KR102642115B1 - Broadcasting system with an emergency call call function - Google Patents

Abstract

The present invention relates to a public address system equipped with emergency call/individual speaker control/speaker location status monitoring functions. More specifically, it uses existing public address devices and speaker lines as is and provides an emergency call ring at the speaker installation location. When you press , the control unit at the speaker location connects the interphone to the speaker line and wirelessly transmits an emergency call through the wireless roller. The main control unit receives an emergency call signal through the LoRa gateway and connects the interphone to the speaker line of the main control unit to make a mutual call. Each speaker is wirelessly controlled. Each speaker is controlled to enable individual or group broadcasting. The speaker location sensor is used to determine whether the speaker output is successful or not. A human body detection sensor, a temperature sensor, and a fire detection sensor are used to monitor changes in the environment at the installation location and the status of the speaker wirelessly. It is about a multi-functional broadcasting system that can be monitored.

Description

Public address system with an emergency call call function {Broadcasting system with an emergency call call function}

The present invention relates to a public address system equipped with emergency call/individual speaker control/speaker location status monitoring functions. More specifically, it uses the existing public address device and speaker line as is and rings an emergency call at the speaker installation location. When you press , the control unit at the speaker location connects the interphone to the speaker line and wirelessly transmits an emergency call through the wireless roller. The main control unit receives an emergency call signal through the LoRa gateway and connects the interphone to the speaker line of the main control unit to make a mutual call. Each speaker is wirelessly controlled. Each speaker is controlled to enable individual or group broadcasting. The speaker location sensor is used to determine whether the speaker output is successful or not. A human body detection sensor, a temperature sensor, and a fire detection sensor are used to monitor changes in the environment at the installation location and the status of the speaker wirelessly. It is about a multi-functional broadcasting system that can be monitored.

Basically, buildings or public places over a certain size are required to notify the public of the emergency situation through emergency signals or audio announcements when an emergency situation occurs.
Accordingly, buildings over a certain size are equipped with a public address system to enable broadcasting using various audio sources, and, if necessary, are configured to automatically notify through audio announcements in the event of an emergency.
However, a general public address broadcast is a structure of one-way listener information acquisition in the order of voice reproduction from the broadcasting speaker.
As shown in Figure 1a, when an emergency situation occurs in a place where communication conditions are weak, such as a school or an apartment complex or a military base, it is a structure that can notify the situation through oral communication or wireless communication such as mobile communication, and determines the occupancy status of the structure at the current location of the emergency situation. This cannot be done, and mobile communication can only track local locations, so in urgent situations, it is difficult to determine the location of the site and it is impossible to respond quickly.
However, in places such as schools, small apartment complexes, or military bases that are located in remote areas and have weak communication conditions, in the event of an emergency situation such as a disaster, you must rely on the on-site broadcast to determine whether the emergency situation exists. However, in such places, the public address system must be installed externally. In most cases, installation is commissioned by a professional company, so professional personnel are not always deployed to manage the public address devices that make up the public address system. Therefore, if a problem occurs with the public address device, broadcasting within the premises may not be provided. , this causes great damage in the event of an emergency situation such as a disaster.
In addition, the public address system using existing public address devices is individually connected through wires to multiple sound output devices installed in different areas of the premises, so that in case of a line abnormality, there may be cases where in-house broadcasts are not made in response to an emergency situation. Therefore, there is a problem in ensuring the reliability of the public address system.
In other words, the public address system is used to make general announcements or announcements in airport stations, subway stations, school classrooms, ship cabins, parks, apartments, offices, etc.
Public address systems are usually capable of outputting one sound source data simultaneously through multiple speakers in various locations.
Here, speakers are often branched off from one sound source player and connected by wires.
Publication Patent Publication 10-2014-0005650 exemplifies the configuration of a public address system.
In the case of a public address system, since a single sound source data is mainly output, sound source transmission must be branched through a switch in order to output different sound sources for each individual speaker.
However, in this case, there is a problem in that installation of the public address system becomes difficult and costs increase.
Existing public address systems have the problem that it is not easy to individually control sound sources, output, amplification, etc. for each speaker.

