JP2004228051A - Lighting control device and lighting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting control device and a lighting system, whereby target illuminance can be automatically set by turning on a power supply. <P>SOLUTION: This lighting control device 5 is equipped with an external light level computing means 20 to compute illuminance by external light in a lighting area 16, and a target illuminance setting means 21 to light up a lighting load 17 at a preset first reference dimming ratio of 70 % when the illuminance by the external light in the lighting area 16, which has been computed by the external light level computing means 20, is not more than a preset reference value, to set the illuminance of the lighting area 16 at this time at the target luminance in the lighting area 16, and to set no target illuminance in the lighting area 16 when the illuminance by the external light in the lighting area 16 exceeds the preset reference value. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an illumination control device and an illumination device for illuminating an illumination area with 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. Conventionally, an illuminance sensor is installed on a ceiling surface due to a physical problem, and detects reflected light from a desk surface, a floor surface, or the like. The reflected light has a positive correlation with the illuminance of the irradiated surface. Then, the target illuminance is set by a remote controller or the like while changing the illuminance of the illuminated surface at night, for example, when the reflected light due to the external light is not input to the illuminance sensor. Therefore, it has been proposed to automatically set a target illuminance (for example, see Patent Document 1).
[0003]
Patent Document 1 discloses that a controller changes the light output of a lighting fixture and obtains the illuminance due to external light such as daylight in an irradiation space from a measured value of an output voltage of an illuminance sensor when the light output of the lighting fixture is large and small. And the illuminance when the dimming control signal output of the lighting fixture is 100%. Then, a preset ratio of the output voltage of the illuminance sensor when the dimming control signal output of the luminaire is 100%, for example, 70% is set as the target illuminance, and the illuminance in the irradiation space is controlled to be constant.
[0004]
[Patent Document 1] JP-A-11-214179 (pages 4 to 6, FIG. 3)
[0005]
According to Japanese Patent Application Laid-Open Publication No. H10-157, after the power is turned on, when a gain setting activation request is made by a remote controller or the like, the target illuminance is set. Therefore, there is a drawback that human labor is required.
[0006]
An object of the present invention is to provide a lighting control device and a lighting device that can automatically set a target illuminance upon power-on.
[0007]
According to a first aspect of the present invention, there is provided an illumination control device for inputting an illuminance from an illuminance sensor for detecting an illuminance of an illumination area illuminated by a lighting fixture provided with an illumination load. Illuminance input means; external light level calculation means for calculating illuminance by external light in the illumination area; illumination when the illuminance by external light in the illumination area calculated by the external light level calculation means is equal to or less than a preset reference value. The load is turned on at a preset first reference dimming rate, the illuminance of the illumination area at this time is set to the target illuminance of the illumination area, and the illuminance by the external light of the illumination area is set to a preset reference value. Target illuminance setting means for setting the target illuminance of the lighting area to non-setting when the target illuminance is exceeded; The dimming rate of the lighting load is controlled according to the detection value of the sensor, and when the target illuminance of the illumination area is not set, the lighting load is turned on at a second reference dimming rate set in advance. And control means for performing the control.
[0008]
In the present invention and the following inventions, each configuration is as follows unless otherwise specified.
[0009]
The illumination area refers to an area where a required illuminance can be obtained among the areas illuminated by the lighting fixture.
[0010]
The illuminance of the illumination area due to external light is the illuminance of the illumination area when the illumination load is turned off. Therefore, the external light level calculating means may turn off the illumination load, calculate the illuminance input to the illuminance input means, and use the calculated illuminance as the illuminance by the external light.
[0011]
The external light level calculation means includes, in a broad sense, extraction of the illuminance of the external light or detection of the illuminance of the external light, in addition to calculating the illuminance by the external light. For example, the external light level calculation unit may use the illuminance input from the optical sensor that detects only the external light as the illuminance due to the external light.
[0012]
The control means controls the turning on and off of the illumination load and the dimming control, and the external light level calculation means and the target illuminance setting means send the request signal to the control means. That is, "the external light level calculating means turns on the lighting load or turns off the lighting load" means that the external light level calculating means turns on or off the lighting load to the control means.
[0013]
The target illuminance is the illuminance of the illumination area when the lighting load is turned on at a preset first reference dimming rate, and the illuminance of the illumination light from the luminaire is equal to or less than the reference value of the external light. Value.
[0014]
The first and second reference dimming rates need only be appropriately set dimming rates, and may be the same dimming rate or different dimming rates. For example, both are set to 70% in consideration of the maintenance rate due to the temporal change of the lighting load. Here, the dimming rate is 100% when the lighting load is turned on with all light, and 0% when the lighting load is off. The reference of the reference dimming rate is used to specify an appropriately set dimming rate.
[0015]
The “predetermined reference value” may be any illuminance value that is appropriately set, and the illuminance of the illumination area at the time of the maximum light output of the illumination load in the absence of external light (100% dimming rate). 15%.
[0016]
As the illuminance and the illuminance value, a corresponding value or voltage may be used.
[0017]
When the target illuminance is set, the control means controls the dimming rate of the lighting load to decrease to reduce the light output of the lighting load as the illuminance due to the external light approaches the target illuminance. . Here, the dimming rate of the lighting load is reduced in response to an increase in illuminance due to external light up to the dimming lower limit value of the lighting device that energizes the lighting load. When the value reaches the value and the external light further increases, the lighting load may be turned on at this dimming lower limit value, or the lighting load may be turned off.
[0018]
According to the present invention, the target illuminance is automatically set when the illuminance due to the external light in the illumination area is equal to or less than a predetermined reference value. It is set to the illuminance of the illumination area when turned on at the light rate. Since the target illuminance is automatically set, there is no need for labor and labor is saved.
[0019]
According to a second aspect of the present invention, in the lighting control apparatus according to the first aspect, the illumination load is turned on at a first reference dimming rate when the illuminance due to external light in the illumination area is equal to or less than a reference value. A target illuminance release that releases the target illuminance when the illumination load is not reproduced at the first reference dimming rate for a predetermined period when the target illuminance of the area is set. Means;
[0020]
After the target illuminance is set by the target illuminance setting means, when equipment such as a desk or OA equipment is carried into the illumination area, even if the illumination area is actually illuminated with the target illuminance, for example, the ceiling surface The reflected light incident on the installed illuminance sensor changes, and the detection value of the illuminance sensor changes. Since the control means controls the dimming rate of the illumination load according to the detection value of the illuminance sensor, the illumination area is not illuminated with the actual target illuminance. Therefore, when a desk or equipment is carried into the illumination area and the reflected light (reflectance) in the illumination area changes, the target illuminance is reset.
[0021]
Since the target illuminance is the illuminance of the illumination area when the lighting load is turned on at the first reference dimming rate, it is reproduced that the lighting load is turned on at the first reference dimming rate for a predetermined period. If not, it is assumed that the reflected light in the illumination area has changed, that is, the actual target illuminance in the illumination area has changed.
[0022]
The predetermined period may be set to an appropriate period, for example, 30 to 100 hours, and it is not desirable that the period be extremely long or short. That is, if the time is extremely long, the change in the reflected light (change in the actual target illuminance) in the illumination area may be left for a long time. If the time is extremely short, the reproduction may not be detected. There is.
