JP2007242446A - Illumination device, illumination system, and abnormality announcement method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an illumination device which can be installed without damaging beautiful appearance and in which occurrence of abnormality can be announced to the outside. <P>SOLUTION: A control part 14 makes prescribed light generated in a light emitting part 11 before receiving an alarm signal from a receiving part 13. Moreover, the control part 14 makes light different from the prescribed light generated at the light emitting part 11 when it receives the alarm signal from the receiving part 13. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an illumination device, an illumination system, and an abnormality notification method that can notify the occurrence of an abnormality to the outside.

  For example, when an abnormality occurs indoors, a resident generally reports the occurrence of the abnormality to a fire department or a police station using a communication device such as a telephone. Abnormalities include fire, suspicious person intrusion, or resident's sudden illness.

  If the resident is an elderly person, a disabled person, or a sick person, it may be difficult for the resident to immediately report the occurrence of an abnormality. For example, a resident may take a long time to detect the abnormality after the abnormality has occurred. Moreover, even if a resident detects abnormality, it may be difficult to operate the communication device.

  In such a case, a resident may request a security company to detect an abnormality. However, there is a large economic burden for residents, such as contract fees with security companies.

  In addition, there is a countermeasure in which a resident provides a sensor such as a window sensor, a gas sensor, or a fire sensor. However, with this method, even if it is possible to notify the resident of the occurrence of the abnormality, it has not been possible to notify the outside of the occurrence of the abnormality such as the neighborhood.

  In addition, as a method capable of notifying the occurrence of abnormality to the outside, there is a method of installing a rotating lamp or the like in a place that can be seen from the outside such as a garden. In this case, when an abnormality occurs, the rotating lamp emits light to notify the outside of the occurrence of the abnormality.

  This makes it possible to notify the occurrence of abnormality to the outside.

  If a revolving light is installed only to notify the outside of the occurrence of an abnormality, the revolving light may damage the surrounding aesthetics at normal times.

  An object of the present invention is to provide an illumination device, an illumination system, and an abnormality notification method that can be installed without impairing aesthetics and can notify the occurrence of abnormality to the outside.

  In order to achieve the above object, an illumination device of the present invention includes a light emitting unit that generates light, an alarm signal indicating that an abnormality has occurred, a reception unit that outputs the alarm signal, and the alarm from the reception unit. A control unit that generates predetermined light in the light emitting unit before receiving a signal, and that generates light different from the predetermined light in the light emitting unit when the alarm signal is received from the receiving unit.

  The abnormality notification method of the present invention is an abnormality notification method performed by a lighting device including a light emitting unit that generates light, and includes an accepting step for accepting an alarm signal indicating that an abnormality has occurred, and before the alarm signal is accepted. Includes a step of generating predetermined light in the light emitting unit and generating light different from the predetermined light in the light emitting unit when the alarm signal is received.

  According to the above invention, the predetermined light is generated before the abnormality occurs. In addition, when an abnormality occurs, light different from predetermined light is generated.

  For this reason, the lighting device can be used even when no abnormality has occurred, for example, as an external lamp or a decorative lighting fixture, and the lighting device can be installed without deteriorating the beauty. Become.

  In addition, if the lighting device is installed in a place where it can be seen from the outside and the light different from the predetermined light is suitable for notifying the occurrence of the abnormality, the occurrence of the abnormality can be notified to the outside. .

  Therefore, it can be installed without losing the aesthetic appearance, and the occurrence of abnormality can be notified to the outside.

  Further, it is preferable that the sound output unit further includes a sound output unit, and the control unit outputs an alarm sound to the sound output unit when receiving the alarm signal from the reception unit.

  For this reason, it becomes possible to notify the outside of the occurrence of abnormality by sound.

  Further, the illumination system of the present invention is an illumination system including the illumination device and a remote control device connected to the illumination device, wherein the remote control device detects a predetermined operation, and A remote control unit that outputs an alarm signal indicating that an abnormality has occurred to the lighting device when the predetermined operation is detected by the operation detection unit, and the reception unit of the lighting device includes the remote control unit The alarm signal output by is accepted.

  The abnormality notification method of the present invention is an abnormality notification method performed by an illumination system including the illumination device and a remote control device connected to the illumination device, and the remote control device detects a predetermined operation. An operation detecting step; an output step of outputting an alarm signal indicating that an abnormality has occurred to the lighting device when the predetermined operation is detected by the remote control device; and the lighting device outputting the output alarm signal. Receiving step.