KR 1760818B1 KR 2017- 0131916 A KR 1606068B1 KR 1630278B1

The present invention was made to improve the above-described problems. The present invention relates to an emergency call function and an individual control status monitoring method of a public address system column speaker. In detail, the present invention relates to a method for monitoring a general public address system column speaker as an iot lora. It is controlled using , and when an emergency call requiring an emergency occurs, pressing the emergency bell switch at the column speaker position transmits the situation through IoT LoRa, receives the situation from LoRa gateway (amplifier unit), and switches between the already connected amplifier and After removing the speaker, connect an interphone to the speaker line to generate an emergency call. Provides an intercom function between the column speaker and the amplifier where emergency calls are made.
Separately, during public address broadcasting, each speaker can individually or group broadcast by individually controlling the column speakers using IoT Lora, rather than a group broadcast that is tied together with the line on/off function of each speaker.
The success of the broadcast can be monitored by viewing and receiving loRa's usage status, and by installing a human body detection sensor, temperature sensor, and fire sensor at the column speaker location, surrounding environmental factors can be received and monitored in real time.

In order to achieve the above object, an embodiment of the present invention includes a CPU and memory inside, and performs overall control when receiving an emergency signal generated from the speaker control unit. Control and switching of speaker control units other than the lower emergency speaker control unit. Operation control command Controls each part of the speaker, stores the environment values of each speaker control part, performs notification functions when an event occurs and controls each part where the amplifier is located. Communicates with the monitor part to deliver broadcast success and the status of each part. Broadcast signal from the control monitor part. A control unit that receives and transmits to the speaker control unit;
A switching unit that receives a control signal from the control unit and separates the amplifier output from the speaker line and performs a switching operation to connect the interphone unit instead, or removes the interphone unit from the speaker line and connects the amplifier and the speaker line;
It receives the control signal from the control unit and contains a 60Hz sine wave generator and relay internally. It operates when the lower charging unit needs to be charged. When the control signal from the control unit is received, the amplifier input sound source is separated, the internal 60Hz sine wave generator is activated, and the 60Hz sine wave generator is activated. A voice switch unit that provides the ability to amplify a 60Hz sine wave signal by connecting the wave signal to the amplifier input;
An interphone unit/speaker interphone unit that receives the switch from the speaker switching unit and connects to the speaker line in the event of an emergency call to provide a call function; a two-wire call is made;
A radio unit/speaker radio unit that receives control signals from the control unit and transmits them wirelessly to a speaker control unit with an individual ID (or IP address), and receives individual emergency calls and environmental values wirelessly and transmits them to the control unit;
It interlocks with the above control unit and includes a touch-type monitor for visual confirmation and a keyboard mouse for entering change-related data. Individual and group broadcast selection and speaker control unit environmental values are received, individual IDs are displayed, and speakers are displayed in the event of an emergency call. a control monitor unit that displays individual IDs of speakers activated by the control unit and provides input to a microphone or speaker according to the corresponding interphone;
It contains a CPU and memory inside, has an individual ID, and when an emergency bell call occurs, it operates the speaker switching unit and executes a control command to connect the speaker intercom unit. An emergency bell call is generated through the speaker wireless unit and the speaker control unit environment and broadcast results are transmitted to the speaker wireless unit. A speaker control unit that provides switching and charging operations by transmitting to the control unit through the unit or receiving the control unit control signal through the wireless unit;
Receives a control signal from the speaker control unit, removes the speaker line from the matching transformer, and performs a switching operation to connect the speaker intercom unit instead, or, conversely, removes the speaker intercom unit from the speaker line, connects the matching transformer to the speaker line, or removes the speaker line from the matching transformer. Speaker switching unit for connection;
It receives a charging signal from the speaker control unit and is connected to the speaker line through the speaker transfer unit. The 60HZ sine wave generated by the voice transfer unit is amplified by the amplifier and supplied through the speaker line to charge the internal battery. When not charging, the internal battery charging power is supplied to each unit. Charging part supplied to;
The emergency bell for the emergency signal includes a switch function, provides a switch signal to the control unit by wire or wirelessly, and operates when the user presses the individual ID location of the speaker when an emergency is required.
The speaker transfer unit provides a relay function, removes or connects the speaker from the speaker line by a control signal from the control unit, removes the speaker line from the speaker and connects it to an intercom or charging unit, and provides a matching transformer between the speaker line and the speaker. It monitors the primary current of the matching transformer of the speaker line and detects the secondary current of the matching transformer, measures the input current and output current during broadcasting, and provides it to the control unit.
The speaker or interphone is connected to the speaker line and plays the role of transmitting or receiving voice at the speaker location. When the emergency bell is pressed, the speaker or interphone receives a signal from the speaker control unit and operates by being connected to the speaker line through the speaker switch unit. Equipped with emergency call function.
The speaker control unit receives transmission and reception signals from the speaker wireless unit and controls the speaker switching unit. It receives control signals during group individual broadcasting to control the switching unit, disconnects or connects the speakers, disconnects the speaker when an emergency call occurs, connects the interphone, and controls the switching unit when a charging signal is received. The charging unit is connected to the speaker line, and during broadcasting, the switching unit detects the speaker line matching, primary current matching, secondary current, compares whether the same shape of current is consumed, monitors whether the output is output to the speaker, and transmits whether or not the broadcast was successful through the speaker wireless unit. It has a built-in human body monitoring sensor, temperature sensor, and fire detection sensor, and monitors the presence or absence of people and other environments in the internal space and transmits them through the wireless unit.
The charging unit is connected to the speaker line through the speaker switching unit by the control signal from the speaker control unit, rectifies the 60HZ electrical signal amplified by the amplifier, supplies operating power to each part, and contains a battery inside, which is charged and used as charging power at the end of charging. Supply power to each part.
The wireless unit uses the IOT LORA network and transmits control signals from each control unit. It provides a wireless transmission/reception function that receives control signals from the speaker control unit and transmits data to the control unit.
The control unit receives a signal from the wireless unit and operates the switch unit when necessary, connects the interphone, receives a signal from the control monitor unit, and transmits a control command to the lower speaker switch unit through the wireless unit, or receives environmental monitoring values from the lower speaker control unit and sends it to the control monitor unit. It transmits and receives data to and from the lower speaker control unit. The switch unit always connects the amplifier and the speaker line and separates the speaker line from the amplifier by a control signal to connect or return it to the intercom. The voice switch unit sends a control signal to the control unit. By removing the amplifier's voice input and supplying a 60HZ signal, the amplifier amplifies the 60HZ signal to supply power to the lower charging section and reconnects the voice signal line when charging is completed.
The control monitor unit provides a monitor and displays the individual ID of each speaker for individual and group broadcasting. It displays the environmental value on each individual ID. When broadcasting, it indicates whether or not the broadcast was successful. When an emergency call occurs, it displays the individual ID of the speaker that caused the emergency call. It has a microphone and speaker for making phone calls, and communicates with the control unit to receive data to be marked or transmit broadcasting-related control signals.

