KR102048176B1 - Apparatus, method and system for escape guiding using audio broadcasting - Google Patents

Abstract

The present invention relates to an evacuation guidance device using audio broadcasting, a method thereof and a system thereof. The evacuation guidance device using audio broadcasting comprises: a fire signal receiving unit receiving a fire signal indicating a fire occurrence; a storage unit storing location information of speakers and location information of fire sensors; and a control unit specifying a fire occurrence point from the received fire signal by using the location information of fire sensor, grouping the plurality of speakers capable of outputting audio broadcasting in accordance with a distance to the specified fire occurrence point by using the location information of speakers and outputting evacuation guidance broadcasting into an audio signal for each grouped speaker.

Description

Evacuation induction apparatus, method and system using audio broadcasting {APPARATUS, METHOD AND SYSTEM FOR ESCAPE GUIDING USING AUDIO BROADCASTING}

The present invention relates to an evacuation induction apparatus, method and system using audio broadcasting. Specifically, when a fire or the like occurs in a high-rise or spacious indoor space building, the evacuation can be efficiently guided through the change of voice frequency. A device, method and system for evacuation guidance using audio broadcasting.

In high-rise, underground, and above-ground buildings, various people live, work or visit. In the event of a fire, it is imperative for workers and visitors in the building to evacuate quickly to the emergency exit.

Workers residing in buildings, etc., may be able to evacuate quickly by knowing emergency exits in advance, but visitors who visit for the first time or intermittently may not be able to evacuate because they may not be able to evacuate the exits in the building. Now is the reality.

In order to guide the evacuation direction to the emergency exit, evacuation guidance lamps should be installed in the building to guide the evacuation to the emergency exit. However, when a fire occurs, a large amount of smoke is generated by the fire, so the guidance of the emergency evacuation direction through evacuation guidance is not effective, and thus there is a limit.

In addition, the fire itself can be recognized by using an emergency bell, but there is a limit to being provided with an emergency evacuation direction or route.

As described above, all existing methods for evacuating emergency exits have limitations, and it is not easy to induce actual evacuation and massive human injury occurs in the event of fire.

There is a need for an evacuation induction apparatus, method, and system using audio broadcasting to solve or improve the problems described above.

10-1760921 (B1), July 24, 2017

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and provides an evacuation induction apparatus, method and system using audio broadcasting that can induce evacuation in an emergency exit direction efficiently by using audio broadcasting in the event of a fire. There is a purpose.

Another object of the present invention is to provide an evacuation induction apparatus, method, and system using audio broadcasting in which a speaker or a visitor in a building can intuitively recognize an emergency exit direction by outputting audio broadcasting of different frequency bands for each speaker. There is this.

In addition, the present invention is to evacuate using an audio broadcast that can easily recognize the emergency exit direction by grouping the speakers in the emergency exit direction from the point of the fire into several groups and sequentially outputs audio broadcasts of different frequency bands for each grouped speaker. It is an object of the present invention to provide an induction device, method and system.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

The evacuation induction apparatus using the audio broadcasting according to an aspect of the present invention includes a fire signal receiver for receiving a fire signal indicating a fire occurrence, a location for storing speaker information, a storage for storing location information for fire sensors, and location information for a fire sensor. A fire occurrence point is specified from the received fire signal, and a plurality of speakers capable of outputting an audio broadcast using the location information of the speakers are grouped according to the distance from the specified fire occurrence point, and the evacuation announcement broadcast is performed for each grouped speaker. And a control unit for outputting an audio signal.

The evacuation induction apparatus of claim 1, further comprising: a speaker selector configured to output an audio signal received by a speaker selected under control by the controller, wherein the controller controls the speaker selector for a first period to be grouped with the speaker of the first group Outputting the evacuation announcement of the first frequency band and controlling the speaker selection unit for a second period subsequent to the first period to output the evacuation announcement of the second frequency band to the speaker of the grouped second group.

In the evacuation induction apparatus described above, the control unit groups the speakers within the first distance into a first group according to the distance between the specified fire occurrence point and the plurality of speakers, and the speakers between the first distance and the second distance are seconded. Group into groups and group the speakers between the second and third distances into a third speaker, evacuation announcements output from the speakers of the first group, evacuation announcements output from the speakers of the second group, and The audio frequency bands of the evacuation announcement broadcasted to the speaker are different from each other.

