JPH11345690A - Lighting system - Google Patents

Abstract

(57) Abstract: The present invention improves the operability of an operator by allowing a remote control signal to be prioritized only for a predetermined time when a remote control signal is input while an external signal is operating. It is an object of the present invention to provide an improved lighting system. The invention of claim 1 includes an apparatus main body disposed on a ceiling; dimming control means capable of taking in an external signal; and a light control control means provided in the apparatus main body and electrically connected to the dimming control means. A light source to be connected; a remote control transmitter capable of arbitrarily setting the brightness of the light source; and a remote control signal provided on the ceiling side and electrically connected to dimming control means for receiving a remote control signal from the remote control transmitter A receiver, which is electrically connected to the dimming control means, recognizes an external signal, and, when receiving a remote control signal from a remote control transmitter, gives priority to the external signal by the remote control signal for a predetermined time. Signal control means for operating the dimming control means so as to be able to change the brightness of the light source;

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001] The present invention relates to a lighting system using a remote controller.

2. Description of the Related Art Hitherto, this type of lighting fixture has been disclosed in
No. 106706 (conventional example). FIG.
FIG. 2 is a block diagram showing this lighting system. Thus, the radiation receiver housing 60 is provided with a surface 8 of the lens 81 that is exposed through an opening in the cover 79.
Two. Radiation receiver housing 6
0 is appropriately connected to a dimmer control circuit 20 for controlling the power applied to the ballast 31 and the light source lit by the ballast. Also, 40 or 50 is
A remote infrared transmitter that includes a dimming stabilizer and a radiation receiver, and can dimming lighting equipment. The dimmer circuit 20 is controlled by an external dimmer 300, which may ignore the internal dimmer control circuit 20 to set the light source output. In this case, the external dimmer 30
The last operated one of the radiation transmitters 40 or 50 determines the light source output. Note that the output signal of the external dimmer 300 can be changed in response to a numerical state. For example, it can be controlled manually, such as by turning on or off the light source, adjusting their levels, or by an external manual control 301 that can select from several preset levels.

In this lighting system, an external dimmer 300 or a radiation transmitter 40 is used.
Or 50, the last operated one, determined the light source output. Therefore, when the signal from the radiation transmitter 40 or 50 is transmitted while the external dimmer 300 is in operation, the operation of the external dimmer 300 is interrupted,
The dimming is performed so that the light source output is obtained based on the signal of the radiation operated last, and to return to the original operating condition of the external dimmer 300, the external dimmer 300 must be operated again. And the operator may be bothered. An object of the present invention is to provide a lighting system in which when a remote control signal is input during operation of an external signal, the remote control signal can be prioritized only for a predetermined time to improve the operability of an operator. And

According to the first aspect of the present invention, there is provided an apparatus main body arranged on a ceiling; dimming control means capable of taking in an external signal; dimming control provided in the apparatus main body; A light source electrically connected to the means; a remote control transmitter capable of arbitrarily setting the brightness of the light source; and a remote control transmitter provided on the ceiling side and electrically connected to the dimming control means. A receiver for receiving a remote control signal; electrically connected to the dimming control means, in the case of recognizing an external signal and receiving a remote control signal from the remote control transmitter, in preference to the external signal Signal control means for operating the dimming control means so that the brightness of the light source can be changed by the remote control signal for a predetermined time; The invention of Claim 2 is Claim 1
In the lighting system described above, the external signal is a remote control signal of a second remote control transmitter.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A lighting fixture according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a longitudinal sectional side view of a lighting fixture showing a first embodiment of the present invention, and FIG. 2 is a schematic diagram showing an operation range of an optical sensor. In the figure, a lighting fixture 1 is attached to an opening 3 formed in a ceiling surface 2 of a building. The appliance main body 4 is formed in a box shape with an open lower surface, and a bent portion 5 protruding outside the opening 3 of the ceiling surface 2 is formed on the lower peripheral edge of the appliance main body 4.
Are formed. The tool body 4 is bent by a method such as lifting the tool body 4 with hanging bolts (not shown) fixed to the building above the ceiling surface 2.
Is supported in a state of contact with the lower surface of the ceiling surface 2. A lighting circuit (not shown) including a ballast 7 and a plurality of sockets 8 connected to the lighting circuit are attached to the back side of the upper surface 6 of the appliance body 4. For example, a straight fluorescent lamp is connected. The lighting circuit includes a switch that opens and closes a power source and a dimming circuit that adjusts a voltage applied to the light source 9 to change brightness. Further, the instrument body 4 has a reflecting plate 10 for reflecting the light of the light source 9 inside thereof. Upper surface 11 of this reflector 10
Are formed with a plurality of square holes 12 for projecting the socket 8. A plate 19 having an opening 18 for projecting the prism cover 17 is attached to an end of the instrument body 4 via a support leg 20. The control unit 13 is attached to the end of the instrument body 4 separately from the instrument body 4. The control unit 13 includes an optical sensor 14 for detecting the illuminance of the surroundings, a dimming control unit 15 for controlling a lighting circuit based on a signal from the sensor 14 and taking in an external signal, and a unit for generating an external signal. And a setting switch (not shown). In addition, the receiver 21
A remote control signal is received from a remote control transmitter which is provided on the control unit 13 side and is electrically connected to the dimming control means 15 and can arbitrarily set the brightness of the light source 9. Further, the signal control means 22 is electrically connected to the dimming control means 15 and has a higher priority than the external signal when receiving a remote control signal from the remote control transmitter when the external signal is recognized. A predetermined time (for example, 1 to
(About 60 seconds) The dimming control means 15 is operated so that the brightness of the light source 9 can be changed by a remote control signal. The light source 9 can obtain the optimum brightness from 15 levels of illuminance setting levels, for example, by switching a brightness setting switch. The switch level is
15 steps from channel 1 to 15. Further, channel 0 indicates a state in which the sensor does not function, and the light source is turned on all light. To set the room to the brightest, the channel 15 can be set, and to set the darkest, the channel 1 can be set. The brightness setting switch can be set by various means such as a remote controller, a wall switch, and a memory. Note that the external signal may be a remote control signal of the second remote control transmitter, and the magnitude of the light output of the light source 9 used constantly can be manually changed. In this case, the receiver 21 receives signals from the remote control transmitter and the second remote control transmitter. The receiver 21 can detect signals from a plurality of remote control transmitters, and can recognize a difference in a signal pattern, so that a large amount of information can be operated. Then, as described above, the receiver 21
Can respond to both the first and second remote control transmitters, so that the above effect can be obtained rather than using only the transmitters separately. As shown in FIG. 2, the optical sensor 14 is configured to detect light around a conical area having a diameter of about 3.2 m when installed at a ceiling height of 2.7 m. I have. A shield 21 is attached to the lower edge of the plate 19 so that the detection area of the optical sensor can be changed. Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 3 is a configuration diagram of a lighting system using a combination of a plurality of lighting fixtures according to a second embodiment of the present invention. First, the main lighting fixture 44 is provided with a control unit 46 to which the optical sensor 14, the dimming control means 15, and the signal control means 22 are mounted. Although not shown, a human body detection sensor is also attached. These components are the same as those described above, and are mechanically connected to each other by the mounting bracket 47 described above. Also, a plurality of sub-lighting fixtures 50 are provided. The configuration of the sub-lighting device 50 is the same as the configuration of the main lighting device 44. Here, the commercial power supply is connected to the dimming control unit 15 in the control unit 46, the lighting circuit of the main lighting fixture 44, and the lighting circuit of the sub lighting fixture 50 by the electric wire a. Also, the dimming control means 15 and the lighting fixture 4
The dimming circuits in the 4, 50 lighting circuits are connected by a signal line b. In such a configuration, by performing the above-described control by the dimming control unit 15, it is possible to control the entire system. For example, to illuminate the entire room and illuminate the work area,
When used as a work lighting device, the lighting device is installed on the ceiling, and the dimming control unit 15 is controlled by information from the light sensor when there is no occupant information from the human body detection sensor. When there is a first predetermined level, and when there is occupant information from the human body detection sensor, a second predetermined level higher than the first predetermined level controlled by information from the optical sensor is set. Optical output control. In addition, at least one of the indoor and work lighting fixtures,
It is installed in places other than ceilings, such as walls and partitions.
In addition, the dimming control unit 15 can control the light output of the indoor / working lighting fixture according to the schedule, and can also perform time control of controlling the light output of the indoor / working lighting fixture according to the time zone. .

According to the first and second aspects of the present invention, when a remote control signal is input while an external signal is operating, the remote control signal can be given priority only for a predetermined time. Can be improved. According to the second aspect of the present invention, since the external signal can be transmitted by the remote control transmitter, the operability of setting the optical output to be used constantly can be improved in addition to the effect of the first aspect of the invention.

[Brief description of the drawings]

FIG. 1 is a longitudinal side view of a lighting device according to a first embodiment of the present invention.

FIG. 2 is a schematic diagram showing an operation range of the optical sensor.

FIG. 3 is a configuration diagram of a lighting system based on a combination of a plurality of lighting fixtures according to a second embodiment of the present invention.

FIG. 4 is a block diagram showing a conventional lighting system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Instrument main body 9 ... Light source 14 ... Optical sensor 15 ... Dimming control means 21 ... Receiver 22 ... Signal control means

Claims (2)

[Claims] An apparatus main body provided on a ceiling; dimming control means capable of taking in an external signal; a light source provided in the apparatus main body and electrically connected to the dimming control means; A remote control transmitter capable of arbitrarily setting the brightness of the light source; a receiver provided on the ceiling side and electrically connected to dimming control means for receiving a remote control signal from the remote control transmitter; When the controller is electrically connected to the control means and recognizes an external signal, and receives a remote control signal from the remote control transmitter, the brightness of the light source is changed by the remote control signal for a predetermined time prior to the external signal. A signal control means for operating the dimming control means so as to be able to operate; 2. The lighting system according to claim 1, wherein the external signal is a remote control signal of a second remote control transmitter.