JP2004235070A - Illumination control device and illumination device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an illumination control device and an illumination device for selecting a lighting state of an illumination load at a light control lower limit value in response to an amplitude of the light control lower limit value and suppressing a rapid illuminance variation at the light control lower limit value, or saving power, and suppressing the flickering of the illumination load. <P>SOLUTION: The control device comprises a lower limit lighting selecting means 23 for comparing a light control lower limit value with a prescribed reference lower limit value of a lighting device 5 to energize an illumination load 8, sustaining the lighting of the illumination load 8 at the light control lower limit value when it exceeds the reference lower limit value and enabling the illumination load 8 to be turned off at the light control lower limit value when it does not exceed the references lower limit value, and a control means 26 for calculate-generating a light control signal so that an illumination value input to an illumination input means 18 becomes a prescribed target illuminance to transmit the control signal until the illuminance value reaches the light control lower limit value, and controlling the lighting state of the illumination load 8 in response to the determination of the selecting means 26 at the light control lower limit value. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention generally 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 an illuminated surface such as a desk surface or a floor surface is controlled to a constant target illuminance by using an illuminance sensor. The illuminance of the illuminated surface is formed not only by the illuminating light of the illuminating device for illuminating the illuminated surface, but also by the illuminating light of an illuminating device other than the illuminating device and external light including natural light such as sunlight. . Then, as the external light increases, the lighting fixture for the purpose of illuminating the irradiated surface is dimmed.
[0003]
However, the lighting device provided in the lighting fixture for energizing the lighting load has a dimming lower limit value (lower limit dimming rate) for maintaining the lighting state of the lighting load. When the light is adjusted to the light lower limit value, the lighting load is maintained at the light control lower limit value even when the external light is further increased. Here, in order to exert an energy saving effect, there is an automatic light control device that turns off the light load at the light control lower limit when the light load is dimmed to the light control lower limit (for example, see Patent Document 1). .). This automatic light control device is provided with a timer circuit, and turns off a lighting load after maintaining a lighting state at a light control lower limit value for a certain period of time. As a result, it is possible to prevent the lighting load from repeating blinking due to fluctuations in external light near the dimming lower limit value, and to realize power saving.
[0004]
There is also a lighting control device that turns off a lighting load in accordance with the magnitude of external light at the dimming lower limit value (for example, see Patent Document 2). This lighting control device turns off the lighting load when the illuminance value due to the external light is equal to or more than the target illuminance at the dimming lower limit value, and turns on the lighting load when the illuminance value due to the external light is lower than the target illuminance. It is to let.
[0005]
[Patent Document 1] JP-A-58-53186 (pages 2-3, FIG. 3)
[0006]
[Patent Document 2] Japanese Patent Application Laid-Open No. 2002-260880 (Pages 4 to 5, FIG. 3)
[0007]
In the automatic dimming device disclosed in Patent Document 1, the illumination load is turned off after a certain period of time at the lower limit of dimming. The surface is no longer illuminated at the target illuminance, and in particular, the lower the dimming limit value, the darker the illuminated surface.
[0008]
Further, the illumination control device of Patent Document 2 can illuminate the illuminated surface with an illuminance value equal to or higher than the target illuminance. However, if the dimming lower limit when the illumination load is turned off is large, the illuminated surface is sharply increased. Has a drawback of giving a feeling of strangeness or discomfort because the illuminance changes. In addition, when the illuminance value due to external light fluctuates near the target illuminance, the illumination load repeats blinking.
[0009]
According to the present invention, the lighting state of the illumination load at the lower limit of dimming is selected in accordance with the magnitude of the lower limit of dimming, and suppression of a sudden change in illuminance at the lower limit of dimming or power saving and flashing of the illumination load are performed. It is an object to provide a lighting control device and a lighting device that achieve suppression.
[0010]
According to a first aspect of the present invention, there is provided an illumination control apparatus for inputting an illuminance value from an illuminance sensor for detecting an illuminance of an illumination area illuminated by a lighting fixture provided with an illumination load. Comparing the lower limit of dimming of the lighting device for energizing the illumination load with a preset reference lower limit, and when the lower limit of dimming exceeds the lower limit of reference, illuminating with the lower limit of dimming. A low-lighting selection means for maintaining lighting of the load and enabling the lighting load to be turned off at the dimming lower limit value when the dimming lower limit value is equal to or less than the reference lower-limit value; A dimming signal is calculated and generated so that the input illuminance value becomes a preset target illuminance, and is sent to the lighting device. In the dimming lower limit value, the lighting state of the lighting load is determined according to the determination of the lower limit lighting selection means. Control means for controlling the lighting device; setting the lower limit of dimming of the lighting device Characterized in that it comprises a; and the lower limit value setting means that.