In the evacuation induction apparatus described above, the storage unit guides the evacuation according to the occurrence of a fire, and includes a first sound source configured as a voice frequency of the first frequency band, and a second voice frequency configured to be higher than the first frequency band. The sound source is stored, and the control unit outputs the evacuation announcement of the first output level using the first sound source to the speakers of the first group grouped for the first period and supplies the second sound source for the second period subsequent to the first period. The evacuation announcement of the second output level smaller than the first output level is repeatedly output to the speakers of the second group grouped using the same.

In addition, the evacuation induction method using an audio broadcast according to an aspect of the present invention comprises the steps of receiving a fire signal indicating a fire occurrence, specifying the fire occurrence point from the received fire signal and outputs the audio broadcast using the location information of the speakers Grouping a plurality of possible speakers according to a distance from a specific fire occurrence point, and outputting evacuation announcement broadcasts of different frequency bands for each grouped speaker.

In the above-mentioned evacuation guidance method, the step of outputting the evacuation announcement, outputting the evacuation announcement of the first frequency band to the speaker of the first group grouped during the first period and during the second period subsequent to the first period. The evacuation announcement broadcast of the second frequency band is output to the grouped second group of speakers.

In the evacuation induction method described above, the grouping includes grouping the speakers within the first distance into a first group according to the distance between the specified fire occurrence point and the plurality of speakers, and placing the speakers between the first and second distances. Group into a second group and group the speakers between the second and third distances into a third speaker, evacuation announcement output to the speakers of the first group, evacuation announcement output to the speakers of the second group and the third The voice frequency bands of the evacuation announcement broadcasted to the speaker of the group are different from each other.

In the above-described evacuation guidance method, the step of outputting the evacuation announcement, the evacuation announcement of the first output level using the first sound source of the first frequency band to the speaker of the first group grouped during the first period Evacuation announcement of the second output level smaller than the first output level to the second group of speakers grouped using the second sound source in the second frequency band higher than the first frequency band during the second period following the one period. Repeatedly output.

In addition, the evacuation guidance system using an audio broadcast according to an aspect of the present invention includes an evacuation guidance device using the audio broadcast and a plurality of speakers for outputting the evacuation guidance broadcast received from the evacuation guidance device as a sound wave signal.

The evacuation induction apparatus, method and system using the audio broadcasting according to the present invention as described above has the effect of efficiently inducing evacuation in the emergency exit direction by using the audio broadcasting in the event of a fire.

In addition, the evacuation induction apparatus, method and system using the audio broadcasting according to the present invention as described above outputs the audio broadcasting of different frequency bands for each speaker, so that the workers or visitors in the building can intuitively recognize the emergency exit direction. There is.

In addition, the evacuation induction apparatus, method and system using the audio broadcasting according to the present invention as described above group the speakers in the emergency exit direction from the point where the fire occurs in several groups and the audio broadcasting of different frequency bands for each grouped speaker sequentially The output can easily recognize the emergency exit direction.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned above may be clearly understood by those skilled in the art from the following description. will be.

1 is a diagram illustrating an example of an evacuation guidance system using audio broadcasting according to the present invention.
FIG. 2 is a diagram illustrating an exemplary block diagram of an evacuation induction apparatus for inducing evacuation using audio broadcasting.
3 is a diagram illustrating an exemplary control flow for outputting an evacuation announcement broadcast according to the detection of a fire.
4 is a view for explaining an example of guiding evacuation according to the present invention when a fire occurs in a specific complex building.

The above objects, features, and advantages will become more apparent from the detailed description given hereinafter with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains may share the technical idea of the present invention. It will be easy to implement. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an example of an evacuation guidance system using audio broadcasting according to the present invention.

According to FIG. 1, the evacuation guidance system includes at least an evacuation guidance device 100, a plurality of fire sensors 200 and a plurality of speakers 300.

The evacuation guidance system according to the present invention is configured to detect at least a fire occurrence and output the evacuation guidance broadcast through the speaker 300 according to the fire occurrence detection.

The evacuation guidance system can be installed in various buildings (buildings). For example, the evacuation induction system is installed in a building, a (subway) history, a school, a large building, a complex building, and guides evacuation to an emergency exit through an audio broadcast output to the speaker 300 when a fire occurs.