[0023]
According to the present invention, when the reflected light in the illumination area changes, the target illuminance is canceled by the target illuminance canceling means, and the illumination load is turned on at the second reference dimming rate. Then, when the power is turned on again, the target illuminance of the illumination area is automatically reset by the operations of the external light level calculation means and the target illuminance setting means.
[0024]
According to a third aspect of the present invention, in the illuminance control apparatus according to the second aspect, when the illumination load is reproduced to be turned on at the first reference dimming rate during the predetermined period of time, reset is performed. It is characterized by being performed.
[0025]
According to the present invention, when it is reproduced that the lighting load is lit at the first reference dimming rate, the clocking of the predetermined period is reset, so that the change of the reflected light in the lighting area is continuously performed. The presence or absence is detected.
[0026]
According to a fourth aspect of the present invention, there is provided the illumination control device according to the second or third aspect, further comprising a first display unit for displaying that a predetermined period is being measured. I do.
[0027]
According to the present invention, by visually checking the first display means, it is confirmed that the presence or absence of a change in the reflected light in the illumination area has been detected.
[0028]
According to a fifth aspect of the present invention, in the lighting control apparatus according to any one of the first to fourth aspects, the control unit determines whether or not the target illuminance of the illumination area is set when the power is turned on, and When it is determined that the illuminance is set, the dimming rate of the lighting load is controlled according to the detection value of the illuminance sensor so that the illuminance of the illumination area becomes the target illuminance, and it is determined that the target illuminance is not set. In some cases, the dimming rate of the illumination load is controlled after setting or non-setting of the target illuminance by the external light level calculation means and the target illuminance setting means.
[0029]
According to the present invention, the presence or absence of setting of the target illuminance of the illumination area is determined when the power is turned on, and the setting or non-setting of the target illuminance by the external light level calculation means and the target illuminance setting means when the target illuminance is not set. Is performed, an operation of automatically setting the target illuminance by turning on the power is performed.
[0030]
According to a sixth aspect of the present invention, in the illuminance control apparatus according to any one of the first to fifth aspects, the external light level calculating means adjusts an illumination load on the control means by two or more different dimming. The illumination area is illuminated by the external light by calculating the illuminance of the illumination area input to the illuminance input means at this time.
[0031]
The control unit turns on the illumination load at two or more different dimming rates, and the illuminance of the illumination area due to external light is calculated based on a change (voltage change) in the detection value of the illuminance sensor input to the illuminance input unit. For example, if the light output of the lighting load changes in proportion to the dimming rate, the illuminance due to external light can be calculated by at least two linear equations.
[0032]
According to the present invention, the illuminance due to the external light in the illumination area is calculated without turning off the lighting load. Therefore, at the time of the calculation, uncomfortable feeling and discomfort caused by turning off the lighting load are prevented.
[0033]
According to a seventh aspect of the present invention, there is provided the illumination control device according to any one of the first to sixth aspects, further comprising a switching unit that selectively switches the first reference dimming rate. And
[0034]
The first reference dimming rate is usually set to 70% in consideration of the maintenance rate of the lighting load, etc., but is 80% in a place requiring brightness such as a clean room, and 50% in a renewed place or a warehouse. can do.
[0035]
According to the present invention, the target illuminance according to the environment of the illumination area is optimally set by selectively switching the first reference dimming rate.
[0036]
According to an eighth aspect of the present invention, in the illumination control apparatus according to any one of the first to seventh aspects, the target illuminance setting means can release the target illuminance by an external signal or input the illuminance to the illuminance input means. The illuminance value to be set can be set to the target illuminance.
[0037]
Before the target illuminance canceling means cancels the target illuminance, the target illuminance may be canceled by an external signal.
[0038]
By canceling the target illuminance set by the external signal, the illuminance of the illumination area can be set to an arbitrary illuminance (arbitrary target illuminance). When the power is turned on again, a new target illuminance is automatically set.
[0039]
The target illuminance is preferably set when external light is equal to or less than a reference value, preferably when external light such as at night hardly enters the illumination area, but is set periodically or in accordance with rearrangement of a room or the like. You may do so. Alternatively, the target illuminance may be set when the external light is at a low level or almost non-existent, when the target illuminance is set when the external light is at or near the reference value.
[0040]
According to the present invention, it is possible to set the illumination area to an arbitrary illuminance by canceling the target illuminance set by the external signal, and a new target illuminance can be automatically set by turning on the power again. It is. In addition, since the illuminance value input to the illuminance input means by an external signal can be set to the target illuminance, the illuminance of the illumination area is optimized by changing the dimming rate (light output) of the illumination load. The target illuminance can be set to a desired value.
[0041]
According to a ninth aspect of the present invention, in the illumination control device according to any one of the first to eighth aspects, the second display means for displaying that the target illuminance is not set or the target illuminance is not set Replies to the wireless transmitter.
[0042]
According to the present invention, it is recognized by the second display means or the return means that the target illuminance is not set and the lighting load is turned on at the preset second reference dimming rate. You.
[0043]
According to a tenth aspect of the present invention, there is provided the lighting control device according to any one of the first to ninth aspects, wherein a lighting load whose light output is controlled by the lighting control device is provided to illuminate a predetermined lighting area. And an illuminance sensor for detecting illuminance of an illumination area illuminated by the illuminator and inputting the detected illuminance to illuminance input means of the illumination control device.
[0044]
According to the present invention, there is provided a lighting device in which a target illuminance of a lighting area can be set automatically when power is turned on or forcibly by an external signal, and the lighting area is constantly illuminated by the target illuminance. .
[0045]
An invention of a lighting device according to claim 11 is the lighting device according to claim 10, wherein the lighting fixture is provided with an illuminance sensor and a lighting control device.
[0046]
It is sufficient that at least one of the plurality of lighting devices that illuminate the lighting area is provided with the illuminance sensor and the lighting control device.
[0047]
ADVANTAGE OF THE INVENTION According to this invention, since the illumination fixture is provided with the illuminance sensor and the illumination control device, it is not necessary to install the illuminance sensor and the illumination control device on a building such as a ceiling, and power saving can be achieved.
[0048]
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.
[0049]
1 to 4 show a first embodiment of the present invention. FIG. 1 is a schematic configuration diagram of a lighting device, FIG. 2 is a perspective view of a sensor device, FIG. 3 is a block diagram of a lighting control device, and FIG. It is a flowchart of operation | movement of a lighting control apparatus.
[0050]
As shown in FIG. 1, the lighting device 1 includes a sensor device 2 and a lighting fixture 3, and an illuminance sensor 4 and a lighting control device 5 are provided integrally with the sensor device 2. The sensor device 2 and the lighting fixture 3 are arranged on the ceiling surface 6.
[0051]
As shown in FIG. 2, the sensor device 2 includes a sensor device main body 7, a cover 8, mounting springs 9, 9, and the like. The illuminance sensor 4, the human sensor 10, the receiving element 11, the transmitting LED 12, the display LED 13 as the second display means, and the like are disposed on the cover 8 so as to be exposed on the outer surface 8a. I have. The sensor device main body 7 houses the illumination control device 5 (not shown) therein, and has a terminal group 14 disposed on the side surface 7a. The terminal group 14 is formed by output terminals and the like that connect the lighting control device 5 and the lighting device 15 of the lighting fixture 3.