In one embodiment of the present invention, when an emergency bell for a bathroom emergency call is pressed, the control unit detects the emergency call, the control unit removes the speaker from the speaker line through the switch unit, and connects an interphone to the speaker line to start transmitting the bathroom voice. .
In addition, the present invention generates an emergency call to the bathroom through a wireless unit, receives it through a roller from the amplifier unit where the transmission amplifier is located, removes the amplifier output speaker line through the switch unit under the control of the control unit, and connects an interphone to enable a conversation with the restroom. make it
In addition, the present invention can issue a command to remove all speaker lines from the speaker line at the lower column speaker location through the control unit, making it possible to notify the monitor unit of an emergency call and call and monitor the person in charge.
The present invention implements an emergency call function in a universal public address system to enable a two-way call between the place where the speaker is installed and the place where the control monitor unit is installed in the event of an emergency, so that workers or people in charge can quickly respond and understand the situation, and individual It enables selective broadcasting of groups and groups, suppresses broadcasting in unnecessary areas, and monitors the status of each speaker, so it is possible to monitor the success of the broadcast. If it is installed indoors, it uses sensors to detect fires and the presence of people. It has a multi-functional effect that can cope with various situations.
Here, existing speaker line amplifiers, etc. can be used as is, which has the effect of minimizing construction period and costs.

Figure 1 is a block diagram schematically showing the relationship between components implementing a public address system with an emergency call function according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing a public address system equipped with an emergency call function according to an embodiment of the present invention.
Figure 3 is a detailed configuration diagram of a speaker control unit of a public address system equipped with an emergency call function according to an embodiment of the present invention.

The present invention as described above will be described in detail through the attached drawings and examples.
It should be noted that the technical terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention. In addition, the technical terms used in the present invention, unless specifically defined in a different sense in the present invention, should be interpreted as meanings generally understood by those skilled in the art in the technical field to which the present invention pertains, and are not overly comprehensive. It should not be interpreted in a literal or excessively reduced sense. Additionally, if the technical term used in the present invention is an incorrect technical term that does not accurately express the idea of the present invention, it should be replaced with a technical term that can be correctly understood by a person skilled in the art. In addition, general terms used in the present invention should be interpreted according to the definition in the dictionary or according to the context, and should not be interpreted in an excessively reduced sense.
Additionally, as used in the present invention, singular expressions include plural expressions unless the context clearly dictates otherwise. In the present invention, terms such as “consists of” or “comprises” should not be construed as necessarily including all of the various components or steps described in the invention, and some of the components or steps are included. It may not be possible, or it should be interpreted as including additional components or steps.
Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. However, identical or similar components will be assigned the same reference numbers regardless of the reference numerals, and duplicate descriptions thereof will be omitted.
Additionally, when describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted. In addition, it should be noted that the attached drawings are only intended to facilitate easy understanding of the spirit of the present invention, and should not be construed as limiting the spirit of the present invention by the attached drawings.
The present invention relates to a public address system equipped with emergency call/individual speaker control/speaker location status monitoring functions. More specifically, it uses existing public address devices and speaker lines as is and provides an emergency call signal ring at the speaker installation location. When you press , the speaker position control unit connects the interphone to the speaker line, and when an emergency call occurs through the wireless roller, the main control unit transmits wirelessly. The main control unit receives an emergency call signal through the LoRa gateway. A call is made, and each speaker is identified by its own ID assigned to the speaker control unit. The speakers are controlled so that individual or group broadcasts can be wirelessly controlled. The sensor of the speaker location is used to determine whether the speaker output is successful or not. Human body detection sensor Temperature sensor Fire It is about a multi-functional broadcasting system that can wirelessly monitor environmental changes and speaker status at the installation location through a detection sensor.
In addition, the present invention is a method of controlling each column speaker using a control-related lora in the same configuration. When an emergency call occurs and an emergency bell is pressed, the column speaker broadcasting control unit detects the emergency call, removes the speaker from the speaker line through the transfer unit, and makes a call. An interphone capable of doing so is connected, and the broadcasting control unit simultaneously transmits an emergency bell signal through LoRa.
In addition, the present invention uses the existing public address device and speaker line as is, and when an emergency call occurs at the speaker installation location, the control unit at the speaker location connects the interphone to the speaker line and wirelessly transmits the emergency call through a wireless roller. When an emergency call occurs through the LoRa Gateway, the control unit connects an interphone to the speaker line of the main control unit to make a mutual call. It wirelessly controls each speaker, controls the speakers to make individual or group broadcasts, and uses a sensor for the location of the speaker. This is a multi-functional broadcasting system that can wirelessly monitor environmental changes and speaker status at the installation location through a human body detection sensor, temperature sensor, and fire detection sensor, whether the speaker output is successful or not.
Looking at the drawings, as shown in Figure 1b, the present invention includes a speaker control unit that controls each part of the speaker when an emergency signal is received, stores environmental values of the speaker control part related to the amplifier, and performs a notification function and control of each part when an event occurs. (20), receiving a control signal from the control unit 20, a switching operation is performed to remove the speaker line from the amplifier of the speaker control unit and connect the interphone instead, or, conversely, remove the interphone line from the amplifier and connect the speaker line (e.g., ON/OFF of the control unit) A speaker switching unit 13 that changes the ON/OFF state of the speaker or interphone according to an OFF signal, receives the switching from the speaker switching unit 13 and is connected to the speaker line when an emergency call occurs, providing a call function, An interphone (12) for making calls using a two-wire method, which receives control signals from the control unit (20) and transmits them wirelessly to a speaker switch unit with an individual ID (or IP address), and wirelessly receives individual emergency calls and environmental values and transmits them to the control unit. It is linked with the wireless unit 21 and the control unit 20, and selects individual group broadcasts, receives environmental values of the speaker control unit, displays individual IDs, and when an emergency call occurs, the speaker control unit displays the individual ID of the activated speaker and displays the corresponding interphone. It includes a control monitor unit 32 that provides a microphone or speaker as input.
