JPS6358416B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a wireless emergency transmitting and receiving device used for transmitting information in the event of an emergency such as a fire or an earthquake in a place where people gather, such as a department store.

Traditionally, in order to quickly evacuate places where people gather, such as department stores and theaters, it has been essential to appoint evacuation guides and ensure that the guide's instructions are given accurately. According to
This can prevent unnecessary confusion.

By the way, in order to provide accurate evacuation guidance in an emergency, it is necessary to convey accurate instructions and information to each person in charge of evacuation, and for this reason conventionally wireless transceivers were permanently installed to provide control. This allows for meetings to be held between the center and guides.

However, there are various people in charge of responding to emergencies, such as evacuation guidance, fire prevention management, security, etc., and there are many people in charge, so different instructions must be given to these people appropriately depending on their location. In order to give instructions to the center, it is necessary to change the transmission frequency and contents of the transmission from the center, and if you try to automatically transmit such information, there is a problem that the equipment configuration will become extremely complicated. .

The present invention has been made in view of the above, and is capable of transmitting information in emergencies such as fires or earthquakes by automatically giving voice instructions to personnel in charge of different roles depending on the type and stage of the emergency. It is an object of the present invention to provide a wireless emergency transmitting/receiving device that enables more reliable transmission and a system for appropriate evacuation guidance, fire extinguishing measures, etc.

That is, according to the present invention, a transmitter/receiver master unit is provided in a management room such as a control center, and a plurality of portable transmitter/receiver slave units are provided for each predetermined person in charge in each district, and In a wireless transmitting/receiving device that exchanges information between the center and the person in charge when necessary, the transmitting/receiving base unit is equipped with a predetermined type of emergency, such as a fire or an earthquake, and a signal corresponding to the stage. A transmitter is provided with a plurality of switches that are operated by the switch, and a transmitter that outputs a unique signal corresponding to the switch operation via an antenna when the switch is operated.
A unique signal identification unit that identifies the unique signal and outputs a voice read command when receiving the transmitted unique signal, and a voice information unit that starts a voice synthesis program based on the voice read command and reads out pre-stored voice information. A synthesis section, a conversion section that converts the output of the audio information synthesis section into an audio signal, and an audio output section that outputs the converted audio signal from the speaker are provided, and multiple differences can be generated by operating the base unit. An emergency transmitting/receiving device is provided that transmits voice information instructing how to deal with an emergency to a person in charge carrying a predetermined handset.

Hereinafter, the present invention will be explained based on the drawings.

FIG. 1 is a block diagram showing an embodiment of a transmitter/receiver base unit used in the present invention. First, to explain the configuration, it has an audio transmitting system consisting of a microphone 1, an amplifier 2, and a modulator 3, and an audio receiving system consisting of a demodulator 4, an amplifier 5, and a speaker 6, and an antenna 7 for transmitting and receiving is switched. A transmit/receive switch 8 is provided. Such a transmitting/receiving system is the same as the conventional device.

Further, in the present invention, the switch device 9 includes a plurality of switches that are operated according to the type and stage of an emergency such as a fire or an earthquake, and an oscillation frequency assigned to each switch of the switch device 9. different characteristic signal oscillators 10a, 10b,...1
A transmitter 10 equipped with 0n is provided, and a switch device 9
By operating the switch, the corresponding eigensignal oscillator of the transmitter 10 is activated, the eigensignal is superimposed on the carrier wave by the modulator 3, and the eigensignal is transmitted from the antenna 7.

Here, the type of unique signal outputted from the transmitter 10 is determined, for example, in common with each slave unit in the event of a fire.
Assuming that f ₁ , f ₂ , f ₃ ,...f _o are defined, the specific signal f ₁ is set immediately after the fire occurs, and the specific signals f ₂ , f ₃ ,... are set as the fire spreads. By assigning a unique signal f _o to each fire and providing multiple switches corresponding to each unique signal, if you operate the switch according to the situation of each fire, the unique signal corresponding to the switch operation will be explained later. The data is sent to the transmitting/receiving slave unit.

FIG. 2 is a block diagram showing an embodiment of the transmitter/receiver handset used in the present invention.

