JP2007207717A - Lighting control apparatus, lighting control method and lighting control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting apparatus in which lighting adjustment is done based on a cumulative lighting duration and a luminance of the lighting apparatus installed in a same space and within a time difference caused by an error of an oscillator is prevented from being adjusted one after another. <P>SOLUTION: The lighting apparatus is provided with a light adjustment table memorizing part 114 to memorize as a light adjustment table an output level of a discharge lamp 40 for a cumulative lighting duration of the discharge lamp, a cumulative lighting duration counting part 116 to count a cumulative lighting duration of the discharge lamp 40, and a light adjusting control part 112 which, in case the lighting apparatus is switched from off to on, detects an output level for a cumulative lighting duration counted by the cumulative lighting duration counting part 116 based on the light adjustment table memorized by the light adjustment table memorizing part 114 and adjusts the output level of the discharge lamp 40 based on the detected output level. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a device that controls the brightness of a lighting device based on, for example, an accumulated lighting time.

A microcontroller is used to count the accumulated lighting time. There is a lighting device that counts the lighting integrated time by a microcontroller and adjusts the brightness when the lighting integrated time has passed a set time. Further, a crystal or a ceramic oscillator is used as an operation clock of the microcontroller. The error of these oscillators is about 1%.
JP 2001-015276 A

The error of a crystal or ceramic oscillator is generally 1%. Moreover, it is difficult to reduce this error. This 1% error causes an error of ± 5 hours, for example, when the first specified value is 500 hours. That is, the time width caused by the error is 10 hours. Therefore, if the brightness of the luminaire is changed when the accumulated lighting time reaches a predetermined time, the brightness of the luminaires installed in the same space is adjusted one after another within the time width caused by the error. There is. Moreover, even if the error of the oscillator can be eliminated, there is a problem that it is not desirable that the brightness of the luminaire changes during lighting.
An object of this invention is to prevent that the brightness of the lighting fixture installed in the same space is adjusted one after another, for example. Moreover, an object of this invention is to prevent that the brightness of a lighting fixture changes during lighting, for example.

The illumination control device according to the present invention is, for example, an illumination control device for a lighting fixture that lights a discharge lamp.
A dimming table storage unit that stores the output level of the discharge lamp with respect to the accumulated lighting time of the discharge lamp in the storage device as a dimming table, a lighting integrated time counting unit that counts the accumulated lighting time of the discharge lamp by the processing device, and the illumination When the fixture is turned on after being turned off, the output level for the integrated lighting time counted by the integrated lighting time counting unit is retrieved from the dimming table stored in the dimming table storage unit, and the discharge lamp of the discharge lamp is searched based on the retrieved output level. And a dimming control unit that adjusts the output level by a processing device.

  According to the lighting control device according to the present invention, for example, since the light is adjusted when the lighting fixture is turned off, the brightness of the lighting fixtures installed in the same space is not adjusted one after another. Moreover, the brightness of the lighting fixture does not change during lighting.

First, the hardware of the illumination control apparatus 100 according to the embodiment will be described with reference to FIG. FIG. 1 is a diagram illustrating a hardware configuration of the illumination control apparatus 100 according to the embodiment.
In FIG. 1, the lighting control device 100 includes a CPU 911 (also referred to as a central processing unit, a central processing unit, a calculation device, a microprocessor, a microcomputer, and a processor) that executes a program. The CPU 911 is an example of a processing device 980. The CPU 911 is connected to the ROM 913, the RAM 914, and the flash memory 915 via the bus 912, and controls these hardware devices.
The RAM 914 is an example of a volatile memory. The ROM 913 and the flash memory 915 are examples of nonvolatile memories. These are examples of the storage device 984.

  The ROM 913 stores, for example, a dimming control unit 112, a dimming table storage unit 114, a lighting integrated time count unit 116, and an integrated time storage unit 118, which will be described later. Further, the CPU 911 reads out the dimming control unit 112, the dimming table storage unit 114, the lighting integrated time count unit 116, and the integrated time storage unit 118 stored in the ROM 913, for example, and executes processing.