Looking at the evacuation guidance system briefly, each of the fire sensors 200 is distributed in various locations in the building to detect the occurrence of fire. The fire sensor 200 includes a sensor that detects smoke, a flame, and the like, and outputs a fire signal indicating the smoke or flame.

The fire sensor 200 may be connected to the evacuation induction device 100 through a wired cable to output a fire signal to the evacuation induction device 100. Alternatively, the fire sensor 200 may output a fire signal to the evacuation induction device 100 through wireless communication such as Bluetooth or Wi-Fi. In addition, the fire sensor 200 may include a buzzer (for example, a piezo buzzer) or the like to output an alarm signal sound when a fire occurs.

Each of the speakers 300 is distributed in various locations in the building and outputs a guide broadcast received as a sound wave signal. The speaker 300 may include a diaphragm or the like to output an electric signal corresponding to an audio guide broadcast received from the evacuation induction apparatus 100 as a vibration (sound wave) signal through the diaphragm.

The speaker 300 may output various guide broadcasts broadcast by a manager, a guide, a worker, or the like of a building, and may also output an evacuation guide broadcast received from the evacuation induction device 100 in the event of a fire.

The evacuation guidance device 100 detects a fire occurrence and outputs an evacuation announcement to the connected speakers 300 when the fire occurs. The evacuation guidance apparatus 100 according to the present invention is preferably configured to group the speakers 300 into several groups and sequentially output evacuation announcement broadcasts of different voice frequency bands to the grouped speakers 300.

Evacuation guidance device 100 may be composed of a single device (apparatus) or a plurality of devices.

The evacuation guidance device 100 is configured to output evacuation announcements simultaneously to the speaker 300 of one group among the speakers 300 installed in the building, and then output the evacuation announcements simultaneously to the speaker 300 of the other group. do.

The evacuation guidance device 100 may group the speakers 300 dynamically according to the distance between the speaker 300 and the fire occurrence point.

The evacuation guidance device 100 will be described in detail below with reference to FIG. 2.

2 is a diagram illustrating an exemplary block diagram of an evacuation induction apparatus 100 for inducing evacuation using audio broadcasting.

According to FIG. 2, the evacuation induction device 100 includes an audio input unit 101, a fire signal receiving unit 103, a communication unit 105, a display unit 107, a user input unit 119, a storage unit 109, and an audio signal. The generator 111, the audio amplifier 113, the speaker selector 115, and the controller 117 are included.

According to a design example, the evacuation guidance device 100 may omit some blocks shown in FIG. 2 or further include other blocks not shown. For example, the evacuation induction apparatus 100 may further include an external device interface for controlling a power supply unit for supplying a DC level of a predetermined level or an external device from an AC power input to the internal blocks.

Referring to the evacuation induction device 100 using audio broadcasting through FIG. 2, the audio input unit 101 receives an audio signal from a CDP, a tuner, an external amplifier, a microphone, and the like. The audio input unit 101 may transmit the received analog or digital audio signal to the controller 117 or directly output to the audio signal generator 111 or the audio amplifier 113 under the control of the controller 117. .

The audio signal received through the audio input unit 101 may be directly output to the speaker 300 connected to the evacuation induction apparatus 100. The administrator's guide voice, tuner broadcast, music, etc. may be output to the speaker 300 through the audio input unit 101.

The fire signal receiver 103 is connected to one or more fire sensors 200 to receive a fire signal from the fire sensor 200. The fire signal indicates a fire occurrence detected by the fire sensor 200 and is received from the fire sensor 200 in accordance with an agreed format (communication protocol) with the fire sensor 200.

For example, the fire signal receiving unit 103 may be any fire sensor through standard wireless communication such as Bluetooth, Wi-Fi, standard wired communication such as RS232, RS485, dedicated wired communication through a single dedicated signal line with the fire sensor 200, and the like. Receive a fire signal from 200.

The fire signal receiver 103 may include a communication chipset or hardware logic and a circuit for wired or wireless communication to receive a corresponding fire signal and output data corresponding to the fire signal or the fire signal to the controller 117. The fire signal receiving unit 103 may further output the identifier of the fire sensor 200 that generated the fire signal together with the fire signal to the control unit 117 or the fire that the control unit 117 receiving the fire signal generates the fire signal. The sensor 200 may be identified from data corresponding to the fire signal (eg, from a communication packet, etc.).