[0011]
In the present invention and the following inventions, each configuration is as follows unless otherwise specified.
[0012]
The illuminance sensor may detect the illuminance of the lighting area mainly by reflected light from the lighting area, or may detect the illuminance mainly by direct light from the lighting fixture.
[0013]
The illuminance of the lighting area is the sum of the illuminance of the lighting fixture and the illuminance of the external light. The illuminance by the external light is the illuminance of the illumination area when the illumination load is turned off. The illuminance due to external light may be calculated by, for example, turning off the illumination load and calculating the illuminance input to the illuminance input unit, lighting the illumination load at at least two dimming rates, and inputting the illuminance to the illuminance input unit. The change in illuminance may be calculated.
[0014]
The reference lower limit may be appropriately set according to the atmosphere of the illumination area and the like. For example, about 30% is practical.
[0015]
“Enabling the lighting load at the dimming lower limit value” means that the lighting load may be turned off or turned on at the dimming lower limit value.
[0016]
The expression “up to the lower limit of dimming” means a range from the dimming rate of 100% (all light states of the lighting load) to the lower limit of dimming.
[0017]
The “lighting state of the lighting load at the dimming lower limit value” refers to turning on or off the lighting load.
[0018]
According to the present invention, the lighting state of the lighting load at the dimming lower limit value is selected based on whether or not the dimming lower limit value of the lighting device exceeds a preset reference lower limit value. In other words, if the lower limit of the dimming is higher than the reference dimming rate, the lighting load is adjusted to the lower limit of the dimming regardless of the size of the illumination light (external light) other than the lighting equipment. Is turned on at the dimming lower limit, and no rapid change in illuminance at the dimming lower limit occurs. When the dimming lower limit value is equal to or less than the reference lower limit value, the lighting load can be turned off, thereby saving power.
[0019]
According to a second aspect of the present invention, in the illumination control apparatus according to the first aspect, the control unit includes a first illuminance set in advance when an illuminance value input to the illuminance input unit exceeds a target illuminance. The illumination load is turned off when the value exceeds the value, and the illumination load is reduced when the value falls below the first illuminance value and the target illuminance and becomes equal to or less than a preset third illuminance value in a preset second illuminance value range. It is characterized in that control is performed so that the load is turned on again.
[0020]
It is preferable that the third illuminance value is not a value near the first illuminance value. In other words, the value is set to a value separated from the first illuminance value such that the flickering of the illumination load is suppressed even when the external light fluctuates.
[0021]
According to the present invention, the lighting load is turned off when the illuminance of the lighting area exceeds the first illuminance value, and the lighting load is turned on again when the illuminance becomes equal to or less than the third illuminance value, thereby saving power. At the same time, flickering of the illumination load due to fluctuations in external light at the dimming lower limit value is suppressed.
[0022]
According to a third aspect of the present invention, there is provided the illumination control device according to the second aspect, wherein the first illuminance value is illuminated only by the luminaire when the illumination load is turned on to the target illuminance at the dimming lower limit value. The second illuminance value is a value obtained by subtracting the illuminance of the illumination area by only the lighting fixture when the lighting load is turned on at the dimming lower limit value from the target illuminance. I do.
[0023]
The reason why the first and second illuminance values are values obtained by adding or subtracting the illuminance of the illuminated area by only the luminaire when the illumination load is turned on at the dimming lower limit value to or from the target illuminance, respectively, is as follows. That is, the dimming lower limit value equal to or lower than the reference lower limit value is a relatively low value, and the illuminance ratio of the illuminated area by only the luminaire to the target illuminance is not generally large. As a result, even if the illuminance of the illuminated area by only the luminaire changes, the change of the total illuminance of the illuminated area is not large, and it is difficult for a person to feel discomfort or discomfort.
[0024]
According to the present invention, the first and second illuminance values are values obtained by adding or subtracting the illuminance of the illumination area only by the lighting fixture when the illumination load is turned on at the dimming lower limit value to or from the target illuminance, respectively. Even if the lighting load is turned off or turned on again at the dimming lower limit value, the illuminance of the lighting area does not change significantly, and it is possible to prevent a person from feeling uncomfortable or uncomfortable.
