JP2004318684A - Guidance display device for outdoor use - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a guidance display device for outdoor use capable of receiving emergency alarm signals when an emergency alarm is issued and reporting the emergency alarm to people moving on a road or the like. <P>SOLUTION: The guidance display device for the outdoor use is installed outdoors and displays character information. The guidance display device for the outdoor use is provided with an electronic character display device 3 for variably displaying the character information for various kinds of guidance, a day and night discrimination circuit 21 for discriminating day and night, an emergency broadcast receiver 23 for receiving the emergency alarm signals, an illumination lamp 6 to be lighted when the day and night discrimination circuit 21 discriminates that it is night, a display control circuit 33 for displaying characters indicating the issuance of the emergency alarm at the electronic character display device 3 when the emergency broadcast receiver 23 receives the emergency alarm signals, and a speaker 32 for generating voice for the emergency alarm when the emergency broadcast receiver 23 receives the emergency alarm signals. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an outdoor guidance display device that is installed outdoors and displays various types of guidance information, and in particular, includes an emergency broadcast receiver, and when issuing an emergency alert that has received an emergency alert broadcast signal, transmits the emergency alert text information. The present invention relates to an outdoor guidance display device that displays a notification or the like by displaying it.
[0002]
[Prior art]
When an earthquake or tsunami occurs or is likely to occur, an emergency alert signal is transmitted nationwide from a broadcasting station that has obtained an emergency alert broadcasting experimental station license such as NHK. This emergency alert signal is a low bit rate data signal including information such as signal type, area, and date and time of occurrence.When receiving the emergency alert signal, a dedicated emergency broadcast receiver is prepared. Must always be ready to receive.
[0003]
As this type of emergency broadcast receiver, for example, the one proposed in the following Patent Document 1 is conventionally known.
[0004]
[Patent Document 1]
JP-A-9-167293
[0005]
[Problems to be solved by the invention]
However, there are still few homes that have emergency broadcast receivers in their homes and keep them in a standby state at all times.Furthermore, when going out, visiting or on a moving road, it is necessary to know when an emergency alert is issued. However, at the time of issuing an emergency alert, it has been desired to provide a means for promptly issuing an emergency alert to people who are moving away from home or visiting places.
[0006]
The present invention has been made to solve the above-mentioned problem, and when an emergency warning is issued, an outdoor guidance display device that can receive the emergency warning signal and notify an emergency warning to a person traveling on a road or the like. The purpose is to provide.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an outdoor guidance display device of the present invention is provided outdoors, in an outdoor guidance display device that displays character information, a character display that variably displays various guidance character information. Day and night discriminating means for discriminating between day and night, an emergency broadcast receiver for receiving an emergency alert signal, an illuminating lamp that lights up when the day and night discriminating means discriminates night, and an emergency broadcast And character display control means for displaying a character indicating an emergency alert issuance on a character display when received.
[0008]
Here, in the outdoor guidance display device, a radio receiver for receiving a radio broadcast is provided as in claim 2, and when the emergency broadcast receiver receives the emergency alert signal, the radio receiver is operated to receive. To output broadcast audio.
[0009]
Further, in the outdoor guidance display device, as claimed in claim 3, as a power source for an illumination lamp, a character display, and an emergency broadcast receiver, a solar cell arranged to receive sunlight, And a power storage unit for storing the electromotive force.
[0010]
Further, in the outdoor guidance display device, a voice generating means for generating a voice of information about the geography in the vicinity can be provided.
[0011]
Further, in the outdoor guidance display device, a human motion detector for detecting approach of a human body and outputting a detection signal can be provided.
[0012]
Further, the outdoor guidance display device may be configured so that the display brightness of the character display is changed and displayed according to day and night.
[0013]
[Action]
The outdoor guidance display device having such a configuration is mounted on a covered rest facility installed in an outdoor public place such as a park, for example. Normally, character information for various kinds of guidance is lit on the character display. When the surroundings become dark and the day / night discriminating means determines that it is nighttime, the lighting is turned on to illuminate the surroundings.
[0014]
On the other hand, when an earthquake or tsunami occurs or is likely to occur, an emergency alert signal is transmitted nationwide from a broadcasting station such as NHK that has obtained an emergency alert broadcasting experimental station license. This emergency alert signal is received by the emergency broadcast receiver installed on the guidance display device. Then, when the emergency broadcast receiver receives the emergency alert signal, the character display control means displays the character indicating the issuance of the emergency alert on the display of the character display, or switches the display to display it. Therefore, when the emergency alert is issued, the character indicating the emergency alert is displayed on the character display, so that it is possible to satisfactorily notify the outdoor people of the emergency alert.
[0015]
Further, a radio receiver for receiving a radio broadcast is provided, and when the emergency broadcast receiver receives an emergency alert signal, the radio receiver is operated to receive and output broadcast audio. For example, when an emergency alert is issued, for example, news about the emergency alert is broadcast from a radio broadcast station such as NHK, so that the broadcast of the emergency alert is broadcasted from a speaker, and information about the emergency alert is notified to the people around. be able to.
