JP4120287B2 - Lighting control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting control system in which a central control device controls a plurality of dimming terminals to control illuminance in a plurality of areas.
[0002]
[Prior art]
As a lighting control system, there is a system in which a plurality of dimming terminals are connected to a central control device via a transmission line, and a lighting load connected to the dimming terminal is controlled by a transmission signal from the central control device. In such an illumination control system, control is performed so that the illuminance is kept constant for each of a plurality of areas, and the illuminance target value is transmitted from the central controller to each dimming terminal. In each dimming terminal, dimming control is performed on a lamp mounted on a dimming device that constitutes an illumination load so that the illuminance detected by the dimming sensor installed for each area becomes the illuminance target value. To do. As described above, by using the dimming sensor to control the illuminance of the illumination to be constant, sufficient work surface illuminance and energy saving are realized.
[0003]
For example, in the one disclosed in Japanese Patent Application Laid-Open No. 10-224871, the central control device puts the illuminance reference value set by the setting means on the control signal and transmits it to the dimming terminal through the transmission line. The illuminance reference value sent to the self is set inside, and the dimming control signal is set so that the illuminance detection value detected by the dimming sensor matches the illuminance reference value preset by the central controller. I make it and send it to the dimmer. Then, the dimming device controls the lamp power by the dimming control signal that has been input, performs dimming of the lamp, and controls the illuminance of the area where the lamp is installed to the target illuminance determined by the illuminance reference value.
[0004]
According to this, since the illuminance of the area is controlled by the respective feedback systems including the dimming terminals, even if the dimming terminals are increased, the responsiveness of the illuminance control of each area is not affected. In addition, if the illuminance of the area is appropriately determined the response level of the feedback system including each dimming terminal, it can always maintain good responsiveness to illuminance control regardless of the increase or decrease of the dimming terminal. . Furthermore, since the setting of the illuminance reference value to each dimming terminal is automatically performed by the central control device, the setting operation of the illuminance reference value becomes extremely easy.
[0005]
[Problems to be solved by the invention]
However, in such an illumination control system, it is necessary to calibrate the dimming sensor when the lighting equipment is introduced. In the calibration, the illuminance detection is calibrated for each dimming sensor using a remote controller.
[0006]
For example, an illuminometer is installed in the area where the dimming sensor is calibrated, and the dimming control command is output from the remote control to the dimming terminal so that the illuminometer pointer becomes the target illuminance. When the pointer of the illuminometer reaches the target illuminance, the light adjustment sensor is calibrated assuming that the detection value of the light adjustment sensor corresponds to the target illuminance. In such calibration of the dimming sensor, calibration must be performed for each dimming sensor, and thus the calibration work requires a great deal of time and effort.
[0007]
An object of the present invention is to provide an illumination control system that can easily and appropriately perform calibration of a light control sensor.
[0008]
[Means for Solving the Problems]
The illumination control system according to the first aspect of the invention selects a dimming sensor to be calibrated at the time of calibration of the dimming sensor, sets a predetermined calibration illuminance value and outputs it as calibration information, and configures a lighting load. A setting means for setting an illuminance target value of a lamp mounted on the light fixture; a central control device for transmitting the calibration information and the illuminance target value set by the setting means to a transmission line; and the center via the transmission line When calibration information is received from the control device, the lamp is dimmed and controlled at a predetermined level, and the dimming sensor is calibrated using the detection value detected by the dimming sensor at that time as the illuminance value for calibration. Then, after calibration of the dimming sensor, dimming control of the lighting load is performed so that the illuminance detection value detected by the dimming sensor matches the illuminance target value received from the central controller via the transmission line. Optical terminal Characterized by comprising a; If.
[0009]
In the present invention and the following inventions, definitions and technical meanings of terms are as follows unless otherwise specified.
[0010]
The lighting control system includes a central control device and a plurality of dimming terminals connected via a transmission line, and a dimming device equipped with a lamp that constitutes an illumination load is connected to the dimming terminal. .
