JP2004180169A - Lighting device and monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To monitor a plurality of places at a low cost. <P>SOLUTION: This system comprises a plurality of lighting devices 10a to 10g, a portable communication device 20, which receives photographing data transmitted by the devices 10a to 10g and records them in a readable state, and an alarm device 30, which receives a detection result transmitted by cable by the lighting devices 10a to 10g on an invasion of a mobile unit and outputs an alarm by identifying the lighting device concerned, based on the received result. The lighting device 10 comprises a luminaire 11, an image sensor camera 12 which photographs the mobile unit, when it detects intrusion in an area covered by lighting, and a fixing communication part 13, which transmits the photographic data to the portable communication device 20. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lighting device having a monitoring function such as crime prevention and a monitoring system used in the lighting device.
[0002]
[Prior art]
As a conventional example of this type, there is a lighting apparatus provided with a television camera for photographing a monitoring range. Image data captured by the television camera is always transferred to a video monitor in a host station at a location different from the lighting equipment. The lighting equipment is also provided with an infrared sensor or the like, and when a moving object is detected at night, the lighting equipment is turned on (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP 2001-103454 A (paragraph numbers 0027 to 0042)
[0004]
[Problems to be solved by the invention]
However, in the case of the above-mentioned conventional example, since a plurality of video monitors must be installed in the host station or facilities for constantly recording these images are required, the system becomes large-scale and the cost increases. Disadvantages.
[0005]
The present invention has been made in view of the above background, and a main object of the present invention is to provide a lighting device and a monitoring system capable of monitoring a plurality of places at low cost.
[0006]
[Means for Solving the Problems]
The lighting device of the present invention includes a lighting fixture, a monitoring camera that captures an image of the moving object when the moving object enters the illuminable area, and a fixed camera that transmits image data of the monitoring camera to the portable communication device. Communication unit.
[0007]
Preferably, when the surveillance camera detects intrusion of a moving object in a state where night illumination is performed, a configuration having a function of setting the illuminance of night illumination high while recording image data of the surveillance camera is used. It is desirable.
[0008]
A surveillance system according to the present invention includes the lighting device described above, and a portable communication device that receives photographing data transmitted from the lighting device and records the data in a readable manner.
[0009]
Preferably, the antenna power of communication performed between the lighting device and the portable communication device is set to an extent that communication is possible only in a state where the portable communication device is located near the lighting device. .
[0010]
Preferably, it is installed at a different location from the lighting device and receives the detection result of the intrusion of the moving object transmitted from the lighting device by wire, specifies the lighting device based on the reception result, and outputs an alarm. It is desirable to provide an alarm device that performs the alarm.
[0011]
Another monitoring system of the present invention is the above-mentioned lighting device, a relay control unit which is installed in a different place from the lighting device and is capable of wireless communication with the lighting device, and which is wirelessly transmitted from the lighting device. And a portable communication device that wirelessly receives the photographed data through the relay control unit and records the data in a readable manner.
[0012]
Preferably, the antenna power of communication performed between the relay control unit and the portable communication device is set to such an extent that communication is possible only in a state where the portable communication device is located near the relay control unit. Is desirable.
A monitoring system characterized by the following.
[0013]
Preferably, the lighting device and the relay control unit are arranged separately from each other, and the detection result of the intrusion of the moving object transmitted wirelessly from the lighting device is received through the relay control unit by wire and based on the reception result. It is preferable to use a device having a warning device that specifies the lighting device and outputs a warning.
[0014]
Another surveillance system according to the present invention includes a lighting fixture, a surveillance camera for photographing the moving body when detecting the intrusion of the moving body into the illuminable area, and a fixed communication for transmitting photographing data recorded in the surveillance camera. Device, a relay control unit that is installed at a different location from the lighting device and is capable of performing wired communication with the lighting device, and intrusion of a mobile object transmitted from the lighting device by wire. And a communication device that wirelessly receives the detection result and the photographing data through the relay control unit and records the data in a readable manner.
[0015]
Another lighting device of the present invention includes a lighting fixture and a surveillance camera that captures an image of the moving object when the moving object is detected in the illuminable area. When an intrusion is detected, an image captured by a surveillance camera is recorded, and the illuminance of nighttime illumination is set to be high.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram of a monitoring system according to the first embodiment, FIG. 2 is a configuration diagram of a lighting device of the system, and FIG. 3 is an external view of the lighting device.