[0016]
Further, as claimed in claim 3, as a power source for the illumination lamp, the character display and the emergency broadcast receiver, a solar cell arranged to receive sunlight, and a power storage unit for storing electromotive force of the solar cell, Is provided, a solar power source and a power storage unit are provided, so that a commercial power source is not required, and the power source line can be easily and inexpensively installed without laying a power line. However, it can be used, and furthermore, an electricity fee is not required, and the maintenance cost can be reduced.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a front view of an outdoor guidance display device, FIG. 2 is a side view thereof, and FIG. 3 is a block diagram of its configuration. This outdoor guidance display device is installed in a resting facility such as a park, and the resting facility is configured by mounting a roof 1 on a pillar 2 erected on the ground, and an illumination light 6 and a character display are provided inside the roof 1. A container 3 is attached, and a solar cell (solar cell panel) 5 is provided on the roof 1.
[0018]
The illuminator 6 includes a fluorescent lamp illuminator including a reflector, a transparent cover, a ballast, and the like, and an LED illuminator using a white light emitting diode, and is horizontally mounted inside the roof 1. Furthermore, the character display 3 is horizontally mounted next to the illumination light 6 inside the roof 1. The character display 3 is configured by, for example, arranging a large number of light emitting diodes (for example, red LEDs) in a matrix on the XY plane, and selecting a light emitting diode group by the display control circuit 32 in FIG. 3 to emit light. It operates to display characters by being driven. Thus, the character display 3 normally displays various types of information from outside in characters, and displays real information such as “emergency warning is being issued” as character information when an emergency alert is issued.
[0019]
A control box 9 is attached to the upper part of the column 2, and the control box 9 accommodates a control unit having a control circuit 20, which will be described later, and an emergency broadcast receiver 23 for receiving an emergency alert signal. Further, a radio receiver 30 is installed in the upper part of the support 2. Further, a power storage unit 25 including an electric double-layer capacitor, a small sealed lead storage battery, and the like is housed inside a chair provided in the rest facility. The power storage unit 25 serves as a power source for the illumination lamp 6, the character display 3, and the like. When a solar cell (solar cell panel) 5 on the roof 1 receives sunlight in the daytime and generates an electromotive force, The power storage unit 25 is charged with the electromotive force. The power stored therein is used as a power source for the illumination lamp 6, the character display 3, and the like at night.
[0020]
In the control unit, as shown in FIG. 3, a charging circuit 22 for supplying the electromotive force of the solar cell 5 to the power storage unit 25 for charging, a day / night determining circuit 21 for determining day and night and outputting the signal, and a lighting lamp 6 And a control circuit 20 for controlling an emergency broadcast receiver 23, a radio receiver 30, and the like, which will be described later. The control circuit 20 includes an arithmetic processing circuit having a CPU, a ROM, an input / output circuit, and the like. The control circuit 20 receives detection signals from a day / night discrimination circuit 21, an emergency broadcast receiver 23, a human presence detector 26, and the like, and is stored in advance. Based on the detected program data, control of the illumination lamp 6, the character display 3, and the like is performed in accordance with the detection signals.
[0021]
The motion detector 26 is mounted on an upper portion of the support column 2 or the like so as to detect a person entering the rest facility. The human body detector 26 detects a human body by receiving infrared rays (heat rays) emitted from the human body and detects the human body. A light-type motion detector that detects the human body by receiving reflected light rays, transmits ultrasonic waves to the surroundings, measures the time from transmission to reception of ultrasonic waves reflected from the human body and receives, and detects the approach of the human body For example, an ultrasonic type human motion detector can be used. For example, when a light beam type human detector is used, an infrared light receiving element and a light emitting element are arranged side by side outward, and a light emitting circuit, a light receiving circuit, and a detecting circuit for detecting a light receiving signal and outputting a detection signal. Thus, it can be configured as a small detector.
[0022]
As shown in FIG. 3, the positive side of the solar cell 5 is connected to the charging circuit 22, the power storage unit 25 is connected to the output side of the charging circuit 22, and the electromotive force generated in the solar cell 5 passes through the charging circuit 22. Power is stored in the power storage unit 25 through the charge / discharge prevention circuit 35.
[0023]
The input side of the lighting circuit 27 is connected to a control circuit 20 for controlling lighting and extinguishing thereof, and a day / night discriminating circuit 21 is connected to the control circuit 20. The illumination lamp 6 is connected to the output side of the lighting circuit 27. The control circuit 20 operates to send a lighting signal to the lighting circuit 27 and turn on the illumination lamp 6 when the day / night determining circuit 21 determines night. A display control circuit 32 of the character display 3 is connected to an output side of the control circuit 20.