The fire sensor 200 generating the fire signal is identified in various ways according to the design example. For example, when a fire signal is received through a dedicated signal line for each fire sensor 200, the fire sensor 200 may be identified by identifying the corresponding signal line by the control unit 117 or the fire signal receiving unit 103. . Alternatively, when receiving a fire signal through standard wireless communication or wired communication, the fire signal receiving unit 103 or the control unit 117 may specify the fire sensor 200 from the header (address, etc.) of the communication packet. Through the position of the fire sensor 200 corresponding to the fire signal of the fire signal receiver 103, the controller 117 may specify a fire ignition point (point of occurrence).

The communication unit 105 transmits and receives data with an external device or device through a local area network or a broadband network. The communication unit 105 includes an Ethernet communication interface (such as a communication chipset and a port) or a Wi-Fi communication interface (such as a wireless communication chipset and an antenna) to provide status information to an external monitoring device or a control device (for example, a PC or a server). Or the like and outputs the control information to the controller 117.

The display unit 107 outputs various data. The display unit 107 includes an LCD, an LED, a TFT-LCD display module, and the like, and outputs an image signal received from the controller 117 to the display module. The manager of the evacuation guidance apparatus 100 may control the evacuation guidance apparatus 100 using various types of information displayed on the display unit 107.

The user input unit 119 receives a user input. The user input unit 119 may include a button, a touch panel coupled to the display module, a touch pad, and the like, to receive various inputs from an administrator managing the evacuation induction device 100.

For example, the user input unit 119 may receive a speaker selection setting input, an output level setting input of an audio signal, an emergency state input, and output the same to the controller 117. The controller 117 may set a corresponding function or perform a corresponding function according to the corresponding input.

The storage unit 109 stores various types of information and programs. The storage unit 109 includes a mass storage medium such as a volatile memory, a nonvolatile memory, and / or a hard disk to store various information and programs.

The storage unit 109 is location information of each of the speakers 300 connected to the evacuation induction device 100, and location information of each of the fire sensors 200 installed in a building that is the object of the evacuation induction device 100. It may include information on the location of the emergency exit, map (map) information that can at least specify the passage connected to the emergency exit in the building.

The location information represents or includes location data that can be specified at any location on the map of the building. The location information of the speaker 300 may identify that a particular speaker 300 is located in the passage and any other speaker 300 may identify that it is located outside the passage.

The storage unit 109 further stores a control program used by the other control unit 117. The control program detects the fire occurrence and outputs different evacuation announcements to the speaker 300 of the selected group when the fire occurs.

The storage unit 109 further stores a sound source for guiding evacuation according to the fire occurrence. The storage unit 109 may store a single sound source or store a plurality of sound sources. The sound source may be stored in a file and may be an announcement requesting evacuation to an emergency exit.

When storing a plurality of sound sources, one sound source file generates an audio signal corresponding to a voice frequency of one (voice) frequency band (for example, 1 KHz to 2 KHz) specified at the time of reproduction (when generating as an audio signal). It is configured to.

The other sound source file is configured to generate an audio signal corresponding to an audio frequency of another frequency band (for example, 2 KHz to 3 KHz) during reproduction. Another sound source file is configured to generate an audio signal corresponding to a voice frequency of another frequency band (for example, 3 KHz to 4 KHz) during reproduction. Another sound source file is configured to generate an audio signal corresponding to a voice frequency of another frequency band (for example, 4 KHz to 5 KHz) during reproduction.

As such, the storage unit 109 may store a plurality of sound sources used for evacuation announcement broadcasting and using different frequency bands.

The audio signal generator 111 generates an audio signal from a series of audio data streams received from the controller 117. For example, the audio signal generator 111 includes an audio digital analog converter (DAC) to generate and output a series of audio streams such as I2S and SPDIF as analog audio signals.

The audio amplifier 113 amplifies the audio signal generated by the audio signal generator 111. The audio amplifier 113 includes an amplifier AMP to amplify the audio signal from the audio signal generator 111. The audio amplifier 113 may amplify the audio signal according to an amplification level corresponding to the control signal from the controller 117. According to a design example, the audio amplifier 113 may be omitted.

The speaker selector 115 outputs an audio signal received from the audio output unit or the audio amplifier 113 to one or more speakers 300 selected under control by the controller 117 among the plurality of connected speakers 300. .

