JP4442098B2 - Lighting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting device, and more particularly to a lighting device having a control function such as dimming.
[0002]
[Prior art]
A conventional example of this type of lighting device is disclosed in Japanese Patent Application Laid-Open No. 11-74088. This includes a brightness sensor that detects the brightness of the work surface, a light control means that controls the light control amount of the illumination load, and a light control means that maintains the brightness detected by the brightness sensor at a target value. Control means for instructing the dimming amount of the illumination load, dimming support means for instructing the dimming means to adjust the light intensity of the lighting load by manual operation of the operation switch, and dimming means for adjusting the dimming amount by the control means Is operated in the constant illuminance mode, and when the operation switch is operated, priority control means that operates in the illuminance variable mode that gives the dimming amount by the dimming instruction means to the dimming means, and gives a return instruction to the priority control means Return means for returning from the variable illuminance mode to the constant illuminance mode. According to this configuration, the lighting load is normally dimmed to maintain the brightness detected by the brightness sensor at the target value, and the dimming amount is changed when the operation switch of the dimming instruction unit is operated. be able to.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-74088
[Problems to be solved by the invention]
By the way, in an illumination use space such as an office or a store space, there are cases where a plurality of illumination devices as in the conventional example are installed and controlled by dividing them into control units. On the other hand, since the layout change of the lighting usage space is performed regardless of the control unit, when the lighting device as in the conventional example is used, the wiring work between the lighting devices is performed every time the layout is changed, and the control unit There was a need to make changes.
[0005]
This invention is made | formed in view of this reason, The place made into the objective is providing the illuminating device which can change a control unit easily.
[0006]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is provided a lighting device including a lamp and a dimming / lighting means for dimming and lighting the lamp, a brightness sensor, and a first output in response to an output from the brightness sensor. In a lighting device comprising a combination of a control terminal that outputs a dimming signal from the port to the dimming lighting means and controls the dimming lighting means , both of which are bright A first control terminal having a sensor, a first output port, and a control unit, and a second control terminal, the first control terminal receiving an dimming signal from the second control terminal When the dimming signal from the second control terminal is not input to the input port, the dimming signal is output to the predetermined lighting fixture in response to the output from the brightness sensor of the first control terminal, and the second When the dimming signal from the control terminal is input to the input port Preferentially comprises a second output port for outputting the dimming signals from the second control terminal to a predetermined luminaire, a second control terminal, the dimming signal to the input port of the first control terminal In addition to a lighting fixture that is dimmed and controlled by a dimming signal from the first output port, a predetermined lighting fixture that is dimmed and controlled by a dimming signal input to the input port is provided. characterized in that also it shall include in its control unit.
[0007]
According to a second aspect of the present invention, in the first aspect of the present invention, the control unit turns ON / OFF the output of the dimming signal from the second output port. The invention according to claim 1 or 2, wherein the first control terminal includes a remote control receiving unit that receives a dimming signal from a remote controller and outputs the dimming signal to the control unit. When the dimming signal is input to the input port from the second control terminal, the control terminal can control the dimming from the second control terminal even if the dimming signal from the remote control receiving unit is input to the control unit. The signal is output from the second output port with priority.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
An embodiment of the first embodiment will be described with reference to FIGS. FIG. 1 is a block diagram of the illumination device of the present embodiment. FIG. 2 is a diagram illustrating a first example of a combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a. FIG. 3 is a diagram illustrating a second example of the combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a. FIG. 4 is a diagram showing a flow of this embodiment. FIG. 5 is a diagram illustrating a third example of the combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a. FIG. 6 is a diagram illustrating a fourth example of the combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a.
[0009]
The illuminating device of this embodiment includes a luminaire 3 including a lamp 1 shown in FIG. 1 and dimming lighting means 2 for dimming and lighting the lamp 1, a brightness sensor 4, and a brightness sensor 4. The control unit 6 that receives the dimming signal from the first output port 5 and outputs the dimming signal from the first output port 5 to the dimming lighting unit 2 to control the dimming lighting unit 2, and the power source that supplies power to the control unit 6 And a first control terminal 8 having a unit 7, and as shown in FIG. 2, the first control terminal 8 is an input port that receives a dimming signal from the second control terminal 8a. 9 and when the dimming signal from the second control terminal 8a is not input to the input port 9, an output from the brightness sensor 4 of the first control terminal 8 is received and the dimming signal is sent to the predetermined lighting fixture 3. When the dimming signal from the second control terminal 8a is input to the input port 9, the second control terminal is preferentially used. And a second output port 11 for outputting a dimming signal from the control terminal 8a to a predetermined lighting fixture 3.