  According to the above invention, when a predetermined operation is detected by the remote control device, an alarm signal is output to the lighting device.

  For this reason, even if the user does not approach the lighting device, it is possible to notify the occurrence of abnormality to the outside, and the user can easily notify the occurrence of abnormality to the outside.

  In addition, the remote control device is connected to an abnormality detection sensor that detects the occurrence of an abnormality, and the remote control unit outputs the alarm signal to the illumination device when the abnormality detection sensor detects the occurrence of the abnormality. Is desirable.

  According to the above invention, when an abnormality is detected, an alarm signal is output. For this reason, when an abnormality occurs, the occurrence of the abnormality can be automatically notified to the outside.

  The remote control device is preferably connected to the abnormality detection sensor by power line communication.

  Moreover, it is desirable that the lighting device is connected to the remote control device by power line communication.

  According to said invention, even if a communication line is not newly provided, it becomes possible to communicate using the power supply wiring of commercial power. For this reason, it becomes possible to reduce the cost for installation of a lighting system.

  According to the present invention, it is possible to install without impairing aesthetics, and it is possible to notify the occurrence of abnormality to the outside.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a circuit diagram showing an illumination system according to an embodiment of the present invention.

  In FIG. 1, the lighting system includes a remote control device 1 and a lighting device 10. The remote control device 1 is installed indoors, and the lighting device 10 is installed outdoors.

  The remote control device 1 and the lighting device 10 are connected via a connection line 100. Connection line 100 includes a communication line and a power supply line.

  Remote control device 1 includes an operation unit 2, an abnormal switch 3, a power supply unit 4, an alarm sounding unit 5, a control circuit 6, and a communication unit 7.

  When receiving the setting information indicating the setting of the lighting device, the operation unit 2 outputs the setting information to the control circuit 6. Specifically, the setting information indicates the emission color and light amount of the illumination device. The operation unit 2 is, for example, a keypad.

  When the abnormality switch 3 detects a predetermined operation (for example, pressing), it outputs an operation detection signal indicating that the predetermined operation has been detected to the control circuit 6. When the user senses an abnormality, the user performs a predetermined operation on the abnormality switch 3.

  The power supply unit 4 acquires power from the power supply wiring of commercial power, and supplies the power to the operation unit 2, the abnormal switch 3, the alarm sounding unit 5, the control circuit 6, the communication unit 7, and the lighting device 10. The operation unit 2, the abnormal switch 3, the alarm sound generation unit 5, the control circuit 6, the communication unit 7, and the lighting device 10 operate with electric power supplied from the power supply unit 4.

  The alarm sounding unit 5 is, for example, a speaker and outputs a sound (voice).

  When receiving setting information from the operation unit 2, the control circuit 6 outputs the setting information to the lighting device 10.

  When the control circuit 6 receives the operation detection signal from the abnormality switch 3, the control circuit 6 outputs an alarm signal indicating that an abnormality has occurred to the lighting device 10 and causes the alarm sounding unit 5 to output an alarm sound. The alarm sound is a sound that can notify the occurrence of an abnormality to the outside. Further, the control circuit 6 may use a synthesized voice such as “abnormality occurrence” as an alarm sound.

  The lighting device 10 includes a light emitting unit 11, an alarm sounding unit 12, a receiving unit 13, and a control unit 14.

  The light emitting unit 11 generates light.

  Moreover, the light emission part 11 contains several LED light-emitted with a respectively different color. Hereinafter, the light emitting unit 11 includes LEDs 11a to 11c.

  The LEDs 11a to 11c emit light with different colors. Hereinafter, the LED 11a is a red LED, the LED 11b is a green LED, and the LED 11c is a blue LED. In addition, the light emission part 11 can light-emit in various luminescent colors according to the light quantity of LED11a thru | or 11c.

  The alarm sound generation unit 12 is, for example, a speaker and outputs a sound.

  When receiving the alarm signal and setting information from remote control device 1, receiving unit 13 outputs the alarm signal and setting information to control unit 14.

  The control unit 14 controls the light emitting unit 11 and the alarm sounding unit 12.