Embodiment 1 FIG.
Next, the first embodiment will be described. In the first embodiment, a description is given of an illumination control device 100 that performs light control when the lighting fixture 10 is turned on from being turned off.

  First, the function of the illumination control apparatus 100 according to the first embodiment will be described with reference to FIG. FIG. 2 is a functional block diagram illustrating functions of the lighting control device 100 according to the first embodiment and the lighting fixture 10 including the lighting control device 100.

  The lighting fixture 10 is a device that turns on the discharge lamp 40, and includes a switch 20, an inverter circuit 30, a discharge lamp 40, a power-on reset detection circuit 50, a control circuit 60, an oscillator 70, and a lighting control device 100.

  The switch 20 is attached in series with the power source AC and supplies power to the inverter circuit 30. The control circuit 60 is connected to the inverter circuit 30 and the lighting control device 100. The control circuit 60 is a circuit that controls hardware such as the inverter circuit 30. The power-on reset detection circuit 50 is connected to the switch 20, the lighting control device 100, and the like. The power-on reset detection circuit 50 is a circuit that detects on / off of the switch 20. The oscillator 70 is connected to the lighting control device 100. The oscillator 70 is an oscillator such as crystal or ceramic.

  The illumination control device 100 is, for example, a microcontroller. The lighting control device 100 suppresses the reduction of the luminous flux due to the passage of the lighting time, and increases the dimming ratio with the passage of time so that the light output from the discharge lamp 40 is maintained constant regardless of the lighting integrated time. . That is, the illumination control device 100 increases the output level of the discharge lamp 40 when the lighting integration time has elapsed for a predetermined time. The illumination control device 100 includes an illumination control unit 110, a processing device 980, and a storage device 984. The illumination control unit 110 may be software, a program, or the like, for example, and may be stored in the storage device 984 in that case. The illumination control unit 110 includes a dimming control unit 112, a dimming table storage unit 114, a lighting integrated time count unit 116, and an integrated time storage unit 118.

When the lighting fixture 10 is turned on after being turned off, the dimming control unit 112 searches the dimming table stored in the dimming table storage unit 114 for the output level for the lighting integrated time counted by the lighting integrated time counting unit 116. Then, the dimming control unit 112 adjusts the output level of the discharge lamp 40 by the processing device 980 based on the retrieved output level. More specifically, the dimming control unit 112 reads the lighting integrated time stored in the integrated time storage unit 118 and the dimming table stored in the dimming table storage unit 114 when the lighting fixture 10 is turned on after being turned off. The output level with respect to the lighting integrated time is searched from the above, and the output level of the discharge lamp 40 is adjusted based on the searched output level. That is, the dimming control unit 112 temporarily holds the adjustment of the output level of the discharge lamp 40 while the lighting fixture 10 is lit even if the lighting integrated time counted by the lighting integrated time counting unit 116 has passed the set time. The dimming control unit 112 adjusts the output level based on the lighting integration time stored in the non-volatile memory by the integration time storage unit 118 to be described later when the lighting fixture 10 is turned on after being turned off.
The dimming table storage unit 114 stores the output level of the discharge lamp 40 with respect to the accumulated lighting time of the discharge lamp 40 in the storage device 984 as a dimming table. For example, the dimming table storage unit 114 stores an output level in the dimming table for each set time.
The lighting integrated time counting unit 116 uses the processing device 980 to count the lighting integrated time of the discharge lamp 40. The lighting integrated time counting unit 116 counts the lighting integrated time using the oscillator 70, for example.
The accumulated time storage unit 118 stores the accumulated lighting time counted by the accumulated lighting time counting unit 116 in the storage device 984.

  Next, operation | movement of the illumination control apparatus 100 concerning Embodiment 1 is demonstrated based on FIG. FIG. 3 is a flowchart illustrating an illumination control process (an illumination control method, an illumination control program) that is an operation of the illumination control apparatus 100 according to the first embodiment. Prior to the start of processing, the dimming table storage unit 114 stores the output level of the discharge lamp 40 with respect to the lighting integrated time of the discharge lamp 40, which is a lighting control ratio with respect to the lighting integrated time and the lighting integrated time, in the storage device 984 as a dimming table. Store (light control table storage step). Here, the storage device 984 is, for example, a ROM 913 or a flash memory 915 which is a nonvolatile memory.