[0017]
The monitoring system according to the first embodiment receives lighting devices 10a to 10g arranged at a plurality of outdoor locations as shown in FIG. 1 and receives photographing data wirelessly transmitted from the lighting devices 10a to 10g. The portable communication device 20 that records data in a readable manner and the lighting devices 10a to 10g are installed in different places (in this case, a management office), and the movement is transmitted from the lighting devices 10a to 10g by wire. It has a basic configuration including an alarm device 30 that receives a detection result of a body intrusion and specifies the illumination devices 10a to 10g based on the reception result and outputs an alarm. The lighting devices 10a to 10g all have the same configuration.
[0018]
As shown in FIG. 2, the lighting device 10 includes a lighting fixture 11 for illuminating the outside, an image sensor camera 12 as a monitoring camera for photographing the moving body when detecting the intrusion of the moving body into the illuminable area, and an image sensor. It has a basic configuration including a fixing communication unit 13 that transmits shooting data of the camera 12 to the portable communication device 20 and a control circuit unit 14 that has a function of controlling the lighting apparatus 11, and the like. It is attached to a pole P (see FIG. 3) for a street light.
[0019]
Here, the lighting fixture 11 uses a cerameter with a step tone function, and has a configuration including an electronic ballast 111 and a lamp 112. An illumination device having a tunable light function may be used instead of the cerameter, and an LED lamp or the like may be used as a light source.
[0020]
The control circuit unit 14 is provided in the middle of the commercial power supply input line of the lighting fixture 11 and detects surrounding illuminance using a CDS or the like, and when the illuminance decreases at night or the like, the lighting fixture 11 is energized and turned on. An automatic blinker 141, a constant voltage power supply 142 for generating a constant voltage that needs to supply power to the image sensor camera 12 and the like based on a commercial power supply, and detection of a moving object intrusion output from the image sensor camera 12 by an optical signal. And a timer 143 that operates based on the result.
[0021]
When the timer 143 operates, the alarm contact TM-1 is turned on, and this contact signal is output to the alarm device 30 via the wired line L (see FIG. 1) as a moving object intrusion detection signal. When the dimming contact TM-2 is turned on, the current output from the electronic ballast 111 increases, and the illuminance of the lamp 112 increases accordingly. That is, although the lamp 112 performs night illumination with 50% dimming lighting, in this state, when the image sensor camera 12 detects the invasion of the moving body, the illuminance of the night illumination is set to the maximum. I have.
[0022]
The image sensor camera 12 constantly captures the inside of the illuminable area of the lamp 122, performs predetermined image processing on the captured data, recognizes the movement of the moving body, its color, and the like, and according to the recognition result, It is determined whether or not a suspicious person has entered the area, and when it is determined that a suspicious person has entered, this is output as an optical signal to the outside, and the shooting data is recorded in the built-in memory, and a function capable of outputting to the outside is provided. It has a configuration having. Here, for infrared rays, a commercially available product such as a PDA (Personal Digital Assistance) or an image sensor camera that can easily communicate with a mobile phone is used.
[0023]
The fixing communication unit 13 uses a wireless communication module for Bluetooth (registered trademark), which is an accessory of the image sensor camera 12, and a wireless circuit board 131 electrically connected to the image sensor camera 12 and a wireless communication module 131. The configuration has a rod antenna 132 electrically connected to the circuit board 131.
[0024]
That is, when the fixed communication unit 13 is accessed by the portable communication device 20, the fixed communication unit 13 outputs a readout signal to the image sensor camera 12, and the readout signal is output from the image sensor camera 12 accordingly. When the image data is input, the data is transmitted wirelessly.
[0025]
Here, since a commercially available PDA (Personal Digital Assistance) is used as the portable communication device 20, the antenna power of the communication performed between the lighting device 11 and the portable communication device 20 is equal to the portable communication device 20. Is set such that communication is possible only in a state where it is located near the lighting device 11, specifically, the line-of-sight distance is set to about 100 m. From this relation, the lighting fixtures 10a to 10g may be arranged with an interval of 100 m or more from each other, but there is no problem of communication interference at 100 m or less. The installation intervals of the lighting fixtures 10a to 10g may be determined in consideration of the monitoring range of the image sensor camera 12.
[0026]
The portable communication device 20 is a PDA as described above, and is configured to receive the photographing data transmitted from the lighting device 10 and record it in the built-in memory. The setting of the image sensor camera 12 can also be performed through the portable communication device 20.
