JP4613840B2 - Emergency guidance lighting system - Google Patents

Description

  The present invention relates to an emergency induction lighting system having a lighting fixture and a remote controller that transmits a control signal for controlling a lighting state of the lighting fixture.

  Conventionally, a system that facilitates evacuation by controlling household devices in an emergency is known. For example, Patent Document 1 discloses an emergency control device that controls household devices via a home network in an emergency such as when a natural disaster occurs. This apparatus includes a receiving means for receiving an emergency warning broadcast transmitted from a broadcasting station, a storage means for storing the emergency warning broadcast received by the receiving means, and an alarm analysis for analyzing the emergency warning broadcast stored by the storage means. For receiving an emergency warning broadcast from a broadcasting station, and a home appliance control means for controlling a home appliance via a home network based on an analysis result analyzed by the warning analysis means. Even if you do not use a dedicated receiver, you can use ordinary analog or digital broadcast receivers to turn on standby TV and radio devices, tune them to the emergency alarm broadcast channel, and then adjust each room in your home. Can receive emergency warning broadcasts.

Patent Document 2 discloses an illumination system of a lighting stand type appliance that receives an emergency signal and lights in an emergency such as when a natural disaster occurs. This device is composed of a lighting stand type appliance that can turn on the lamp load with a commercial power source and a built-in secondary battery, and a transmission means for transmitting an emergency signal in an emergency such as an earthquake or fire. Evacuation is facilitated by a built-in secondary battery and portable lighting stand.
JP 2003-18673 A JP 7-153301 A

  However, in the emergency control apparatus as shown in Patent Document 1 described above, since the home appliance in the standby state is controlled, it is necessary that the power normally used for the home appliance is supplied. is there. On the other hand, there may be a power failure during a large-scale disaster. In this case, since it becomes impossible to control household appliances, there is a possibility that sufficient emergency alerts may not be made. Even if it is not a large-scale disaster, the breaker in the house may stop. In this case, there is a similar possibility. Furthermore, when a large-scale disaster or a breaker in a house stops, it is often appropriate to secure an escape route from the house first, rather than grasping the contents of the emergency warning in an emergency.

  Further, in the emergency control apparatus as shown in Patent Document 2 described above, the apparatus is large and expensive and difficult to introduce, and the lighting stand is usually placed indoors. Since the route is not illuminated immediately, it is not suitable for emergency evacuation.

  The present invention solves the above-mentioned problem, and even when a power failure occurs due to a large-scale disaster or a breaker in a house being stopped, an escape route from the residence can be secured and the system can be easily An object of the present invention is to provide an emergency guidance lighting system that can be introduced.

In order to solve the above problems, the invention of claim 1 includes a lighting fixture and a remote control that transmits a control signal for controlling the lighting state of the lighting fixture, and a guide path for evacuating a person in an emergency An emergency guidance lighting system having a function of displaying an emergency information detection unit that detects emergency information, and an emergency signal transmission unit that transmits an emergency signal according to the emergency information detected by the emergency information detection unit And the remote control is arranged in correspondence with an emergency guideway, and an emergency signal receiving unit that receives the emergency signal, and a light emitting unit that emits light using a battery as a power source in response to the emergency signal, , With.
According to a second aspect of the present invention, in the emergency guidance lighting system according to the first aspect, the remote controller transmits an emergency signal to another remote controller in response to the emergency signal received by the emergency signal receiver. It has a part.
According to a third aspect of the present invention, in the emergency guidance lighting system according to the first or second aspect, the remote controller controls the lighting state of the lighting fixture according to the emergency signal received by the emergency signal receiving unit. A control signal transmission unit for transmitting a signal is provided.
According to a fourth aspect of the present invention, there is provided the emergency guidance lighting system according to any one of the first to third aspects, wherein the remote controller is configured to respond to an emergency signal received by the emergency signal receiving unit. An emergency lamp lighting signal transmission unit that transmits a lighting control signal for an emergency lamp that is not normally controlled by the remote controller is provided.