  First, in the dimming control step (S101), when the switch 20 is turned on, the dimming control unit 112 lights the discharge lamp at an output level with respect to the lighting integrated time. That is, the dimming control unit 112 reduces the luminous flux of the discharge lamp 40 connected to the inverter circuit 30 that is the lighting circuit when the lighting integrated time counted by the lighting integrated time counting unit 116 has passed a preset time. Correct. That is, the dimming control unit 112 selects a value set from the dimming table stored in advance by the dimming table storage unit 114 and controls the inverter circuit 30 via the control circuit 60 to dimm the discharge lamp 40. Light up.

  Next, in the integrated lighting time counting step (S102), the integrated lighting time counting unit 116 counts the integrated lighting time of the discharge lamp 40 by the processing device 980. That is, when the switch 20 is turned on to supply power to the inverter circuit 30 and the discharge lamp 40 is turned on, the lighting integrated time counting unit 116 starts counting the lighting integrated time.

  Next, in the accumulated time storage step (S103), the accumulated time storage unit 118 stores the accumulated lighting time counted by the accumulated lighting time counting unit 116 in the storage device 984. Here, the storage device 984 is, for example, a flash memory 915 that is a nonvolatile memory. For example, the integrated time storage unit 118 writes the lighting integrated time in the storage device 984 every hour.

  Here, even when the AC power supply is cut off and then restored, it is possible to read the lighting integrated time from the storage device 984 that is a nonvolatile memory stored in the integrated time storage unit 118 and correct the decrease in luminous flux. .

Next, a dimming table and a dimming curve (light beam curve) based on the dimming table will be described with reference to FIGS. FIG. 4 is a diagram showing a dimming table. FIG. 5 is a diagram showing a dimming curve representing the relationship between the lighting integrated time and the lamp current that is the output level. For example, the dimming table includes integration time, step, and output level as shown in FIG. The dimming control unit 112 outputs an output level corresponding to the accumulated time to the control circuit 60 to control the inverter circuit 30 so that the discharge lamp 40 is dimmed.
That is, the initial stage is step 0, and the dimming control unit 112 turns on the discharge lamp 40 at an output level of about 70%. As shown in FIG. 4, when step is set every 500 hours, the dimming control unit 112 operates so as to correct the decrease in luminous flux after the lighting integrated time has passed 500 hours. However, as described above, the dimming control unit 112 does not immediately shift to the operation of correcting the light flux decrease. Based on the power-on reset detection circuit 50, the dimming control unit 112 determines whether or not a power-on reset operation has been performed and power is again supplied to the inverter circuit 30 to return to lighting. Then, when it is determined that the power-on reset operation has been performed, the dimming control unit 112 turns on the discharge lamp 40 with the dimming degree preset in the dimming table. As a result, the light flux can be corrected without adjusting the brightness of the luminaires 10 installed in the same space one after another. In FIG. 5, the output level of the light control curve does not increase at a constant rate every fixed time because, for example, the division that can control the inverter circuit 30 cannot be made fine, and the lamp attenuation rate varies with time. This is because there is a difference.

That is, the lighting control apparatus 100 according to the first embodiment counts the lighting integrated time of the discharge lamp 40 mounted on the lighting fixture 10 in the lighting fixture 10 mounted with the discharge lamp 40, and decreases according to the integrated time. Control means for adjusting the dimming degree of the discharge lamp 40 according to the lighting integrated time so as to correct the luminous flux of the discharge lamp 40, and a memory for storing information on the dimming degree of the discharge lamp 40 and the lighting integrated time And the control unit in the first period change the dimming level step by step every time the accumulated lighting time elapses in advance, and the accumulated lighting time elapses during the lighting. In this case, the change of the dimming degree is suspended, and it is executed when the illumination is once turned off and then turned on.
Moreover, the lighting control apparatus 100 according to the first embodiment stores the fact that the set time has elapsed in the storage means when the set lighting time has elapsed, and then turns off the lighting and then turns off the lighting. When lighting, the information of the storage means is read to adjust the dimming degree.

Embodiment 2. FIG.
Next, a second embodiment will be described. Embodiment 2 demonstrates an example of the operation | movement which carries out the light control of the illumination control apparatus 100 when the lighting fixture 10 is not turned off.

First, the function of the illumination control apparatus 100 according to the second embodiment will be described only for parts different from the first embodiment.
The dimming control unit 112 stores the dimming table stored in the dimming table storage unit 114 when the lighting fixture 10 does not turn off for a predetermined time after the set lighting time counted by the lighting integrated time counting unit 116 has elapsed. The output level for the lighting integration time is retrieved from. Then, the dimming control unit 112 adjusts the output level of the discharge lamp 40 based on the retrieved output level.

  For example, as shown in FIG. 4, a case where step is set every 500 hours will be described. Here, it is assumed that the predetermined time is 100 hours. As described above, the dimming control unit 112 suspends the adjustment of the output level of the discharge lamp 40 even if the lighting integrated time has passed 500 hours. When the power-on reset is performed, the dimming control unit 112 adjusts the output level of the discharge lamp 40. However, if the power-on reset is not performed even after 100 hours have elapsed after the lighting integration time has elapsed for 500 hours, that is, the lighting apparatus 10 is not turned off even after 100 hours have elapsed after the lighting integration time has elapsed for 500 hours. In this case, the dimming control unit 112 adjusts the output level of the discharge lamp 40.

  Thereby, it is possible to prevent the light flux decrease from being corrected in an environment where the lighting fixture 10 is not turned off.

  That is, the lighting control device 100 according to the second embodiment does not hold the change in the dimming degree and does not hold the dimming degree change when the lighting does not turn off even after a predetermined time has elapsed after the preset lighting integration time. It is characterized by adjusting.

Embodiment 3 FIG.
Next, Embodiment 3 will be described. In the third embodiment, an example different from the second embodiment of the light control operation of the lighting control apparatus 100 when the lighting fixture 10 is not turned off will be described.

First, the function of the illumination control apparatus 100 according to the third embodiment will be described only for parts different from the first embodiment.
The dimming control unit 112 adjusts the lighting fixture 10 when the lighting integrated time counted by the lighting integrated time counting unit 116 has passed the first set time and the lighting fixture 10 does not turn off even after the second set time has passed. The output level for the lighting integrated time is searched from the dimming table stored in the light table storage unit 114. Then, the dimming control unit 112 adjusts the output level of the discharge lamp 40 based on the retrieved output level.

  For example, as shown in FIG. 4, a case where step is set every 500 hours will be described. As described above, the dimming control unit 112 suspends the adjustment of the output level of the discharge lamp 40 even if the lighting integrated time has passed 500 hours. When the power-on reset is performed, the dimming control unit 112 adjusts the output level of the discharge lamp 40. However, if the power-on reset is not performed even after the lighting integrated time of 500 hours has elapsed and the lighting integrated time of 1000 hours has elapsed, that is, the lighting integrated time of 500 hours has elapsed, If the luminaire 10 is not turned off after 1000 hours, the dimming control unit 112 adjusts the output level of the discharge lamp 40.

  Here, it is assumed that the second set time is the set time next to the first set time. However, the present invention is not limited to this, and the second set time may be a set time n times after the first set time. For example, in the case where the lighting is continued for 24 hours and the power-on reset is not performed, it is possible to set to light up at the dimming degree immediately after the n-th specified step has elapsed.

  Thereby, like Embodiment 2, it can prevent that correction | amendment of a light beam fall is not corrected in the environment where the lighting fixture 10 is not light-extinguished.

  That is, the lighting control apparatus 100 according to the third embodiment does not hold the dimming degree and does not hold the dimming degree when the lighting does not turn off even after the lighting integration time elapses the next preset integration time. It is characterized by adjusting the dimming degree with respect to the previous lighting integrated time setting.