[0027]
The alarm device 30 turns on the lamp to determine which of the illuminable areas of the illuminating devices 10a to 10g the suspicious person has entered based on the moving object intrusion detection signals respectively input from the illuminating devices 10a to 10g through the wired line L. , And a buzzer 32 that emits an alarm sound at the same time as turning on one of the lamps.
[0028]
The operation of the monitoring system configured as described above according to the first embodiment will be described. A manager is on standby in the office where the alarm device 30 shown in FIG. 1 is installed, and the portable communication device 20 is stored in the office.
[0029]
For example, it is assumed that a suspicious person has entered the illuminable area of the lighting device 10c among the lighting devices 10a to 10g. In this case, the movement, the color, etc. of the moving body are recognized by the image sensor camera 12 of the lighting device 10c that constantly captures the inside of the area, and the size, movement, color, etc. of the moving body are compared with the preset data. Then, as a result of the comparison, when it is determined that the suspicious person has entered the area, the photographing data of the suspicious person is recorded in the built-in memory. Subsequently, the imaging data of the suspicious individual is sequentially recorded in the built-in memory. At the same time, the determination result of the moving object intrusion is externally output from the image sensor camera 12 as an optical signal, and accordingly, the timer 143 is operated, and the alarm contact TM-1 and the dimming contact TM-2 are turned on.
[0030]
If it is nighttime, the electronic ballast 111 and the lamp 112 are energized through the automatic flasher 141, so that the lamp 112 performs nighttime illumination with 50% dimming, but the dimming contact TM-2 is When turned on, the illuminance of the night light changes to the maximum. As a result, the suspicious individual is intimidated and the details of the suspicious individual are photographed.
[0031]
When the alarm contact point TM-1 is reached, a moving object intrusion detection signal is output to the alarm device 30 via the wired line L. Then, the buzzer 32 of the alarm device 30 sounds and the lamp corresponding to the lighting device 10c among the lamps on the monitor 31 is turned on.
[0032]
The manager who stands by in the office can easily and easily find out that a suspicious person has entered the illuminable area of the lighting device 10c through the buzzer 32 or the monitor 31 of the alarm device 30. To the installation location of the lighting device 10c. When the portable communication device 20 is connected and operated within 100 m of the periphery of the lighting device 10c, the shooting data recorded in the internal memory of the image sensor camera 12 of the lighting device 20c is read, It is transmitted from the fixing communication unit 13. The photographing data transmitted from the lighting device 10c is received and downloaded by the portable communication device 20. Thereafter, when the portable communication device 20 is operated, an image of the suspicious individual is displayed on the display based on the downloaded photographing data.
[0033]
Note that since the image sensor camera 12 can also recognize the color of the moving object, when the guards wear a yellow vest or the like and look around, the image sensor camera 12 displays the moving object in yellow or the like. Is set in advance so as not to be a suspicious individual, it is possible to prevent the guard who performs the patrol from being erroneously determined to be a suspicious individual by the image sensor camera 12, and to increase the reliability of the system.
[0034]
The above description is for a case where a suspicious person enters the illuminable area of the lighting device 10c, but also for a case where a suspicious person enters the illuminable region of the other lighting devices 10a, b, d to g. It is exactly the same as above.
[0035]
In the case of the first embodiment, the secretariat can monitor a plurality of video monitors even though it is possible to monitor that a suspicious person has entered a plurality of places where the lighting devices 10a to 10g are installed. Installation is not required. Moreover, equipment for constantly recording these images becomes unnecessary. That is, the system can be reduced in scale and cost can be reduced. In particular, since a commercially available image sensor camera 12 and portable communication device 20 of the lighting device 10 were used, it was possible to realize a significant cost reduction.
[0036]
Next, a second embodiment will be described with reference to FIG. FIG. 4 is a configuration diagram of a monitoring system according to the second embodiment.
[0037]
The major difference from the first embodiment is that, as shown in FIG. 4, wireless communication is provided between the lighting devices 10a ′ to 10g ′ and the lighting devices 10a ′ to 10g ′. The portable communication device 20 is provided with a possible relay control unit 40. The portable communication device 20 wirelessly receives, via the relay control unit 40, imaging data wirelessly transmitted from the lighting devices 10a to 10g, and records the image data in a readable manner. That is, the alarm device 30 is configured to receive the detection result of the intrusion of the moving object wirelessly transmitted from the lighting devices 10a 'to 10g' through the relay control unit 40 by wire. Hereinafter, a description will be given in detail focusing on matters different from the first embodiment.
[0038]
Illumination devices 10a 'to 10g' are almost the same as those shown in FIG. 2, but a signal of a judgment result of moving object intrusion separately output from image sensor cameras 12a 'to 12g' is used as a moving object intrusion detection signal for fixing. The difference is that the signal is guided to the communication unit 13 and is transmitted to the relay control unit 40 wirelessly. In this case, the antenna power of the fixing communication unit 13 needs to be set according to the distance between the lighting devices 10a 'to 10g' and the relay control unit 40, and the imaging output from the image sensor cameras 12a to 12g is required. The data is also wirelessly transmitted to the relay control unit 40 by the fixing communication unit 13.
[0039]
The relay control unit 40 includes a rod antenna 43 that receives a moving object intrusion detection signal and imaging data wirelessly transmitted from the lighting devices 10a ′ to 10g ′, a wireless circuit board 42 connected to the rod antenna 43, and a wireless circuit. A communication device 41 for recording and transmitting a moving object intrusion detection signal and photographing data input through the substrate 42 and a moving object intrusion detection signal input through the communication device 41 to the alarm device 30 via a wired line M via a cable. And a relay unit 44 for transmitting.
[0040]
Here, a commercially available PDA is used as the communication device 41, while a wireless communication module for Bluetooth (registered trademark), which is an accessory of the PDA, is used as the wireless circuit board 42. Therefore, the antenna power of the communication performed between the relay control unit 40 and the portable communication device 20 is such that the portable communication device 20 can communicate only in a state where it is located near the relay control unit 40, specifically. Is set to a line-of-sight distance of about 100 m or less.
[0041]
The wireless circuit board 42 receives a moving object intrusion detection signal and imaging data wirelessly transmitted from the lighting devices 10 a ′ to 10 g ′, and can perform wireless communication with the portable communication device 20. Has become.
[0042]
The communication device 41 outputs the moving object intrusion detection signal received by the wireless circuit board 42 to the relay unit 44, records the photographing data in the built-in memory, and stores the photographing data in response to the access from the portable communication device 20. It is configured to read and output to the wireless circuit board 42.
[0043]
The relay unit 44 has a relay that operates based on a moving object intrusion detection signal input through the communication device 41, and outputs the relay contact to the alarm device 30 via the wired line M as a moving object intrusion detection signal. It has a configuration.
[0044]
The operation of the monitoring system of the second embodiment configured as described above will be described focusing on the differences from the first embodiment.
[0045]
For example, it is assumed that a suspicious person has entered the illuminable area of the lighting device 10c 'among the lighting devices 10a' to 10g '. In this case, the moving object intrusion detection signal and the photographing data are transmitted from the lighting device 10 c ′ and received by the relay control unit 40. The photographing data is recorded in the internal memory of the communication device 41 of the relay control unit 40, while the moving object intrusion detection signal is output to the alarm device 30 via the communication device 41, the relay unit 44, and the wired line M in order. . Then, the buzzer 32 of the alarm device 30 sounds and the lamp corresponding to the illumination device 10c 'among the lamps on the monitor 31 is turned on.
[0046]
The manager who stands by in the office can easily and easily find out that a suspicious person has entered the illuminable area of the lighting device 10c 'through the buzzer 32 or the monitor 31 of the alarm device 30, and can therefore easily carry the portable communication device 20. And then rush to the installation location of the relay control unit 40. When the portable communication device 20 is operated within 100 m of the vicinity of the relay control unit 40, the photographing data recorded in the internal memory of the communication device 41 of the relay control unit 40 is downloaded to the portable communication device 20. And an image of the suspicious individual is displayed on the display.
[0047]
The above description is for a case where a suspicious person enters the illuminable area of the lighting device 10c ′, but a suspicious person enters the illuminable region of the other lighting devices 10a ′, b ′, d ′ to g ′. The same applies to the case of intrusion.
[0048]
According to the second embodiment, the same effects as those of the first embodiment can be obtained. In particular, even when the office is far away from the lighting devices 10a 'to 10g', if the relay control unit 40 is installed between the office and the lighting devices 10a 'to 10g', The antenna power of the fixing communication unit 13 'of the lighting devices 10a' to 10g 'may be small, and in this regard, cost reduction can be achieved.
[0049]
Next, a third embodiment will be described with reference to FIG. FIG. 5 is a configuration diagram of a monitoring system according to the third embodiment.
[0050]
What is greatly different from the first embodiment is that, as shown in FIG. 5, the lighting devices 10 a ″ to 10 g ″ are installed at different locations from the lighting devices 10 a ″ to 10 g ″ and And the suspicious individual detection signal and the photographing data transmitted by wire from the lighting devices 10a "to 10g" are wirelessly received through the relay control unit 60 and readably recorded. A communication device 50 is used, and the communication device 50 is used instead of the alarm device 30 without using the portable communication device 20. Hereinafter, a description will be given in detail focusing on matters different from the first embodiment.
[0051]
The lighting devices 10a ″ to 10g ″ are almost the same as those shown in FIG. 2, but the moving object intrusion detection signals and the photographing data output from the image sensor cameras 12a ′ to 12g ′ are wired (RS485 in this case). The difference is that the data is transmitted to the relay control unit 60.
[0052]
The relay control unit 60 includes a connection box 62 that receives a moving object intrusion detection signal and imaging data transmitted from the lighting devices 10a ″ to 10g ″ by wire, a moving object intrusion detection signal input through the connection box 62, The configuration includes a memory unit 61 that records and displays photographing data, and a transmitting / receiving unit 63 that wirelessly transmits a moving object intrusion detection signal and photographing data input through the memory unit 61.
[0053]
Here, a commercially available PDA is used as the memory unit 61, and a commercially available portable mobile phone connectable to the PDA is used as the transmission / reception unit 63.
[0054]
The connection box 62 is configured to receive the moving object intrusion detection signal and the photographing data transmitted from the lighting devices 10 a ″ to 10 g ″ by wire and output the received data to the memory unit 61.
[0055]
When the mobile unit intrusion detection signal and the photographing data are input through the connection box 62, the memory unit 61 records this in the built-in memory and outputs a dial-up signal to the transmission / reception unit 63, and then receives a read signal from the transmission / reception unit 63. Then, the moving object intrusion detection signal and the imaging data recorded in the built-in memory are read out and output to the transmission / reception unit 63.
[0056]
When a dial-up signal is input from the memory unit 61, the transmission / reception unit 63 dials up the transmission / reception unit 51 of the communication device 50, which will be described later, and when connected to the transmission / reception unit 51, outputs a read signal to the memory unit 61. When a moving object intrusion detection signal and photographing data are input from the memory unit 61, the signal is transferred to the transmitting / receiving unit 51.
[0057]
The communication device 50 is located in an office and includes a memory display unit 52 and a transmission / reception unit 51. A commercially available PDA is used as the memory display unit 52 corresponding to the relay control unit 60, and a commercially available portable mobile phone connectable to the PDA is used as the transmission / reception unit 51.
[0058]
The transmission / reception unit 51 is configured to receive the moving object intrusion detection signal and the photographing data wirelessly transmitted after being dialed up from the relay control unit 60, and transfer this to the memory display unit 52.
[0059]
The memory display unit 52 records the moving object intrusion detection signal and the photographing data transferred from the transmission / reception unit 51, and, based on the moving object intrusion detection signal, in any of the illuminable areas of the lighting devices 10a "to 10g". On the display, a warning is displayed as to whether or not a suspicious person has intruded, while the state of the suspicious person is displayed on the display based on the photographing data.
[0060]
The operation of the monitoring system according to the third embodiment configured as described above will be described focusing on differences from the first embodiment.
[0061]
For example, it is assumed that a suspicious person has entered the illuminable area of the lighting device 10c '' among the lighting devices 10a '' to 10g ''. In this case, the moving object intrusion detection signal and the photographing data are transmitted from the lighting device 10c ″ to the relay control unit 60 by wire, and then transmitted to the relay control unit 60 to the communication device 50 by wireless. Then, it is not only instantly and easily recognized that the suspicious person has entered the illuminable area of the lighting device 10c '' through the display of the memory display unit 52 of the communication device 50, but also the image of the suspicious person is displayed on the display. Is done.
[0062]
The contents described above are for the case where a suspicious person has entered the illuminable area of the illuminating device 10c '', but the illuminable areas of the other illuminating devices 10a '', b '', d '' to g '' The same applies to the case where a suspicious person intrudes inside.