[0052]
The illuminance sensor 4 is configured to indirectly detect the illuminance in the illumination area 16 by the reflected light from the illumination area 16 illuminated by the illumination device 3 and to transmit the illuminance to the illumination control device 5. The human sensor 10 detects a human body approaching the illumination area 16 and turns on a fluorescent lamp 17 as an illumination load via the illumination control device 5.
[0053]
The receiving element 11 is configured to receive a control signal transmitted from a wireless transmitter (remote controller) 18 and transmit the control signal to the illumination control device 5. The transmission LED 12 transmits a reply signal or the like transmitted from the lighting control device 5 to the wireless transmitter (remote controller) 18. Here, the wireless transmitter 18 includes a blinking signal for turning the fluorescent lamp 17 on and off, a dimming signal for dimming, a setting signal as an external signal for forcibly setting the target illuminance, a release signal as an external signal for releasing, and the like. , And receives a return signal indicating the lower limit of dimming of the lighting device 15, the status of the dimming rate of the fluorescent lamp 17, and whether or not the target illuminance is set.
[0054]
The display LED 13 is turned on when the target illuminance of the illumination area 16 is set, and is turned off when the target illuminance is not set or when the target illuminance is cancelled, under the control of the illumination control device 5. It is. By turning on and off the display LED 13, whether or not the target illuminance is set is visually recognized and recognized.
[0055]
As shown in FIG. 3, the illumination control device 5 includes an illuminance input unit 19 as illuminance input means, an external light level calculation unit 20 as external light level calculation means, a target illuminance setting unit 21 as target illuminance setting means, Receiving section 22, wireless transmitting section 23, external signal input section 24, human body detecting section 25, storage section 26, transmitting section 27, display section 28, first reference dimming rate switching section 29 as switching means, power supply section 30 and a control unit 31 as control means.
[0056]
The illuminance input unit 19 is electrically connected to the illuminance sensor 4, and is configured to input an output voltage (detection value) of the illuminance sensor 4 and transmit the output voltage to the control unit 31. Here, the output voltage of the illuminance sensor 4 is correlated with the illuminance of the illumination area 16 illuminated by the luminaire 3. That is, the illuminance input unit 19 inputs the illuminance of the illumination area 16.
[0057]
The illuminance of the illumination area 16 is obtained by adding the illuminance of the illumination light illuminated by the luminaire 3 to the illuminance of external light such as sunlight or sunlight emitted from another illuminator that does not originally illuminate the illumination area 16. ing.
[0058]
The external light level calculation unit 20 calculates the illuminance of the illumination area 16 by external light by energizing the fluorescent lamp 17 via the control unit 31 immediately after the commercial AC power supply Vs is supplied to the illumination control device 5. It is. For example, the illuminance due to external light is calculated by lighting the fluorescent lamp 17 at different dimming rates, for example, 50% and 100%, and calculating the illuminance value input from the illuminance sensor 4 to the illuminance input unit 19. That is, if the illuminance value is proportional between different dimming rates, the dimming rates are 50% and 100 in the linear equation Y = aX + C (where Y indicates the illuminance and X indicates the dimming rate). By obtaining the illuminance value with respect to%, the constants a and C are easily calculated, and the illuminance C due to external light is obtained. Then, when the illuminance C is obtained by the external light, the fluorescent lamp 17 is not turned off, so that a feeling of strangeness or discomfort to a person is prevented.
[0059]
The target illuminance setting unit 21 configures a target illuminance setting unit of the lighting control device 5 and sets a target illuminance of the illumination area 16 illuminated by the lighting fixture 3. That is, the target illuminance setting unit 21 sets the fluorescent lamp 17 via the control unit 31 in advance when the illuminance due to the external light of the illumination area 16 calculated by the external light level calculation unit 20 is equal to or less than a preset reference value. The lighting is performed at the set first reference dimming rate, and the illuminance (detection value) of the illumination area 16 detected by the illuminance sensor 4 at this time is set to the target illuminance. Then, the set target illuminance is stored in the storage unit 26 under the control of the control unit 31. Here, the first reference dimming rate is usually set to 70%. That is, since the luminous flux maintenance ratio of the fluorescent lamp 17 decreases as the lighting time elapses, the fluorescent lamp 17 is initially designed to be usable with the illuminance at the dimming ratio of 70%. Then, a usage method in which the dimming rate is increased as the lighting time elapses is generally used. The reference value of the illuminance by the external light may be an illuminance value set as appropriate, and is set to, for example, an illuminance value of 15% of the illuminance (100%) by the lighting fixture 3.
[0060]
The target illuminance is the illuminance of the illumination area 16 when the fluorescent lamp 17 is turned on at the first reference dimming rate, and is the sum of the illuminance by the illumination light of the lighting fixture 3 and the illuminance by the external light. Therefore, it is preferable to set the target illuminance when the illuminance due to external light is low, such as at night.
[0061]
Then, the target illuminance setting unit 21 does not set the illuminance of the illumination area 16 (not set) when the illuminance of the illumination area 16 due to the external light calculated by the external light level calculation unit 20 exceeds a preset reference value. ) Is configured as follows. As described above, the target illuminance is set to the illuminance of the illumination area 16 when the fluorescent lamp 17 is turned on at the first reference dimming rate. When the target illuminance is set when the illuminance due to the external light is large, the fluorescent lamp 17 sets the first reference dimming rate when the illuminance due to the external light is low due to the weak external light. It will be lit at a dimming rate that greatly exceeds. As a result, the energy saving effect is reduced. Therefore, when the illuminance by the external light exceeds the reference value, the illuminance of the illumination area 16 is not set.
[0062]
The target illuminance setting unit 21 is configured to forcibly set the illuminance value input from the illuminance sensor 4 to the illuminance input unit 19 to the target illuminance by an external signal that is a target illuminance setting signal. . This external signal is transmitted from the wireless transmitter 18 to the receiving element 11 of the sensor device 2 and transmitted to the control unit 31 via the wireless receiving unit 22. The external signal is input to the external signal input unit 24 from a transmission line (not shown) by operating a dimmer, switch, or the like (not shown), and is transmitted from the external signal input unit 24 to the control unit 31. When the external signal is input, the control unit 31 causes the target illuminance setting unit 21 to forcibly set the illuminance value input to the illuminance input unit 19 to the target illuminance.
[0063]
Further, the target illuminance setting unit 21 is configured to forcibly erase the target illuminance stored in the storage unit 26 and release the target illuminance by an external signal which is a cancellation signal of the target illuminance. This external signal is also input to the wireless reception unit 22 or the external signal input unit 24 and transmitted to the control unit 31. When the external signal is input, the control section 31 causes the target illuminance setting section 21 to forcibly release the target illuminance.
[0064]
The wireless receiving unit 22 receives an illumination control signal such as an on / off control signal and a dimming control signal transmitted from the wireless transmitter 18 and an external signal such as a target illuminance setting signal and a release signal and transmits the control signal to the control unit 31. It is configured as follows.