Embodiment 4 FIG.
Next, a fourth embodiment will be described. In the fourth embodiment, an example different from the second and third embodiments of the dimming operation of the lighting control apparatus 100 when the lighting fixture 10 is not turned off will be described.

First, the function of the illumination control apparatus 100 according to the fourth embodiment will be described only for parts different from the first embodiment.
The dimming control unit 112 assigns the lighting integrated time counted by the lighting integrated time counting unit 116 to the setting value of either the odd number or even number of the dimming table stored in the dimming table storage unit 114. When the set time has elapsed, the output level for the lighting integrated time is retrieved from the dimming table. Then, the dimming control unit 112 adjusts the output level of the discharge lamp 40 based on the retrieved output level.

  For example, as shown in FIG. 6, a case will be described in which the dimming table is registered with step and output level for each set value. FIG. 6 is a diagram illustrating a dimming table. Here, it is assumed that each setting value is assigned a setting time every 500 hours, such that the setting value 1 is 0 to 500 hours and the setting value 2 is 500 hours to 1000 hours. That is, in the dimming table shown in FIG. 6, the output corresponding to the integration time assigned to the set value is represented by step. Here, it is assumed that the dimming control unit 112 adjusts the output level of the discharge lamp 40 when the set time assigned to the odd set value of the dimming table has elapsed. As described above, in principle, the dimming control unit 112 suspends the adjustment of the output level of the discharge lamp 40 even when the lighting integrated time has passed the set time of 500 hours. In principle, the dimming control unit 112 adjusts the output level of the discharge lamp 40 when the power-on reset is performed. However, here, since the lighting integration time has passed 500 hours of the setting time assigned to the setting value 1 that is an odd setting value, the dimming control unit 112 adjusts the output level of the discharge lamp 40. . On the other hand, when the lighting integrated time has passed 1000 hours, the dimming control unit 112 outputs the output level of the discharge lamp 40 because 1000 hours is the setting time assigned to the setting value 2 that is an even setting value. Hold the adjustment.

  In FIG. 6, a plurality of set times are assigned to one step because, as in the description of FIG. 5, it is not possible to finely control the interval at which the inverter circuit 30 can be controlled. This is because there is a difference.

  Thereby, it is possible to prevent the light flux decrease from being corrected in an environment where the lighting fixture 10 is not turned off. In addition, since the processing is simple compared to the second and third embodiments, the storage device 984 of the microcontroller that is the illumination control device 100 can be saved, and the processing load on the microcontroller can be reduced. .

  FIG. 7 is a diagram showing a lighting control system in which a plurality of lighting control devices 100 and lighting fixtures 10 according to the above-described embodiment are installed in the same space. The illumination control device 100A, the illumination control device 100B, the illumination control device 100C, the illumination control device 100D, the illumination control device 100E, and the illumination control device 100F are the illumination control device 100 according to the above embodiment. Moreover, 10A of lighting fixtures, the lighting fixture 10B, the lighting fixture 10C, the lighting fixture 10D, the lighting fixture 10E, and the lighting fixture 10F are the lighting fixtures 10 concerning the said embodiment. The lighting fixtures 10A to 10F are connected to a common power line. That is, according to the lighting control apparatus 100 according to the above embodiment, when a plurality of lighting fixtures are installed in a common power line in the same space as shown in FIG. The illuminance is never changed.

The figure which shows the hardware constitutions of the illumination control apparatus 100 in embodiment. FIG. 2 is a functional block diagram illustrating functions of the illumination control device 100 according to the first embodiment and the lighting fixture 10 including the illumination control device 100. 3 is a flowchart illustrating an illumination control process (an illumination control method, an illumination control program) that is an operation of the illumination control apparatus 100 according to the first embodiment. The figure which shows a light control table. The figure which shows the light control curve showing the relationship between lighting lighting integration time and the lamp current which is an output level. The figure which shows a light control table. The figure which shows the lighting control system by which the lighting control apparatus 100 concerning embodiment and the lighting fixture 10 were installed two or more in the same space.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 Lighting fixture, 20 Switch, 30 Inverter circuit, 40 Discharge lamp, 50 Power-on reset detection circuit, 60 Control circuit, 70 Oscillator, 100 Lighting control apparatus, 110 Lighting control part, 112 Dimming control part, 114 Dimming table Storage unit, 116 lighting integrated time count unit, 118 integrated time storage unit, 911 CPU, 912 bus, 913 ROM, 914 RAM, 915 flash memory, 980 processing device, 984 storage device.