[0011]
The setting means has a display provided in the central control device, and performs various settings through a screen displayed on the display. As for calibration information of the light control sensor, a calibration screen is displayed on the display when calibration is performed during calibration of the light control sensor, and the calibration information is set through the calibration screen. First, a dimming sensor to be calibrated is selected, and then a predetermined calibration illuminance value is set. In this state, a calibration command for the light control sensor is output. Thereby, the corresponding dimming terminal lights the lamp of the dimming device at the calibration level, and calibrates the dimming sensor. In addition, the setting means also sets an illuminance target value of the lamp mounted on the dimming device constituting the illumination load.
[0012]
The central control unit not only has an information setting function for transmitting calibration information and illuminance target values set by the setting means to the dimming terminal via the transmission line, but also a time schedule control function, a manual operation function, and an illuminance control level monitor. It has functions, etc., and transmits / receives data to / from the dimming terminal via the transmission line to centrally control and monitor the entire system.
[0013]
The dimming terminal is connected to the central control unit via the transmission line, and when calibration information is received from the central control unit, the dimming terminal is dimmed and controlled at a predetermined level and a calibration command is issued. Calibrates the light control sensor on the assumption that the detection value of the light control sensor at that time corresponds to the illuminance target value. The dimming terminal performs dimming control on the illumination load so that the illuminance detection value detected by the dimming sensor matches the illuminance target value received from the central control device via the transmission line.
[0014]
According to the present invention, since the light control sensor to be adjusted can be selected from the central controller and the light control sensor can be calibrated, the time and labor for calibration of the light control sensor can be reduced.
[0015]
A lighting control system according to a second aspect of the present invention is the lighting control system according to the first aspect of the invention, wherein the setting means collectively selects and sets calibration information for each dimming sensor having the same calibration illuminance value. .
[0016]
According to the present invention, the dimming sensors to be adjusted can be selected from the central control device in a batch and the dimming sensor can be calibrated, so that the adjustment time for the calibration of the dimming sensor can be greatly reduced.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below. FIG. 1 is a configuration diagram of a lighting control system according to an embodiment of the present invention. The central control device 11 is connected to a plurality of dimming terminals 13 by a transmission line 12 and has a time schedule control function, a manual operation function, an illuminance control level monitoring function, and the like. Data is transmitted to and received from the device 13 and the entire system is centrally controlled and monitored.
[0018]
The central control device 11 is provided with setting means 14, while each dimming terminal 13 is provided with a dimming sensor 15. At least one dimming sensor 15 is built in, and is attached externally as necessary. Furthermore, a dimming device 17 is connected to the dimming terminal 13 via a signal line 16. The setting means 14 sets the calibration information of the light control sensor 15 and the illuminance target value of the area, and the calibration information and the illuminance target value of the light control sensor 15 set by the setting means 14 are transmitted from the central controller 11 to the transmission line 12. Is transmitted to the dimming terminal 13 via. The dimming terminal device 13 performs dimming control on the lamp 18 attached to the dimming device 17 via the signal line 16 so that the illuminance of the area detected by the dimming sensor 15 becomes the illuminance target value. For example, four signal lines 16 can be connected to one dimming terminal 13 for the signal line 16 to which the dimming device 17 is connected.
[0019]
For example, three dimming sensors 15 can be connected to one dimming terminal 13 and are usually installed on the ceiling for each area to be illuminance controlled, and measure the illuminance on the desk surface. The light control sensor 15 has a detection range of, for example, DC 0 V to 5 V, and the voltage [V] and the illuminance [lx] are substantially linearly correlated. For example, the correspondence relationship of 700 [lx] = 1.1 [V] become.
