JP3733787B2 - Lighting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a lighting device.
[0002]
[Prior art]
  A schematic configuration diagram of a conventional lighting device is shown in FIG. 20, and a block diagram is shown in FIG. The lighting device includes a plurality of lighting fixtures 10 each including a dimming lighting unit 11 that dimms and lights the lamp 12 according to a dimming signal S1 input via a lamp 12 such as a fluorescent lamp and a signal line L1, for example. A brightness sensor 3 for detecting the brightness of the illuminated surface by receiving reflected light from the illuminated surface (for example, the floor surface 30 near the control unit 1) by the light of the lamp 12, and a plurality of lighting fixtures 10. The control unit 1 is connected via the signal line L1 and controls the dimming state of each lighting fixture 10. The control unit 1 is a contact signal or brightness sensor input from an external device (not shown). The dimming signal S1 output to the signal line L1 is changed according to the detected value S3 of 3, and the output of the dimming lighting unit 11 is controlled.
[0003]
  Here, in the control mode of the control unit 1, dimming is performed so that the brightness of the irradiated surface becomes substantially constant brightness (illuminance) according to the brightness of the irradiated surface detected by the brightness sensor 3. Regardless of the control mode for controlling the output of the lighting unit 11 (hereinafter, this control mode is referred to as a constant illuminance control mode) and the detection value S3 of the brightness sensor 3, the dimming lighting unit 11 is set to a substantially constant dimming ratio ( Two control modes of a control mode (hereinafter, this control mode is referred to as a constant output control mode) controlled by a dimming level)
There is.
[0004]
  Normally, the control unit 1 operates in the constant illuminance control mode, and controls the output of the dimming lighting unit 11 so that the brightness of the irradiated surface detected by the brightness sensor 3 becomes substantially constant brightness. Yes. Here, for example, when a contact signal is input to the control unit 1 from an external device such as an illumination control panel in an emergency, the control unit 1 outputs a control mode from the constant illuminance control mode to a constant output according to the input contact signal. Switching to the control mode, the dimming lighting unit 11 was controlled with a preset dimming ratio (for example, 100% lighting) regardless of the detection value S3 of the brightness sensor 3 (see, for example, Japanese Patent Laid-Open No. 10-3290). ).
[0005]
[Problems to be solved by the invention]
  In the lighting device having the above configuration, the control unit 1 operates only in the normal constant illuminance control mode, and when a contact signal is input from an external device in an emergency, the control mode is switched only to the constant output control mode. Therefore, even if a person in the illumination space of the lamp 12 wants to light the dimming / lighting unit 11 at a substantially constant dimming ratio, the dimming / lighting is performed when the control unit 1 is operating in the constant illuminance control mode. Since the output of the unit 11 changes, there is a problem that the dimming lighting unit 11 cannot be lit at a substantially constant dimming ratio. Further, since the external device can only switch the control mode of the control unit 1 to the constant output control mode, it cannot be operated in the control mode according to the use state, and there is a problem that the usability is not good. . In consideration of the case where all the lamps 12 of all the lighting fixtures 10 are turned on in an emergency, the control unit 1 sets the dimming lighting unit 11 to a substantially constant dimming ratio (for example, 100%) according to the contact signal from the external device. A constant output control mode that controls the lighting) was also necessary.
[0006]
  The control unit 1 stores in advance dimming data indicating the relationship between the dimming signal S1 to be output to the dimming lighting unit 11 and the dimming ratio. Since the light lower limit is different, it is necessary to switch the light control data to the corresponding light control data according to the type of the light control lighting unit 11. Therefore, the type of the dimming lighting unit 11 connected to the control unit 1 is specified at the time of product shipment, and the dimming data according to the type is set in the control unit 1 and shipped, or the control unit 1 is installed on site. It is necessary to perform setting operations such as a setting switch provided in the control unit 1 to set the dimming data according to the type of the corresponding dimming lighting unit 11 in the control unit 1. There was a problem of being bad.
[0007]
  The present invention has been made in view of the above problems, and an object of the present invention is to provide an illuminating device capable of selecting a control mode according to a use state..