[0025]
According to a fourth aspect of the present invention, in the illumination control device according to the second or third aspect, the third illuminance value is set in a range between the target illuminance and the second illuminance value. And
[0026]
The lighting load is turned off when the illuminance of the lighting area exceeds the first illuminance value, and is turned on again when the illuminance falls below the third illuminance value. Therefore, by setting the third illuminance value in the range from the target illuminance to the second illuminance value, after the lighting load is re-lighted, the variation of the external light turns on the lighting load at least with the dimming lower limit value. If it does not exceed the illuminance value of the illuminated area by only the luminaire at that time, it will not be turned off again.
[0027]
According to the present invention, since the third illuminance value is set in the range of the target illuminance and the second illuminance value apart from the first illuminance value, the illumination caused by the fluctuation of the external light at the dimming lower limit value. The blinking of the load is suppressed.
[0028]
According to a fifth aspect of the present invention, there is provided an illumination control apparatus according to any one of the first to fourth aspects, wherein: a dimming signal transmitted from the illumination control apparatus is input, and a lighting load is adjusted according to the dimming signal. A lighting device to be energized; a lighting fixture provided with a lighting load to be energized by the lighting device, for illuminating a predetermined illumination area; and detecting an illuminance of an illumination area illuminated by the illuminating device and calculating the illuminance value. And an illuminance sensor for inputting to an illuminance input means of the illumination control device.
[0029]
According to the present invention, there is provided a lighting device in which the lighting state of the lighting load at the dimming lower limit value is controlled depending on whether or not the dimming lower limit value of the lighting device is higher than a preset reference lower limit value. . That is, when the dimming lower limit exceeds the reference lower limit, the lighting load is turned on at the dimming lower limit regardless of the size of the external light, and the illuminance at the dimming lower limit is sharply increased. If no change occurs and the dimming lower limit value is equal to or less than the reference lower limit value, the lighting load can be turned off, power saving can be achieved, and the lighting load due to fluctuation of external light at the dimming lower limit value can be reduced. Blinking is suppressed.
[0030]
Embodiments of the present invention will be described below with reference to the drawings.
[0031]
1 to 5 show an 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. FIG. 5 is a characteristic diagram illustrating a first dimming control by the device, and FIG. 5 is a characteristic diagram illustrating a second dimming control by the illumination control device.
[0032]
In FIG. 1, a lighting device 1 includes an illuminance sensor 2, a lighting control device 3, a lighting fixture 4, and a lighting device 5. The illuminance sensor 2 and the lighting control device 3 are provided integrally with the sensor device 6, and the lighting device 5 is provided on the lighting fixture 4. The lighting fixture 4 and the sensor device 6 are disposed on the ceiling surface 7.
[0033]
The lighting fixture 4 has a fluorescent lamp 8 as an illumination load and a lighting device 5 for energizing the fluorescent lamp 8 therein. A plurality of lighting fixtures 4 are arranged on the ceiling surface 7, and a predetermined lighting area 9 is formed by lighting by the plurality of lighting fixtures 4.
[0034]
The lighting device 5 is a high-frequency lighting device, and illuminates and lights the fluorescent lamp 8 according to a dimming signal, for example, a PWM dimming signal transmitted from the illumination control device 3. That is, the light output of the fluorescent lamp 8 is controlled by the illumination control device 3. By controlling the light output, the illuminance of the illumination area 9 changes.
[0035]
As shown in FIG. 2, the sensor device 6 includes a sensor device main body 10, a cover 11, and mounting springs 12, 12, and the like. The cover 11 is provided with the illuminance sensor 2, the human sensor 13, the receiving element 14, and the switch 15 so as to be exposed on the outer surface 11a. The sensor device main body 10 houses the illumination control device 3 (not shown) therein, and has a terminal group 16 disposed on the side surface 10a. The terminal group 16 is formed by output terminals and the like that connect the lighting control device 3 and the lighting device 5 of the lighting fixture 4.
[0036]
The illuminance sensor 2 is configured to indirectly detect the illuminance in the illumination area 9 by the reflected light from the illumination area 9 illuminated by the illumination device 4 and to transmit the illuminance to the illumination control device 3. The human sensor 13 detects a human body approaching the illumination area 9 and turns on the fluorescent lamp 8 via the illumination control device 3.