[0063]
According to the third embodiment, the same effects as those of the first and second embodiments can be obtained. Moreover, unlike the first and second embodiments, the manager does not need to go to the relay control unit 60 or the lighting devices 10a '' to 10g '', so that it is very convenient and takes necessary measures immediately. In this respect, it is possible to improve the performance of the system.
[0064]
Note that the lighting device according to the present invention is not limited to the above embodiment. For example, if the surveillance camera detects intrusion of a moving object in a state where nighttime illumination is performed and the fixing communication unit is omitted, photographing data of the surveillance camera is obtained. May be used, while having a function of setting the illuminance of nighttime illumination high. Even in this case, when the intrusion of a suspicious person is detected at night, the illuminance of the nighttime illumination is increased, thereby intimidating the suspicious person and photographing the details of the suspicious person with a surveillance camera. The data will be recorded on the surveillance camera or another memory. Further, the surveillance camera may be a camera having only a function of photographing the inside of the illuminable area by the luminaire, and another sensor may be used to detect the intrusion of the moving body into the illuminable area.
[0065]
In addition, the monitoring system according to the present invention is not limited to the above embodiment. For example, a monitoring camera having only a function of photographing the illuminable area by a lighting fixture is used, and the monitoring camera is moved to the illuminable area. A form in which intrusion of the body is detected by another sensor may be used. As for the portable communication device, the alarm device, the communication device, and the like, any device having the same function may be used.
[0066]
【The invention's effect】
As described above, in the case of the lighting device according to claim 1 of the present invention, a lighting fixture, a surveillance camera that shoots the moving body when detecting the intrusion of the moving body into the illuminable area, and shooting data recorded in the monitoring camera. And a fixing communication unit for transmitting the data to the portable communication device. For this reason, although it is possible to monitor a plurality of places, it is not necessary to install a plurality of video monitors in the host station or to provide equipment for constantly recording these images, and the system is compact. And cost reduction can be achieved.
[0067]
In the lighting device according to the second aspect of the present invention, in addition to the configuration of the first aspect, when the surveillance camera detects an intrusion of a moving object in a state where nighttime illumination is performed, the monitoring data is recorded while the surveillance camera detects the intrusion of a moving object. The configuration has a function of setting the illuminance of the illumination high. For this reason, when the surveillance camera detects the intrusion of a moving object at night, the illuminance of the nighttime illumination increases, which intimidates the suspicious individual and captures details of the suspicious individual. Performance can be improved.
[0068]
In the case of the lighting device according to claim 3 of the present invention, the lighting device includes a lighting fixture, and a monitoring camera that captures the moving body when detecting the intrusion of the moving body into the illuminable area, and monitors in a state where night lighting is performed. When the camera detects the invasion of a moving object, the camera has a function of recording an image captured by the surveillance camera and having a function of setting the illuminance of night illumination to be high. Therefore, the same effects as those of the first and second aspects are obtained.
[0069]
A monitoring system according to a fourth aspect of the present invention includes the lighting device according to the first or second aspect, and a portable communication device that receives the photographing data transmitted from the lighting device and records the data in a readable manner. For this reason, the same effect as the first or second aspect is obtained.
[0070]
In the case of the monitoring system according to claim 5 of the present invention, the antenna power of the communication performed between the lighting device and the portable communication device communicates only when the portable communication device is located near the lighting device. It is set to the extent possible. For this reason, the antenna power on the lighting device side may be small, and the cost can be further reduced.
[0071]
In the case of the monitoring system according to claim 6 of the present invention, the monitoring system is installed at a location different from the lighting device and receives the detection result of the intrusion of the moving object transmitted from the lighting device by wire, and based on the reception result. Alarm device that identifies the lighting device and outputs an alarm. For this reason, it can be immediately recognized that the suspicious person has entered through the alarm device and the location of the suspicious person, and the performance can be improved in this regard.
[0072]
In the case of the monitoring system according to claim 7 of the present invention, the lighting device, a relay control unit that is installed in a different place from the lighting device and that can wirelessly communicate with the lighting device, The portable communication device is configured to wirelessly receive photographing data transmitted wirelessly through a relay control unit and record the data in a readable manner. Therefore, the same effects as those of the fourth aspect are obtained.
[0073]
In the case of the monitoring system according to claim 8 of the present invention, the antenna power of the communication performed between the relay control unit and the portable communication device is limited only when the portable communication device is located near the relay control unit. It is set to the extent that communication is possible. For this reason, the same effect as the fifth aspect is obtained.