[0010]
The lamp 1 is, for example, a straight tube type fluorescent lamp. The dimming / lighting means 2 is connected to the lamp 1 for dimming / lighting the lamp 1. The dimming / lighting means 2 has an inverter circuit, for example, and adjusts the lamp current flowing through the lamp 1 by an external dimming signal. By doing so, the light is dimmed. The luminaire 3 is a housing that holds the lamp 1 and houses the dimming / lighting means 2, and is formed using a material such as an iron plate. The brightness sensor 4 converts, for example, the brightness around the luminaire 3 into an electrical quantity and outputs it using a phototransistor or the like.
[0011]
The control unit 6 includes a microcomputer. When the dimming signal from the second control terminal 8a is not input from the input port 9, the control unit 6 outputs a dimming signal corresponding to the output of the brightness sensor 4 of the first control terminal 8. When the dimming signal is output to the first output port 5 and the second output port 11 and the dimming signal from the second control terminal 8a is input to the input port 9, it is preferentially sent from the second control terminal 8a. A dimming signal is output to the second output port 11, and is connected to the power supply unit 7, the brightness sensor 4, the first output port 5, the input port 9, and the second output port 11.
[0012]
Moreover, the lighting fixture 3, the 1st control terminal 8, and the 2nd control terminal 8a are connected by the combination as shown in FIG. 2, and comprise the control units 12a and 12b. That is, four lighting fixtures 3 are connected to the first output port 5 of the second control terminal 8a. In the vicinity of the second output port 11 of the second control terminal 8a, a wiring 16 connected to the input port 9 of the first control terminal 8 is connected to the second output port 11 of the second control terminal 8a. Is not connected to the second output port 11 of the second control terminal 8a. Two lighting fixtures 3 are connected to the first output port 5 of the first control terminal 8, and two lighting fixtures are also connected to the second output port 11 of the first control terminal 8. 3 is connected.
[0013]
Next, the basic operation of this embodiment will be described with reference to FIG. The lamp 1 is lit and emits light upon receiving power from the dimming / lighting means 2. The brightness sensor 4 receives the light output of the lamp 1 and outputs an amount of electricity corresponding to the light output to the control unit 6. When the dimming signal from the second control terminal 8a is not input to the input port 9, the control unit 6 receives the output from the brightness sensor 4 so that the light output becomes a preset target value. Dimming control is performed by outputting a dimming signal from the first output port 5 and the second output port 11 to the dimming lighting means 2.
[0014]
Next, the operation in the control units 12a and 12b shown in FIG. 2 will be described. A dimming signal corresponding to the output of the brightness sensor 4 (not shown in FIG. 2) of the second control terminal 8a is output from the first output port 5 of the second control terminal 8a. The four lighting fixtures 3 connected to the output port 5 are dimmed. Further, a dimming signal corresponding to the output of the brightness sensor 4 (not shown in FIG. 2) of the first control terminal 8 is output from the first output port 5 of the first control terminal 8, Dimming control is performed on two lighting fixtures 3 connected to one output port 5. At the same time, a dimming signal corresponding to the output of the brightness sensor 4 of the first control terminal 8 is also output from the second output port 11 of the first control terminal 8. The dimming control is performed on the two lighting fixtures 3 connected to the two output ports 11. That is, dimming control is performed in the control unit 12a and the control unit 12b by performing dimming control of the four lighting fixtures 3 in both the second control terminal 8a and the first control terminal 8.
[0015]
Next, as shown in FIG. 3, the four lighting fixtures 3 connected to the first output port 5 of the second control terminal 8a and the second output port 11 of the first control terminal 8 are connected. When the lighting unit 3 is controlled by the control unit 12c including the two lighting units 3 and the control unit 12d including the two lighting units 3 connected to the first output port 5 of the first control terminal 8. For this, the wiring 16 connected to the input port 9 of the first control terminal 8 is connected to the second output port 11 of the second control terminal 8a.