  Specifically, the control unit 14 causes the light emitting unit 11 to generate predetermined light in a normal time. The normal time is before the control unit 14 receives an alarm signal from the receiving unit 13. Further, the predetermined light is light having a light emission color and a light amount set for itself.

  When the control unit 14 receives the alarm signal from the receiving unit 13, the control unit 14 causes the light emitting unit 11 to generate light different from the predetermined light. Hereinafter, light different from the predetermined light is referred to as warning light. The warning light is, for example, flash or strong red light. When the warning light is a flash, it is desirable that the control unit 14 causes the light emitting unit 11 to generate a flash intermittently.

  The control unit 14 includes a current control unit 15, a switch unit 16, and a control circuit 17.

  The current control unit 15 is controlled by the control circuit 17 and controls the value of the current supplied to the light emitting unit 11.

  The current control unit 15 includes current control circuits 15a to 15c.

  The current control circuit 15a controls the value of the current supplied to the LED 11a. The current control circuit 15b controls the value of the current supplied to the LED 11b. The current control circuit 15c controls the value of current supplied to the LED 11c.

  Specifically, when receiving the first current control signal indicating the first current value, the current control circuits 15a to 15c supply the current of the first current value to the LEDs 11a to 11c.

  In addition, when the current control circuits 15a to 15c receive the second current control signal indicating the second current value, the current control circuits 15a to 15c supply the current of the second current value to the LEDs 11a to 11c. It is assumed that the second current value is larger than the first current value.

  The switch unit 16 supplies or blocks current to the light emitting unit 11 (specifically, the LEDs 11a to 11c).

  When supply and interruption of current to the LED are repeated, the LED is repeatedly turned on and off. If the time interval between turning on and off the LED is short, humans feel that the LED is always on.

  In this case, the light quantity of the LED light emission part 2 changes according to a duty ratio. The duty ratio is a ratio between the pulse width and the switching period. The pulse width is the time during which current is supplied to the LED. Also. The switching period is the time from the time when power is supplied to the LED to the time when power is supplied to the LED next time.

  The switch unit 16 receives a PWM signal from the control circuit 17, and supplies or cuts off current to the light emitting unit 11 according to the PWM signal. The PWM signal indicates the pulse width.

  The switch unit 16 includes PWM switches 16a to 16c.

  The PWM switch 16a supplies or cuts off current to the LED 11a. The PWM switch 16b supplies or cuts off current to the LED 11b. The PWM switch 16c supplies or cuts off current to the LED 11c.

  In the control circuit 17, the emission color and light amount of the light emitting unit 11 are set.

  The control circuit 17 controls the current control unit 15 and the switch unit 16 to control the emission color and the light amount of the light emitting unit 11.

  The control circuit 17 controls the current control unit 15 and the switch unit 16 so that the light emitting unit 11 generates predetermined light in normal times. In other words, the control circuit 17 controls the current control unit 15 and the switch unit 16 so that the light emitting unit 11 generates light having a light emission color and a light amount set to itself.

  Specifically, the control circuit 17 outputs a first current control signal to the current control circuits 15a to 15c, and has a pulse width such that the light emitting unit 11 generates light of the light emission color and light amount set to itself. The PWM signal is output to the PWM switches 16a to 16c.

  When receiving the setting information from the remote control device 1 (specifically, the control circuit 6), the control circuit 17 sets the emission color and the light amount indicated by the setting information to itself. In addition, the control circuit 17 controls the current control unit 15 and the switch unit 16 so that the light emitting unit 11 generates light of the emission color and the light amount indicated by the setting information.

  Specifically, first, the control circuit 17 generates a PWM signal corresponding to the emission color and the amount of light indicated by the setting information for each PWM switch 16a to 16c. Furthermore, the control circuit 17 generates a PWM signal having a pulse width such that the light emitting unit 11 generates the light of the emission color and the light amount for each of the PWM switches 16a to 16c.

  Subsequently, the control circuit 17 outputs the PWM signal to the PWM switches 16a to 16c.

  When the control circuit 17 receives an alarm signal from the remote control device 1 (specifically, the control circuit 6), the control circuit 17 controls the current control unit 15 and the switch unit 16 so that the light emitting unit 11 generates an alarm light. .

  For example, when the alarm light is flash, the control circuit 17 outputs a second current control signal to the current control circuit 14 when receiving the alarm signal. Further, the control circuit 17 outputs a PWM signal indicating a predetermined pulse width to the switch unit 16.