In addition, as shown in Figure 2, a power unit 15 that receives a charging signal from the control unit, supplies charging power to the speaker or interphone through the charging unit, and inputs the 60hz signal to the amplifier input to enable amplification in the amplifier. It further includes.
Here, the power unit 15 can supply power to the speaker control unit 16, which will be described below, and each relay or terminal connected to the LORA network.
The emergency bell (2) for the emergency signal includes a switch function and provides a switch signal to the control unit by wire or wirelessly, and is activated when the user at the individual ID location of the speaker presses it when an emergency call is required.
Therefore, the speaker transfer unit provides a relay function, removes or connects the speaker from the speaker line by a control signal from the control unit, removes the speaker line from the speaker and connects it to the intercom or charging unit, and provides a matching transformer between the speaker line and the speaker. It has the feature of monitoring the primary current of the matching transformer of the speaker line and detecting the secondary current of the matching transformer, measuring the input current and output current during broadcasting and providing them to the control unit.
In addition, in the present invention, the speaker or interphone is a universal 2-wire interphone that is connected to the speaker line and plays the role of transmitting or receiving voice at the speaker location. When the emergency bell is pressed, it receives a signal from the speaker control unit and transmits it to the speaker line through the speaker switch unit. It has the characteristic of being connected and operating.
As shown in Figure 3, the speaker control unit 16 according to the present invention receives transmission and reception signals from the speaker wireless unit to control the speaker switching unit, receives control signals during group individual broadcasting, controls the switching unit, separates or connects the speakers, and disconnects or connects the speakers when an emergency call occurs. Disconnects the interphone, connects the interphone, controls the transfer unit when receiving a charging signal, connects the charging unit to the speaker line, and during broadcasting, matches the transfer unit speaker line, matches the primary current, detects the secondary current, compares whether current of the same shape is consumed, and outputs to the speaker. It transmits whether or not the broadcast was successful through the wireless unit of the monitoring speaker. It has a built-in human body monitoring sensor, temperature sensor, and fire detection sensor, and has the feature of monitoring the presence of people and other environments in the internal space and transmitting it through the wireless unit.
The charging unit according to the present invention is connected to the speaker line through the speaker switching unit by the control signal from the control unit, rectifies the 60HZ electrical signal amplified by the amplifier, supplies operating power to each part, and contains a battery inside, which is charged when charging is completed. It has the characteristic of supplying power to each part with electric power.
The radio unit (speaker radio unit) according to the present invention uses the IOT LORA network and transmits control signals from each control unit. It has the feature of providing a wireless transmission and reception function that receives control signals from the speaker control unit and transmits data to the control unit.
LoRa, used in the present invention, is a mid-range (1 km or more) network communication that configures a network with 915Mhz wireless communication, also known as LoRaWAN. The biggest feature of LoRa communication is that it is one of the low-power long-distance communication technology (LowPower Wide Area Network, LPWAN) technology standards. Compared to existing Zigbee or WI-FI communication modules, it is low-power and efficient, and has a short effective distance of less than 100m. Compared to existing communication methods, it supports long-distance communication with an effective distance of more than 1km.
In addition, when there is interference in a specific channel, the reliability of the received data is high because it can automatically find and transmit to another channel without interference.
When transmitting wirelessly, AES64 encrypted data is transmitted, providing high security, and multiple client devices can be connected at the same time. These advantages make it possible to build an efficient system when building a large-scale smart factory or external smart city system at an industrial site.
Existing wireless control technology transmits data collected from individual controllers using Zigbee, WIFI, and BLE methods using RF2.4Ghz, and each control has been used in a control system for short-distance wireless communication (usually within 30m).
However, with these existing technologies, the communication distance became shorter due to signal degradation due to structures outside of the room, which limited the implementation of the system in industrial sites and resulted in high construction costs due to the small number of devices that can be connected to one server. There was a problem of low efficiency compared to
Recently, as the Internet of Things (IoT) has developed, a distinction has emerged between devices such as sensors and controllers that exchange a lot of data over the network and those that do not, of which only a small amount of data is exchanged.
Existing high-speed, high-capacity, and expensive networks (sensor data such as temperature, humidity, measurement, etc., location data) are creating entry barriers due to poor cost-effectiveness.
Therefore, as the demand for specialized networks for the Internet of Small Things (IoST) increases, the need for wireless control technology through LoRa communication is emerging.
The present invention collects and stores the state of the sensor based on LoRa communication, and uses deep learning based on the collected data to determine the occurrence of sensor outliers, prediction of missing values, communication errors, etc. to initialize the sensor or reset the sensor to a set value. It is about a deep learning safety management system for remote sensor control and measurement based on LoRa network that allows control such as changing or issuing an alarm to the user.