First, to explain the configuration, like a normal transceiver, in order to communicate with the base unit, there is a transmission system consisting of a microphone 11, an amplifier 12, and a modulator 13, a demodulator 14, an amplifier 15, and a speaker. 16, and switching between transmission and reception is performed by switching the antenna 18 using a transmission/reception changeover switch 17. In addition to such a transmitting/receiving system, there is a unique signal identifying section 19 that identifies the demodulated output of the unique signal sent from the base unit in FIG. Enter the interface 20
A central processing unit (hereinafter referred to as "CPU") 22 inputs the information via the CPU 22 and starts a predetermined speech synthesis program and reads out the speech information according to the readout command from the speech information memory 21, and the CPU 22 edits and sequentially reads the speech information according to the reading command from the speech information memory 21. An audio conversion section 24 is provided which inputs output audio information via an output interface 23 and converts it into an audio signal. The output of the audio conversion section 24 is configured to be output from an audio output section consisting of an amplifier 15 and a speaker 16, and the output of the audio conversion section 24 is further provided to the modulator 13 via the amplifier 25. and can also be transmitted to the base unit via the antenna 18.

The above-mentioned unique signal identification unit 19 includes a plurality of tuning fork oscillators having the same unique signal oscillation frequency as the transmitting unit 10 of the base unit, and outputs an identification code signal by operating the oscillator in response to reception of the unique signal. Then, this identification code signal is sent to the CPU 22,
It is used as a start command for a speech synthesis program predetermined for each unique signal. Further, when the unique signal identification unit 19 receives the unique signal, it opens the switch 26 that normally inputs the output of the demodulator 14 to the amplifier 15, and sends the audio converter 2 to the amplifier 15.
Switch so that the output of 4 is added.

In addition, the voice synthesis program executed by the CPU 22 differs depending on the person in charge carrying the handset. For example, in a department store, there are three types of voice synthesis programs, such as one for a fire prevention manager, one for an evacuation guide, and one for a security guard.
Divided into types. In addition, the memory 21 that stores audio information stores data consisting of words or clauses that make up a sentence.
CPU22 uses memory 2 by the speech synthesis program.
1 is read out, edited to form a predetermined sentence, and outputted.

Furthermore, in the embodiment shown in FIG. 2, switches SW1 and SW2 are provided for instructing the CPU 22 to output synthesized speech via the input interface 20, and the switch SW1 is activated when the person in charge operates the switch. , the operation of a speech synthesis program that outputs aloud the matters to be transmitted to a predetermined center.
Instructs the CPU 22 to send this audio output to the antenna 1.
8 to automatically send the data to the base unit. Such a function by the switch SW1 is used when a person in charge carrying a handset is unable to communicate. In addition, switch SW2 has a function that activates when the handset is taken away from the person in charge and becomes unable to communicate, and sends a notification to that effect to the base unit in the same way as switch SW1. As a means of operating the switch SW2, for example, a cable is attached to the operation part of the switch SW2, and its two ends are fixed to the person's band, etc., so that when the cable is torn off, the switch SW2 closes. Just configure it.

Next, the operation will be explained with reference to FIGS. 1 and 2.

First, taking the case of a fire occurring in a department store, etc., when a fire is detected by the fire alarm equipment, the center's monitoring staff determines the location and situation of the fire and uses the fire alarm installed in the switch device 9. Operate the fire switch. In response to this switch operation, the unique signal oscillator of the transmitter 10, for example, 10
a is activated and outputs a unique signal f ₁ to the slave device.

This unique signal f ₁ is received by each slave unit via the antenna 18, demodulated by the demodulator 14 into a unique signal of frequency f ₁ , and excites the corresponding tuning fork oscillator of the unique signal identification unit 19, which generates an identification code " 100…”
input to the CPU 22 via the interface 20
give to CPU22 that entered this identification code
starts a speech synthesis program corresponding to the identification code, reads and edits the data stored in the memory 21 according to this program, converts it into an audio signal in the audio converter 24 via the output interface 23, and sends the data to the amplifier 15. An instruction corresponding to the unique signal from the base unit is transmitted from the speaker 16 to the person in charge carrying the slave unit via the speaker 16.

For example, if it is a handset carried by a fire prevention manager, it will say, ``A fire has broken out. Please act as the person in charge of disaster prevention for this floor based on your actions in the event of a fire.''
If you are an evacuation guide, you might say, ``It looks like a fire has broken out. Please gather all the customers in one place immediately and wait for the next order.'' If you are a security guard, you might say, ``Please gather at the entrance and wait in front until the fire brigade arrives.'' At the same time as receiving the unique signal, a predetermined instruction such as "Please clear the road" is given by voice.