  As a result, the control circuit 17 can cause the light emitting unit 11 to flash and flash, and can notify the occurrence of an abnormality to the outside. Note that flash flashing is an intermittent occurrence of flash.

  When the warning light is strong red light, the control circuit 17 outputs a second current control signal to the LED 11a. The control circuit 17 outputs a PWM signal indicating a pulse width having the same value as the switching cycle to the PWM switch 16a, and stops outputting the PWM signal to the PWM switches 16b and 15.

  This makes it possible to notify the occurrence of an abnormality to the outside with strong red light.

  When the control circuit 17 receives an alarm signal, the control circuit 17 causes the alarm sound generation unit 12 to generate an alarm sound.

  Next, an installation example of the illumination system will be described.

  2a to 2c are plan views showing examples of installation of the illumination system. 2A to 2C, the same components as those in FIG. 1 are denoted by the same reference numerals.

  FIG. 2a is a plan view showing an example of a lighting system installed in a garden. In FIG. 2a, the same components as those in FIG. 1 are denoted by the same reference numerals.

  In FIG. 2 a, the remote control device 1, the abnormal switch 3, the illumination device 10, the light emitting unit 11, and the connection line 100 are shown.

  The lighting device 10 is installed in a garden. In addition, a pile-shaped support | pillar is provided in the lower part of the illuminating device 10. The illuminating device 10 is fixed by the support sticking into the ground. The remote control device 1 is installed indoors.

  In normal times, the illumination device 10 is used as an outside lamp. When an abnormality occurs, the user performs a predetermined operation on the abnormality switch 3 to cause the lighting device to generate an alarm light.

  FIG. 2 b is a plan view showing an example of a lighting system in which the lighting device is installed at the eaves.

  FIG. 2 b shows the remote control device 1, the abnormal switch 3, the illumination device 10, the light emitting unit 11, and the connection line 100.

  The lighting device 10 is provided at the eaves.

  FIG. 2c is a plan view illustrating an example of an illumination system in which a light emitting unit is provided in a transparent tube.

  FIG. 2 c shows the remote control device 1, the abnormal switch 3, the illumination device 10, the light emitting unit 11, and the connection line 100.

  The light emitting unit 11 is provided in the transparent tube. The transparent tube is wound around the tree. Thereby, the illuminating device 10 is used as a lighting fixture for decoration.

  Next, the operation of the lighting system will be described.

  FIG. 3 is a flowchart for explaining an operation in which the illumination system notifies the occurrence of an abnormality to the outside.

  When the abnormal switch 3 of the remote control device 1 detects a predetermined operation, it executes step S301.

  In step S <b> 301, the abnormal switch 3 outputs an operation detection signal to the control circuit 6. When receiving the operation detection signal, the control circuit 6 executes Step S302.

  In step S <b> 302, the control circuit 6 causes the alarm sound generation unit 5 to generate an alarm sound and outputs an alarm signal to the control circuit 17 of the lighting apparatus 10 via the communication unit 7 and the connection line 100. When receiving the alarm signal, the control circuit 17 executes Step S303.

  In step S303, the control circuit 17 controls the current control unit 15 and the switch unit 16 so that the light emitting unit 11 generates an alarm light, and causes the alarm sound generation unit 12 to generate an alarm sound.

  According to the present embodiment, the control unit 14 causes the light emitting unit 11 to generate predetermined light before receiving an alarm signal from the receiving unit 13 (normal time). When the control unit 14 receives an alarm signal from the receiving unit 13, the control unit 14 causes the light emitting unit 11 to generate light (alarm light) different from predetermined light.

  In this case, predetermined light is generated before the abnormality occurs. In addition, when an abnormality occurs, light different from predetermined light is generated.

  For this reason, it becomes possible to use the illumination device 10 even when no abnormality has occurred, for example, when the illumination device 10 is used as an external lamp or a decorative lighting fixture, and the illumination device 10 can be installed without impairing the beauty. It becomes possible.

  In addition, if the lighting device 10 is installed in a place where it can be seen from the outside and the light different from the predetermined light is suitable for notifying the occurrence of an abnormality, the occurrence of the abnormality can be notified to the outside. Become.

  Therefore, it can be installed without losing the aesthetic appearance, and the occurrence of abnormality can be notified to the outside.