[0024]
The day / night discriminating circuit 21 detects the electromotive force of the solar cell 5, determines that the daytime is higher when the electromotive voltage is higher than a preset reference voltage, and determines that the daytime is lower when the electromotive voltage is lower than a predetermined reference voltage. It is configured to be sent to the control circuit 20. The solar cell 5 receives the sunlight to generate power, and stores the electromotive force in the power storage unit 25 through the charging circuit 22 and the overcharge / discharge prevention circuit 35. At night, the electric power discharged from the power storage unit 25 can be supplied to the illumination lamp 6 through the lighting circuit 27.
[0025]
As shown in FIG. 3, an emergency broadcast receiver 23 is connected to the control circuit 20. The emergency broadcast receiver 23 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a signal identification circuit, and the like, and receives an emergency alert signal of a predetermined frequency. Be composed. The emergency alert signal is composed of a 640 Hz signal for an earthquake alert and a 1024 Hz signal for a tsunami alert. The signal identification circuit identifies the low-frequency signal received, detected and extracted, and detects a 640 Hz, 1024 Hz signal. . The emergency broadcast receiver 23 has a built-in audio generation circuit, and the audio is generated from a speaker 31 of a radio receiver 30 described later.
[0026]
Although the test signal of the emergency alert signal is transmitted as a signal having a frequency different from that of the emergency alert signal, the emergency broadcast receiver 23 is provided with a function of receiving the test signal. Is output from the emergency broadcast receiver 23 to the control circuit 20.
[0027]
Further, a radio receiver 30 is connected to the control circuit 20. The radio receiver 30 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a speaker 31, and the like, and receives a radio broadcast transmitted from a broadcasting station such as NHK. It is configured to The operation of the radio receiver 30 is controlled by the control circuit 20. When the motion detector 26 detects the approach of a person and the signal is sent to the control circuit 20, the control circuit 20 controls the radio receiver 30 to operate. The receiver 31 is operated to receive a broadcast such as NHK and broadcast the broadcast from the speaker 31. Further, on the upper part of the column 2, there is provided a rotating light 8 which is rotated and turned on at the time of an emergency warning.
[0028]
Next, the operation of the outdoor guidance display device will be described with reference to the flowchart of FIG. The control circuit 20 of the guidance display device first determines in step 100 whether or not the emergency broadcast receiver 23 has received an emergency alert signal. To determine whether day or night. Here, during the daytime when the day / night determination circuit 21 outputs the daytime determination signal, the process proceeds to step 120 to charge the electromotive force generated by the solar cell 5 installed on the roof 1 receiving sunlight. The power storage unit 25 is charged through the circuit 22. On the other hand, at night, the process proceeds from step 110 to step 130, where the illumination lamp 6 is turned on to illuminate the rest facility.
[0029]
The display control circuit 32 and the character display 3 are operated both in the night and in the day, and character information such as various kinds of guidance sent from the outside is displayed on the character display 3 (step 140). Then, when a person approaches this resting facility and the motion detector 26 detects the person, the process proceeds from step 150 to step 160, where the control circuit 20 operates the radio receiver 160 and receives the audio of the received radio broadcast. Is generated through the speaker 31. Then, when a predetermined time has elapsed from the time when the motion detector 26 detects a person, the process proceeds from step 170 to step 180, and the reception of the radio broadcast is stopped. On the other hand, when the motion detector 26 does not detect a person, only character information is displayed on the character display 3 and radio broadcast is not received (steps 140 and 150).
[0030]
Next, the control circuit 20 proceeds to step 190, and determines whether or not the test signal of the emergency alert signal has been received. At this time, when a test signal of an emergency alert signal is transmitted from a broadcasting station that has obtained an emergency alert broadcast experimental station license such as NHK, the emergency broadcast receiver 23 receives the test signal of the emergency alert signal. . The test signal of the emergency alert signal is transmitted on a carrier having a frequency different from that of the original emergency alert signal, and is detected and output by the emergency broadcast receiver 23 as a test signal different from the emergency alert signal.
[0031]
As described above, when the test signal is received, the control circuit 20 proceeds from step 190 to step 200, outputs a lighting signal to the lighting circuit 34, and lights the confirmation lamp 28 for a predetermined time. Therefore, when performing maintenance and inspection of the lighting device, when the predetermined test signal is transmitted, the lighting of the confirmation lamp 28 is visually confirmed to confirm the reception of the test signal, so that the operation of the emergency broadcast receiver 23 is performed. Can be easily confirmed.
[0032]
Next, in step 210, it is determined whether or not the lighting signal for confirming the lighting of the confirmation lamp 28 is on. If it is determined that the lighting signal is not on, that is, the confirmation lamp 28 is If not, the process proceeds to step 240, where the control circuit 20 transmits a lamp non-lighting signal to the outside. Accordingly, when the test signal confirmation lamp does not light due to a failure or the like, it can be confirmed from the outside.
[0033]
On the other hand, if it is determined in step 210 that the lighting signal for confirming the lighting of the confirmation lamp 28 is on, the process proceeds to step 220, where a signal indicating the end of the test signal is received, and a signal indicating the end of lighting is received. It is determined whether or not it has occurred. Here, when the test signal is terminated and a signal indicating the end of lighting is generated, the process proceeds to step 230, where the confirmation lamp 28 is turned off, and the process of this time is terminated.
[0034]
On the other hand, when an emergency alert is issued and an emergency alert signal indicating an earthquake, a tsunami, or the like is transmitted from a broadcasting station that has obtained an emergency alert broadcasting experimental station license such as NHK, the emergency alert signal is transmitted to the emergency broadcast receiver 23. Is received. At this time, a signal indicating the reception of the emergency alert signal is output from the emergency broadcast receiver 23 to the control circuit 20, and the control circuit 20 determines in step 100 that the emergency alert signal has been received. Proceed to determine day or night.
[0035]
Here, when the day / night determination circuit 21 determines that it is nighttime, the process proceeds to step 260, where a lighting signal is output to the lighting circuit 27. Thus, the lighting circuit 27 drives the lighting lamp 6 to light, and the rest facility is illuminated. On the other hand, if the day / night discriminating circuit 21 determines that it is daytime in step 250, the illumination lamp 6 is not turned on.
[0036]
Then, the process proceeds to step 270, in which the control circuit 20 causes the radio receiver 30 to perform a receiving operation, for example, to receive a radio broadcast of a broadcasting station such as NHK, and to operate the broadcast from the speaker 31. Further, the rotating light 8 is activated, and characters such as "emergency warning is being issued" are displayed on the character display 3 (step 275). Thereby, the person in the rest facility listens to the information of the emergency alert from the radio broadcast in the event of an emergency, sees the rotating light of the rotating light 8, and further displays the message “Emergency alert is being issued on the character display 3. "Can be surely recognized that an emergency alert has been issued.
[0037]
Then, in step 280, it is determined whether or not the reception of the emergency alert signal has been stopped. If the transmission of the emergency alert signal received by the emergency alert receiver 23 has stopped, the process proceeds to step 290. The emergency processing is terminated, the receiving operation of the radio receiver 30 that has been receiving is stopped, and the emergency display on the character display 3 is stopped or switched to another display, and the operation of the rotating light 8 is stopped. .
[0038]
In this way, the lighting device is provided with the emergency broadcast receiver 23. When an emergency alert is issued, the character indicating the emergency alert is displayed on the character display 3 and the rotating light 8 is activated. People in the vicinity can easily recognize the emergency alert. Also, when an emergency alert is issued, people can know details of an emergency alert such as an earthquake or a tsunami by listening to information on the emergency alert and the like flowing from the radio broadcast received by the radio receiver 30. When the test signal of the emergency alert signal is received, the confirmation lamp 28 is turned on, so that the reception state of the test signal can be confirmed.
[0039]
In the above-described embodiment, the radio receiver 30 is installed separately from the emergency broadcast receiver 23. However, a radio receiver is provided in the emergency broadcast receiver, and when an emergency alert signal is received, the radio receiver is switched to the radio receiver. That is, the receiving frequency can be switched to a specific radio broadcasting station to receive the radio broadcasting.
[0040]
5 to 7 show an example in which the present invention is applied to an evacuation site guidance display as an outdoor guidance display according to another embodiment. About the structure similar to the said embodiment, the same code | symbol as the above is attached | subjected to FIGS. 5-7, and the description is abbreviate | omitted. As shown in FIGS. 5 and 6, the present guide display device as an evacuation site guide display device has a display plate 41 fixed between two pillars 42 erected on both sides. A guide map 41a is attached, and a character display 43 is attached above the display board 41. The character display 43 is configured by arranging a large number of light-emitting diodes (for example, red LEDs) in a matrix on the XY plane, selects a group of light-emitting diodes, drives them to emit light, and outputs an “emergency alarm is being issued” or the like. Characters are displayed in red or blinking. The character display 43 is connected to the control circuit 20 via the display control circuit 32.
[0041]
A horizontally long control box is attached to the upper part of the character display 43, and a solar cell 45 and a rotating light 8 are provided there. On both sides of the evacuation area guide map 41a, an illumination lamp 46 is provided on a pipe frame attached so as to protrude forward, and the evacuation area guidance map 41a is illuminated with light from the illumination lamp section 46. As the illumination lamp 46, a plurality of white light emitting diodes can be used. In a control box provided in the upper part, a control unit 47 to be described later, a power storage unit 35 such as a small sealed lead-acid battery, and electric equipment such as the emergency broadcast receiver 23 are stored.
[0042]
In the control unit 47, as shown in FIG. 7, a power storage unit 35 serving as a power supply for lighting the illumination lamp 46, a charging circuit 22 for supplying the electromotive force of the solar cell 45 to the power storage unit 25 for charging, And a lighting circuit 27 for lighting and driving the illumination lamp 46, and a control circuit 20 for controlling the lighting and an emergency broadcast receiver 23 described later. The control circuit 20 can be configured by an arithmetic processing circuit including a CPU, a ROM, an input / output circuit, and the like. A human detection detector 26 for detecting the approach of a human body is attached to the outside of the illumination lamp 46, and is connected to the control circuit 20 so as to output a detection signal.