[0065]
The wireless transmission unit 23 is configured to transmit the reply signal transmitted from the control unit 31 from the transmission LED 12 to the wireless transmitter 18. The reply signal is, for example, a signal indicating that the target illuminance is not set. At this time, the wireless transmission unit 23 constitutes a response unit that returns to the wireless transmitter 18 that the target illuminance is not set.
[0066]
The external signal input unit 24 receives an external signal such as an on / off control signal or a dimming control signal from a wall switch or a dimmer, or a setting signal or a release signal of a target illuminance, and transmits the external signal to the control unit 31. It is configured. Then, for example, when an on / off control signal is input to the external signal input unit 24, the control unit 31 causes the lighting unit 3 to transmit the lighting control signal from the transmission unit 27 via the transmission line 32.
[0067]
The human body detector 25 is connected to the human sensor 10 of the sensor device 2 and configured to transmit a detection signal of a human body detected by the human sensor 10 to the controller 31. When the control unit 31 receives a human body detection signal from the human body detection unit 25, the control unit 31 transmits an illumination control signal for turning on the fluorescent lamp 17 from the transmission unit 27 to the lighting fixture 3 via the transmission line 32.
[0068]
The storage unit 26 stores various information such as the target illuminance set by the target illuminance setting unit 21, a preset first and second reference dimming rate, a preset reference value, and a dimming lower limit value of the lighting device 15. The data is stored.
[0069]
The transmission unit 27 includes a lighting control signal such as an on / off control signal and a dimming control signal input to the external signal input unit 24, a lighting control signal input from the wireless transmitter 18 to the wireless reception unit 23, and a control unit. The dimming signal calculated and generated by 31 is transmitted to the lighting fixture 3 via the signal line 32.
[0070]
The display unit 28 is connected to the display LED 13 of the sensor device 2, and is configured to turn on or off the display LED 13 under the control of the control unit 31. That is, the control unit 31 sends a control signal for turning on the display LED 13 to the display unit 28 when the target illuminance is set by the target illuminance setting unit 21 and the target illuminance is stored in the storage unit 26, and Is not set, and sends a control signal to the display unit 28 to turn off the display LED 13 when the target illuminance is not stored in the storage unit 26. The display unit 28 and the display LED 13 constitute display means (second display means) for displaying that the target illuminance is not set.
[0071]
The first reference dimming rate switching unit 29 responds to a switch operation of a DIP switch (not shown) provided in the illumination control device 5 or a first reference dimming in response to a setting signal from the wireless transmitter 18. It switches the light rate. Usually, the first reference dimming rate is set to 70% in consideration of the maintenance rate of the fluorescent lamp 17, but in a place such as a clean room where there is no decrease in luminous flux due to fixture contamination, the first reference dimming rate is renewed to a high-frequency lighting fixture. In the places where you do, select 50%. The switched first reference dimming rate is overwritten on the first reference dimming rate stored in the storage unit 26 via the control unit 31.
[0072]
The power supply unit 30 is connected to a commercial AC power supply Vs, converts an AC voltage to a DC voltage, adjusts the AC voltage to a predetermined voltage value, and supplies drive power to the control unit 31 and other components. Have been.
[0073]
The control unit 31 includes a CPU, a RAM, a ROM in which programs are stored, and the like. Then, when the target illuminance of the illumination area 16 is set by the target illuminance setting unit 21, the fluorescent lamp 17 is set in accordance with the output voltage (detection value) of the illuminance sensor 4 so that the illuminance of the illumination area 16 becomes the target illuminance. And the fluorescent lamp 17 is turned on at the second reference dimming rate of 70% when the target illuminance of the illumination area 16 is not set. That is, a dimming signal corresponding to the dimming rate of the fluorescent lamp 17, for example, a PWM dimming signal is computed and transmitted to the lighting device 15 of the lighting fixture 3 via the transmission unit 27.
[0074]
Then, when the commercial AC power supply Vs is applied to the power supply unit 30, the control unit 31 first accesses the storage unit 26 to determine whether the target illuminance is stored in the storage unit 26. ing. That is, it is determined whether or not the target illuminance has been set. When it is determined that the target illuminance is set, the dimming rate of the fluorescent lamp 17 is controlled according to the detection value of the illuminance sensor 4 so that the illuminance of the illumination area 16 becomes the target illuminance. When it is determined that the target illuminance has not been set, after the operation of the external light level calculation unit 20 and the target illuminance setting unit 21, the dimming rate of the fluorescent lamp 17 is controlled based on the presence or absence of the target setting. That is, when the target illuminance of the illumination area 16 is set by the target illuminance setting unit 21 after the operation of the external light level calculation unit 20 and the target illuminance setting unit 21, the fluorescent lamp is set so that the illuminance of the illumination area 16 becomes the target illuminance. The dimming rate of the illumination area 17 is controlled, and if the target illuminance of the illumination area 16 is not set, the fluorescent lamp 17 is controlled to be turned on at a second reference dimming rate, for example, 70%.
[0075]
Further, the control unit 31 is configured to control each component as described above, such as controlling the display unit 28 to cause the display LED 13 to display whether or not the target illuminance is set.
[0076]
In addition, the illumination control device 5 and the illuminance sensor 4 do not need to be integrated like the sensor device 2 shown in FIG. 2, and may be comprised separately.
[0077]
As shown in FIG. 1, the lighting fixture 3 includes a fluorescent lamp 17 as an illumination load, and a lighting device 15 for dimming and lighting the fluorescent lamp 17 therein. A plurality of lighting fixtures 3 are arranged on the ceiling surface 6, and a predetermined lighting area 16 is formed by the illumination by the plurality of lighting fixtures 3.
[0078]
The lighting device 15 is a high-frequency lighting device, and illuminates and lights the fluorescent lamp 17 in accordance with a dimming signal transmitted from the lighting control device 5, for example, a PWM dimming signal. That is, the light output of the fluorescent lamp 17 is controlled by the illumination control device 5. By controlling the light output, the illuminance of the illumination area 16 changes.
[0079]
Hereinafter, the operation of the illumination control device 5 will be described with reference to the flowchart shown in FIG.
[0080]
When the wall switch or the like is turned on (power ON), an AC voltage is supplied to the power supply unit 30 from the commercial AC power supply Vs, and the lighting control device 5 operates (step S1). Then, the control unit 31 reads the target illuminance from the storage unit 26. Here, when the target illuminance is stored in the storage unit 26, the target illuminance can be read from the storage unit 26. When the target illuminance is not stored in the storage unit 26, the target illuminance can be read from the storage unit 26. Can not. That is, the control unit 31 determines whether or not the target illuminance is set when the commercial AC power supply Vs is turned on (step S2).
[0081]
When the target illuminance is stored in the storage unit 26 and the target illuminance is set, the control unit 31 controls the dimming rate of the fluorescent lamp 17 so that the illuminance of the illumination area 16 becomes the target illuminance. As a result, the illuminance of the illumination area 16 is constantly controlled to the target illuminance even if external light changes (step S14). This constant control is continued unless the target illuminance is released (step S15).