[0037]
The receiving element 14 is configured to receive a control signal transmitted from a wireless transmitter (remote controller) 17 and transmit the control signal to the illumination control device 3. Here, the wireless transmitter 17 is configured to be able to transmit a control signal such as a blinking signal for turning on / off the fluorescent lamp 8 and a dimming signal for dimming, and a setting signal such as a dimming lower limit value and a target illuminance of the lighting device 5. Have been.
[0038]
The changeover switch 15 switches the detection holding time when the human sensor 13 detects a human body, and sets the detection holding time to 3 minutes or 6 minutes, for example.
[0039]
As illustrated in FIG. 3, the illumination control device 3 includes an illuminance input unit 18 as an illuminance input unit, a human body detection unit 19, a wireless reception unit 20, a storage unit 21, a dimming signal output unit 22, and a lower limit lighting selection unit. It comprises a lower limit lighting selector 23, a lower limit setting unit 24 as lower limit setting means, a power supply unit 25, and a control unit 26 as control means.
[0040]
The illuminance input unit 18 is electrically connected to the illuminance sensor 2 of the sensor device 6, and is configured to input an output voltage (detected value) of the illuminance sensor 2 and transmit the output voltage to the control unit 26. Here, the output voltage of the illuminance sensor 2 is correlated with the illuminance of the illumination area 9 illuminated by the luminaire 4. That is, the illuminance input unit 18 inputs an illuminance value of the illumination area 9.
[0041]
The illuminance of the illumination area 9 is obtained by adding the illuminance of the illumination light illuminated by the luminaire 4 to the illuminance of external light such as sunlight or sunlight from other illuminators not originally illuminating the illumination area 9. ing.
[0042]
The human body detector 19 is connected to the human sensor 13 of the sensor device 6 and configured to transmit a human body detection signal detected by the human sensor 13 to the controller 26. The detection signal is output over the detection holding time. When the control unit 26 receives the detection signal of the human body from the human body detection unit 19, the control unit 26 transmits a lighting control signal for turning on the fluorescent lamp 8 from the dimming signal output unit 22 via the signal line 27 through the signal line 27, for example, over the detection holding time. To send to.
[0043]
The wireless receiving unit 20 receives an illumination control signal such as an on / off control signal and a dimming control signal transmitted from the wireless transmitter 17 and a setting signal such as a dimming lower limit value and a target illuminance of the lighting device 5 and receives a control signal from the control unit 26. To be sent to the server.
[0044]
The storage unit 21 stores various data such as a preset target illuminance, a preset reference lower limit, a dimming lower limit of the lighting device 5, and first to third illuminance values. Here, the target illuminance is the illuminance value of the illumination area 9 with only 70% of the luminaire 4 with respect to the initial full lighting (100%) of the fluorescent lamp 8 when the illumination area 9 has almost no external light. Is set. In addition, the reference lower limit is set to, for example, 30% of the full lighting of the fluorescent lamp 8 (dimming rate 100%).
[0045]
The dimming lower limit value of the lighting device 5 is the minimum value of the dimming rate of the fluorescent lamp 8 in which the dimming lighting of the fluorescent lamp 8 is maintained. The dimming lower limit value differs depending on the type of the lighting device 5, and is set to, for example, 50% or 25%.
[0046]
The first to third illuminance values are set when the dimming lower limit value of the lighting device 5 is equal to or lower than a reference lower limit value (for example, 30%). Therefore, it is not necessary to set when the dimming lower limit is 50%, and it is set when the dimming lower limit is 25%.
[0047]
The first illuminance value is the illuminance of the illuminated area 9 by only the luminaire 4 when the initial fluorescent lamp 8 is turned on at the dimming lower limit value in a state where there is almost no external light in the illuminated area 9 (hereinafter, the illuminance is referred to as “illumination”). This is a value obtained by adding the lower limit illuminance of the appliance 4) and the target illuminance. The second illuminance value is a value obtained by subtracting the lower limit illuminance of the lighting fixture 4 from the target illuminance. The lower limit illuminance of the luminaire 4 is, for example, when the illuminating device 1 is installed, the fluorescent lamp 8 is lit at the dimming lower limit value with little external light in the illuminated area 9, and the illuminance sensor 2 outputs the illuminance input unit. The illuminance value of the illumination area 9 input to 18 can be calculated and calculated by the control unit 26.
[0048]
The third illuminance value is set to an arbitrary illuminance value in the range of the first illuminance value and the second illuminance value, but is separated from the first illuminance value as much as possible for the reason described later. Preferably, it is an illuminance value.