[0043]
As shown in FIG. 7, the solar cell 45 is connected to the charging circuit 22, the charging circuit 22 is connected to the control circuit 20, the power storage unit 25 is connected to the control circuit 20 via the overcharge / discharge prevention circuit 36, and the control circuit 20 controls the electromotive force generated by the solar cell 45 to be stored in the power storage unit 35 through the charging circuit 22 and the overcharge / discharge prevention circuit 36.
[0044]
Further, an output side of the control circuit 20 is connected to an illuminating lamp 46 via a lighting circuit 27, and the control circuit 20 is connected to a day / night discriminating circuit 21. Accordingly, when the day / night determination circuit 21 determines night, the control circuit 20 sends a lighting signal to the lighting circuit 27 and operates to turn on the illumination lamp 46.
[0045]
Further, as shown in FIG. 7, an emergency broadcast receiver 23 is connected to the control circuit 20. The emergency broadcast receiver 23 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a signal identification circuit, and the like, and receives an emergency alert signal of a predetermined frequency. Be composed. The emergency alert signal is composed of a 640 Hz signal for an earthquake alert and a 1024 Hz signal for a tsunami alert. The signal identification circuit identifies the low-frequency signal received, detected and extracted, and detects a 640 Hz, 1024 Hz signal. .
[0046]
Further, a radio receiver 30 is connected to the control circuit 20. The radio receiver 30 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a speaker 31, and the like, and receives a radio broadcast transmitted from a broadcasting station such as NHK. It is configured to The operation of the radio receiver 30 is controlled by the control circuit 20, and when an emergency alert signal is sent to the control circuit 20, the control circuit 20 causes the radio receiver 30 to perform a reception operation and receive a broadcast such as NHK. It operates so that the broadcast is transmitted from the speaker 31. Further, as shown in FIG. 7, a voice guidance generation circuit 44 is provided in the control box of the present apparatus. Voice data is stored in the memory in advance in the voice guidance generation circuit 44, and a person is controlled by the control circuit 20. , The geographical guidance information is output to the speaker 31.
[0047]
The outdoor guidance display device thus configured is installed in a public place such as a park or a road, stores electromotive force generated by the solar cell 45 in the daytime in the power storage unit 35, and stores the electromotive force in the nighttime. Stop and wait. Then, when a person approaches there at night, the motion detector 26 detects the approach of the person and outputs a detection signal to the control circuit 20. At this time, the control circuit 20 outputs a lighting signal to the lighting circuit 27, and the lighting circuit 27 drives and turns on the illumination lamp 46, and the illumination lamp 46 is turned on to illuminate the evacuation site guide map 41a. In addition, when a person approaches during the day and night and the motion detector 26 detects the person, the voice guidance generation circuit 44 plays a predetermined guidance message, for example, "The toilet is located at 50 m on the left hand." Geographical voice guidance information such as is generated from the speaker 31.
[0048]
On the other hand, when an emergency alert is issued and an emergency alert signal indicating an earthquake, a tsunami, or the like is transmitted from a broadcasting station that has obtained an emergency alert broadcasting experimental station license such as NHK, the emergency alert signal 23 is transmitted to the emergency alert signal. To receive. At this time, a signal indicating the reception of the emergency alert signal is output from the emergency broadcast receiver 23 to the control circuit 20, and the control circuit 20 outputs a drive signal to the character display 43, and drives the character display 43 to light up. The character display 43 operates so as to light up and display an emergency alert character such as “emergency alert is being issued”. At the same time, the rotating lamp 8 is operated, and the control circuit 20 operates the radio receiver 30 to receive the radio broadcast of a broadcasting station such as NHK, and operates the broadcast from the speaker 31.
[0049]
Thereby, the person near the present guidance display device can recognize that the emergency alert is being issued by seeing the character display of “emergency alert is being issued” displayed blinking on the character display 43, and It is possible to know details of an emergency alert such as an earthquake or a tsunami by listening to information on an emergency alert flowing from a radio broadcast received by the radio receiver 30.
[0050]
8 to 10 show an example in which the present invention is applied to a wide-area evacuation site guidance display as an outdoor guidance display according to another embodiment. About the same composition as the above-mentioned embodiment, the same numerals are given to Drawing 8-Drawing 10, and the explanation is omitted.
[0051]
As shown in FIGS. 8 and 9, this guide display device as a wide-area evacuation site guide display has a display plate 51 fixed to a side of one support 52, and the display plate 51 has a wide-area evacuation site display unit. 51a is mounted, a solar cell 55 is mounted on the upper portion of the support 52, and a character display 53 is mounted on an intermediate portion of the support 52. The character display 53 is configured by arranging a large number of light emitting diodes (for example, red LEDs) in a matrix on the XY plane. Characters are displayed in red or blinking.