According to the first aspect of the present invention, even when a large-scale disaster or a breaker in a house stops and a power failure occurs, the light-emitting part of the remote control emits light by battery driving in response to an emergency signal. Corresponding to the evacuation guideway, for example, it is installed in the vicinity of the partition doors or in the hallways of each room, so that the escape route from the residence is displayed and secured. Further, the system configuration is simple and the system can be easily and inexpensively introduced.
According to the second aspect of the present invention, the emergency signal is also transmitted to another remote controller located away from the remote controller that has received the emergency signal. Therefore, the area of the remote controller that emits light is expanded, and the escape route from the house is more reliably achieved. Can be secured.
According to invention of Claim 3, since the lighting fixture to which electric power is supplied can be turned on, the escape route from a house can be ensured more reliably.
According to invention of Claim 4, since what can be lighted only at the time of a power failure like an emergency footlamp can be lighted according to an emergency signal, the escape route from a house can be ensured more reliably. it can.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an emergency guidance lighting system embodying the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 shows a configuration of an emergency guidance lighting system according to the first embodiment. This lighting system includes a lighting fixture 1, a lighting fixture remote control 2 (hereinafter referred to as a remote control) that transmits a control signal for controlling the lighting state of the lighting fixture 1, and an earthquake detection device that detects emergency information, for example, occurrence of an earthquake. 3. The luminaire 1 is individually installed in a room, a hallway, or the like inside a house and is driven by a commercial power source. The lighting apparatus 1 includes a receiving unit 11 that receives a signal for controlling a lighting state from the remote controller 2, a lighting apparatus control unit 12 that performs lighting control according to a reception signal from the receiving unit 11, and a lighting unit that is turned on And an illumination unit 13 to be controlled. The luminaire 1 is mainly driven by a commercial power source.

  The remote controller 2 is installed in the vicinity of a partition door or in a corridor, for example, corresponding to an emergency guideway, and transmits a control signal for the emergency signal receiver 21, the remote controller controller 22, and the lighting fixture 1. And an LED 24 (light emitting unit) whose light emission is controlled by the remote controller 22. The remote controller 2 includes a battery, and each part including the LED 24 is driven by the battery. The earthquake detection device 3 includes a vibration detection unit 31 (emergency information detection unit), a detection device control 32 that receives a detection signal (emergency signal) from the vibration detection unit 31, and an emergency signal transmission unit 33 that transmits an emergency signal. Is provided. The earthquake detection device 3 is driven by a commercial power source or a battery. When the earthquake detection device 3 detects an earthquake, an emergency signal is transmitted to the remote controller 2. The remote controller 2 normally transmits a lighting control signal to the lighting fixture 1 according to the operation.

  Next, the operation of this system when an earthquake occurs will be described. When the vibration detection unit 31 detects an earthquake due to the occurrence of an earthquake, the detected information is sent to the detection device control unit 32. Then, an emergency signal is transmitted from the emergency signal transmission unit 33 under the control of the detection device control unit 32. As an emergency signal medium, for example, infrared light may be used. The emergency signal is received by the receiver 21 of the remote controller 2 and sent to the remote controller controller 22. The LED 24 is lit by the control of the remote controller 22. Thereby, in an emergency, the escape route from the residence is displayed, and the resident can be evacuated by being guided by this lighting. The present system may be configured to use a power failure detection device instead of the earthquake detection device 3, and in this case, an equivalent effect can be obtained at the time of power failure detection.

  FIG. 2 shows an operation image when an earthquake occurs in the specific configuration of the system according to the present embodiment. 2, the same members as those in FIG. 1 are denoted by the same reference numerals (hereinafter the same). The lighting fixture 1 is arrange | positioned in the room, a hallway, and the stairs, and the remote control 2 of those lighting fixtures 1 is arrange | positioned on the wall. When an earthquake occurs, the earthquake detector 3 detects vibration and transmits an emergency signal. And each remote control 2 of the lighting fixture 1 arrange | positioned indoors, a hallway, and the stairs receives the emergency signal, and makes LED light. Since the LED is lit by a battery, it is lit even if the commercial power supply is interrupted by an earthquake. It is possible to evacuate outdoors by turning on the LED.