[0020]
Next, a case where the central controller 11 calibrates the light control sensor 15 using the setting unit 14 will be described. The setting means 14 has a display, and displays a calibration screen when the light control sensor 15 is calibrated. FIG. 2 is a plan view of a system maintenance screen 19 displayed on the display unit of the setting unit 14 when system maintenance is performed by the central controller 11. On the system maintenance screen 19, buttons for selecting various maintenance contents are prepared. When the light adjustment sensor 15 is calibrated, the “light adjustment sensor calibration” button 20 is selected.
[0021]
When the “dimming sensor calibration” button 20 is operated, the central controller 11 displays a dimming sensor control sensor calibration screen 21 as shown in FIG. The operator operates the “calibration circuit selection screen” button 22 on the light adjustment sensor control sensor calibration screen 21 to select the light adjustment sensor 15 to be calibrated.
[0022]
When the “calibration circuit selection screen” button 22 is operated, the central controller 11 displays a calibration circuit selection screen 23 as shown in FIG. 4 on the display of the setting means 14. The worker selects the dimming sensor 15 connected to the dimming terminal 13 by selecting an address assigned to the dimming terminal 13 in advance. The address of the dimming terminal 13 is selectively displayed on the display by selecting one of the “collective address” buttons 24a to 24d.
[0023]
FIG. 4 shows a case where 128 (# 128) dimming terminals 13 can be installed, and three (3 circuits) dimming sensors 15 can be connected to each dimming terminal 13. The “collective address” button 24a is operated to select the dimming terminals 13 with addresses # 1 to # 32, and the dimming sensor 15 of the dimming terminals 13 with addresses # 1 to # 16 is displayed on the display. Indicates screens that can be selected.
[0024]
In this state, in order to display a screen that can be selected by the dimming sensor 15 of the dimming terminal 13 whose addresses are # 17 to # 32, the “address #” button 25 b is operated. When the dimming sensor 15 of the dimming terminal 13 whose original address is # 1 to # 16 is returned to a selectable screen, the “address #” button 25a is operated.
[0025]
Three (three circuits) dimming sensors 15 can be connected to one dimming terminal 13, and four signal lines 16 can be connected to one dimming terminal 13. Therefore, the “system” buttons 26a and 26b are used to switch from one system to four systems. Then, the dimming sensor 15 to be calibrated is selected by selecting a portion of one circuit to three circuits for each address in FIG.
[0026]
As described above, the dimming sensor 15 to be calibrated is selected on the calibration circuit selection screen 23. Here, in principle, calibration is performed for each unit of the light control sensor 15, but the lamp 18 of the light control device 17 has almost the same illuminance target value when the same model is installed in a similar environment. Therefore, the light control sensor 15 can be selected (circuit selection) from the central control device 11 at once.
[0027]
For example, when each “address” button 27 is selected, all the circuits (1 circuit to 3 circuits) of the dimming sensor 15 connected to the dimming terminal 13 are selected at once. In addition, when the “select all screens” button 28 is pressed, the circuits of all the dimming sensors 15 connected to the dimming terminals 13 of the addresses # 1 to # 16 displayed on the display are selected. To do. Thereby, the calibration work of the light control sensor 15 can be further shortened.
[0028]
When the light control sensor 15 to be calibrated is selected on the calibration circuit selection screen 23 in this way, the operator then operates the “screen return” button 29. When the “return screen” button 29 is operated, the light control sensor control sensor calibration screen 21 of FIG. 3 is displayed on the display of the setting means 14 by the central controller 11. And the light control level of the circuit of the selected light control sensor 15 is set. For example, the illuminance value when illuminated at 70% is input and set with the numeric keypad displayed on the screen. This is because the illuminance value corresponding to 70% of the lamp 18 of the light control device 17 is measured in advance, and for example, when the illuminance value at the place where the illuminance is adjusted at 70% lighting is 700 [lx] Input 700 [lx].