[0049]
Since the luminous flux maintenance rate of the fluorescent lamp 8 decreases as the lighting time elapses, the fluorescent lamp 8 is initially designed to be usable at the illuminance at the dimming rate of 70%. Then, a usage method in which the dimming rate is increased as the lighting time elapses is generally used. Here, when the fluorescent lamp 8 is turned on at the dimming lower limit value, the illuminance of the lighting area 9 by only the lighting fixture 4 also decreases as the lighting time elapses, and the illuminance difference from the lower limit illuminance of the lighting fixture 4 is reduced. Occurs. In this way, the first and second illuminance values or the third illuminance value may be appropriately corrected according to the elapse of the lighting time of the fluorescent lamp 8. However, the lower limit of the dimming is a low value, and the temporal change of the illuminance at the lower limit of the dimming is small. Therefore, the first to third illuminance values initially set over the life of the fluorescent lamp 8 are practically used. It is not a problem.
[0050]
The dimming signal output unit 22 transmits a dimming signal calculated and generated by the control unit 26 to the lighting device 5 of the lighting fixture 4 in addition to a lighting control signal input from the wireless transmitter 17 to the wireless receiving unit 20 to a signal line. 27.
[0051]
The lower limit lighting selection unit 23 compares the dimming lower limit value of the lighting device 5 with a preset reference lower limit value, and determines whether the dimming lower limit value of the control unit 26 depends on whether the dimming lower limit value exceeds the reference lower limit value. The control method of the lighting state of the fluorescent lamp 8 according to the value is made different. That is, when the dimming lower limit value exceeds the reference lower limit value, the control unit 26 causes the control unit 26 to maintain the lighting of the fluorescent lamp 8 at the dimming lower limit value. When the dimming lower limit value is equal to or less than the reference lower limit value, the controller 26 allows the fluorescent lamp 8 to be turned on and off at the dimming lower limit value.
[0052]
The lower limit setting unit 24 is configured to calculate and set the dimming lower limit of the lighting device 5 according to a setting signal transmitted from the wireless transmitter 17 or a setting signal from a setting switch (not shown). . Then, the dimming lower limit value is stored in the storage unit 21 via the control unit 26.
[0053]
The power supply unit 25 is connected to the commercial AC power supply Vs, converts an AC voltage into a DC voltage, adjusts the voltage to a predetermined voltage value, and supplies drive power to each component of the lighting control device 3 such as the control unit 26. It is configured to That is, the lighting control device 3 operates when an AC voltage is supplied to the power supply unit 25 from the commercial AC power supply Vs.
[0054]
The control unit 26 includes a CPU, a RAM, a ROM in which programs are stored, and the like. Then, it controls each component of the lighting control device 3 based on the program. Then, a dimming signal is calculated and generated in accordance with the illuminance value of the illumination area 9 input from the illuminance sensor 2 to the illuminance input unit 18, and transmitted to the lighting device 5 from the dimming signal output unit 22.
[0055]
Hereinafter, the control of the lighting apparatus 4 by the control unit 26 will be described using the characteristic diagram of the dimming control shown in FIG. 4 or FIG. In the drawing, the vertical axis represents the illuminance value of the illumination area 9 as the initial dimming rate of the fluorescent lamp 8 (the lighting fixture 4), and the horizontal axis represents the magnitude of the external light (of the illumination area 9 due to the external light). Illuminance value), the solid line represents the illuminance value of the illumination area 9, and the broken line represents the illuminance value of the illumination area 9 using only the lighting fixture 4.
[0056]
When an AC voltage is applied to the power supply unit 25 from the commercial AC power supply Vs, the lower limit lighting selection unit 23 reads the dimming lower limit value and the reference lower limit value of the lighting device 5 stored in the storage unit 21 and compares the two. Then, the comparison result is sent to the control unit 26. The control unit 26 operates to control the lighting state of the fluorescent lamp 8 according to the determination of the lower limit lighting selection unit 23. That is, when the dimming lower limit value exceeds the reference lower limit value (30%), the dimming control (first dimming control) shown in FIG. 4 is performed, and the dimming lower limit value becomes equal to the reference lower limit value (30%). In the following cases, the light control (second light control) shown in FIG. 5 is performed.
[0057]
In FIG. 4, the lighting device 5 constituting the lighting device 1 does not continuously turn on the fluorescent lamp 8 when the dimming rate is lower than 50%. Therefore, the dimming lower limit of the lighting device 5 is set to 50%, which exceeds the reference lower limit (30%). The control unit 26 reduces the dimming rate of the fluorescent lamp 8 (the lighting device 5) as the external light increases so that the illuminance of the illumination area 9 becomes the target illuminance of 70%. This constant control of the target illuminance of 70% is performed until the lower limit of the dimming of the fluorescent lamp 8 reaches 50% (point A in the figure).