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, according to the first aspect of the present invention, the brightness of the lamp and the lighting fixture comprising the dimming lighting means for dimming the lamp and the brightness of the irradiated surface to which the lamp light is irradiated are detected.RuWith Rusa sensor, MingA constant illuminance control mode for controlling the dimming lighting means so that the detected value of the rusa sensor has a substantially constant brightness.HaControl means for controlling the dimming lighting means in any one of the constant output control modes for controlling the dimming lighting means at a substantially constant dimming level regardless of the detection value of the length sensor, and input from the outside Control mode switching means for switching the control mode of the control means to either the constant illuminance control mode or the constant output control mode in response to the mode switching signal, And one or a plurality of contact input units to which contact signals for switching the dimming state of the dimming lighting unit from the outside are input, and the control mode switching unit is provided when the contact signal is input to the contact input unit. Set the control mode according to the mode switching signal.Since the control mode switching means switches the control mode of the control means to the constant output control mode or the constant illuminance control mode according to the mode switching signal, the control mode can be easily switched, A control mode can be selected according to the use state.Moreover, since the control mode when the contact signal is input is set by the mode switching signal, the control mode corresponding to the use state can be selected even when the dimming state is controlled from the outside.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
  Embodiments of the present invention will be described with reference to the drawings.
[0010]
  (Basic configuration)
  Figure 1Shows the basic configuration of the lighting deviceIt is a block diagram. This lighting device is, for example, a fluorescent lamp.
A plurality of lighting fixtures 10 including a lamp 12 and a dimming lighting unit (a dimming lighting means) 11 for dimming and lighting the lamps 12 are connected to the plurality of lighting fixtures 10 via signal lines L1. A first control unit (control means) 1 for controlling the dimming state of the light source 10 and a first light for detecting the brightness of the irradiated surface by receiving the reflected light from the irradiated surface (for example, floor surface) by the light of the lamp 12; And a wireless signal for transmitting a mode switching signal for switching the control mode of the control unit 1 by a wireless signal (for example, an optical signal such as an infrared ray) according to an operation. The transmitting unit 5 and the wireless signal receiving unit 4 as a mode switching signal receiving unit that receives the mode switching signal transmitted by the wireless signal from the wireless signal transmitting unit 5 are configured.
[0011]
  The control unit 1 changes the dimming signal S1 output to the signal line L1 according to the mode switching signal S2 received by the wireless signal receiving unit 4 and the detection value S3 of the brightness sensor 3, and the dimming lighting unit 11 Control the output. Here, the control mode of the control unit 1 is adjusted so that the brightness (illuminance) of the illuminated surface is substantially constant according to the brightness (illuminance) of the illuminated surface detected by the brightness sensor 3. 2 of a constant illuminance control mode for controlling the light lighting unit 11 and a constant output control mode for controlling the light control lighting unit 11 at a substantially constant light control ratio (light control level) irrespective of the detection value S3 of the brightness sensor 3. There are two control modes. Normally, the control unit 1 operates in one of the constant illuminance control mode or the constant output control mode, and controls the output of the dimming / lighting unit 11.
[0012]
  Here, when the user operates the wireless signal transmission unit 5, the wireless signal transmission unit 5 transmits a mode switching signal by a wireless signal according to the user's operation, and the mode switching signal transmitted from the wireless signal transmission unit 5 is wirelessly transmitted. The signal receiving unit 4 receives the signal. The wireless signal receiving unit 4 outputs the received mode switching signal S2 to the control unit 1. When the mode switching signal S2 is input from the wireless signal receiving unit 4, the control unit 1 serving as a control mode switching unit receives the current control. The control mode is switched to a control mode different from the mode.
[0013]
  That is, as shown in FIG. 2, while the control unit 1 is operating in the constant output control mode, the wireless signal receiving unit 4 receives the mode switching signal transmitted from the wireless signal transmitting unit 5, and the received mode switching signal S2 is received. When output to the control unit 1, the control unit 1 switches the operation mode from the constant output control mode to the constant illuminance control mode. When the control unit 1 is operating in the constant illuminance control mode, the wireless signal receiving unit 4 receives the mode switching signal transmitted from the wireless signal transmitting unit 5 and outputs the received mode switching signal S2 to the control unit 1. The control unit 1 switches the operation mode to the constant output control mode.
[0014]
  Thus, since the control mode of the control unit 1 can be switched by the operation of the wireless signal transmission unit 5, an optimal control mode can be selected according to the use state.