(Second Embodiment)
FIG. 3 shows a configuration of an emergency guidance lighting system according to the second embodiment of the present invention. The system of this embodiment includes a plurality of remote controllers 2 in addition to the system configuration of the first embodiment described above. In the figure, the illustration of the lighting fixture is omitted. The configurations of the remote controller 2 and the earthquake detection device 3 are the same as those in the first embodiment. When an earthquake occurs, an emergency signal is transmitted from the earthquake detection device 3 as in the first embodiment. The emergency signal is received by the receiver 21 of the remote controller 2 and sent to the remote controller controller 22. The LED 24 is turned on by the control of the remote controller 22 and the same emergency signal received by the emergency signal receiver 21 is transferred from the transmitter 23 (emergency signal transfer unit). The other remote controller 2 receives the emergency signal, similarly turns on the LED 24 and transfers the emergency signal. In this way, the remote control 2 that is unable to directly receive the emergency signal transmitted from the earthquake detection device 3 and is remote from the earthquake detection device 3 can turn on the LED 24 by receiving the transferred emergency signal, and evacuation can be performed. It becomes easy.

  FIG. 4 shows an operation image when an earthquake occurs in the specific configuration of the system according to the second embodiment. When an earthquake occurs, the earthquake detector 3 detects vibration and transmits an emergency signal. The remote controller 2 receives the emergency signal and turns on the LED, and transmits the same emergency signal as received from the transmitter. The emergency signal is transferred to the plurality of remote controllers 2 from the next to the next. In this way, the remote controller 2 that cannot receive the emergency signal directly because it is away from the earthquake detection device 3 can also light the LED, and the area of the remote controller 2 to be lit is expanded to ensure that the escape route from the house is evenly illuminated. Can be evacuated easily.

(Third embodiment)
FIG. 5 shows a configuration of an emergency guidance lighting system according to the third embodiment of the present invention. The system of this embodiment is equivalent to the system configuration of the first embodiment described above. In the present embodiment, when an earthquake occurs and the remote controller 2 receives an emergency signal, a point where a lighting signal for lighting the lighting fixture 1 is transmitted is different from the first embodiment. That is, when an earthquake occurs, an emergency signal is transmitted from the earthquake detection device 3. The emergency signal is received by the receiver 21 of the remote controller 2 and sent to the remote controller controller 22. The LED 24 is lit by the control of the remote control unit 22, and a lighting control signal is transmitted from the transmission unit 23 (control signal transmission unit). The lighting control signal is received by the receiving unit 11 of the lighting fixture 1 and sent to the lighting fixture control unit 12. And the illumination part 13 lights by control of the lighting fixture control part 12. FIG. The illumination unit 13 may be a fluorescent lamp, for example. In this way, it is possible to evacuate easily by illumination of the lighting fixture 1.

  FIG. 6 shows an operation image when an earthquake occurs in the specific configuration of the system according to the third embodiment. When an earthquake occurs, the earthquake detector 3 detects vibration and transmits an emergency signal. Each remote controller 2 of the luminaire 1 arranged in the room, hallway, or staircase receives an emergency signal to turn on the LED, and transmits a lighting control signal to each luminaire 1. The lighting fixture 1 that is energized receives the lighting control signal and lights up. Therefore, the light source as much as possible can be turned on, and the brightness of the passage can be secured more.

(Fourth embodiment)
FIG. 7 shows a configuration of an emergency guidance lighting system according to the fourth embodiment of the present invention. The system of the present embodiment includes an earthquake detection device 3, a remote controller 2, and an emergency light 4. The configurations of the earthquake detection device 3 and the remote control 2 are the same as those of the first embodiment. The emergency light 4 includes a reception unit 41, an emergency light control unit 42, and an emergency light illumination unit 43. The emergency light 4 is not under the control of the lighting state from the remote controller 2 at normal times. When an earthquake occurs, an emergency signal is transmitted from the earthquake detection device 3 as in the first embodiment described above. The emergency signal is received by the receiver 21 of the remote controller 2 and sent to the remote controller controller 22. The LED 24 is turned on under the control of the remote controller control unit 22, and a lighting control signal is transmitted from the transmission unit 23 (emergency lighting control signal transmission unit). For example, infrared light may be used as the medium of the lighting control signal. The lighting control signal is received by the receiving unit 41 of the emergency light 4 and sent to the emergency light control unit 42. Then, the emergency light illumination unit 43 is turned on under the control of the emergency light control unit 42. The emergency light illumination unit 43 may use a fluorescent lamp, for example. Thus, it is possible to evacuate easily by the illumination of the emergency light 4.

  FIG. 8 shows an operation image when an earthquake occurs in the specific configuration of the system according to the fourth embodiment. When an earthquake occurs, the earthquake detector 3 detects vibration and transmits an emergency signal. Each remote controller 2 receives the emergency signal and lights the LED, and transmits a lighting control signal to the emergency light 4. The emergency light 4 receives the lighting control signal, and can be turned on even when the battery is driven, and can be turned on even if it is driven by a commercial power source. Thereby, the brightness of a passage can be secured more.

  The present invention is not limited to the configuration of the above embodiment, and various modifications can be made. For example, as the emergency signal device, the earthquake detection device is described in the embodiment, but any device that detects information necessary for emergency evacuation such as a power failure detection device or a fire detection device may be used. Moreover, what detects an emergency broadcast etc. may be used. The emergency signal from the emergency signal device, the emergency signal from the remote controller, and the lighting control signal may be wired or wireless other than infrared rays. Further, the light emitting portion of the remote controller may emit light other than the LED such as organic EL, bean ball, and liquid crystal. Further, the emergency signal device may be installed indoors or outdoors.

The block diagram of the emergency evacuation type illumination system which concerns on the 1st Embodiment of this invention. Explanatory drawing of the operation image by the specific structure of the system. The block diagram of the emergency evacuation type illumination system which concerns on the 2nd Embodiment of this invention. Explanatory drawing of the operation image by the specific structure of the system. The block diagram of the emergency evacuation type illumination system which concerns on the 3rd Embodiment of this invention. Explanatory drawing of the operation image by the specific structure of the system. The block diagram of the emergency evacuation type illumination system which concerns on the 4th Embodiment of this invention. Explanatory drawing of the operation image by the specific structure of the system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Lighting fixture 11 Reception part 12 Lighting fixture control part 13 Lighting part 2 Remote control 21 Emergency signal reception part 22 Remote control control part 23 Transmission part 24 LED (light emission part)
3 Earthquake detection device 31 Vibration detection unit (emergency information detection unit)
32 Detection device control unit 33 Emergency signal transmission unit 4 Emergency light 41 Reception unit 42 Emergency light control unit 43 Emergency light illumination unit

Claims (4)

An emergency guided illumination system having a lighting device and a remote control that transmits a control signal for controlling a lighting state of the lighting device, and having a function of displaying a guideway for an emergency person to evacuate ,
An emergency information detector for detecting emergency information;
An emergency signal transmission unit that transmits an emergency signal according to the emergency information detected by the emergency information detection unit,
The remote controller is arranged in correspondence with an emergency guideway, and includes an emergency signal receiving unit that receives the emergency signal, and a light emitting unit that emits light using a battery as a power source in response to the emergency signal. Emergency guided lighting system characterized by that.   The emergency induction lighting system according to claim 1, wherein the remote control includes an emergency signal transfer unit that transfers an emergency signal to another remote control according to an emergency signal received by the emergency signal reception unit. .   The said remote control is provided with the control signal transmission part which transmits the lighting control signal which controls the lighting state of a lighting fixture according to the emergency signal which an emergency signal receiving part receives. Emergency induction lighting system as described in.   The remote control includes an emergency light lighting signal transmission unit that transmits a lighting control signal for an emergency light that is not normally received from the remote control according to an emergency signal received by the emergency signal reception unit. The emergency guidance type illumination system according to any one of claims 1 to 3.