[0016]
In this state, a dimming signal corresponding to the output of the brightness sensor 4 (not shown in FIG. 2) of the second control terminal 8a is output from the first output port 5 of the second control terminal 8a. The four lighting fixtures 3 connected to the first output port 5 of the second control terminal 8a are dimmed and controlled. The dimming signal from the second control terminal 8 a is input to the input port 9 of the first control terminal 8, and the second control port 8 receives the second control port 11 from the second output port 11 of the first control terminal 8. A dimming signal is output from the terminal 8a. Thereby, dimming control of the two lighting fixtures 3 connected to the 2nd output port 11 of the 1st control terminal 8 is carried out by the 2nd control terminal 8a. Further, a dimming signal corresponding to the output of the brightness sensor 4 of the first control terminal 8 is output from the first output port 5 of the first control terminal 8, and the first control terminal 8 has the first output. The two lighting fixtures 3 connected to the output port 5 are controlled in dimming. That is, the second control terminal 8a performs dimming control of the control unit 12c composed of six lighting fixtures 3, and the first control terminal 8 performs dimming control of the control unit 12d composed of two lighting fixtures 3. The above operation will be described using the flow of FIG. 4. When the dimming signal from the second control terminal 8 a is not input to the input port 9 of the first control terminal 8, Dimming control is performed by a dimming signal corresponding to the output of the brightness sensor 4, and the brightness of the first control terminal 8 is transmitted from the first output port 5 and the second output port 11 of the first control terminal 8. A dimming signal corresponding to the output of the sensor 4 is output. When the dimming signal from the second control terminal 8 a is input to the input port 9 of the first control terminal 8, the first output port 5 of the first control terminal 8 A dimming signal corresponding to the output of the brightness sensor 4 of the control terminal 8 is output. Further, a dimming signal from the second control terminal 8 a, that is, a dimming signal input to the input port 9 is output from the second output port 11 of the first control terminal 8.
[0017]
With the above operation, wiring work corresponding to the layout predicted in advance is performed, and when there is a layout change, only the connection of the second output port 11 is changed, and no special wiring work is performed. The control unit corresponding to the layout can be easily changed.
[0018]
Moreover, as shown in FIG. 5, you may connect the lighting fixture 3, the 1st control terminal 8, and the 2nd control terminal 8a. That is, one lighting fixture 3 is connected to each of the first output port 5 and the second output port 11 of the first control terminal 8. Two lighting fixtures 3 are connected to the first output port 5 of the second control terminal 8a. Moreover, although the lighting fixture 3 is not connected to the 2nd output port 11 of the 2nd control terminal 8a, the wiring 16 connected to the input port 9 of the 1st control terminal 8 is the 2nd control terminal. This is applied up to the vicinity of the second output port 11 of 8a.
[0019]
In this connection, a dimming signal corresponding to the output of the brightness sensor 4 (not shown in FIG. 2) of the second control terminal 8a is output from the first output port 5 of the second control terminal 8a. The two lighting fixtures 3 connected to the first output port 5 are dimmed and controlled. Further, from the first output port 5 and the second output port 11 of the first control terminal 8, a control corresponding to the output of the brightness sensor 4 (not shown in FIG. 3) of the first control terminal 8 is provided. A light signal is output, and one lighting fixture 3 connected to the first output port 5 of the first control terminal 8 and one lighting fixture 3 connected to the second output port 11 are dimmed. Be controlled. That is, the second control terminal 8 a controls a control unit 12 f configured by two lighting fixtures 3, and the first control terminal 8 controls a control unit 12 e configured by two lighting fixtures 3. It is.
[0020]
Further, as shown in FIG. 6, a control unit 12 h composed of one lighting fixture 3 connected to the first output port 5 of the first control terminal 8, and the second output port 11 of the first control terminal 8. In the case of controlling the lighting fixture 3 with a control unit 12g comprising two lighting fixtures 3 connected to the first lighting port 3 connected to the first output port 5 of the second control terminal 8a, The wiring 16 connected to the input port 9 of the first control terminal 8 is connected to the second output port 11 of the second control terminal 8a. In this connection, a dimming signal corresponding to the output of the brightness sensor 4 (not shown in FIG. 2) of the second control terminal 8a is output from the first output port 5 of the second control terminal 8a. The two lighting fixtures 3 connected to the first output port 5 are dimmed and controlled. The dimming signal output from the second output port 11 of the second control terminal 8 a is input to the input port 9 of the first control terminal 8 and the second output port of the first control terminal 8. 11, the dimming signal output from the second control terminal 8a is output. Thereby, one lighting fixture 3 connected to the second output port 11 of the first control terminal 8 and two lighting fixtures 3 connected to the first output port 5 of the second control terminal 8a. The lighting fixture 3 is controlled by the control unit 12g consisting of: A dimming signal corresponding to the output of the brightness sensor 4 (not shown in FIG. 2) of the first control terminal 8 is output from the first output port 5 of the first control terminal 8. Thereby, the lighting fixture 3 is controlled by the control unit 12h.