Such voice output instructions from the handsets are the output of unique signals from the transmitter/receiver base unit at the center in accordance with the progress of the fire situation, and instructions corresponding to the progress of the fire are conveyed one after another.

3 and 4 show other embodiments of the present invention, in which the oscillator 27 is operated by operating the switch SW3, and the oscillator 27 is operated via the amplifier 28, the modulator 13, and the antenna 18, for example. A means for transmitting a distress signal or an instruction confirmation signal is provided, and in response to this, the transmitter/receiver is equipped with an indicator 31 that selects the signal with a filter 29 and operates a lamp or buzzer or the like via an amplifier 30. It was designed to provide
The other configurations are the same as the embodiments shown in FIGS. 1 and 2.

Note that the filter 29 in the embodiment of FIG.
Only one system of the circuit section consisting of the amplifier 30 and the display 31 is shown, but this circuit section may be provided for each slave unit or for each slave unit representing each area, for example, for each slave unit carried by a fire prevention manager. do it like this.

In this way, by exchanging specific information between the transmitting/receiving base unit and the slave unit by sending and receiving signals other than voice, the efficiency of information transmission is further increased, and the base unit can also communicate with the slave unit. You can accurately understand the status.

As explained above, according to the present invention, the transmitter/receiver handset can transmit a unique signal according to the type and stage of the emergency from the base unit installed at the center etc. The content of voice instructions prepared in advance for each person in charge of the task is outputted through processing by a voice synthesis program according to the unique signal, so a single command from the center can be used to send multiple messages of different types. It is possible to give predetermined instructions to the person in charge at the same time, which not only speeds up the transmission of information, but also allows the handset to receive instructions from the center without any special communication operations. Furthermore, since voice instructions are output by synthesizing voice data stored in the handset, even if the communication conditions are so poor that conversational communication is not possible, it is sufficient to receive the unique signal, and it is sufficient to prevent emergencies such as fires or earthquakes. This has the effect of quickly and accurately creating a system at the time.

[Brief explanation of drawings]

Fig. 1 is a block diagram showing an embodiment of the transmitter/receiver master unit used in the present invention, Fig. 2 is a block diagram showing an embodiment of the transmitter/receiver slave unit used in the present invention, and Figs. FIG. 7 is a block diagram showing another embodiment of the transmitting/receiving master unit and slave unit used in the invention. 1, 11... Microphone, 2, 5, 12,
15, 25, 28, 30...Amplifier, 3, 13...
... Modulator, 4, 14 ... Demodulator, 6, 16 ... Speaker, 7, 18 ... Antenna, 8, 17 ... Transmission/reception changeover switch, 9 ... Switch device, 10 ...
... Transmission unit, 10a, 10b, 10n... Unique signal oscillator, 19... Unique signal identification unit, 20... Input interface, 21... Memory, 22... Central processing unit (CPU), 23... Output interface face, 24...sound conversion section, 26...switch, 27...oscillator, 29...filter, 31
...Indicator, SW1 to SW3...Switch.

Claims (1)

[Scope of Claims] 1. A wireless system that has a transmitting/receiving base unit installed in a control center, etc., and a plurality of transmitting/receiving slave units assigned to each predetermined person in charge in each district, and exchanges information when necessary. In the transmitting/receiving device, the transmitting/receiving master unit has a plurality of switches that are operated according to the predetermined type and stage of the emergency, and when the switches are operated, a plurality of unique signals are simultaneously transmitted according to the switch operation. A transmitter/receiver is provided with a transmitter that transmits data via an antenna, and when each transmitter/receiver receives a unique signal transmitted from the transmitter, it identifies the unique signal and outputs a voice reading command. A voice synthesis program is activated by a voice reading command from the unique signal recognition unit, and a plurality of different responses to emergencies are pre-stored for each person in charge of emergency duties. A voice information synthesis section that reads voice information to be instructed, a conversion section that converts the voice information from the voice information synthesis section into a voice signal, and a voice output section that outputs the voice signal from the conversion section from a speaker. An emergency transmitting and receiving device characterized by: