JP5334285B2 - Lighting system - Google Patents

Description

  The present invention relates to a lighting system, and more particularly to a lighting system that controls a lighting state of a lighting fixture by a light controller and a remote controller operated by a user.

  2. Description of the Related Art Conventionally, lighting systems are known in which lighting fixtures such as incandescent lamp fixtures and fluorescent lamp fixtures attached to a ceiling or a wall are remotely controlled by a remote controller and a light controller.

  For example, as shown in FIG. 14, the remote control includes an operation unit including dimming buttons 31 and 32 and a forward switch button 33, transmits an infrared signal from the transmission unit 34 according to a user operation, and is attached to the ceiling. The lighting state of a remote control fluorescent lamp device such as a ceiling light is controlled.

  The light controller includes a light receiving unit and receives an infrared signal transmitted from the remote controller, thereby controlling ON / OFF of an incandescent lamp apparatus or a fluorescent lamp apparatus connected to the main body by wire.

  However, the conventional light controller has a problem that the lighting state of the remote control fluorescent lamp fixture cannot be directly changed. To change the lighting state, a transmission unit for newly transmitting an infrared signal It was necessary to provide.

  Even if the light controller is equipped with a transmitter, if the infrared signal received from the remote control is inadvertently retransmitted, the remote control fluorescent lamp will receive it simultaneously with the remote control infrared signal, and the forward switching operation will advance two steps. The problem that it ends up occurs.

  The present invention has been made in view of the above circumstances, and can control the lighting state of an incandescent lamp apparatus and the lighting state of a remote control fluorescent lamp apparatus at the same time. An object of the present invention is to provide a light controller capable of changing a lighting state.

The present invention relates to a lighting fixture, a light controller that is connected to the lighting fixture and controls a lighting state of the lighting fixture in accordance with a user operation, and controls a lighting state of the lighting fixture in accordance with a user operation. a lighting system and a remote control for transmitting control signals in wireless, the write controller includes an operation unit for operating the lighting state of the lighting fixture, which is transmitted from the remote controller, and controls the lighting state A receiving unit that receives only a control signal of a predetermined code for presetting, and controls the lighting state of the lighting fixture according to the operation of the operation unit or based on the control signal transmitted from the remote controller and a control unit for generating control signals for, and a transmission unit for transmitting a control signal to said generated wirelessly to the luminaire, the braking of the predetermined code The signal is a code for controlling a lighting scene of the lighting fixtures and a code for controlling all the lighting fixtures to be turned off. In response to the operation, the lighting apparatus is turned on and off, and the transmission start timing of the control signal from the transmission unit is shifted by a predetermined amount from the end of the reception period of the control signal transmitted from the remote control, transmission interval of the control signal from the control signal and the transmission unit from the remote controller is shall be enlarged.

  With this configuration, the light controller has the function of retransmitting the control signal received from the remote controller, so that the light controller operates the ON / OFF of the incandescent lamp fixture connected by the electric wire and the lighting pattern of the remote lighting fixture. be able to. Further, even when the transmission output of the remote controller is small, the remote controller lighting apparatus can be sequentially switched by the retransmission function of the light controller.

  With this configuration, it is possible to avoid problems when the light controller retransmits the control signal received from the remote controller.

  With this configuration, even if the control signal transmitted from the remote controller overlaps with the control signal to be retransmitted by the light controller, the lighting state of the remote controller fluorescent lamp fixture does not change.

  With this configuration, even when a signal transmitted from the remote control does not reach the remote control lighting device for some unexpected reason, all the lighting devices can be turned off by operating the ON / OFF button of the light controller.

  With this configuration, the control signal transmitted from the light controller does not interfere with the control signal transmitted from the remote controller, and the lighting state of the remote controller fluorescent lamp fixture can be controlled stably and reliably.

  Further, the present invention includes the above-described light controller, wherein the light controller transmits the same control signal to the lighting fixture a plurality of times in the transmission unit.

  With this configuration, even when the control signal transmitted from the light controller is difficult to reach the remote control fluorescent lamp fixture for some reason, it is possible to avoid non-reach of the control signal by transmitting the retransmission signal multiple times. It becomes possible to control the lighting state of the fluorescent lamp fixture stably and reliably.

The present invention provides the light controller, wherein the light controller is:
While the control unit transmits the control signal to the luminaire, the reception unit stops receiving the control signal transmitted from the remote controller.

  With this configuration, it is not necessary to use a high-speed processing microcomputer by suspending the reception process of the control signal transmitted from the remote controller while transmitting the control signal from the light controller, and the light controller can be manufactured at low cost. can do.

  ADVANTAGE OF THE INVENTION According to this invention, while the light control of an incandescent lamp fixture and the lighting state of a remote control fluorescent lamp fixture can be controlled simultaneously, even when not using a remote control, the lighting state of a remote control fluorescent lamp fixture can be changed. A light controller can be provided.

  Hereinafter, an illumination system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a schematic configuration of an illumination system according to an embodiment of the present invention.

  The illumination system according to the present embodiment has a configuration including a light controller 1, a remote controller 2, a plurality of incandescent lamp fixtures IL1 and IL2, and a plurality of remote control fluorescent lamp fixtures FL1 and FL2, which are connected to the light controller 1 by wires. .

  The incandescent lamp fixtures IL1 and IL2 and the remote control fluorescent lamp fixtures FL1 and FL2 are supplied with AC 100V power via the light controller 1 and the lighting state is controlled by the operation of the light controller 1, as will be described later. Further, the lighting state of the remote control fluorescent lamps FL1 and FL2 is controlled by an infrared control signal transmitted in accordance with the operation of the remote control 2, and the light controller 1 that has received the control signal transmitted from the remote control 2 is reactivated. The lighting state is also controlled by an infrared control signal to be transmitted.

  FIG. 2 is a diagram showing a schematic configuration of the light controller according to the embodiment of the present invention.

  In FIG. 2, the light controller 1 includes a switching unit 11, an operation unit 12, a remote control signal reception unit 13, a remote control signal transmission unit 14, and a control unit 15.

  The switching unit 11 is connected to an AC 100V power source, and includes, for example, switching elements SW1 to SW4 as shown in FIG. 3, specifically, triacs TR1 to TR4 as shown in FIG. 4, and incandescent lamps IL1 and IL2 Is operated by phase control, and the remote control fluorescent lamp fixtures FL1 and FL2 are operated by ON / OFF control.

  5A and 5B are diagrams illustrating a schematic configuration of the operation unit 12, in which FIG. 5A illustrates a state in which the panel is closed, and FIG. 5B illustrates a state in which the panel is opened.

  5 (a) and 5 (b), the operation unit 12 is for operating the lighting scene selection buttons 121 to 124, the power ON / OFF button 125, the forward switching of the remote control fluorescent lamps FL1 and FL2, and the dimming control. The seesaw switches 126 and 127 and the seesaw switches 128 and 129 for operating the dimming control of the incandescent lamp fixtures IL1 and IL2.

  The remote control receiving unit 13 is composed of a light receiving element such as a photodiode, and receives an infrared control signal transmitted from the remote control 2. For example, as shown in FIG. 6, the codes of the control signal received by the remote control receiver 13 are a scene code and a fully extinguished code in order to eliminate a problem at the time of retransmission.

  The code where the trouble occurs is “sequential feed switching”, “dimming (bright)”, “dimming (dark)” as shown in FIG. 7, and the lighting state after receiving the code is not clear. . In addition, codes that do not cause problems are those that are clearly lit, such as “scene playback”, “scene memory”, “all extinguished”, etc., and the remote control fluorescent lamps FL1, FL2 continue these codes. Even if it is received twice, the lighting state does not change.

  The remote control transmission unit 14 includes an infrared light emitting diode, and retransmits the control signal of the remote control 2 received by the remote control reception unit 13 to the remote control fluorescent lamp fixtures FL1 and FL2 using infrared rays.

  The control unit 15 is composed of a CPU and a microcomputer system including a RAM, a ROM, etc., operates according to a program stored in the ROM, and operates within a range of dimming levels determined in advance based on the operation of the operation unit 12. The level of the dimming signal for controlling the brightness of the lighting fixture is set to control the triacs TR1 to TR4 of the switching unit 11, and the remote control reception unit 13 and the remote control transmission unit 14 are controlled.

  FIG. 8 is a diagram showing a schematic configuration of the remote controller according to the embodiment of the present invention. As shown in the figure, the remote controller 2 is configured to include scene operation buttons 21 to 24, an all-off button 25, and a transmission unit 26.

  Next, the operation of the illumination system configured as described above will be described.

(Operation example 1)
First, an operation for completely turning off the incandescent lamp fixtures IL1 and IL2 and the remote control fluorescent lamp fixtures FL1 and FL2 will be described.

  When the power ON / OFF button 125 of the light controller 1 is operated in a state where at least one circuit is lit, a remote control transmitter 14 transmits a control signal “all extinguished” to the remote control fluorescent lamps FL1 and FL2. Thereby, the remote control fluorescent lamp fixtures FL1 and FL2 are turned off while being energized.

  The dimming levels of the incandescent lamp fixtures IL1 and IL2 are lowered by phase-controlling the triacs TR3 and TR4 in the switching unit 11 of the light controller 1.

,
Then, at the timing when the incandescent lamp fixtures IL1 and IL2 are completely extinguished, the triacs TR1 and TR2 that control the remote control fluorescent lamp fixtures FL1 and FL2 are turned off to cut off the power supply.

  According to this operation example 1, even when the control signal transmitted from the remote controller 2 does not reach the remote controller fluorescent lamps FL1 and FL2, the remote controller fluorescent lamps FL1 and FL2 can be reliably turned off.

  In addition, when the “all-off” operation is performed by the power ON / OFF button 125 of the light controller 1, the remote controller fluorescent lamps FL1 and FL2 are turned off while being energized, and then the power supply is cut off after a certain time. It is possible to effectively use the fade-out function provided in the remote control fluorescent lamp fixtures FL1 and FL2 by turning off the light, and it is possible to fade out simultaneously with the incandescent lamp fixtures IL1 and IL2.

(Operation example 2)
Next, the operation when the light controller 1 retransmits the control signal received from the remote controller 2 to the remote controller fluorescent lamps FL1 and FL2 will be described.

  FIG. 9A is a diagram schematically showing a state when the control signal received from the remote controller 2 is retransmitted to the remote controller fluorescent lamps FL1 and FL2, and FIG. 9B shows the received control signal and It is a timing chart which shows the phase relationship with the control signal to retransmit.

  9A and 9B, when the light controller 1 receives the control signal from the remote controller 2, the light controller 1 shifts the same signal by 50 ms from the end of the control signal from the remote controller 2 to control the remote controller fluorescent lamps FL1 and FL2. Resubmit to.

  Further, the interval between the control signals transmitted from the remote controller 2 and the light controller 1 is set to be expanded from the conventional 75 ms to 150 ms. Thereby, it can avoid that the control signal each transmitted from the remote control 2 and the light controller 1 interferes.

  According to this operation example 2, even if the control signal transmitted from the remote controller does not reach the remote controller fluorescent lamps FL1 and FL2, the control signal transmitted from the light controller 1 can be delivered to the remote controller fluorescent lamps FL1 and FL2. This improves the reliability of remote control operation.

(Operation example 3)
Here, another operation when the control signal received from the remote controller 2 in the light controller 1 is retransmitted to the remote fluorescent lamp fixtures FL1 and FL2 will be described.

  FIG. 10A is a diagram schematically showing a state when the control signal received from the remote controller 2 is retransmitted to the remote control fluorescent lamp fixtures FL1 and FL2, and FIG. 10B is a diagram showing the received signal and the retransmission. It is a timing chart which shows the phase relationship with the signal to perform.

  10A and 10B, when the light controller 1 receives the control signal from the remote controller 2, the light controller 1 shifts the same signal by 50 ms from the end of the control signal from the remote controller 2, for example, three times. Retransmit to the remote control fluorescent lamp fixtures FL1 and FL2. At this time, the interval between signal pulses is set to 150 ms.

  According to this operation example 3, even when the control signal transmitted only once from the remote controller 2 does not reach the remote controller fluorescent lamps FL1 and FL2, any one of the first to third control from the light controller 1 is performed. There is a possibility that a signal arrives, and the certainty of the remote control operation is improved.

(Operation example 4)
Next, an operation of transmitting a control signal to the remote control fluorescent lamps FL1 and FL2 when the light controller 1 operates the illumination scene selection buttons 121 to 124 of the operation unit 12 will be described.

  FIG. 11A is a diagram schematically illustrating a state when the scene code control signal is transmitted by operating the illumination scene selection buttons 121 to 124, and FIG. 11B illustrates the button operation and the control signal. It is a timing chart which shows a phase relationship.

  10A and 10B, when any one of the illumination scene selection buttons 121 to 124 is operated, the scene code is transmitted to the remote control fluorescent lamps FL1 and FL2 a plurality of times, for example, three times. At this time, the interval between signal pulses is set to 150 ms.

  According to this operation example 4, even if the first scene code does not reach the remote control fluorescent lamps FL1 and FL2, the second or third signal may be received, so the reliability of the operation is improved. To do.

(Operation example 5)
In this operation example 5, when the control signal received from the remote controller 2 is retransmitted to the remote controller fluorescent lamps FL1 and FL2, the receiving operation of the control signal transmitted from the remote controller 2 is temporarily stopped.

  FIG. 12 is a diagram schematically illustrating a temporal relationship between the receiving operation of the control signal transmitted from the remote controller 2 and the control signal retransmitted from the light controller 1.

  In FIG. 12, during the transmission of the control signal from the light controller 1, reception of the control signal transmitted from the remote controller 2 is suspended. Thereby, the light controller 1 does not need to use a microcomputer for high-speed processing, and the light controller 1 can be configured at low cost.

  Further, for example, as shown in FIG. 13, a large output of the control signal retransmitted from the light controller 1 does not receive the signal even if it wraps around the remote control signal receiver 13, so the remote control fluorescent lamps FL1 and FL2 The certainty of remote control operation is improved.

  As described above, according to the illumination system according to the embodiment of the present invention, the dimming control of the incandescent lamp fixture and the lighting control of the remote control fluorescent lamp fixture are simultaneously performed by only the button operation provided on the light controller body. be able to.

  Further, even when a remote controller with a small transmission output is used, when the remote controller fails, or when the remote controller is not at hand, the lighting state of the remote fluorescent lamp device can be changed.

  The lighting system of the present invention can simultaneously control the dimming of the incandescent lamp fixture and the lighting state of the remote fluorescent lamp fixture, and can change the lighting status of the remote fluorescent fixture even when the remote controller is not used. It is useful for lighting systems in houses and stores.

The figure which shows schematic structure of the illumination system which concerns on embodiment of this invention. The figure which shows schematic structure of the light controller which concerns on embodiment of this invention. The figure which shows the switching element in the light controller which concerns on embodiment of this invention The figure which shows the triac in the light controller which concerns on embodiment of this invention. (A) The figure which shows schematic structure of the operation part in the state which closed the panel of the light controller which concerns on embodiment of this invention (b) The outline of the operation part in the state which opened the panel of the light controller which concerns on embodiment of this invention Diagram showing configuration The figure which shows the code | symbol which can be received in the light controller which concerns on embodiment of this invention. The figure for demonstrating the progressive feed switching operation | movement in a remote control fluorescent lamp fixture The figure which shows schematic structure of the remote control which concerns on embodiment of this invention (A) The light controller which concerns on embodiment of this invention WHEREIN: The figure which shows typically the state at the time of retransmitting the control signal received from the remote control to a remote control fluorescent lamp fixture. (B) The light controller which concerns on embodiment of this invention Timing chart showing the phase relationship between the control signal received from the remote control and the control signal to be retransmitted (A) In the light controller which concerns on embodiment of this invention, the figure which shows the state at the time of retransmitting the scene code received from the remote control to a remote control fluorescent lamp fixture. (B) The scene code received from the remote control and retransmission Timing chart showing the phase relationship of control signals (A) In the light controller which concerns on embodiment of this invention, The figure which shows the state at the time of operating a lighting scene selection button and transmitting a scene code (b) In the light controller which concerns on embodiment of this invention, Timing chart showing phase relationship between button operation signal and transmission signal The figure which shows typically the temporal relationship of reception of the control signal transmitted from the remote control, and the control signal to retransmit in the light controller which concerns on embodiment of this invention. The figure for demonstrating the wraparound of the control signal to retransmit in the light controller which concerns on embodiment of this invention The figure which shows schematic structure of the conventional remote control

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Light controller 2 Remote control 12 Operation part 13 Remote control signal receiving part 14 Remote control signal transmission part 15 Control part IL1, IL2 Incandescent lamp fixture FL1, FL2 Remote control fluorescent lamp fixture

Claims (3)

A lighting controller, a light controller connected to the lighting fixture and controlling a lighting state of the lighting fixture according to a user operation; and a control signal for controlling a lighting state of the lighting fixture according to a user operation. A lighting system comprising: a remote control for transmitting wirelessly;
The light controller is
An operation unit for operating a lighting state of the lighting fixture;
A receiving unit that receives only a control signal of a predetermined code set in advance for controlling the lighting state transmitted from the remote control;
A control unit that generates a control signal for controlling the lighting state of the lighting fixture according to an operation of the operation unit or based on a control signal transmitted from the remote controller;
A transmitter for wirelessly transmitting the generated control signal to the lighting fixture;
Equipped with,
The control signal of the predetermined code is a code for controlling the lighting scene of the lighting fixtures, and a code for controlling all the lighting fixtures to be turned off.
The control unit turns on and off the lighting fixtures according to the lighting operation and the extinguishing operation of all the lighting fixtures in the operation unit or the remote controller,
The transmission start timing of the control signal from the transmission unit is shifted by a predetermined amount from the end of the reception period of the control signal transmitted from the remote control,
An illumination system in which a transmission interval between the control signal from the remote controller and the control signal from the transmitter is increased . The lighting system according to claim 1 ,
The light controller is
In the transmitter,
A lighting system that continuously transmits the same control signal to the lighting fixture a plurality of times. The illumination system according to claim 1 or 2 ,
The light controller is
While transmitting the control signal from the transmitter to the lighting fixture,
In the receiving unit,
An illumination system that stops receiving the control signal transmitted from the remote controller.

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