[0082]
If the target illuminance is not stored in the storage unit 26 and the target illuminance is not set, the control unit 31 outputs a dimming signal for turning on the fluorescent lamp 17 at a first dimming rate, for example, 50%, for example, PWM control. An optical signal is arithmetically generated and transmitted from the transmission unit 27 to the lighting device 15 of the lighting fixture 3. Thus, the lighting device 15 turns on the fluorescent lamp 17 at the first dimming rate of 50%, and the lighting area 16 is illuminated by the lighting fixture 3 (step S3).
[0083]
Then, the illuminance sensor 4 detects the illuminance of the illumination area 16 based on the reflected light from the illumination area 16 and causes the illuminance input unit 19 to input the illuminance. The illuminance value is transmitted from the illuminance input unit 19 to the control unit 31. That is, the first illuminance of the illumination area 16 at the first dimming rate of 50% is read (step S4).
[0084]
The control unit 31 determines the magnitude of the output voltage (detected value) from the illuminance sensor 4 with respect to the dimming rate (first dimming rate of 50%). That is, it is determined whether there is a request for gain adjustment (step S5). When it is determined that the change in the output voltage from the illuminance sensor 4 is large or small with respect to the illuminance change in the illumination area 16, gain adjustment such as resetting of the amplification factor is performed, and the illuminance is changed with respect to the illuminance change in the illumination area 16. The output voltage from the sensor 4 is changed optimally (step S6). After the gain adjustment is performed, the process returns to step S4, where the first illuminance of the illumination area 16 at the first dimming rate of 50% is read again and transmitted to the control unit 31.
[0085]
After determining whether or not there is a request for gain adjustment (step S5) and performing gain adjustment (step S6), and inputting the first illuminance to the control unit 31, the control unit 31 returns to the second dimming ratio, for example. A dimming signal for lighting the fluorescent lamp 17 at 100% is arithmetically generated and transmitted from the transmission unit 27 to the lighting device 15 of the lighting fixture 3. Thereby, the lighting device 15 turns on the fluorescent lamp 17 at the second dimming rate of 100%, and the lighting area 16 is illuminated by the lighting fixture 3 (step S7).
[0086]
Then, the second illuminance of the illumination area 16 at the second dimming rate of 100% is read by the illuminance sensor 4 and the illuminance input unit 19, and transmitted to the control unit 31 (Step S8). Then, the control unit 31 sends the first and second illuminances together with the first and second dimming rates to the external light level calculation unit 20.
[0087]
The external light level calculator 20 calculates the first and second illuminance values for the first and second dimming rates, calculates the illuminance of the illumination area 16 due to the external light, and sends the illuminance to the target illuminance setting unit 21. (Step S9).
[0088]
The target illuminance setting unit 21 compares the illuminance of the illumination area 16 due to external light with a preset reference value (step S10). The reference value is stored in the storage unit 26 and is read via the control unit 31. In addition, the reference value is set to, for example, 15% of the illuminance of the illumination area 16 only by the luminaire 3 when the fluorescent lamp 17 is lit at the dimming rate of 100%.
[0089]
The target illuminance setting unit 21 turns on the fluorescent lamp 17 via the control unit 31 at a preset first reference dimming rate of 70% when the illuminance due to the external light of the illumination area 16 is equal to or less than the reference value. That is, the control unit 31 reads out the first reference dimming rate 70% stored in the storage unit 26, calculates and generates a dimming signal corresponding to the first reference dimming rate 70%, and From the lighting device 3 to the lighting device 15 of the lighting fixture 3. The lighting device 15 turns on the fluorescent lamp 17 at the first reference dimming rate of 70%, and the lighting area 16 is illuminated by the lighting fixture 3 (step S11).
[0090]
Then, the illuminance of the illumination area 16 at the first reference dimming rate of 70% is read by the illuminance sensor 4 and the illuminance input unit 19, and transmitted to the control unit 31 (step S12). The target illuminance setting unit 21 causes the storage unit 26 to store the illuminance of the illumination area 16 via the control unit 31, and thereby sets the target illuminance (step S13). The target illuminance is the sum of the illuminance of the lighting fixture 3 and the illuminance of external light in the illumination area 16 when the fluorescent lamp 17 is turned on at the first reference dimming rate of 70%.
[0091]
After the target illuminance is set, the control unit 31 controls the dimming rate of the fluorescent lamp 17 to perform constant control so that the illuminance of the illumination area 16 becomes the target illuminance (step S14). Unless the cancellation is performed, the constant control is continued (step S15).
[0092]
On the other hand, in step S10, the target illuminance setting unit 21 does not set the target illuminance when the illuminance due to the external light in the illumination area 16 exceeds the reference value. Then, the control unit 31 thereafter controls the fluorescent lamp 17 to be turned on at the second reference dimming rate of 70% (step S17). The control unit 31 sends a control signal to the display unit 28 to turn off the display LED 13 of the sensor device 2 to turn off the display LED 13 (Step S18). By turning off the display LED 13, it is visually recognized and confirmed that the target illuminance is not set.
[0093]
When the target illuminance is not set, the control by the control unit 31 at the second reference dimming rate of 70% is continued unless there is a request for forced setting of the target illuminance (step S19). At this time, the illuminance of the illumination area 16 is the sum of the illuminance by the luminaire 3 and the illuminance by the external light when the fluorescent lamp 17 is turned on at the second reference dimming rate of 70%, and according to the external light. Change.
[0094]
When a target illuminance setting signal (external signal) is transmitted from the wireless transmitter 18 and input from the receiving element 11 of the sensor device 2 to the control unit 31 via the wireless receiving unit 22, the control unit 31 It is determined that there is a request for forced setting of the illuminance (step S19), and the target illuminance setting unit 21 is enabled to set the target illuminance. Here, when an arbitrary dimming control signal is transmitted from the wireless transmitter 18, the control unit 31 calculates and generates a dimming signal having a dimming rate according to the dimming control signal, and transmits the dimming signal from the transmission unit 27. The data is transmitted to the lighting device 15 of the appliance 3. The lighting device 15 turns on the fluorescent lamp 17 at an arbitrarily set dimming rate, and the lighting area 16 is illuminated by the lighting fixture 3 (step S20). When a determination signal (external signal) for setting the target illuminance is transmitted from the wireless transmitter 18, the illuminance of the illumination area 16 at an arbitrarily set dimming rate is read by the illuminance sensor 4 and the illuminance input unit 19. The target illuminance is transmitted to the control unit 31 (step S12), and the target illuminance is set by the target illuminance setting unit 21 (step S13). Here, the arbitrarily set dimming rate can be the dimming rate of the fluorescent lamp 17 that can optimize the illuminance of the illumination area 16.
[0095]
As described above, when an arbitrary illuminance of the illumination area 16 is forcibly set to the target illuminance, the illuminance of the illumination area 16 is thereafter controlled to be constant at the target illuminance (step S14). Further, the forced setting of the target illuminance is similarly executed even when an external signal is input to the external signal input unit 24 from a dimmer, a switch, or the like.
[0096]
Then, when the target illuminance is set, when it is desired to reset the target illuminance, when it is desired to control the illumination area 16 at an arbitrary illuminance, or when the fluorescent lamp 17 is controlled by the second reference dimming regardless of external light. When it is desired to light the lamp at the rate of 70%, first, a request for canceling the target illuminance is made (step S15). That is, when a target illuminance release signal (external signal) is transmitted from the wireless transmitter 18, the release signal is input to the control unit 31 via the reception element 11 and the wireless reception unit 22 of the sensor device 2. The control unit 31 determines that there is a request to cancel the target illuminance (step S15), causes the target illuminance setting unit 21 to cancel the target illuminance, and deletes the target illuminance from the storage unit 26. Thereby, the target illuminance is released (step S16).
[0097]
When the target illuminance is released, the control unit 31 turns on the fluorescent lamp 17 at the second reference dimming rate of 70% (step S17), and thereafter, the control of step S17 to step S19 or step S17 to step S16. Is performed. At this time, the target illuminance can be reset. The release of the target illuminance is similarly executed even when an external signal is input to the external signal input unit 24 from a dimmer, a switch, or the like.
[0098]
The target illuminance is reset, for example, when a desk or an OA device is carried into the illumination area 16 and the reflectance of the illumination area 16 changes due to a change in the reflectance of the illumination area 16. This is performed when the illuminance due to external light becomes low, such as at night, when the environment, atmosphere, and the like change, and when the illuminance is mainly due to the illumination light from the lighting fixture 3 or when the illuminance is arbitrary.
[0099]
The forced setting of the target illuminance may be performed when the target illuminance is set, not after the cancellation of the target illuminance (step S16). That is, a request for forced setting of the target illuminance is determined between the constant control (step S14) and the request for canceling the target illuminance (step S15). The process may shift to S20). The target illuminance that is forcibly set is stored by overwriting the target illuminance in the storage unit 26.
[0100]
As described above, the lighting device 1 automatically sets the target illuminance when the commercial AC power supply Vs is turned on, so that power saving can be achieved. Then, the illumination area 16 is controlled to the illuminance when the fluorescent lamp 17 is turned on at a preset second reference dimming rate of 70% regardless of the fixed target illuminance or the size of the external light. Further, the target illuminance can be canceled, and the target illuminance can be forcibly set to an arbitrary illuminance.
[0101]
Further, since the first reference dimming rate switching unit 29 for selectively switching the first reference dimming rate is provided, the illumination area 16 is selectively switched by changing the first reference dimming rate. The target illuminance according to the environment is set.
[0102]
Next, a second embodiment of the present invention will be described.
[0103]
5 to 7 show a second embodiment of the present invention. FIG. 5 is a block diagram of the lighting control device, FIG. 6 is a flowchart of the operation of the lighting control device, and FIG. 7 is a flow diagram continued from FIG. It is. The same parts as those in FIGS. 1 to 4 are denoted by the same reference numerals, and description thereof is omitted.
[0104]
The lighting control device 33 shown in FIG. 5 includes a target illuminance canceling unit 34 as a target illuminance canceling unit in the lighting control device 5 of FIG. 3, and the display unit 28 and the display LED 13 of the sensor device 2. Constitutes a first display means in addition to the second display means.
[0105]
The target illuminance canceling unit 34 cancels the target illuminance automatically set by the target illuminance setting unit 21 without using an external signal. That is, the target illuminance is set when the fluorescent lamp 17 is turned on at the first reference dimming rate of 70% when the illuminance due to the external light of the illumination area 16 is equal to or less than the reference value. This is the illuminance value obtained by adding the illuminance by the external light that is equal to or less than the reference value to the illuminance by the lighting fixture 3 when turned on at the reference dimming rate of 70%. Then, the target illuminance canceling unit 34 stores the fluorescent lamp 17 in the storage unit 26 when the fluorescent lamp 17 is not turned on at the first reference dimming rate of 70% for a predetermined period (first predetermined period) set in advance. The target illuminance is erased to cancel the target illuminance.
[0106]
The inside of the illumination area 16 is controlled by the control unit 31 so as to be a target illuminance. That is, the control unit 31 changes the dimming rate of the fluorescent lamp 17 as the size of the external light (illuminance due to the external light) changes. The target illuminance is an illuminance value obtained by adding the illuminance of the lighting fixture 3 when the fluorescent lamp 17 is turned on at the first reference dimming rate of 70% to the illuminance of external light equal to or less than the reference value. Is constantly changing, so long as the reflected light (reflectance) in the illumination area 16 does not change, the fluorescent lamp 17 is switched to the first reference dimming rate of 70% at least within the first predetermined period, for example, 100 hours. It is reproduced that the light is turned on.
[0107]
The fact that the fluorescent lamp 17 is not lit at the first reference dimming rate of 70% is not reproduced when the reflected light (reflectance) in the illumination area 16 is changing. After setting the target illuminance, a device such as a desk or an OA device is carried into the illumination area 16. Here, when the reflected light in the illumination area 16 changes, the reflected light incident on the illuminance sensor 4 changes, and the detection value of the illuminance sensor 4 changes. Then, the control unit 31 changes the dimming rate of the fluorescent lamp 17 according to the detection value of the illuminance sensor 4, so that the illuminance of the illumination area 16 is not the actual target illuminance. Therefore, in order to illuminate the inside of the illumination area 16 with the actual target illuminance, it is necessary to set the target illuminance again. Therefore, the target illuminance is canceled by the target illuminance canceling unit 34, and the power supply Vs is turned on again. The target illuminance is set again by the target illuminance setting unit 21 when the illuminator is turned off.
[0108]
Hereinafter, the operation of the lighting control device 33 will be described with reference to the flowcharts shown in FIGS. 6 and 7.
[0109]
The operation of the illumination control device 33 shown in FIG. 6 is different from the operation of the illumination control device 5 shown in FIG. 4 in that the first and second periods T1 and T1 are set between the target illuminance setting (step S13) and the constant control (step S14). The reset (step S21) of T2 is inserted, and the operation (steps S22 to S31) shown in FIG. 7 is inserted between the request for the constant control (step S14) and the release of the target illuminance (step S15). The reset of the first and second periods T1 and T2 (step S21) resets (sets to zero) the accumulated time of the previous first period T1 and the accumulated time of the second period T2. Here, the first period T1 is a detection period in which the lighting of the fluorescent lamp 17 at the first reference dimming rate of 70% is reproduced, and is counted up to a first predetermined period, for example, 100 hours. The first period T1 is reset when the reproduction is detected, and is restarted. The second period T2 is a period (a second predetermined period) in which the re-counting of the first period T1 is repeated, for example, 1000 hours.
[0110]
In FIG. 7, first, when the illuminance due to external light in the illumination area 16 is equal to or less than a preset reference value with respect to the target illuminance set by the target illuminance setting unit 21, the fluorescent lamp 17 is set to the first reference dimming. It is determined whether or not the target illuminance of the illumination area 16 set to be turned on at the rate of 70% (hereinafter, referred to as a target illuminance by the first reference dimming rate of 70%) (step S22). If the target illuminance is not the target illuminance based on the first reference dimming rate 70% but the target illuminance that has been forcibly set, the process proceeds to determination of a request to release the target illuminance (step S15).
[0111]
If the target illuminance is the target illuminance based on the first reference dimming rate of 70%, the first period T1 is timed (step S23), and the operation display of the first period T1 is performed (step S24). . That is, the control unit 31 sends a control signal for blinking the display LED 13 of the sensor device 2 to the display unit 28. Here, the display unit 28 turns on the display LED 13 because the target illuminance is set. However, when the blinking control signal is received from the control unit 31, the display unit 28 performs the predetermined operation at predetermined intervals (for example, every 10 seconds). The display LED 13 blinks for a time (for example, 3 seconds). By visually checking the blinking of the display LED 13, the first period T1 is measured and it is confirmed that the display LED 13 is operating. Further, a second period T2 is measured (step S25). The first period T1 and the second period T2 are cumulatively counted unless reset.
[0112]
Then, it is determined whether or not the second period T2 exceeds a second predetermined period (for example, 1000 hours). If the second period T2 has exceeded the second predetermined period, the process proceeds to the determination of the request for canceling the target illuminance (step S15), and if the second period T2 has not exceeded the second predetermined period, The process proceeds to determination of a request for forced setting of the target illuminance (step S27).
[0113]
In step S27, if there is a request for forced setting of the target illuminance, the process proceeds to step S20, where the dimming rate of the fluorescent lamp 17 is arbitrarily set by the wireless transmitter 18 or the like, and then the target illuminance is set (step S27). S13). If there is no request for forced setting of the target illuminance, the process proceeds to the determination of the request for canceling the target illuminance (step S28).
[0114]
If there is a request to cancel the target illuminance in step S28, the control unit 31 deletes the target illuminance from the storage unit 26 and cancels the target illuminance (step S16). On the other hand, if there is no request to release the target illuminance, it is determined whether or not the fluorescent lamp 17 has been reproduced with lighting at the first reference dimming rate of 70% (step S29).
[0115]
When the lighting of the fluorescent lamp 17 at the first reference dimming rate of 70% is reproduced, the accumulated time of the first period T1 is reset (step S30), and the process returns to step S23 to measure the time of the first period T1 again. Is performed.
[0116]
Reproducing that the fluorescent lamp 17 is lit at the first reference dimming rate of 70% is performed by reflecting light (reflectance) in the illumination area 16 because equipment such as a desk and OA equipment is not carried into the illumination area 16. Means that most have not changed. Then, when the reproduction is performed, the change of the reflected light in the illumination area 16 can be continuously monitored by resetting the first period T1 (step S30). This monitoring is performed for a second predetermined period (for example, 1000 hours) (step S26).
[0117]
If the reproduction is not performed in step S29, it is determined whether the first period T1 exceeds a first predetermined period, for example, 100 hours (step S31). If the first period T1 has not exceeded the first predetermined period, the process returns to step S23, and the first period T1 is continuously counted. That is, detection of reproduction of the fluorescent lamp 17 being lit at the first reference dimming rate of 70% is performed over a first predetermined period (for example, 100 hours).
[0118]
If the first period T1 exceeds the first predetermined period, the target illuminance canceling unit 34 causes the control unit 31 to cancel the target illuminance (Step S16). That is, if the lighting of the fluorescent lamp 17 at the first reference dimming rate of 70% is not reproduced for the first predetermined period (for example, 100 hours), the target illuminance canceling unit 34 cancels the target illuminance. Things.
[0119]
When it is not reproduced that the fluorescent lamp 17 is turned on at the first reference dimming rate of 70%, it is almost the case that the reflected light (reflectance) in the illumination area 16 is changing, and the first predetermined period Within (for example, 100 hours), it is indicated that equipment such as a desk and OA equipment is being carried into the illumination area 16, for example. The set target illuminance is the sum of the illuminance by the external light equal to or less than the reference value and the illuminance by the lighting fixture 3 when the fluorescent lamp 17 is turned on at the first reference dimming rate of 70%. If the lamp 17 is not turned on at the first reference dimming rate of 70%, the illumination area 16 is not illuminated with the actual target illuminance. The target illuminance is canceled by the target illuminance canceling unit 34 in order to prevent the illumination from being stopped at the actual target illuminance.
[0120]
After the target illuminance is released, the fluorescent lamp 17 is turned on at the second reference dimming rate of 70%. Then, when the power supply Vs is turned on again, the target illuminance is automatically reset by the operations of the external light level calculation unit 20 and the target illuminance setting unit 21.
[0121]
As described above, after the target illuminance is set by the operation of the external light level calculation unit 20 and the target illuminance setting unit 21, equipment such as a desk and OA equipment is carried into the illumination area 16 and When the reflected light (reflectance) changes, the target illuminance is canceled by the target illuminance canceling unit 34 after a first predetermined period (for example, 100 hours) has elapsed. Then, when the power supply Vs is turned on again, the target illuminance of the illumination area 16 is automatically reset by the external light level calculation unit 20 and the target illuminance setting unit 21, thereby saving power.
[0122]
After the lapse of the second predetermined period (1000 hours), the target illuminance canceling unit 34 cannot automatically cancel the target illuminance. When a device such as a desk or an OA device is carried into the illumination area 16 after the second predetermined period has elapsed and the reflected light (reflectance) in the illumination area 16 changes, for example, the target illuminance from the wireless transmitter 18 is transmitted. May be transmitted to release the target illuminance. Thereafter, the target illuminance can be automatically reset by turning on the power supply Vs again.
[0123]
Next, a third embodiment of the present invention will be described.
[0124]
FIG. 8 is a perspective view of a lighting fixture showing a third embodiment of the present invention. The same parts as those in FIGS. 1 and 2 are denoted by the same reference numerals, and description thereof will be omitted.
[0125]
A lighting device 35 shown in FIG. 8 is a recessed lighting device. In the lighting device 1 of FIG. 1, one of the plurality of lighting devices 3 for illuminating the lighting area 16 has a substantially box-shaped sensor device on one end side. 36 are provided. The sensor device 36 has the same configuration as the sensor device 2 shown in FIG. 2, and includes an illuminance sensor 4, a lighting control device 5 (not shown), and the like inside.
[0126]
By embedding the lighting equipment 35 in the ceiling surface 6, labor for installing the illuminance sensor 4 and the lighting control device 5 (the sensor device 36) can be omitted, thereby saving power.
[0127]
According to the first aspect of the present invention, the target illuminance is automatically set when the illuminance due to the external light in the illumination area is equal to or less than a predetermined reference value. Labor can be saved without any need.
[0128]
According to the second aspect of the present invention, when the reflected light in the illumination area changes, the target illuminance is automatically canceled by the target illuminance canceling means, and the external light level calculating means and the target illuminance setting are set when the power is turned on again. The target illuminance of the illumination area can be automatically reset by the operation of the means.
[0129]
According to the third aspect of the present invention, when it is reproduced that the lighting load is lit at the first reference dimming rate, the clocking of the predetermined period is reset, so that the reflected light in the lighting area is continuously maintained. Changes can be monitored.
[0130]
According to the fourth aspect of the present invention, by observing the first display means, it is possible to confirm that the change in the reflected light in the illumination area is being monitored.
[0131]
According to the invention of claim 5, it is determined whether or not the target illuminance of the illumination area is set when the power is turned on, and when the target illuminance is not set, the setting of the target illuminance by the external light level calculating means and the target illuminance setting means is performed. Alternatively, since the setting is not performed, the target illuminance can be automatically set.
[0132]
According to the invention of claim 6, the external light level calculation means causes the control means to light the illumination load at two or more different dimming rates, and the illuminance of the illumination area input to the illuminance input means at this time. Is calculated to calculate the illuminance due to the external light in the illumination area. Therefore, when calculating the illuminance due to the external light in the illumination area, it is possible to prevent a sense of discomfort and discomfort caused by turning off the illumination load.
[0133]
According to the invention of claim 7, by selectively switching the first reference dimming rate, the target illuminance according to the environment of the illumination area can be optimally set.
[0134]
According to the invention of claim 8, the target illuminance setting means is configured to be able to set the illuminance value input to the illuminance input means by an external signal to the target illuminance, so that the dimming rate of the illumination load is changed. By optimizing the illuminance of the illumination area, an optimal target illuminance can be set. Also, the target illuminance setting means is configured to be able to cancel the target illuminance by an external signal. Therefore, by canceling the target illuminance set by the external signal, the power is turned on again, automatically, or the external signal is reset. Thus, a new target illuminance can be set.
[0135]
According to the ninth aspect of the present invention, the target illuminance is set by the second display means for displaying that the target illuminance is not set or the return means for returning to the wireless transmitter that the target illuminance is not set. In this state, the user can recognize that the lighting load is turned on at the preset second reference dimming rate.
[0136]
According to the invention of claim 10, the target illuminance of the illumination area can be set automatically when the power is turned on or forcibly by an external signal. Can be provided.
[0137]
According to the eleventh aspect of the present invention, since the illumination device is provided with the illuminance sensor and the illumination control device, it is not necessary to install the illuminance sensor and the illumination control device on a building such as a ceiling, thereby saving labor. Can be achieved.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a lighting device according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the sensor device.
FIG. 3 is a block diagram of the lighting control device.
FIG. 4 is a flowchart of the operation of the lighting control device.
FIG. 5 is a block diagram of a lighting control device according to a second embodiment of the present invention.
FIG. 6 is a flowchart of the operation of the lighting control device.
FIG. 7 is a flowchart continued from FIG. 6;
FIG. 8 is a perspective view of a lighting fixture showing a third embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Lighting device, 3,35 ... Lighting equipment, 4 ... Illuminance sensor, 5, 33 ... Lighting control device, 12 ... Transmission LED as reply means, 13 ... Display LED as first and second display means , 19: an illuminance input unit as illuminance input means, 20: an external light level calculation unit as external light level calculation means, 21: a target illuminance setting unit as target illuminance setting means, 23: a wireless transmission unit as reply means, 28, a display section as first and second display means, 29, a first reference dimming rate switching section as switching means, 31 a control section as control means, 34, a target as target illuminance release means Illuminance release section

Claims (11)

Illuminance input means for inputting the illuminance from an illuminance sensor for detecting the illuminance of an illumination area illuminated by a luminaire provided with an illumination load;
External light level calculating means for calculating the illuminance of the illumination area due to external light;
When the illuminance due to the external light in the illumination area calculated by the external light level calculation means is equal to or less than a preset reference value, the illumination load is turned on at a preset first reference dimming rate, and the illumination at this time is performed. Target illuminance setting means for setting the illuminance of the area to the target illuminance of the illumination area, and for non-setting the target illuminance of the illumination area when the illuminance due to the external light of the illumination area exceeds a predetermined reference value;
When the target illuminance of the lighting area is set by the target illuminance setting means, the dimming rate of the lighting load is controlled in accordance with the detection value of the illuminance sensor so that the illuminance of the lighting area becomes the target illuminance. Control means for controlling the lighting load to be turned on at a preset second reference dimming rate when the target illuminance is not set;
A lighting control device comprising: Illuminance input means for inputting the illuminance from an illuminance sensor for detecting the illuminance of an illumination area illuminated by a luminaire provided with an illumination load;
External light level calculating means for calculating the illuminance of the illumination area due to external light;
When the illuminance due to the external light in the illumination area calculated by the external light level calculation means is equal to or less than a preset reference value, the illumination load is turned on at a preset first reference dimming rate, and the illumination at this time is performed. Target illuminance setting means for setting the illuminance of the area to the target illuminance of the illumination area, and for non-setting the target illuminance of the illumination area when the illuminance due to the external light of the illumination area exceeds a predetermined reference value;
When the target illuminance of the lighting area is set by the target illuminance setting means, the dimming rate of the lighting load is controlled in accordance with the detection value of the illuminance sensor so that the illuminance of the lighting area becomes the target illuminance. Control means for controlling the lighting load to be turned on at a preset second reference dimming rate when the target illuminance is not set;
When the illumination load is turned on at the first reference dimming rate when the illuminance due to the external light of the illumination area is equal to or less than the reference value, and the target illuminance of the illumination area is set, the illumination load is set for a predetermined period. Target illuminance canceling means for canceling the target illuminance when it is not reproduced that the LED is turned on at the first reference dimming rate;
A lighting control device comprising: 3. The lighting control device according to claim 2, wherein the timing of the predetermined period is reset when it is reproduced that the lighting load is lit at the first reference dimming rate. 4. The lighting control device according to claim 2, further comprising first display means for displaying that a predetermined time period is being measured. The control means determines whether or not the target illuminance of the illumination area is set when the power is turned on, and when it is determined that the target illuminance is set, the detection value of the illuminance sensor is set so that the illuminance of the illumination area becomes the target illuminance. The dimming rate of the lighting load is controlled accordingly, and when it is determined that the target illuminance is not set, the dimming rate of the lighting load is set after setting or not setting the target illuminance by the external light level calculation means and the target illuminance setting means. The lighting control device according to claim 1, wherein the lighting control device performs control. The external light level calculation means causes the control means to light the illumination load at two or more different dimming rates, calculates the illuminance of the illumination area input to the illuminance input means at this time, and calculates the external light of the illumination area. The illumination control device according to any one of claims 1 to 5, wherein the illuminance is calculated by: The lighting control device according to any one of claims 1 to 6, further comprising switching means for selectively switching the first reference dimming rate. The target illuminance setting means is configured to be able to cancel the target illuminance by an external signal or to set an illuminance value input to the illuminance input means to the target illuminance. The lighting control device according to any one of the preceding claims. 9. The apparatus according to claim 1, further comprising a second display unit for displaying that the target illuminance is not set or a return unit for returning to the wireless transmitter that the target illuminance is not set. 9. The lighting control device according to claim 1. A lighting control device according to any one of claims 1 to 9;
A lighting fixture provided with a lighting load whose dimming rate is controlled by the lighting control device and illuminating a predetermined lighting area;
An illuminance sensor for detecting the illuminance of an illumination area illuminated by the luminaire and inputting the illuminance to illuminance input means of the illumination control device;
A lighting device, comprising: The lighting device according to claim 10, wherein the lighting device includes an illuminance sensor and a lighting control device.

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