For example, the speaker selector 115 may be provided with a relay (relay switch) configured to output or cut an audio signal received by each speaker 300 and to specify each relay control (output, cutoff). By receiving the speaker selection signal from the control unit 117, the respective relays can be turned on / off according to the received speaker selection signal to output or block the audio signal to the corresponding speaker.

The speaker selector 115 may receive a speaker selection signal for controlling each relay on / off through a plurality of signal lines, serial communication (eg, I2C, UART, USB, etc.) and / or parallel communication. . The speaker selection signal selects any one or more speakers 300 among the speakers 300 and turns on / off (connects / blocks) a switch (relay) corresponding to the selected speaker to the speaker 300 connected to the turned on audio. Enable to output the signal.

The controller 117 includes one or more execution units capable of executing instructions of the program, and loads the instruction code of the control program of the storage unit 109 to control the evacuation guidance apparatus 100. The controller 117 may include one or more CPUs, MPUs, central processing units, microcomputers, and the like. The control unit 117 may be configured to include a plurality of CPU chipset, etc. according to the design example.

Referring to the main control performed by the controller 117, the controller 117 receives the speaker selection setting input, the output level setting input of the audio signal, the emergency state input, and the like through the user input unit 119, and accordingly the speaker selection unit ( The speaker selection signal output to the 115 is changed, the amplification level of the audio amplifying unit 113 or the output signal level of the audio signal generating unit 111 is adjusted, or necessary control corresponding to an emergency condition is performed.

In addition, the controller 117 outputs the audio signal received through the audio input unit 101 to the speaker 300 selected through the speaker selector 115 according to a user input.

The control unit 117 receives the fire signal through the fire signal receiving unit 103 and retrieves the position information of the fire sensor 200 generating the fire signal using the position information of the fire sensors 200 of the storage unit 109. To determine the location of the fire. In addition, the controller 117 groups and groups the speakers 300 into one or more groups according to the distance between the fire occurrence point and the location of each speaker 300 by using the location information of the speakers 300 capable of outputting an audio broadcast. For each speaker 300, an audio signal corresponding to the evacuation announcement broadcast is output.

A detailed control flow of performing evacuation announcement broadcasting through speaker control in accordance with a fire will be described in more detail with reference to FIGS. 3 and 4.

Each block of the evacuation guidance device 100 may be composed of a single device (tool) or a plurality of devices (tool). For example, the audio amplifier 113 and / or the speaker selector 115 may be configured in a separate device (device) according to the configuration example.

3 is a diagram illustrating an exemplary control flow for outputting an evacuation announcement broadcast according to the detection of a fire occurrence.

The control flow of FIG. 3 is carried out by the evacuation guidance device 100 and preferably by controlling other blocks with control by the control unit 117. Since the evacuation induction apparatus 100 has already been described with reference to FIG. 2, the following description will focus on time-series control flow.

The control flow of FIG. 3 starts as the control program is loaded into the control unit 117 and the control unit 117 receives the fire signal from the fire signal receiving unit 103 (S1). When the control unit 117 does not receive a fire signal, the control unit 117 continues to receive a fire signal output from any of the fire sensors 200 among the plurality of fire sensors 200.

The control unit 117 specifies the fire occurrence point from the received fire signal (S2). The controller 117 may identify the fire sensor 200 corresponding to the received fire signal, retrieve the location information of the identified fire sensor 200 in the storage unit 109, and specify the retrieved location information as the fire occurrence point. have.

In addition, the controller 117 groups the speakers 300 into one or more groups according to the distance between the location information of each of the outputtable speakers 300 and the specified fire occurrence point (S2).

For example, the controller 117 uses the location information of the speakers 300 of the storage unit 109 to control the size and setting of the building, such as a fire occurrence point and a first distance (for example, 100m, 300m, 500m, etc.). Speakers 300 located within the first group, and the distance from the fire occurrence point is between the first distance and the second distance (eg, 200m, 600m, 1Km, etc.) Group the speakers into a second group and place the speakers 300 positioned between the Nth to Nth distances (for example, N * 100m, N * 300m, N * 500m, etc., N is an integer of 3 or more). You can group into groups.

The number of groups to be grouped and the distance or distance between each group may vary depending on the size of the building in which the evacuation induction apparatus 100 is installed and operated, and the setting by the administrator.

In the grouping process, the controller 117 may filter (remove) the speaker 300 to be grouped. For example, the controller 117 uses the location information and the map information of the storage unit 109 to determine whether the locations of the speakers 300 are located on a passage or within a predetermined distance (for example, 5 m) from the passage. It is possible to determine whether to classify the speaker 300 located on the passage or located within a certain distance to each group and the speaker 300 that is out of the passage or exceeds a certain distance may be excluded from the grouping.

Accordingly, the controller 117 may filter (exclude) the speaker 300 at a position exceeding a predetermined distance from the passage to intuitively guide the evacuation through the passage during evacuation.

As the grouping is performed, the controller 117 sets a period during which the evacuation announcement broadcast for each speaker group is output (S3). The controller 117 may set the same broadcasting period for each group. Alternatively, the controller 117 may set different broadcasting periods for each group. For example, the controller 117 may set the period of the first group to the longest, set the period of the second group to the next longest, and set the period of the last N-th group shortest.

Accordingly, the evacuation guidance broadcasts sequentially output are made efficiently according to the distance from the ignition point and effectively made according to the situation. In addition, the fire sensor 200 may further generate a fire alarm sound through a buzzer or the like.

The controller 117 initializes the timer to be used for the determination of the arrival of the period of each group and the duration of the period (S4) and outputs the evacuation announcement broadcast for each speaker 300 grouped according to the comparison of the time according to the timer and the period of the group. (S5 to S10). The controller 117 may output evacuation announcement broadcasts of different frequency bands for each of the grouped speakers 300.

In detail, when the current time is within the first group period using the current time of the timer (S5), the control unit 117 performs the announcement of the evacuation announcement of the first frequency band during the first group period. The control is output to the speaker 300 of the first group (S6).

In detail, the control unit 117 retrieves the sound source of the evacuation announcement broadcast of the first frequency band corresponding to the first group from the storage unit 109 and reproduces the searched sound source to output the audio stream data to the audio signal generator 111. Output

The audio amplifier 113 or the audio signal generator 111 outputs or amplifies an audio signal according to the output level set by the controller 117. The output level set in the first group has the highest output level than the output level of the other group, so that the evacuation announcement broadcast can be output with the loudest sound in the corresponding speaker 300.

The first frequency band of the first group closest to the fire occurrence point may be the lowest frequency band compared to the frequency bands of other groups of the voice frequency band. For example, the first frequency band may be a 1KHz frequency band (1KHz to 2KHz, etc.). Accordingly, the evacuation announcement broadcast output to the speaker 300 of the first group may be an evacuation announcement broadcast of low frequency voice having the largest output level.

The controller 117 outputs a speaker selection signal for outputting an audio signal generated by selecting each of the speakers 300 of the first group to the speaker selection unit 115 during the first group period, and accordingly, the speaker selection unit ( 115 outputs an evacuation announcement broadcast according to the set output level of the first frequency band to the speaker 300 of the first group during the first group period.

In addition, when the current time is within a second group period subsequent to the first group period using the time of the timer (S7), the controller 117 performs evacuation announcement broadcast of the second frequency band during the second group period. The control unit 115 controls the output to the speaker 300 of the second group (S8).

In detail, the controller 117 configures a sound source of evacuation announcement broadcast of the second frequency band corresponding to the second group. The controller 117 may search for a sound source different from the sound source of the first group in the storage unit 109 or configure a sound source of the second frequency band through frequency band conversion from the sound source of the first group.

The controller 117 reproduces the configured sound source and outputs audio stream data to the audio signal generator 111. The audio amplifier 113 or the audio signal generator 111 outputs or amplifies an audio signal according to the output level set by the controller 117. The output level set in the second group is set to be lower than the output level of the first group, so that the speaker 300 of the corresponding second group outputs evacuation announcement broadcast of a level lower than that of the speaker 300 of the first group.

The second frequency band of the second group may be a frequency band higher than the frequency band of the first group of the voice frequency bands. For example, the second frequency band may be a 2KHz frequency band. Accordingly, the evacuation announcement broadcast output to the speaker 300 of the second group may be an evacuation announcement broadcast of a higher frequency voice than the first group while having a relatively small output level. High-frequency voices are those that can be more focused (visible) by visitors, administrators, and so on than low-frequency voices.

The controller 117 outputs a speaker selection signal for outputting an audio signal generated by selecting each of the speakers 300 of the second group to the speaker selection unit 115 during the second group period. 115 outputs an evacuation announcement broadcast according to the set output level of the second frequency band to the speaker 300 of the second group during the second group period.