[0074]
According to the monitoring system of the ninth aspect of the present invention, the detection result of the intrusion of the moving object wirelessly transmitted from the lighting device is provided through the relay control unit, the detection result being arranged at a location different from the lighting device and the relay control unit. It is configured to have an alarm device that receives the signal by wire and specifies the illumination device based on the reception result and outputs an alarm. Therefore, the same effect as that of the sixth aspect is obtained.
[0075]
In the case of the monitoring system according to claim 10 of the present invention, a lighting fixture, a surveillance camera for photographing the moving body when detecting the intrusion of the moving body into the illuminable area, and photographing data recorded in the surveillance camera are transmitted. A lighting device having a fixing communication section to be fixed, a relay control unit installed at a different location from the lighting device and capable of performing wired communication with the lighting device, and a wire transmitted from the lighting device. A communication device is provided that wirelessly receives the detection result of the intrusion of the moving object and the photographing data through the relay control unit and records them in a readable manner. For this reason, not only can it be immediately known that a suspicious person has invaded through the alarm device and its location, but it is not necessary to go to the installation location of the lighting device or relay control unit, which is convenient. Performance can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining a first embodiment of the present invention, and is a configuration diagram of a monitoring system.
FIG. 2 is a configuration diagram of a lighting device of the system.
FIG. 3 is an external view of the lighting device.
FIG. 4 is a diagram for explaining a second embodiment of the present invention, and is a configuration diagram of a monitoring system.
FIG. 5 is a diagram for explaining a third embodiment of the present invention, and is a configuration diagram of a monitoring system.
[Explanation of symbols]
10a-10g lighting device
11 Lighting equipment
12 Image sensor camera
13 Communication unit for fixing
20 Portable communication equipment
30 Alarm device

Claims (10)

A lighting fixture, a surveillance camera for photographing the moving body when detecting the intrusion of the moving body into the illuminable area, and a fixed communication unit for transmitting photographing data of the surveillance camera to the portable communication device. A lighting device, characterized in that the lighting device is provided. 2. The lighting device according to claim 1, further comprising: a function having a function of setting a high illuminance of the night illumination while recording photographing data of the monitoring camera when the monitoring camera detects an intrusion of a moving body in a state of performing night illumination. A lighting device, comprising: A luminaire, and a surveillance camera for photographing the moving body when detecting the intrusion of the moving body into the illuminable area; and An illumination device having a function of setting a high illuminance of nighttime illumination while recording a captured image. A monitoring system, comprising: the lighting device according to claim 1; and a portable communication device that receives and records the photographing data transmitted from the lighting device in a readable manner. 5. The monitoring system according to claim 4, wherein the antenna power of communication performed between the lighting device and the portable communication device is such that the portable communication device can communicate only in a state where the portable communication device is located near the lighting device. A monitoring system characterized by being set. The monitoring system according to claim 4, wherein the monitoring system is installed at a location different from the lighting device and receives a detection result of intrusion of a moving object transmitted from the lighting device by wire, and based on the reception result. A monitoring system comprising an alarm device that identifies the lighting device and outputs an alarm. The lighting device according to claim 1, a relay control unit installed at a different location from the lighting device and capable of wireless communication with the lighting device, and photographing data wirelessly transmitted from the lighting device. And a portable communication device that wirelessly receives the data through a relay control unit and records the data in a readable manner. 8. The monitoring system according to claim 7, wherein the antenna power of the communication performed between the relay control unit and the portable communication device is such that the portable communication device can communicate only when the portable communication device is located near the relay control unit. A surveillance system characterized by being set to: 9. The monitoring system according to claim 7, wherein the detection result of the intrusion of the moving object wirelessly transmitted from the lighting device is arranged at a location different from the lighting device and the relay control unit, and the detection result is transmitted through the relay control unit by wire. A monitoring system comprising an alarm device for receiving and specifying the illumination device based on the reception result and outputting an alarm. A lighting device, a monitoring camera that captures an image of the moving object when detecting the intrusion of the moving object into the illuminable area, and a lighting device having a fixed communication unit that transmits imaging data recorded in the monitoring camera, A relay control unit that is installed at a different location from the lighting device and can perform wired communication with the lighting device, and relays the detection result of the intrusion of the moving object and the shooting data transmitted from the lighting device by wire And a communication device that wirelessly receives through a unit and records the data in a readable manner.

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