Claims (8)

In a lighting control device for a lighting fixture that turns on a discharge lamp,
A dimming table storage unit for storing the output level of the discharge lamp with respect to the accumulated lighting time of the discharge lamp in the storage device as a dimming table;
An integrated lighting time counting unit that counts the integrated lighting time of the discharge lamp by the processing device;
When the lighting fixture is turned on after being turned off, the output level for the integrated lighting time counted by the integrated lighting time counting unit is searched from the dimming table stored in the dimming table storage unit, and discharging is performed based on the searched output level. An illumination control device comprising: a dimming control unit that adjusts an output level of the lamp by a processing device. The dimming table storage unit stores an output level for each set time in the dimming table,
The dimming control unit suspends adjustment of the output level of the discharge lamp while the lighting fixture is lit even if the lighting integrated time counted by the lighting integrated time counting unit has passed a set time. The illumination control device according to claim 1. The dimming table storage unit stores an output level for each set time in the dimming table,
The dimming control unit stores the dimming table stored in the dimming table storage unit when the lighting fixture does not turn off for a predetermined time after the lighting integrated time counted by the lighting totaling time counting unit has passed a set time. The lighting control device according to claim 1, wherein an output level with respect to the integrated lighting time is retrieved from the output, and an output level of the discharge lamp is adjusted based on the retrieved output level. The dimming table storage unit stores an output level for each set time in the dimming table,
When the lighting integrated time counted by the lighting integrated time counting unit has passed the first set time, and the lighting device does not turn off even after the second set time has passed, The lighting control device according to claim 1, wherein an output level for the lighting integrated time is searched from a dimming table stored in a dimming table storage unit, and an output level of the discharge lamp is adjusted based on the searched output level. . The lighting control device further includes:
An integrated time storage unit that stores the integrated lighting time counted by the integrated lighting time counting unit in a storage device;
The dimming control unit reads the lighting integrated time stored in the integrated time storage unit when the lighting fixture is turned off and turns on the lighting integrated time from the dimming table stored in the dimming table storage unit. 2. The illumination control device according to claim 1, wherein the output level is searched and the output level of the discharge lamp is adjusted based on the searched output level. In the lighting control method of the lighting control device of the lighting fixture for lighting the discharge lamp,
A dimming table storage step in which the dimming table storage unit stores the output level of the discharge lamp with respect to the accumulated lighting time of the discharge lamp as a dimming table in the storage device;
Integrated lighting time counting step in which the integrated lighting time counting unit counts the integrated lighting time of the discharge lamp by the processing device,
When the lighting fixture is turned on after being turned off, an output level for the lighting integrated time counted in the lighting integrated time counting step is searched from the dimming table stored in the dimming table storing step, and discharging is performed based on the searched output level. A dimming control step in which a dimming control unit adjusts the output level of the lamp by a processing device. In the lighting control program of the lighting control device of the lighting fixture for lighting the discharge lamp,
A dimming table storage step in which the dimming table storage unit stores the output level of the discharge lamp with respect to the accumulated lighting time of the discharge lamp as a dimming table in the storage device;
Integrated lighting time counting step in which the integrated lighting time counting unit counts the integrated lighting time of the discharge lamp by the processing device,
When the lighting fixture is turned on after being turned off, an output level for the lighting integrated time counted in the lighting integrated time counting step is searched from the dimming table stored in the dimming table storing step, and discharging is performed based on the searched output level. A lighting control program causing a computer to execute a dimming control step in which a dimming control unit adjusts an output level of a lamp by a processing device.   A lighting control system comprising: connecting a plurality of lighting fixtures including the lighting control device according to claim 1 to a common power supply line.

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