In addition, when the current time is within the Nth (N is an integer of 3 or more) group period following the N-1th group period using the time of the timer (S9), the controller 117 uses the Nth frequency during the Nth group period. The evacuation announcement broadcast of the band is controlled by the speaker selector 115 and outputted to the speaker 300 of the Nth group (S9).

In detail, the controller 117 configures a sound source of evacuation announcement broadcast of the Nth frequency band corresponding to the Nth group. The controller 117 may search for a sound source different from the sound source of the first group in the storage unit 109 or configure a sound source of the Nth frequency band through frequency band conversion from the sound source of the first group.

The controller 117 reproduces the configured sound source and outputs audio stream data to the audio signal generator 111. The audio amplifier 113 or the audio signal generator 111 outputs or amplifies an audio signal according to the output level set by the controller 117. The output level set in the N-th group is set to be lower than the output level of the first group or the N-th group, so that the speaker 300 of the N-th group (for example, 3) group has the first group or the N- group. The evacuation announcement broadcast at a lower level than the speaker 300 of the 1 (eg, 2) group is output.

The N-th frequency band of the N-th group may be a frequency band higher than the frequency band of the first group or the N-1 group among the voice frequency bands. For example, the N-th frequency band may be an NKHz frequency band. Accordingly, the evacuation announcement broadcast output to the Nth group speaker 300 may be an evacuation announcement broadcast of a higher frequency voice than the first group or the N-1 group while having a relatively small output level.

Here, the frequency bands allocated to each group and the size thereof may be different according to the number of groups to be grouped, and the allocation of the 1 KHz band according to the description should be understood as an example of the frequency band allocation.

The controller 117 outputs a speaker selection signal for outputting an audio signal generated by selecting each of the speakers 300 of the Nth group to the speaker selection unit 115 during the Nth group period. 115 outputs an evacuation announcement broadcast according to the set output level of the Nth frequency band to the Nth group speaker 300 during the Nth group period.

The controller 117 may reinitialize the timer (S4) and repeatedly output the evacuation announcement broadcast during each group period (S5 ˜ S10) as the periods of all the groups have elapsed.

In this way, the control unit 117 evacuation announcement broadcast output to the speaker 300 of the first group, evacuation announcement broadcast output to the speaker 300 of the second group and the speaker of the N (N is an integer of 3 or more) group The voice frequency bands of the evacuation announcement broadcasted to 300 are different from each other to output an evacuation announcement.

By sequentially outputting evacuation announcements using different output levels and different frequency bands, a manager or a visitor in a building can intuitively recognize the evacuation direction from a fire occurrence point through different voices.

Visitors located close to the point of fire can immediately recognize a fire occurrence from a low frequency voice of a high output level and immediately recognize a direction to evacuate from a relatively low power level high frequency voice output at another point in time.

In general, high-frequency voices are effective as voice announcements during emergency evacuation, so that high-frequency voices are output to the speaker 300 at a location farther from a fire occurrence point to recognize an efficient evacuation direction.

Accordingly, although the vision is not secured due to smoke or the like, guided at different times and evacuation announcements of different frequencies can easily recognize the evacuation direction and guide rapid evacuation.

4 is a view for explaining an example of guiding evacuation according to the present invention when a fire occurs in a specific complex building.

As shown in (a) of FIG. 4, the evacuation guidance device 100 (control unit 117 of the evacuation induction device 100) for receiving a fire signal from a specific fire sensor 200 is divided into four groups according to the size, range, etc. of the complex building. Can be grouped.

The first group includes the speakers 300 in the closest range to the point of fire and the second group includes the speakers 300 in the next close range and the third group comprises the speakers in the next close range ( And the fourth group includes the speakers 300 in the farthest range.

As can be seen in Figure 4 (b), the evacuation induction device 100 is the highest sound intensity (output level) and the evacuation voice guidance of the lowest frequency band (for example 1KHz band) of the first group After output through the speaker 300, and then the evacuation voice guidance of a higher frequency band (for example, 2KHz band) than the first group while the loudness is loud and outputs through the speaker 300 of the second group.