[0021]
(Second Embodiment)
An embodiment of the second embodiment will be described with reference to FIGS. FIG. 7 is a block diagram of a lighting device according to the second embodiment. FIG. 8 is a diagram showing a flow of the present embodiment. This embodiment is the same as the first embodiment except that the remote control receiver 14 and the external contact port 15 are provided in the first embodiment.
[0022]
The remote control receiving unit 14 receives a signal from the remote control (not shown) from the first control terminal 8 and signals the control unit 6 to turn on / off the connection of the second output port 11 inside the control unit 6. Is connected to the control unit 6.
[0023]
The external contact port 15 is connected to an external contact (not shown), and turns on / off the connection of the second output port 11 by turning on / off the external contact, and is also connected to the control unit 6.
[0024]
Next, the operation will be described with reference to FIGS. The four lighting fixtures 3 connected to the first control terminal 8 shown in FIG. 2 are controlled to correspond to the output of the brightness sensor 4 of the first control terminal 8 in the initial stage. Thereafter, when the connection of the second output port 11 is turned OFF by a signal from the remote controller, the dimming signal is not output from the second output port 11. A signal for turning on the connection of the second output port 11 is output from the remote control, and the dimming signal is not output from the second output port 11 even when the external contact connected to the external contact port 15 is in the ON state. . That is, the second control terminal 8a performs dimming control on the control unit 12a, and the first control terminal 8 performs dimming control on the control unit 12b.
[0025]
Next, a signal for turning on the connection of the second output port 11 is output from the remote controller, and a dimming signal is inputted to the input port 9 in a state where the external contact connected to the external contact port 15 is turned off. Then, the dimming signal input to the input port 9 is output from the second output port 11. That is, the second control terminal 8a performs dimming control on the control unit 12c, and the first control terminal 8 performs dimming control on the control unit 12d. When no dimming signal is input to the input port 9, control is performed so as to correspond to the output of the brightness sensor 4 of the first control terminal 8.
[0026]
(Third embodiment)
An embodiment of the third embodiment will be described with reference to FIG. FIG. 9 is a diagram showing a flow of this embodiment. This embodiment has the same configuration as the second embodiment, but differs in that the remote control receiver 14 also outputs a dimming signal.
[0027]
That is, as in the flow shown in FIG. 9A, when the dimming signal is not input to the input port 9 of the first control terminal 8, the first output port 5 of the first control terminal 8, The two output ports 11 output a dimming signal corresponding to the output from the brightness sensor 4. Then, when a dimming signal is transmitted from the remote control to the remote control receiving unit 14, both the first output port 5 and the second output port 11 are controlled based on the dimming signal from the remote control. When a dimming signal is input to the input port 9 of the first control terminal 8, the first output port 5 of the first control terminal 8 controls the dimming corresponding to the output from the brightness sensor 4. Outputs an optical signal. The second output port 11 of the first control terminal 8 outputs the dimming signal input to the input port 9 as it is. That is, when the first control terminal 8 receives the dimming signal from the remote control receiver 14, the first control terminal 8 uses the dimming signal from the remote control receiver 14 rather than the dimming signal based on the output of the brightness sensor 4. When the light is output from the first output port 5 and the second output port 11 with priority, and the dimming signal from the second control terminal 8a is input to the input port 9, the remote control receiving unit 14 The dimming signal from the second control terminal 8a is prioritized and output from the second output port 11 over the dimming signal.
[0028]
As described above, for example, in the combination of the luminaire 3, the first control terminal 8, and the second control terminal 8 a illustrated in FIG. 3, the dimming signal is input to the input port 9 of the first control terminal 8. Even if a dimming signal is input from the remote control to the remote control receiving unit 14 (not shown in FIG. 3) in the first control terminal 8, it is connected to the first output port 5 of the first control terminal 8. Since the lighting fixture 3 is dimmed and controlled by the dimming signal input to the input port 9, the dimming control can be performed in the control unit 12c. That is, even when the lamp 1 is dimmed with a dimming signal from the remote controller, priority is given to the dimming signal from the second control terminal 8a to suppress the problem that the dimming degree in the control unit becomes nonuniform. be able to.