[0058]
Then, when the control unit 26 dims the fluorescent lamp 8 to the dimming lower limit value of 50%, the fluorescent lamp 8 is continuously lit at the dimming lower limit value of 50% even when the external light is further increased. As a result, the illuminance of the illumination area 9 increases as the external light increases from the point in time at which the dimming lower limit of 50% is reached (point A), by an increase in the illuminance value due to the external light. Conversely, the illuminance of the illumination area 9 decreases to 70% of the target illuminance at the time A as the external light decreases, and when the external light further decreases, the dimming rate of the fluorescent lamp 8 decreases to the dimming lower limit of 50%. %, And the target illuminance becomes 70%.
[0059]
As described above, when the lighting apparatus 1 includes the lighting device 5 having the dimming lower limit exceeding the reference lower limit (30%), the fluorescent lamp at the dimming lower limit regardless of the size of the external light. 8 is maintained. Therefore, when the fluorescent lamp 8 is lit at the lower limit of the dimming level, there is no flashing control of the fluorescent lamp 8 and there is only an illuminance change due to external light. This makes it difficult for the user to feel uncomfortable or uncomfortable.
[0060]
Next, the second dimming control in FIG. 5 will be described.
[0061]
In FIG. 5, the lighting device 5 does not continuously light the fluorescent lamp 8 below the dimming rate of 25%. Therefore, the dimming lower limit of the lighting device 5 is set to 25%, which is equal to or less than the reference lower limit (30%). Then, the first illuminance value is calculated to be a value 95% obtained by adding the lower limit illuminance 25% of the lighting fixture 4 to the target illuminance 70%, and the second illuminance value is calculated from the target illuminance 70% to the lower limit illuminance of the lighting fixture 4. The value is calculated to be 45% obtained by subtracting 25%, and is stored in the storage unit 21. The third illuminance value is set to 50%, which is the range between the first illuminance value and the second illuminance value, and is stored in the storage unit 21. The control unit 26 reads out the first to third illuminance values when the dimming lower limit value is equal to or less than the reference lower limit value (30%).
[0062]
The control unit 26 reduces the dimming rate of the fluorescent lamp 8 (the lighting device 5) as the external light increases until the dimming lower limit value of 25% is reached (point B in the figure) to reduce the lighting area. The illuminance of No. 9 is controlled to be the target illuminance of 70%.
[0063]
When the fluorescent lamp 8 is lit at the lower limit of 25% for dimming, and the illuminance of the illumination area 9 is equal to or lower than the first illuminance value of 95%, the controller 26 continuously controls the lower limit of 25% for dimming. The lamp 8 is turned on. In other words, the illuminance of the illumination area 9 increases from the target illuminance of 70% by an increase in the illuminance value due to the external light as the external light further increases. The lighting is maintained.
[0064]
When the illuminance of the illumination area 9 exceeds the first illuminance value of 95%, the fluorescent lamp 8 is turned off. That is, when the outside light is further increased by the lower limit illuminance 25% of the lighting apparatus 4 at the dimming lower limit 25%, the fluorescent lamp 8 is turned off. At this time, the illuminance of the illumination area 9 sharply decreases from the first illuminance value of 95% (at time C in the figure) to the target illuminance of 70% (at time D in the figure). That is, an illuminance change by 25% of the lower limit illuminance of the lighting fixture 4 occurs. Then, the illuminance of the illumination area 9 increases from the target illuminance of 70% at the time point D by an increase in the illuminance value due to the external light as the external light further increases.
[0065]
Then, the control unit 26 controls the fluorescent lamp 8 to turn off the light at the dimming lower limit of 25%, and then controls the fluorescent lamp 8 even if the external light decreases and the illuminance of the illumination area 9 decreases to the target illuminance 70% at the time point D. The control is performed so that the lamp 8 is not turned on again but is turned on again when the third illuminance value becomes 50% or less (time point E in the figure). At this time, the illuminance of the illumination area 9 rapidly rises from the third illuminance value of 50% (time E) to the illuminance at the time F. That is, a change in the illuminance of the luminaire 4 by 20% occurs. Then, the fluorescent lamp 8 is controlled such that the dimming rate is increased from the dimming lower limit of 25% and the illuminance of the illumination area 9 is set to the target illuminance of 70% as the external light further decreases. You.