[0015]
  (Reference Example 1)
  In FIG.Reference exampleThe block diagram of the illuminating device is shown.Basic configuration described aboveIn the lighting apparatus, the wireless signal receiving unit 4 that receives the mode switching signal transmitted by the wireless signal is provided, and the control unit 1 switches the control mode according to the mode switching signal received by the wireless signal receiving unit 4. ,Reference exampleThenBasic configuration described aboveIn the lighting apparatus, the control unit 1 is provided with a switch 6 that switches a contact state in response to a switching operation (on / off operation) instead of the wireless signal receiving unit 4, and the control unit in accordance with the contact state of the switch 6 1 switches the control mode. The configuration other than the switch 6 isBasic configuration lighting deviceTherefore, the same components are denoted by the same reference numerals, and the description thereof is omitted.
[0016]
  Here, the control unit 1 switches the control mode to either the constant illuminance control mode or the constant output control mode according to the contact state of the switch 6. For example, as shown in FIG. If the input S4) is on, the control unit 1 operates in the constant output control mode. If the contact state of the switch 6 is off, the control unit 1 operates in the constant illuminance control mode.
[0017]
  In this way, the control mode of the control unit 1 can be easily switched to either the constant illuminance control mode or the constant output control mode by turning on / off the switch 6, so that the optimum control mode according to the use state Can be selected. Further, since the control mode is selected by turning on / off the switch 6, the current control mode of the control unit 1 can be easily confirmed from the switching state of the switch 6.
[0018]
  (Reference Example 2)
  In FIG.Another reference exampleThe block diagram of is shown.Basic configuration described aboveIn the lighting apparatus, the wireless signal receiving unit 4 that receives the mode switching signal transmitted by the wireless signal is provided, and the control unit 1 switches the control mode according to the mode switching signal received by the wireless signal receiving unit 4. ,Reference exampleThenBasic configuration described aboveIn the illuminating device, in place of the wireless signal receiving unit 4, a human sensor 7 made of, for example, a pyroelectric sensor is provided to detect the presence or absence of a person in the detection area by detecting a heat ray radiated from the human body, The control unit 1 switches the control mode according to the detection signal S5 of the human sensor 7. The configuration other than the human sensor 7 isBasic configuration lighting deviceTherefore, the same components are denoted by the same reference numerals, and the description thereof is omitted.
[0019]
  Normally, the control unit 1 operates in the constant output control mode, and controls the dimming lighting unit 11 with a substantially constant dimming ratio (dimming level). For example, as shown in FIG. 6, when the human sensor 7 detects the presence of a person at time t <b> 1 and the detection signal S <b> 5 of the human sensor 7 is input to the control unit 1, the control unit 1 sets the control mode to constant output control. While switching from the mode to the constant illuminance control mode, an internal timer (not shown) provided in the control unit 1 starts a time limit operation for a predetermined operation holding time T1. When the time limit operation of the internal timer ends, the control unit 1 switches the control mode from the constant illuminance control mode to the constant output control mode. Here, when the human sensor 7 detects the person again during the time limit operation of the internal timer and the detection signal of the human sensor 7 is input to the control unit 1, the internal timer is retriggered, and the operation holding time from that time point. Since the time limit operation of T1 is resumed, the time for operating in the constant illuminance control mode is extended.
[0020]
  Thus, since the control mode of the control unit 1 can be switched to the constant illuminance control mode or the constant output control mode according to the detection signal of the human sensor 7, that is, the presence or absence of a person, the control mode depends on the use state. Can be selected automatically.
[0021]
  (Reference Example 3)
  FIG.Another reference exampleFIG.Basic configuration described aboveIn the lighting apparatus, the wireless signal receiving unit 4 that receives the mode switching signal transmitted by the wireless signal is provided, and the control unit 1 switches the control mode according to the mode switching signal received by the wireless signal receiving unit 4. ,Reference exampleThenBasic configuration described aboveIn the lighting apparatus of FIG. 2, a second brightness sensor (hereinafter referred to as a brightness sensor) 8 that detects ambient brightness only by outside light other than the light of the lamp 12 is provided instead of the wireless signal receiver 4. The control unit 1 switches the control mode according to the detection value S6 of the brightness sensor 8. The configuration other than the brightness sensor 8 isBasic configuration lighting deviceTherefore, the same components are denoted by the same reference numerals, and the description thereof is omitted.
