, and the dimming control signal of the lighting fixture is adjusted so that the illuminance substantially matches the target illuminance stored in the storage unit. In addition to the calculation and generation, the illuminance of the illumination area input from the second illuminance input unit is given priority over the first illuminance input unit to substantially match the target illuminance, and the illuminance is input from the first illuminance input unit at this priority. A control unit for calibrating a conversion constant so that the illuminance of the illumination area to be substantially equal to the target illuminance; and a lighting control device having a transmission unit for transmitting a dimming control signal calculated and generated by the control unit to the lighting fixture;
A lighting control system comprising: A lighting fixture having a dimmable lighting load;
An illuminance sensor device for detecting the illuminance of the illumination area illuminated by the illumination device mainly by reflected light from the illumination area;
An illuminance measuring device for detecting the illuminance of the illumination area mainly by direct light from the luminaire when the reflected light from the illumination area detected by the illuminance sensor device changes;
A first illuminance input unit for inputting the illuminance of the illumination area from the illuminance sensor device, a second illuminance input unit for inputting the illuminance of the illumination area detected by the illuminance measurement device, a target illuminance of the illumination area, and the target illuminance. The illuminance of each illumination area is input from the storage unit storing the illuminance of the illumination area input to the second illuminance input unit at the time of setting, and the first and second illuminance input units. A lighting control signal of the lighting fixture is calculated and generated so that the illuminance input from the illuminance input unit substantially matches the target illuminance stored in the storage unit, and the illuminance when the target illuminance is set from the storage unit. The illuminance of the illumination area input to the second illuminance input unit is read out, and the illuminance ratio with the illuminance of the illumination area input to the second illuminance input unit when the reflected light changes is calculated. Change target illumination according to A control unit that stores the changed target illuminance in the storage unit together with the illuminance of the illumination area input to the second illuminance input unit when the reflected light changes, and a dimming control calculated and generated by the control unit. A lighting control device having a transmission unit for transmitting a signal to a lighting fixture;
A lighting control system comprising: The illumination control device according to claim 1, wherein the illuminance measurement device is integrally formed with a transmission device that transmits the illuminance of the illumination area to the second illuminance input unit. The transmitting device is a remote control device that transmits the illuminance of the illumination area to the second illuminance input unit by a wireless signal. 4. The lighting control system according to claim 3, wherein the direction and the transmission direction of the wireless signal are arranged so as to substantially match each other. The illuminance measurement device can be connected via a transmission line to a transmission device that transmits the illuminance of the illumination area to the second illuminance input unit, and sends the illuminance of the illumination area to the transmission device via the transmission line. The lighting control device according to claim 1 or 2, wherein:

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