[0029]
Thereby, the central control apparatus 11 transmits the illuminance target value to the corresponding dimming terminal 13 via the transmission line 12, and the dimming terminal 13 has the lamp 18 of the dimming device 17 so that the illuminance target value is obtained. Dimming control. Then, the operator operates the “sensor calibration” button 30 on the light adjustment sensor control sensor calibration screen 21. As a result, a dimming calibration command is transmitted from the central controller 11 to the corresponding dimming terminal 13 via the transmission line 12, and the voltage value of the dimming sensor 15 at that time is set as an illuminance value (for example, 700 [lx]). Calibrate.
[0030]
Here, when the lamp 18 of the light control device 17 is a different model, or when the installation environment is different even if it is the same model, the illuminance target value is different. In that case, the light control sensor 15 is calibrated for each model or setting environment. For example, when the illuminance value at the illuminance adjustment place at 70% lighting is 750 [lx], 750 [lx] is input and set.
[0031]
In this way, the circuit of the light control sensor 15 to be calibrated by the central control device 11 is selected, the lamp 18 of the light control device 17 is controlled at a certain level (for example, 70%), and the illuminance value corresponding to 70%, for example, The calibration operation is performed by setting 700 [lx] or the like. As a result, a calibration command is transmitted from the central control device 11 to each dimming sensor 15, and the dimming sensor 15 is calibrated to, for example, 700 [lx] by the calibration command. Therefore, the adjustment time of the light control sensor 15 can be significantly reduced. It goes without saying that the individual light control sensors 15 can be calibrated from a remote controller or the like as usual.
[0032]
【The invention's effect】
According to the first aspect of the present invention, since the light control sensor to be adjusted can be selected from the central controller and the light control sensor can be calibrated, the time and labor for calibration of the light control sensor can be reduced.
[0033]
According to the second aspect of the present invention, the dimming sensors to be adjusted can be selected collectively from the central control unit and the dimming sensor can be calibrated, so that the adjustment time for calibration of the dimming sensor can be greatly reduced. .
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a lighting control system according to an embodiment of the present invention.
FIG. 2 is a plan view of a system maintenance screen displayed on a display unit of setting means when system maintenance is performed by the central controller in the embodiment of the present invention.
FIG. 3 is a plan view of a dimming sensor control sensor calibration screen displayed on a display unit of setting means when system maintenance is performed by the central controller in the embodiment of the present invention.
FIG. 4 is a plan view of a calibration circuit selection screen displayed on a display of setting means when system maintenance is performed by the central controller in the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Central control apparatus, 12 ... Transmission line, 13 ... Light control terminal device, 14 ... Setting means, 15 ... Light control sensor, 16 ... Signal line, 17 ... Light control instrument, 18 ... Lamp, 19 ... System maintenance screen, 20 ... "Dimming sensor calibration" button, 21 ... Dimming sensor control sensor calibration screen, 22 ... "Calibration circuit selection screen" button, 23 ... Calibration circuit selection screen , 24 ... "Batch address" button, 25 ... "Address #""..." button, 26 ... "system" button, 27 ... "address" button, 28 ... "select all screen circuit" button, 29 ... "screen return" button, 30 ... "sensor calibration" button

Claims (2)

Select a light control sensor to be calibrated at the time of calibration of the light control sensor, set a predetermined calibration illuminance value, output it as calibration information, and set the illuminance target value of the lamp mounted on the light control device that constitutes the illumination load. Setting means to set;
A central control device for transmitting the calibration information and the illuminance target value set by the setting means to the transmission line;
When calibration information is received from the central control unit via the transmission line, the lamp is dimmed at a predetermined level, and the detected value detected by the dimming sensor at that time is used for calibration illuminance. The light control sensor is calibrated as a value, and after the light control sensor is calibrated, the illuminance detection value detected by the light control sensor matches the illuminance target value received from the central controller via the transmission line. A dimming terminal for dimming control of the lighting load;
A lighting control system comprising:   The illumination control system according to claim 1, wherein the setting unit selects calibration information for each dimming sensor having the same calibration illuminance value and sets calibration information.

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