[0022]
  Here, as shown in FIG. 8, when the ambient brightness detected by the brightness sensor 8 is darker than the predetermined threshold level L1, the control unit 1 operates in the constant output control mode, and the brightness sensor 8 When the ambient brightness detected by becomes equal to or higher than the threshold level L1, the control unit 1 operates in the constant illuminance control mode.
[0023]
  By the way, in the case where the ambient illuminance due to external light is dark and the control unit 1 is operating in the constant illuminance control mode, the dimming / lighting unit 11 has the brightness of the illuminated surface set to a predetermined level. Although the output may increase, when the detection value S6 of the brightness sensor 8 becomes darker than the threshold level L1, the control unit 1 switches the control mode from the constant illuminance control mode to the constant output control mode. The dimming lighting unit 11 can be controlled to a substantially constant dimming ratio, and an increase in the output can be prevented.
[0024]
  When the ambient light is brightened by the external light and the detection value S6 of the brightness sensor 8 is equal to or higher than the threshold level L1, the control unit 1 switches the control mode from the constant output control mode to the constant illuminance control mode, and Since the output of the dimming / lighting unit 11 is controlled so that the brightness of the light is substantially constant, the output of the dimming / lighting unit 11 is reduced when the surroundings are bright, and energy saving can be achieved. Thus, since the control unit 1 switches the control mode according to the ambient brightness, the optimal control mode can be selected according to the use state.
[0025]
  still,Reference exampleThen, in addition to the brightness sensor 3 that detects the brightness of the irradiated surface, a brightness sensor 8 that detects only the brightness of the outside light is provided, and the control unit 1 determines the brightness sensor 8 according to the detection value S6. Although the control mode is switched, the control mode may be switched in accordance with the detection value S3 of the brightness sensor 3 that detects the brightness of the irradiated surface, and the same effect as described above can be obtained.
[0026]
  That is, as shown in FIG. 9, the brightness of the irradiated surface is the brightness of only the light of the lamp 12 of the lighting fixture 10, and the detection value S3 of the brightness sensor 3 is darker than the predetermined threshold level L2. In this case, the control unit 1 operates in the constant output control mode. On the other hand, the ambient light is brightened by the external light, the brightness of the irradiated surface becomes the brightness by both the light of the lamp 12 and the external light, and the detection value S3 of the brightness sensor 3 is equal to or higher than a predetermined threshold level L2. In this case, the control unit 1 operates in the constant illuminance control mode.
[0027]
  (Reference Example 4)
  FIG.Yet another reference exampleFIG.Basic configuration described aboveIn the lighting apparatus, the wireless signal receiving unit 4 that receives the mode switching signal transmitted by the wireless signal is provided, and the control unit 1 switches the control mode according to the mode switching signal received by the wireless signal receiving unit 4. ,Reference exampleThenBasic configuration described aboveIn this lighting apparatus, instead of the wireless signal receiving unit 4, an illumination control panel 9 is provided as a timer for generating a mode switching signal S7 at a preset date and time, and the control unit 1 is a mode generated by the illumination control panel 9. The control mode is switched according to the switching signal S7. The configuration other than the lighting control panel 9 isBasic configuration lighting deviceTherefore, the same components are denoted by the same reference numerals, and the description thereof is omitted.
[0028]
  Here, as shown in FIG. 11, the lighting control panel 9 generates the mode switching signal S7 at preset times (for example, 9:00 am (9:00) and 6:00 pm (18:00)). The control unit 1 operates in the constant illuminance control mode during the daytime from 9:00 am to 6:00 pm, and operates in the constant output control mode at night from 6:00 pm to 9:00 am. Thus, since the control unit 1 switches the control mode according to the mode switching signal S7 input from the illumination control panel 9 at a predetermined time, the control mode can be switched according to the time zone.
[0029]
  As shown in FIG. 12, the mode switching signal S7 input from the lighting control panel 9 may be a contact signal (ON / OFF signal), and the mode switching signal S7 is turned off during the daytime from 9:00 am to 6:00 pm. The control unit 1 switches the control mode to the constant illuminance control mode according to the mode switching signal S7, and turns on the mode switching signal S7 at night from 6:00 pm to 9:00 am, and the control unit 1 switches the mode switching signal S7. Depending on, the control mode may be switched to the constant illuminance control mode.
[0030]
  (Embodiment)
  FIG. 13 is a block diagram of the illumination device of this embodiment. In this embodiment,Basic configuration described aboveIs provided with an illumination control panel 9 that outputs one or more contact signals for switching the dimming state of each dimming / lighting unit 11 to the control unit 1, and the control unit 1 includes the illumination control panel 9. The dimming state of the dimming lighting unit 11 is switched in accordance with the contact signal input from. The configuration other than the lighting control panel 9 isBasic configuration described aboveTherefore, the same components are denoted by the same reference numerals, and the description thereof is omitted.
[0031]
  Further, as shown in FIG. 14, the control unit 1 includes contact signal input circuits (contact signal input units) 24 a to which one to a plurality of (for example, three) contact signals S <b> 8 to S <b> 10 are input from the illumination control panel 9. 24c, the dimming / lighting unit 11 according to the detected value S3 of the brightness sensor 3, the contact signals S8 to S10 input to the contact signal input circuits 24a to 24c, and the mode switching signal S2 received by the wireless signal receiving unit 4, respectively. The CPU 21 generates a control signal for controlling the output of the CPU 21, the dimming signal output circuit 22 for outputting the dimming signal S1 corresponding to the control signal of the CPU 21, and the CPU 21 and the dimming signal output circuit 22 that are supplied with power from the commercial power source AC. And a power supply circuit 23 that generates an operating power supply.
[0032]
  As a control mode of the control unit 1,Basic configuration lighting deviceSimilarly, there are two control modes, a constant illuminance control mode and a constant output control mode. Normally, the control unit 1 operates in the constant output control mode, and controls the output of the dimming / lighting unit 11 to a predetermined dimming ratio. On the other hand, when the contact signals S8 to S10 are input from the illumination control panel 9, the control unit 1 operates in a preset control mode, and in the constant output control mode, the dimming lighting unit 11 is connected to each contact signal S8 to S8. Control is performed with dimming ratios corresponding to S10. In the constant illumination control mode, the brightness of the irradiated surface corresponds to each contact signal S8 to S10.
The output of the dimming / lighting unit 11 is controlled so that the brightness is as high as possible.
[0033]
  Here, the control unit 1 is provided with a memory (not shown) for storing whether to operate in the constant output control mode or the constant illuminance control mode when the contact signals S8 to S10 are input. The control unit 1 alternately switches the memory setting to the constant illuminance control mode or the constant output control mode in accordance with the mode switching signal S2 received by the wireless signal receiving unit 4.
[0034]
  For example, as shown in FIG. 15, the control mode when the contact signals S8 to S10 are input is set to the constant output control mode, and the user is wireless at time t2 in a state where the contact signals S8 to S10 are not input. When the signal transmission unit 5 is operated and the wireless signal reception unit 4 receives the mode switching signal S2 transmitted by the wireless signal from the wireless signal transmission unit 5, the CPU 21 responds to the mode switching signal S2 received by the wireless signal reception unit 4. Switches the memory setting from constant output control mode to constant illuminance control mode.
[0035]
  Next, when the contact signals S8 to S10 are input to any of the contact signal input circuits 24a to 24c at time t3, the CPU 21 operates in the control mode set in the memory, that is, the constant illuminance control mode, and the brightness sensor 3 The output of the dimming / lighting unit 11 is controlled so that the detected illuminance of the irradiated surface becomes the illuminance corresponding to the input contact signals S8 to S10. Thereafter, when the contact signals S8 to S10 are turned off at time t4, the CPU 1 switches the control mode from the control mode at the time of contact signal input (constant illuminance control mode) to the normal control mode (constant output control mode).
[0036]
  By the way, in the example shown in FIG. 15, the operation mode at the time of contact signal input is switched in a state where the contact signals S8 to S10 are not input, but in a state where any one of the contact signals S8 to S10 is input, The operation mode may be switched when the contact signal is input.