Subsequently, the evacuation guidance device 100 outputs the evacuation voice guidance of the frequency band smaller than the second group and higher frequency (for example, 3 KHz band) through the third group of speakers 300, and the highest sound level is obtained. The smallest and highest frequency band (for example, 4KHz band) is output through the speaker 300 of the fourth group so that visitors or employees of each location can easily and effectively recognize the evacuation direction through voice. Can be.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

100: evacuation induction device
101: audio input unit
103: fire signal receiver
105: communication unit
107: display unit
109: storage unit
111: audio signal generating unit
113: audio amplifier
115: speaker selection unit
117: control unit
119: user input unit
200: fire sensor
300 speaker

Claims (9)

An evacuation induction device using audio broadcasting,
A fire signal receiving unit for receiving a fire signal indicating a fire occurrence;
A storage unit to store location information of the speakers and location information of the fire sensors;
Specifying a fire occurrence point from the received fire signal using the location information of the fire sensor, the location of the speaker as speakers within a first distance according to the distance between the fire occurrence point and the location of the location information of each of the speakers Speakers located on a passageway or within a specified distance from the passageway, grouped into a first group, and speakers between the first distance and the second distance, the speaker's position being on the passageway or within a specified distance from the passageway Group the speakers into a second group, and group speakers into a third group whose speakers are located on a passageway or within a specified distance from the passageway as speakers between the second and third distances, the first group, A controller configured to output an audio signal corresponding to the evacuation announcement broadcast to the speakers of the second group and the third group; And
And a speaker selector configured to output an audio signal received by a speaker selected according to the control by the controller.
The controller controls the speaker selector to control an audio signal having the highest first output level of the first voice frequency band, which is the lowest voice frequency band, when the current time is within the first group period by using a timer. Output to one group of speakers, and having a second voice frequency band higher than the first voice frequency band when the current time is within a second group period following the first group period, than the first output level. Controlling the speaker selector to output an audio signal having a low second output level to the speakers of the second group, and wherein the second time when the current time is within a third group period subsequent to the second group period. An audio scene having a third voice frequency band higher than the voice frequency band and having a third output level lower than the second output level And a control section for selecting the speaker output to the speaker of the third group,
Evacuation guidance device. The method of claim 1,
The controller sets the first group period, the second group period, and the third group period to which an evacuation announcement broadcast is output from the speakers of each of the first group, the second group, and the third group,
Wherein, among the first group period, the second group period, and the third group period, the first group period has the longest evacuation announcement period and the third group period has the shortest evacuation announcement period,
Evacuation guidance device. delete delete As an evacuation induction method using audio broadcasting,
Receiving a fire signal indicating a fire occurrence;
Specifying a fire occurrence point from the received fire signal and grouping a plurality of speakers capable of outputting an audio broadcast according to a distance from the specified fire occurrence point using the location information of the speakers; And
And outputting evacuation announcement broadcasts of different frequency bands for each of the grouped speakers.
The grouping may include: speakers that are within a first distance according to a distance between the fire occurrence point and a location of location information of each of the speakers, and that the speakers are located on a passageway or within a specified distance from the passageway. Group into a first group, and group speakers into a second group where the location of the speaker is on a passageway or within a specified distance with the passageway as speakers between the first and second distances; Speakers between three distances, grouping the speakers into a third group where the location of the speaker is on the passageway or within a specified distance from the passageway,
The outputting of the evacuation announcement may include: outputting an audio signal having the highest first output level of the first voice frequency band which is the lowest voice frequency band when the current time is within the first group period; A second output having a second voice frequency band higher than the first voice frequency band and being lower than the first output level when the current time is within a second group period subsequent to the first group period. A third voice frequency band higher than the second voice frequency band when an audio signal having a level is output to the speakers of the second group and the current time is within a third group period subsequent to the second group period Outputting an audio signal having a third output level lower than the second output level to the speakers of the third group,
Evacuation Induction Method. The method of claim 5,
Before outputting the evacuation announcement, the first group period, the second group period, and the third group period in which the evacuation announcement is to be output from the speakers of each of the first group, the second group, and the third group. Further comprising;
Wherein, among the first group period, the second group period, and the third group period, the first group period has the longest evacuation announcement period and the third group period has the shortest evacuation announcement period,
Evacuation Induction Method. delete delete Evacuation guidance system using audio broadcasting,
Evacuation guidance device using the audio broadcasting of claim 1; And
It includes; a plurality of speakers for outputting the evacuation announcement broadcast received from the evacuation guidance device as a sound wave signal,
Evacuation guidance system.

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