[0066]
The third illuminance value is a control value for turning on the fluorescent lamp 8 again at the dimming lower limit value. By setting the third illuminance value in the range from the first illuminance value of 95% to the second illuminance value of 45%, a sudden change in the illuminance of the illumination area 8 when the fluorescent lamp 8 is turned on again is the maximum illumination. The lower limit illuminance of the device 4 is suppressed to 25%. This suppresses discomfort and discomfort caused by a change in the illuminance of the illumination area 8.
[0067]
However, when the third illuminance value is set near the first illuminance value of 95%, if the magnitude of the external light fluctuates near the first illuminance value of 95% after the fluorescent lamp 8 is turned on again, The illuminance of the illumination area 9 may be higher or lower than the first illuminance value 95%. As a result, the fluorescent lamp 8 may blink, giving a sense of discomfort or discomfort to a person. Therefore, it is preferable that the third illuminance value is set to an illuminance value separated from the first illuminance value 95%. For example, when the third illuminance value is set in a range from the target illuminance of 70% to the second illuminance value of 45%, in order for the fluorescent lamp 8 to blink, the illuminance change of the external light is at least the lower limit illuminance 25 of the luminaire 4. %, It is possible to suppress the flickering of the fluorescent lamp 8 at the dimming lower limit of 25%.
[0068]
Further, as described above, the first illuminance value is the illuminance of the illumination area 9 only when the fluorescent lamp 8 is turned on at the target illuminance of 70% with the dimming lower limit of 25% (the lower limit of the illuminator 4). Illuminance) is added, and the second illuminance value is a value obtained by subtracting the lower limit illuminance of the lighting fixture 4 from the target illuminance 70%, but is not limited thereto, and the first illuminance value is the target illuminance 70%. The second illuminance value may be any illuminance value lower than the target illuminance 70%. At this time, if the illuminance difference between the first or second illuminance value and the target illuminance of 70% is large, as described above, when the fluorescent lamp 8 is turned off or turned on again at the dimming lower limit value, the illumination area 9 is turned off. The change in illuminance may increase, giving a sense of discomfort or discomfort to a person. Therefore, the first illuminance value is set in a range of the target illuminance 70% and the value obtained by adding the lower limit illuminance of the lighting fixture 4 to the target illuminance 70%, and the second illuminance value is set to the target illuminance 70% and the target illuminance 70 % Is preferably set to a value obtained by subtracting the lower limit illuminance of the lighting fixture 4 from the percentage.
[0069]
As described above, the lighting device 1 determines whether the dimming lower limit value of the lighting device 5 exceeds the preset lower reference limit value or is equal to or less than the reference lower limit value by the lower limit lighting selection unit 23 of the illumination control device 3. The lighting state of the fluorescent lamp 8 at the dimming lower limit value is controlled by the control unit 26 in accordance with the determination. When the light control lower limit value exceeds the reference lower limit value, lighting of the fluorescent lamp 8 is maintained at the light control lower limit value regardless of the magnitude of external light. Accordingly, in the illumination area 9, a sudden change in the illuminance at the dimming lower limit value does not occur, and only the illuminance change due to the external light is performed.
[0070]
When the dimming lower limit value is equal to or less than the reference lower limit value, the fluorescent lamp 9 is turned off when the illuminance of the illumination area 9 exceeds the first illuminance value, and the fluorescent lamp 9 is not set near the first illuminance value. Since the fluorescent lamp 9 is turned on again when the illuminance value becomes equal to or less than 3, the power saving is achieved, and the flickering of the fluorescent lamp 9 due to the fluctuation of the external light at the dimming lower limit value is suppressed. And discomfort are suppressed.
[0071]
In the above embodiment, one of the plurality of lighting devices 4 may be provided with a sensor device having the same operation as the sensor device 6 at one end. Thereby, the labor for installing the illuminance sensor 2 and the illumination control device 3 can be omitted, so that labor can be saved. Further, the illuminance sensor 2 and the illumination control device 3 do not need to be integrated as in the sensor device 6 shown in FIG. 2, but may be configured separately from each other.
[0072]
According to the first aspect of the present invention, the lighting state of the lighting load at the dimming lower limit value is selected depending on whether or not the dimming lower limit value of the lighting device exceeds a preset reference lower limit value. Lighting control device can be provided. If the lower limit of the dimming is higher than the reference dimming rate, the lighting load is maintained at the lower limit of the dimming. Therefore, a sudden change in illuminance does not occur at the lower limit of the dimming. When the value is equal to or less than the reference lower limit, the lighting load can be turned off and power can be saved.