[0037]
  As shown in FIG. 16, in the state where the control mode at the time of inputting the contact signals S8 to S10 is set to the constant output control mode, the contact signal S8 to S10 is sent to any one of the contact signal input circuits 24a to 24c at time t5. Is input, the CPU 21 operates in the control mode set in the memory, that is, the constant output control mode, and corresponds to the input contact signals S8 to S10 regardless of the illuminance of the irradiated surface detected by the brightness sensor 3. The output of the dimming lighting unit 11 is controlled to the dimming ratio.
[0038]
  Next, when the user operates the wireless signal transmission unit 5 at time t6 and the wireless signal reception unit 4 receives the mode switching signal S2 transmitted from the wireless signal transmission unit 5 by the wireless signal, the reception of the wireless signal reception unit 4 is performed. In response to the mode switching signal S2, the CPU 21 switches the memory setting from the constant output control mode to the constant illuminance control mode and operates in the constant illuminance control mode. At this time, CPU21 controls the output of the light control lighting part 11 so that it may become the illumination intensity corresponding to contact signal S8-S10 into which the illumination intensity of the to-be-irradiated surface which the brightness sensor 3 detected was input. Thereafter, when the contact signals S8 to S10 are turned off at time t7, the CPU 1 switches the control mode from the control mode at the time of contact signal input (constant illuminance control mode) to the normal control mode (constant output control mode).
[0039]
  As described above, by operating the wireless signal transmission unit 5, the control mode of the control unit 1 when the contact signals S8 to S10 are input from the illumination control panel 9 can be switched. Various control modes can be selected. In this embodiment, when the wireless signal receiving unit 4 receives the mode switching signal S2 transmitted from the wireless signal transmitting unit 5 as a wireless signal, the CPU 21 switches the control mode when the contact signal is input.Reference Examples 1-4As described above, the control mode when the contact signal is input may be switched according to the mode switching signal input from the switch 6, the human sensor 7, the brightness sensor 8, or the illumination control panel 9. Further, when the wireless signal receiving unit 4 receives the wireless signal transmitted from the wireless signal transmitting unit 5, the CPU 21 may reproduce the operation when the contact signal is input.
[0040]
  (Reference Example 5)
  FIG.Other reference examplesIt is a block diagram of the control part 1 which comprises. The control unit 1 generates a control signal for controlling the output of the dimming lighting unit 11 according to the detection value S3 of the brightness sensor 3 and the mode switching signal S2 received by the wireless signal receiving unit 4, and the control of the CPU 21 A dimming signal output circuit 22 that outputs a dimming signal S1 according to the signal, a power supply circuit 23 that is supplied with power from a commercial power supply AC and generates an operating power source such as the CPU 21 and the dimming signal output circuit 22, and a dimming lighting unit The memory 21 stores a plurality of dimming data in which the relationship between the dimming signal S1 and the dimming ratio is set in accordance with the 11 types, and the CPU 21 receives the mode switching signal S2 received by the wireless signal receiving unit 4. The control mode is switched to either the constant illuminance control mode or the constant output control mode according to the above. The configuration other than the control unit 1 isBasic configuration lighting deviceTherefore, the same components are denoted by the same reference numerals and the description thereof is omitted.
[0041]
  Here, in the memory 25, as shown in FIG. 19, the dimming data I-1, I-, in which the relationship between the dimming signal S1 and the dimming ratio is set according to the type of the dimming lighting unit 11, respectively. 2, II-1 and II-2 are stored. FIG. 18 is an external view of the wireless signal transmission unit 5, and the device of the wireless signal transmission unit 5 is used for selecting the dimming data I-1, I-2, II-1, and II-2. Dimming data I-1, I-2, II-1, II selected by a selection key 5a, a display unit 5b such as a liquid crystal monitor for displaying dimming data stored in the memory 25, or the selection key 5a -2 is determined, and a transmission key 5c is provided for transmitting a selection signal indicating the selected dimming data to the wireless signal receiving unit 4 by a wireless signal.
[0042]
  For example, when the user selects the dimming data I-2 using the selection key 5a of the wireless signal transmission unit 5 and then operates the transmission key 5c, the wireless signal transmission unit 5 uses the wireless signal to control the dimming data I-2. The wireless signal receiving unit 4 serving as the selection signal receiving unit receives the selection signal transmitted from the wireless signal transmitting unit 5. At this time, the CPU 21 performs dimming control thereafter using the dimming data I-2 stored in the memory 25 in accordance with the selection signal received by the wireless signal receiving unit 4.