[0029]
【The invention's effect】
According to the first aspect of the present invention, there is provided a lighting device including a lamp and a dimming / lighting means for dimming and lighting the lamp, a brightness sensor, and a first output in response to an output from the brightness sensor. In a lighting device comprising a combination of a control terminal that outputs a dimming signal from the port to the dimming lighting means and controls the dimming lighting means , both of which are bright A first control terminal having a sensor, a first output port, and a control unit, and a second control terminal, the first control terminal receiving an dimming signal from the second control terminal When the dimming signal from the second control terminal is not input to the input port, the dimming signal is output to the predetermined lighting fixture in response to the output from the brightness sensor of the first control terminal, and the second When the dimming signal from the control terminal is input to the input port Preferentially comprises a second output port for outputting the dimming signals from the second control terminal to a predetermined luminaire, a second control terminal, the dimming signal to the input port of the first control terminal In addition to a lighting fixture that is dimmed and controlled by a dimming signal from the first output port, a predetermined lighting fixture that is dimmed and controlled by a dimming signal input to the input port is provided. also since such is shall include in its control unit performs wiring work assuming changes advance control unit, that the output of the second output port of the second control terminal connected or open, The control unit can be easily changed.
[0030]
According to a second aspect of the present invention, in the first aspect of the invention, the control unit is configured to turn on / off the output of the dimming signal from the second output port. It is possible to easily connect or open the output of the second output port of the terminal.
[0031]
According to a third aspect of the present invention, in the first or second aspect of the present invention, the first control terminal includes a remote control receiving unit that receives a dimming signal from a remote controller and outputs the dimming signal to the control unit. In the case where the dimming signal is input to the input port from the second control terminal, the first control terminal can receive the second control terminal even if the dimming signal from the remote control receiving unit is input to the control unit. Therefore, the dimming signal from the second control terminal 8a is used even when dimming the lamp 1 with the dimming signal from the remote controller. By giving priority to the optical signal, it is possible to suppress a problem that the dimming degree in the control unit becomes non-uniform.
[Brief description of the drawings]
FIG. 1 is a block diagram of a lighting device according to a first embodiment.
FIG. 2 is a diagram illustrating a first example of a combination of a lighting fixture 3, a first control terminal 8, and a second control terminal 8a according to the first embodiment.
FIG. 3 is a diagram illustrating a second example of a combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a according to the first embodiment.
FIG. 4 is a diagram showing a flow of the first embodiment.
FIG. 5 is a diagram illustrating a third example of the combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a.
FIG. 6 is a diagram illustrating a fourth example of a combination of the lighting fixture 3, the first control terminal 8, and the second control terminal 8a.
FIG. 7 is a block diagram of a lighting device according to a second embodiment.
FIG. 8 is a diagram showing a flow of the second embodiment.
FIG. 9 is a diagram showing a flow of the third embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Lamp 2 Dimming / lighting means 3 Lighting fixture 4 Brightness sensor 5 1st output port 6 Control part 7 Power supply part 8 1st control terminal 8a 2nd control terminal 9 Input port 11 2nd output port

Claims (3)

A lighting fixture comprising a lamp and a dimming lighting means for dimming the lamp, a brightness sensor, and a dimming signal from a first output port in response to an output from the brightness sensor In a lighting device comprising a combination of a control terminal that outputs to the lighting means and controls the dimming lighting means , both the brightness sensor and the first output port as the control terminal A first control terminal having a control unit and a second control terminal, wherein the first control terminal includes an input port that receives a dimming signal from the second control terminal, and a second control terminal. When the dimming signal is not input to the input port, the dimming signal is output to the predetermined lighting fixture in response to the output from the brightness sensor of the first control terminal, and the dimming signal from the second control terminal. Is input to the input port with priority to the second control terminal. A second output port for outputting the dimming signal on a predetermined luminaire from, comprising a second control terminal, when the dimming signal to the input port of the first control terminal is input, in addition to the luminaires to be controlled dimming by the dimming signal from the first output port, it shall include in the control unit also given luminaire controlled dimming by the dimming signal inputted to the input port A lighting device characterized by the above. The lighting device according to claim 1, wherein the control unit turns on / off the output of a dimming signal from the second output port. The first control terminal includes a remote control receiving unit that receives a dimming signal from a remote control and outputs a dimming signal to the control unit, and the first control terminal receives the dimming signal from the remote control receiving unit. Gives priority to the dimming signal from the remote control receiver over the dimming signal based on the output of the brightness sensor, and outputs it from the first output port and the second output port, and from the second control terminal. When the dimming signal is input to the input port, the dimming signal from the second control terminal is prioritized and output from the second output port over the dimming signal from the remote control receiver. The lighting device according to claim 1 or 2, wherein

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