[0073]
According to the invention of claim 2, the illumination load is turned off when the illuminance of the illumination area exceeds the first illuminance value, and is re-illuminated when the illuminance becomes equal to or less than the third illuminance value, Power saving can be achieved, and blinking of the illumination load due to fluctuation of external light at the dimming lower limit value can be suppressed.
[0074]
According to the third aspect of the present invention, the first and second illuminance values are values obtained by adding or subtracting the illuminance of the illuminated area only by the luminaire when the illumination load is turned on at the dimming lower limit value to or from the target illuminance, respectively. Therefore, even if the lighting load is turned off or turned on again at the dimming lower limit value, the illuminance change of the lighting area is not large, and it is possible to suppress giving a feeling of strangeness or discomfort to a person.
[0075]
According to the fourth aspect of the present invention, the third illuminance value is set in the range of the target illuminance and the second illuminance value apart from the first illuminance value. The blinking of the lighting load due to the fluctuation can be suppressed.
[0076]
According to the invention of claim 5, there is provided a lighting device in which the lighting state of the lighting load at the dimming lower limit value is controlled depending on whether or not the dimming lower limit value of the lighting device exceeds a preset reference lower limit value. Can be provided. That is, if the dimming lower limit is higher than the reference lower limit, the lighting load is lit at the dimming lower limit, and no rapid change in illuminance at the dimming lower limit occurs. When the value is less than or equal to the value, the lighting load can be turned off, power saving can be achieved, and a lighting device can be provided in which blinking of the lighting load due to fluctuation of external light at the dimming lower limit value is suppressed. .
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a lighting device according to an 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 characteristic diagram showing first dimming control by the illumination control device.
FIG. 5 is a characteristic diagram showing a second dimming control by the illumination control device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Lighting device, 2 ... Illuminance sensor, 3 ... Lighting control device, 4 ... Lighting equipment, 5 ... Lighting device, 18 ... Illuminance input part as illuminance input means, 23 ... Lower limit lighting selection part as lower limit lighting selection means, 24: lower limit value setting unit as lower limit value setting means, 26: control unit as control means

Claims (5)

Illuminance input means for inputting the illuminance value from an illuminance sensor for detecting the illuminance of an illumination area illuminated by the luminaire provided with the illumination load;
Compare the lower limit of dimming of the lighting device for energizing the lighting load with a preset reference lower limit, and when the lower limit of dimming exceeds the lower limit of reference, maintain lighting of the lighting load at the lower limit of dimming. And a lower limit lighting selection means for enabling the lighting load to be turned off at the dimming lower limit value when the dimming lower limit value is equal to or less than the reference lower limit value;
Until the dimming lower limit value, a dimming signal is calculated and generated so that the illuminance value input to the illuminance input means becomes a preset target illuminance and sent to the lighting device. Control means for controlling the lighting state of the lighting load according to the determination of the means;
Lower limit value setting means for setting a dimming lower limit value of the lighting device;
A lighting control device comprising: The control unit turns off the illumination load when the illuminance value input to the illuminance input unit exceeds the target illuminance and exceeds a first illuminance value set in advance, and turns off the illumination load below the first illuminance value and the target illuminance. The lighting control device according to claim 1, wherein the control is performed such that the lighting load is re-lit when the light intensity becomes equal to or less than a third illuminance value set in a predetermined range of the second illuminance value. The first illuminance value is a value obtained by adding the illuminance of the illumination area only by the lighting fixture when the lighting load is turned on at the dimming lower limit to the target illuminance, and the second illuminance value is the dimming lower limit from the target illuminance. The lighting control device according to claim 2, wherein the value is a value obtained by subtracting the illuminance of the lighting area by only the lighting fixture when the lighting load is turned on by the value. 4. The lighting control device according to claim 2, wherein the third illuminance value is set in a range between the target illuminance and the second illuminance value. A lighting control device according to any one of claims 1 to 4;
A lighting device for receiving a dimming signal sent from the lighting control device and energizing a lighting load according to the dimming signal;
A lighting fixture provided with a lighting load energized by the lighting device to illuminate a predetermined lighting area;
An illuminance sensor for detecting the illuminance of an illumination area illuminated by the illumination device and inputting the illuminance value to illuminance input means of the illumination control device;
A lighting device, comprising:

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