  In this embodiment, when the control unit 14 receives an alarm signal from the receiving unit 13, the control unit 14 causes the alarm sounding unit to output an alarm sound.

  In this case, it is possible to notify the outside of the occurrence of abnormality by sound.

In this embodiment, the abnormal switch 3 detects a predetermined operation. When the abnormal switch 3 detects a predetermined operation, the control circuit 6 outputs an alarm signal to the lighting device 10. Receiver 13 of lighting device 10
In this case, the user can notify the occurrence of abnormality to the outside without approaching the lighting device, and the user can easily notify the occurrence of abnormality to the outside.

  Next, an illumination system in which a remote control device is connected to an abnormality detection sensor will be described.

  FIG. 4 is a plan view showing an illumination system in which a remote control device is connected to an abnormality detection sensor. In FIG. 4, the same components as those in FIG. 1 are denoted by the same reference numerals.

  FIG. 4 shows the remote controller 1, the abnormality switch 3, the illumination device 10, the connection line 100, the abnormality detection sensor 200, and the connection line 300. Remote control device 1 and abnormality detection sensor 200 are connected to each other via connection line 300.

  When the abnormality detection sensor 200 detects the occurrence of an abnormality, the abnormality detection sensor 200 outputs an abnormality detection signal indicating that the abnormality has been detected to the remote control device 1 via the connection line 300.

  The abnormality detection sensor 200 includes an intruder sensor 201, a gas sensor 202, and a fire sensor 203.

  The intruder sensor 201 is, for example, a human sensor, and when an intruder is detected, an intruder detection signal indicating that the intruder has been detected is output to the remote control device 1.

  When the gas sensor 202 detects the gas to be detected, the gas sensor 202 outputs a gas detection signal indicating that the gas to be detected is detected to the remote control device 1.

  The fire sensor 203 is, for example, a thermal sensor, and outputs a fire detection signal to the remote control device 1 indicating that the fire has been detected when the fire is detected.

  The intruder detection signal, the gas detection signal, and the fire detection signal are abnormality detection signals.

  When receiving an abnormality detection signal from the abnormality detection sensor, the remote control device 1 (specifically, the control circuit 6) outputs an alarm signal to the illumination device 10 (specifically, the control circuit 17). When the control circuit 17 receives the alarm signal, the control circuit 17 controls the current control unit 15 and the switch unit 16 so that the light emitting unit 11 generates an alarm light, and causes the alarm sound generation unit 12 to generate an alarm sound.

  In the present embodiment, the remote control device 1 is connected to the abnormality detection sensor 200. When the abnormality detection sensor detects an abnormality, the control circuit 17 outputs an alarm signal to the lighting device 200.

  In this case, when an abnormality occurs, the occurrence of the abnormality can be automatically notified to the outside.

  Next, an illumination system using power line communication will be described.

  Power line communication is a communication mode in which a distribution line of commercial power is used as a communication line and communication is performed via the distribution line.

  In power line communication, a transmitter and a receiver are connected via, for example, an AC 100V distribution line. The transmission device outputs a communication signal to the reception device via the distribution line. The receiving device receives the communication signal transmitted by the transmitting device from the distribution line.

  Therefore, since the distribution line and the communication line are shared, there is no need to newly install a communication line. For this reason, power line communication is often used as a communication means in a narrow area such as indoors.

  Further, in power line communication, there is a possibility that a communication signal output from the transmission device flows out to the outside. Further, there is a possibility that a communication signal that becomes noise flows in from the outside. For this reason, in order to prevent inflow and inflow of a communication signal, for example, a filter for removing the communication signal is provided in a power receiving device that receives power from a utility pole.

  5a to 5c are plan views illustrating the configuration of a lighting system using power line communication.

  FIG. 5A is a plan view showing a configuration of an illumination system in which a remote control device and an illumination device are connected by power line communication. In FIG. 5a, the same components as those in FIGS. 1 to 2c and FIG. 4 are denoted by the same reference numerals.

  In FIG. 5 a, the remote control device 1, the abnormal switch 3, the lighting device 10, the intruder sensor 201, the gas sensor 202, the fire sensor 203, the connection line 300, the power supply lines 400 and 401, and the power supply wiring 410 It is shown.

  Remote control device 1 and lighting device 10 are connected to each other via power supply lines 400 and 401 and power supply wiring 410.

  Specifically, remote control device 1 and power supply wiring 410 are connected to each other via power supply line 401. The lighting device 10 and the power supply wiring 410 are connected to each other via the power supply line 400.

  The remote control device 1 outputs the alarm signal and setting information to the lighting device 10 via the power supply lines 400 and 401 and the power supply wiring 410.

  Note that a plug is provided at one end of each of the power supply lines 400 and 401 and is connected to the power supply wiring 410 via an outlet. The power supply wiring 410 is a distribution line for commercial power.

  In the present embodiment, the lighting device 10 is connected to the remote control device 1 by power line communication.

  In this case, even if a communication line is not newly provided, communication can be performed using a commercial power supply wiring. For this reason, it becomes possible to reduce the cost for installation of a lighting system.

  FIG. 5b is a plan view showing a configuration of an illumination system in which a remote control device and an abnormality sensor are connected by power line communication. In FIG. 5b, the same components as those in FIG. 5a are denoted by the same reference numerals.

  In FIG. 5b, remote control device 1, abnormal switch 3, lighting device 10, intruder sensor 201, gas sensor 202, fire sensor 203, connection line 300, power supply lines 400 and 404, power supply wiring 410, It is shown.

  Intruder sensor 201 and power supply wiring 410 are connected to each other via power supply line 402. The gas sensor 202 and the power supply wiring 410 are connected to each other via the power supply line 403. The fire sensor 203 and the power supply wiring 410 are connected to each other via the power supply line 404.

  When the abnormality detection sensors (the intruder sensor 201, the gas sensor 202, and the fire sensor 203) detect an abnormality, the abnormality detection signal is output to the remote control device 1 via the power supply wiring 410.

  Note that a plug is provided at one end of each of the power supply lines 402 to 404 and is connected to the power supply wiring 410 via an outlet.

  In the present embodiment, the remote control device 1 is connected to the abnormality detection sensor 200 by power line communication.

  In this case, even if a communication line is not newly provided, communication can be performed using a commercial power supply wiring. For this reason, it becomes possible to reduce the expense for installation of a lighting system.

  Next, a lighting system including a management device will be described.

  FIG. 5c is a plan view showing a lighting system including a management device. In FIG. 5c, the same components as those in FIG. 5b are denoted by the same reference numerals.

  In FIG. 5 c, the remote control device 1, the abnormal switch 3, the lighting device 10, the intruder sensor 201, the gas sensor 202, the fire sensor 203, the connection line 300, the power supply lines 400 and 405, and the power supply wiring 410 The management device 420 is shown.

  The management device 420 and the power supply wiring 410 are connected to each other via the power supply line 405.

  When the abnormality detection sensors (the intruder sensor 201, the gas sensor 202, and the fire sensor 203) detect an abnormality, the abnormality detection signal is output to the management device 420 via the power supply wiring 410.

  The management device 420 is connected to a predetermined communication network (not shown). The predetermined communication network is, for example, a telephone network.

  When receiving the abnormality detection signal, the management device 420 performs management processing according to the abnormality detection signal. Specifically, when receiving the abnormality detection signal, the management device 420 notifies the police station or the fire department according to the abnormality detection signal.

  Moreover, the management apparatus 420 controls the illuminating device 10 according to the abnormality detection signal. Specifically, the management device 420 creates an alarm instruction for notifying the outside that an abnormality has occurred in accordance with the abnormality detection signal, and outputs the alarm instruction to the lighting device 10.

  For example, when the abnormality detection signal is an intruder detection signal, the management device 420 reports that a suspicious person has entered the police station. In addition, the management device 420 outputs a suspicious person warning instruction to notify the outside that the suspicious person has entered the lighting device 10.

  When the abnormality detection signal is a gas detection signal, the management device 420 notifies the fire department that gas has leaked. Furthermore, the management device 420 outputs a gas alarm instruction to notify the outside that the gas has leaked to the lighting device 10.

  When the abnormality detection signal is a fire detection signal, the management device 420 notifies the fire department that a fire has occurred. Furthermore, the management device 420 outputs a fire alarm instruction to the illumination device 10 to notify the outside that a fire has occurred.

  The suspicious person alarm instruction, the gas alarm instruction, and the fire alarm instruction are alarm instructions.

  When lighting device 10 (specifically, control unit 14) receives an alarm instruction from management device 420, lighting device 10 and alarm sounding unit 12 are controlled in accordance with the alarm instruction.

  For example, the control unit 14 flashes and flashes the light emitting unit 11 with the light amount and the emission color according to the alarm instruction.

  In addition, the control unit 14 causes the alarm sounding unit 12 to generate an alarm sound corresponding to the alarm instruction.

  In this case, when accepting a suspicious person alarm instruction, the control unit 14 outputs “intruder” as a synthesized sound as a synthesized sound, and when receiving a fire alarm instruction, outputs “fire occurrence” as a synthesized sound. In addition to notifying the surroundings of the occurrence of an abnormality, it is possible to notify the surroundings of the type of abnormality.

  In the embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

It is the circuit diagram which showed the illumination system of one Example of this invention. It is the top view which showed the example of installation of the illumination system. It is the top view which showed the other example of installation of the illumination system. It is the top view which showed the other example of installation of the illumination system. It is a flowchart for demonstrating operation | movement of an illumination system. It is the top view which showed the other Example of the illumination system. It is the top view which showed the other Example of the illumination system. It is the top view which showed the other Example of the illumination system. It is the top view which showed the other Example of the illumination system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Remote control device 2 Operation part 3 Abnormal switch 4 Power supply part 5 Alarm sounding part 6 Control circuit 7 Communication part 10 Illuminating device 11 Light emission part 12 Alarm sounding part 13 Reception part 14 Control part 15 Current control part 16 Switch part 100 Connection line 200 Abnormality Detection sensor 201 Intruder detection sensor 202 Gas sensor 203 Fire sensor 300 Connection line 400 Power supply line 401 Power supply line 402 Power supply line 403 Power supply line 404 Power supply line 405 Power supply line 410 Power supply wiring 420 Management device

Claims (10)

A light emitting section for generating light;
Receiving an alarm signal indicating that an abnormality has occurred, and receiving the alarm signal;
A control unit that generates a predetermined light in the light emitting unit before receiving the alarm signal from the receiving unit, and generates a light different from the predetermined light in the light emitting unit when the alarm signal is received from the receiving unit. And a lighting device. The lighting device according to claim 1.
An audio output unit for outputting sound;
When the control unit receives the alarm signal from the reception unit, the control unit causes the sound output unit to output an alarm sound. An illumination system including the illumination device according to claim 1 and a remote control device connected to the illumination device,
The remote controller is
An operation detection unit for detecting a predetermined operation;
A remote control unit that outputs an alarm signal indicating that an abnormality has occurred to the lighting device when the predetermined operation is detected by the operation detection unit;
The receiving unit of the lighting device is a lighting system that receives an alarm signal output from the remote control unit. The lighting system according to claim 3.
The remote control device is connected to an abnormality detection sensor that detects the occurrence of an abnormality,
The said remote control part is an illumination system which outputs the said alarm signal to the said illuminating device, if the said abnormality detection sensor detects generation | occurrence | production of the said abnormality. The lighting system according to claim 4,
The remote control device is an illumination system connected to the abnormality detection sensor through power line communication. The lighting system according to any one of claims 3 to 5,
The lighting system is connected to the remote control device by power line communication. An abnormality notification method performed by a lighting device including a light emitting unit that generates light,
A reception step for receiving an alarm signal indicating that an abnormality has occurred;
Before the alarm signal is received, a predetermined light is generated in the light emitting unit, and when the alarm signal is received, an abnormality notification including generating a light different from the predetermined light in the light emitting unit is included. Method. The abnormality notification method according to claim 7,
The illumination device further includes an audio output unit that outputs sound,
A sound output step of outputting a warning sound to the sound output unit when the alarm signal is received; An abnormality notification method performed by an illumination system including the illumination device according to claim 1 and a remote control device connected to the illumination device,
An operation detection step in which the remote control device detects a predetermined operation;
When the remote control device detects the predetermined operation, an output step of outputting an alarm signal indicating that an abnormality has occurred to the lighting device;
An abnormality notification method including: a receiving step in which the lighting device receives the output alarm signal. The abnormality notification method according to claim 8,
The remote control device is connected to an abnormality detection sensor that detects the occurrence of an abnormality,
The abnormality notification method further comprising: a transmission step in which the remote control device outputs the alarm signal to the illumination device when the abnormality detection sensor detects the occurrence of the abnormality.

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