[0043]
  As described above, since the dimming data can be easily switched by operating the wireless signal transmission unit 5, even when the control unit 1 is used in combination with various types of dimming lighting units 11, dimming is performed after installation. Data can be selected and workability is improved. The configuration of this reference exampleEmbodiments described above and Reference Examples 1-4May apply toReference exampleHas the same effect.
[0044]
【The invention's effect】
  As described above, the invention of claim 1 detects the brightness of a lamp and a lighting fixture comprising dimming lighting means for dimming the lamp, and the brightness of the irradiated surface irradiated with the lamp light.RuWith Rusa sensor, MingA constant illuminance control mode for controlling the dimming lighting means so that the detected value of the rusa sensor has a substantially constant brightness.HaControl means for controlling the dimming lighting means in any one of the constant output control modes for controlling the dimming lighting means at a substantially constant dimming level regardless of the detection value of the length sensor, and input from the outside Control mode switching means for switching the control mode of the control means to either the constant illuminance control mode or the constant output control mode in response to the mode switching signal, And one or a plurality of contact input units to which contact signals for switching the dimming state of the dimming lighting unit from the outside are input, and the control mode switching unit is provided when the contact signal is input to the contact input unit. Set the control mode according to the mode switching signal.Since the control mode switching means switches the control mode of the control means to the constant output control mode or the constant illuminance control mode according to the mode switching signal, the control mode can be easily switched, There is an effect that a control mode can be selected according to the use state.In addition, since the control mode at the time of contact signal input is set by the mode switching signal, there is an effect that the control mode corresponding to the use state can be selected even when the dimming state is controlled by the contact signal from the outside.
[Brief description of the drawings]
[Figure 1]Basic configuration of lighting device according to the present inventionFIG.
FIG. 2 is a time chart for explaining the operation described above.
[Fig. 3]Reference example 1FIG.
FIG. 4 is a time chart illustrating the operation described above.
[Figure 5]Reference example 2FIG.
FIG. 6 is a time chart for explaining the operation described above.
[Fig. 7]Reference example 3It is a block diagram of the illuminating device.
FIG. 8 is a time chart for explaining the operation described above.
FIG. 9 is a time chart for explaining another operation of the above.
FIG. 10Reference example 4It is a block diagram of the illuminating device.
FIG. 11 is a time chart for explaining the operation described above.
FIG. 12 is a time chart for explaining another operation of the above.
FIG. 13One embodiment of the lighting deviceIt is a block diagram.
FIG. 14 is a block diagram of a control unit constituting the illumination device of the above.
FIG. 15 is a time chart for explaining the operation described above.
FIG. 16 is a time chart for explaining another operation of the above.
FIG. 17Reference Example 5It is a block diagram of the control part which constitutes.
FIG. 18 is a diagram for explaining storage contents of a memory provided in the control unit.
FIG. 19 is an external view of a wireless signal transmission unit that constitutes the illumination device of the above.
20A and 20B show a conventional illumination device, in which FIG. 20A is a schematic configuration diagram, and FIG. 20B is a bottom view of a control unit.
FIG. 21 is a block diagram of the above.
[Explanation of symbols]
1 Control unit
3 Brightness sensor
4 Wireless signal receiver
5 Wireless signal transmitter
10 Lighting equipment
11 Light control lighting
12 lamps
L1 signal line
S1 Dimming signal

Claims (1)

Substantially a luminaire comprising a light control lighting means for the lamp and lamp lighting dimmer, a sensor Is Brightness you detect the brightness of the illuminated surface of the lamp light is irradiated, the detection value of Is Ru light sensor among the constant power control mode for controlling the constant illuminance control mode or the detection value and dimming lighting means at a substantially constant dimming level unrelated is Ru bright sensor for controlling the dimming lighting means to be constant brightness Control means for controlling the dimming lighting means in any of the control modes, and a control mode for switching the control mode of the control means to either the constant illuminance control mode or the constant output control mode in accordance with a mode switching signal input from the outside Switching means and one or more contact input parts to which a contact signal for switching the dimming state of the dimming lighting means from the outside is input, and the control mode switching means has a contact signal at the contact input part. Entered Lighting device control mode and setting in response to the mode switching signal.

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