[0052]
The rotary light 8 is mounted on the character display 53, and a control unit 57, a power storage unit 75 such as a small sealed lead-acid battery, and an electric device such as the emergency broadcast receiver 23 are accommodated below the column 52. The mounted control box 59 is attached. Inside the wide-area evacuation area display section 51a, a surface-emitting type illumination lamp 56 is provided, and the wide-area evacuation area display section 51a is illuminated from the back with a plurality of white light emitting diodes and transparent light guides.
[0053]
As shown in FIG. 10, the control unit 57 includes a power storage unit 75 serving as a power supply for lighting the illumination lamp 56, the charging circuit 22 for supplying the electromotive force of the solar battery 55 to the power storage unit 75 to charge the power storage unit 75, day and night. And a lighting circuit 27 for lighting and driving the illumination lamp 56, and a control circuit 20 for controlling the lighting and the emergency broadcast receiver 23 described later. The control circuit 20 can be configured by an arithmetic processing circuit including a CPU, a ROM, an input / output circuit, and the like. The solar cell 55 is connected to the charging circuit 22, and the charging circuit 22 is connected to the control circuit 20. Further, a power storage unit 75 is connected to the control circuit 20 via an overcharge / discharge prevention circuit 35, and the electromotive force generated in the solar cell 55 is stored in the power storage unit 75 through the charging circuit 22 and the overcharge / discharge prevention circuit 35. .
[0054]
Further, a control circuit 20 for controlling turning on and off of the lighting circuit 27 is connected to an input side of the lighting circuit 27, and a day / night determining circuit 21 is connected to the control circuit 20. An illumination lamp 56 is connected to an output side of the lighting circuit 27. When the day / night determination circuit 21 determines night, the control circuit 20 sends a lighting signal to the lighting circuit 27 and operates to turn on the illumination lamp 56.
[0055]
Further, as shown in FIG. 10, an emergency broadcast receiver 23 is connected to the control circuit 20. The emergency broadcast receiver 23 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a signal identification circuit, and the like, and receives an emergency alert signal of a predetermined frequency. Be composed. The emergency alert signal is composed of a 640 Hz signal for an earthquake alert and a 1024 Hz signal for a tsunami alert. The signal identification circuit identifies the low-frequency signal received, detected and extracted, and detects a 640 Hz, 1024 Hz signal. .
[0056]
Further, a radio receiver 30 is connected to the control circuit 20. The radio receiver 30 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a speaker 31, and the like, and receives a radio broadcast transmitted from a broadcasting station such as NHK. It is configured to The operation of the radio receiver 30 is controlled by the control circuit 20, and when an emergency alert signal is sent to the control circuit 20, the control circuit 20 causes the radio receiver 30 to perform a reception operation and receive a broadcast such as NHK. It operates so that the broadcast is transmitted from the speaker 31.
[0057]
The outdoor guidance display device thus configured is installed in a public place such as a park or a road, and the operation of the day / night discrimination circuit 21 stores the electromotive force generated by the solar battery 55 in the power storage unit 75 during the daytime. Then, at night, the control circuit 20 outputs a lighting signal to the lighting circuit 27, and the lighting circuit 27 drives and turns on the lighting lamp 56, and the lighting lamp 56 is turned on to illuminate the wide-area evacuation site display section 51a. The lighting of the illumination lamp 56 is performed all night, so that people can view the wide-area evacuation site display section 51a even in dark nights.
[0058]
On the other hand, when an emergency alert is issued and an emergency alert signal indicating an earthquake, a tsunami, or the like is transmitted from a broadcasting station that has obtained an emergency alert broadcasting experimental station license such as NHK, the emergency alert signal 23 is transmitted to the emergency alert signal. To receive. At this time, a signal indicating the reception of the emergency alert signal is output from the emergency broadcast receiver 23 to the control circuit 20, and the control circuit 20 outputs a drive signal to the character display 53, and drives the character display 53 to light. As a result, an emergency warning character such as "emergency warning is being issued" is displayed on the character display 53, or the display blinks at a predetermined cycle. At the same time, the rotating light 8 is operated, and the control circuit 20 operates to receive the radio broadcast from a broadcasting station such as NHK, for example, and to operate the radio receiver 30 to receive the broadcast from the speaker 31.
[0059]
Thereby, the person near the present guidance display device can recognize that the emergency alert is being issued by seeing the character display of “emergency alert is being issued” displayed blinking on the character display 43, and It is possible to know details of an emergency alert such as an earthquake or a tsunami by listening to information on an emergency alert flowing from a radio broadcast received by the radio receiver 30.
[0060]
11 to 15 show an outdoor guidance display device according to another embodiment. This outdoor guidance display device is installed at an edge of a road or the like, and displays various warnings such as "Driving attention". About the structure similar to the said embodiment, the same code | symbol as the above is attached | subjected to FIGS. 11-15 and the description is abbreviate | omitted.
[0061]
As shown in FIGS. 11 to 13, the present guide display device is configured such that a solar cell 65 is mounted on an upper portion of one support 62, and a character display 63 is mounted on an intermediate portion of the support 62. The character display 63 is configured by arranging a large number of light emitting diodes (for example, red LEDs) in a matrix on the XY plane, and selecting a light emitting diode group to perform a light emitting operation. The characters such as "informing" are switched on and displayed in red, or flashed.
[0062]
A rotating light 8 is mounted on the character display 63, and a control unit 67, a power storage unit 85 such as a small sealed lead-acid battery, an emergency broadcast receiver 23, etc. A control box 69 accommodating the electric devices and the like is attached.
[0063]
In the control unit 67, as shown in FIG. 14, a power storage unit 85 serving as a power supply for lighting and driving the character display 63, and a charging circuit 22 for supplying the electromotive force of the solar cell 65 to the power storage unit 85 for charging. , A display control circuit 33 for lighting or blinking the character display 63, and a control circuit 20 for controlling the display of the emergency broadcast receiver 23, the radio receiver 30, and the character display 63 are provided. The control circuit 20 can be configured by an arithmetic processing circuit including a CPU, a ROM, an input / output circuit, and the like. The solar cell 65 is connected to the charging circuit 22, and the charging circuit 22 is connected to the control circuit 20. The power storage unit 85 is connected to the control circuit 20 via the overcharge / discharge prevention circuit 35, and the electromotive force generated in the solar cell 65 is stored in the power storage unit 85 through the charging circuit 22 and the overcharge / discharge prevention circuit 35.
[0064]
Further, as shown in FIG. 14, an emergency broadcast receiver 23 is connected to the control circuit 20. The emergency broadcast receiver 23 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a signal identification circuit, and the like, and receives an emergency alert signal of a predetermined frequency. Be composed. The emergency alert signal is composed of a 640 Hz signal for an earthquake alert and a 1024 Hz signal for a tsunami alert. The signal identification circuit identifies the low-frequency signal received, detected and extracted, and detects a 640 Hz, 1024 Hz signal. .
[0065]
Further, a radio receiver 30 is connected to the control circuit 20. The radio receiver 30 includes a tuning circuit connected to an antenna, a local oscillation circuit, an intermediate frequency amplifier, a detection circuit, a low frequency amplifier, a speaker 31, and the like, and receives a radio broadcast transmitted from a broadcasting station such as NHK. It is configured to The operation of the radio receiver 30 is controlled by the control circuit 20, and when an emergency alert signal is sent to the control circuit 20, the control circuit 20 causes the radio receiver 30 to perform a reception operation and receive a broadcast such as NHK. It operates so that the broadcast is transmitted from the speaker 31.
[0066]
The outdoor guidance display device thus configured is installed at an edge of a road or the like, and by the operation of the day / night discrimination circuit 21, the electromotive force generated by the solar battery 65 is stored in the power storage unit 85 in the daytime, and Then, the control circuit 20 outputs a lighting signal to the display control circuit 33, and the display control circuit 33 lights or blinks the character such as “caution to run” so that the character is displayed on the character display 63. In this case, not only at night, but also at night and day, the character display 63 can be driven to blink so as to display characters such as "Caution", and in this case, the daytime luminance of the character display 63 is set to be lower than at night. It can also be displayed to be higher.
[0067]
On the other hand, when an emergency alert is issued and an emergency alert signal indicating an earthquake, a tsunami, or the like is transmitted from a broadcasting station that has obtained an emergency alert broadcasting experimental station license such as NHK, the emergency alert signal 23 is transmitted to the emergency alert signal. To receive. At this time, a signal indicating the reception of the emergency alert signal is output from the emergency broadcast receiver 23 to the control circuit 20, and the control circuit 20 outputs a lighting switching signal to the display control circuit 33 and switches the display characters to the character display 63. And display it.
[0068]
By the operation of the display control circuit 33, characters for an emergency warning such as "emergency warning is being issued" are displayed on the character display 63, or the display blinks at a predetermined cycle. At the same time, the rotating light 8 is operated, and the control circuit 20 operates to receive the radio broadcast from a broadcasting station such as NHK, for example, and to operate the radio receiver 30 to receive the broadcast from the speaker 31.
[0069]
Thereby, the person near the present guidance display device can recognize that the emergency alert is being issued by seeing the character display of “emergency alert is being issued” displayed blinking on the character display 63, and It is possible to know details of an emergency alert such as an earthquake or a tsunami by listening to information on an emergency alert flowing from a radio broadcast received by the radio receiver 30.
[0070]
【The invention's effect】
As described above, according to the outdoor guidance display device of the present invention, an emergency broadcast receiver capable of receiving an emergency alert signal is provided, and when the emergency alert signal is transmitted, the emergency broadcast receiver uses the emergency broadcast receiver. When a warning signal is received and an emergency warning signal is received, the character display control means displays the character indicating the emergency warning issuance on the character display or switches to the character and displays it. An alarm issuance can be satisfactorily notified, and people outdoors can recognize the emergency alert quickly and easily by looking at the display. Furthermore, if a radio receiver for receiving a radio broadcast is provided, and when the emergency broadcast receiver receives the emergency alert signal, the radio receiver is operated to receive and output the sound of the broadcast, the emergency alert is issued. Sometimes, for example, news related to an emergency alert is broadcast from a radio broadcasting station such as NHK, so that the broadcast of the emergency alert can be broadcasted from a speaker, and information about the emergency alert can be notified to people in the vicinity.
[Brief description of the drawings]
FIG. 1 is a front view of an outdoor guidance display device according to an embodiment of the present invention.
FIG. 2 is a left side view of the guidance display device.
FIG. 3 is a block diagram showing a configuration in a control unit of the guidance display device.
FIG. 4 is a flowchart showing the operation of the guidance display device.
FIG. 5 is a front view of an outdoor guidance display device according to another embodiment.
FIG. 6 is a right side view of the guidance display device.
FIG. 7 is a configuration block diagram in a control unit of the guidance display device.
FIG. 8 is a front view of an outdoor guidance display device according to another embodiment.
FIG. 9 is a left side view of the guidance display device.
FIG. 10 is a configuration block diagram of a control unit of the guidance display device.
FIG. 11 is a front view of an outdoor guidance display device according to another embodiment.
FIG. 12 is a left side view of the guidance display device.
FIG. 13 is a rear view of the guidance display device.
FIG. 14 is a block diagram showing a configuration inside a control unit of the guidance display device.
FIG. 15 is a front view of an outdoor guidance display device for displaying a warning.
[Explanation of symbols]
2-post
3-character display
4-reflector
5- Solar cell
6-light
7-Control unit
20-control circuit
21-Day / Night Discrimination Circuit
23-Emergency broadcast receiver
25-power storage
26-Motion detector
27-Lighting circuit

Claims (12)

In an outdoor guidance display device that is installed outdoors and displays character information,
A character display for variably displaying character information for various types of guidance,
Day / night discriminating means for discriminating between day and night;
An emergency broadcast receiver for receiving an emergency alert signal,
When the day / night discriminating means discriminates night, an illuminating lamp that lights up,
When the emergency broadcast receiver receives the emergency alert signal, character display control means for displaying a character indicating the issuance of an emergency alert on the character display,
An outdoor guidance display device comprising: The radio receiver for receiving a radio broadcast is provided, and when the emergency broadcast receiver receives an emergency alert signal, the radio receiver is operated to receive and output a broadcast sound. Outdoor guidance display device. As a power source for the illumination lamp, the character display, and the emergency broadcast receiver, a solar cell arranged to receive sunlight and a power storage unit for storing electromotive force of the solar cell are provided. The outdoor guidance display device according to claim 1, wherein 2. The outdoor guidance and display device according to claim 1, further comprising a voice generation unit that generates a voice of information about the geography in the vicinity. 2. The outdoor guidance display device according to claim 1, further comprising a motion detector that detects an approach of a human body and outputs a detection signal. The outdoor guidance display device according to claim 1, wherein the display brightness of the character display is changed and displayed according to day and night. In an outdoor guidance display device that is installed outdoors and displays character information,
A character display for variably displaying character information for various types of guidance,
An emergency broadcast receiver for receiving an emergency alert signal,
When the emergency broadcast receiver receives the emergency alert signal, character display control means for displaying a character indicating the issuance of an emergency alert on the character display,
An outdoor guidance display device comprising: A human feeling detector for detecting the approach of the human body and outputting a detection signal is provided, and voice generating means for generating a voice of information about the geography in the vicinity is provided, and the human detector detects the human body's approach. 8. The outdoor guidance display device according to claim 7, wherein a sound of information relating to the geography in the vicinity is generated. The radio receiver for receiving a radio broadcast is provided, and when the emergency broadcast receiver receives an emergency alert signal, the radio receiver is operated to receive and output a broadcast sound. Outdoor guidance display device. A human presence detector that detects the approach of a human body and outputs a detection signal is provided, and a radio receiver that receives a radio broadcast is provided. When the human presence detector detects the approach of a human body, the radio reception is performed. The outdoor guidance display device according to claim 7, wherein the device outputs a broadcast sound by performing a receiving operation. As a power supply for the character display and the emergency broadcast receiver, a solar cell arranged to receive sunlight and a power storage unit for storing electromotive force of the solar cell are provided. Item 7. An outdoor guidance display device according to Item 7. The outdoor guidance display device according to any one of claims 1 to 11, wherein a rotating light that rotates and lights when the emergency broadcast receiver receives the emergency alert signal is provided.

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