In other words, the present invention collects and stores the state of the sensor based on the LoRa network (or LoRa network), and uses deep learning based on the collected data to determine the occurrence of sensor outliers, prediction of missing values, communication errors, etc. This relates to a deep learning safety management system for remote sensor control and measurement based on LoRa network that can be controlled to initialize, change settings, or issue an alarm to the user.
As configured as above, the deep learning safety management system for remote sensor control and measurement based on the LoRa network according to the present invention can determine outlier values by comparing measurement data collection from sensors located in remote locations, and determine outlier values. Based on the event log data of the sensor, control according to the decision made by the manager is mechanically learned through deep learning from the measured values of the measurement data collection program, and automatically detects the sensor when similar outliers occur in the future. You can control it.
The above technology applies LoRa, one of the IoT communication standards, to read information about the status or environment of remote facilities or equipment hundreds of meters to several kilometers away using various sensors to the host and refer to this information. Therefore, when appropriate control is needed in a remote location, a two-way communication structure is implemented in which the host sends control information to the remote location, that is, the client, so that the administrator can directly manage, control, and control the remote location without having to visit each remote location directly.
A LoRa relay constituting the IOT LORA network receives a relay request message from a terminal connected to the LoRa network, which is located in a school auditorium or an enclosed underground space and cannot directly communicate with the LoRa gateway. Adding identification information of the LoRa relay to a relay request message and transmitting it to a network server through the LoRa gateway, wherein the LoRa relay selects an optimal LoRa relay among a plurality of LoRa relays and receives a connection approval message from the network server. Receiving, the LoRa relay, checking the relay information of the connection approval message and determining whether to deliver the connection approval message, the LoRa relay, the relay information of the connection approval message being transmitted to the LoRa relay If it corresponds to , it includes transmitting the access approval message to a terminal connected to the LoRa network, and the LoRa relay relaying communication between the terminal connected to the LoRa network and the network server.
Meanwhile, the control unit according to the present invention receives a signal from the wireless unit and operates the switch unit when necessary, connects the interphone, receives a signal from the control monitor unit, transmits a control command to the lower speaker switch unit through the wireless unit, or receives environmental values from the lower speaker control unit. It is transmitted to the control monitor unit and has the function of sending and receiving data with the lower speaker control unit.
In addition, the switch unit always connects the amplifier and the speaker line, and has the characteristic of disconnecting the speaker line from the amplifier and connecting or returning it to the intercom by a control signal.
In addition, the voice switching unit added in the present invention removes the amplifier voice input by the control signal from the control unit, supplies a 60HZ signal, allows the amplifier to amplify the 60HZ signal, supplies power to the lower charging unit, and reconnects the voice signal line when charging is completed. There is.
The control monitor unit according to the present invention provides a monitor, displays the individual ID of each speaker for individual and group broadcasting, indicates the environmental value on each individual ID, indicates whether the broadcast was successful during broadcasting, and when an emergency call occurs, monitors the speaker that generated the emergency call. It displays individual IDs, has a microphone and speaker for making phone calls, and communicates with the control unit to receive data to be marked or transmit broadcast-related control signals.
The present invention includes a main unit that pre-checks the status of the speaker line and speaker and displays abnormalities on its own while notifying an alarm sound, a first loop member connected to the main unit and detecting the presence or absence of an AMP input signal, and A loop unit equipped with a second loop member inspects the initial state of the speaker connected to itself and stores it as initial state information, then inspects the state of the speaker at regular intervals and compares it with the initial state information, and depending on the compared state, By providing a configuration including an SLC unit equipped with a plurality of SLCs (Speaker Line Checkers) that classify OPEN, SHORT, or NORMAL and transmit them to the loop unit, the speaker line checker at any point is prepared. Or, even if a fault occurs in the speaker itself, speakers other than that point can broadcast normally.
As an embodiment, an individual speaker according to the present invention may be configured to include a D/A converter (digital/analog converter) and an amplifier, and the control unit 20 may be configured to include an A/D converter (analog/digital converter). ) may be configured to include.
Each speaker's amplifier may be configured to be pre-assigned an ID or IP address.
The D/A converter of an individual speaker may be configured to receive digital sound source data received through an assigned IP address from the control unit through an IP network (internet protocol network).
Here, the IP network may be a 3G/4G mobile communication network or a broadband wired network.
When using such an IP network, wired equipment work is not required, making it easier to build a public address system.
The D/A converter may be configured to convert digital sound source data into analog data.
The amplifier may be configured to amplify or equalize analog data converted from the D/A converter.
Meanwhile, the amplifier may be configured to further receive a control signal or a synchronization signal for each amplifier from the control unit through an IP network.
These control signals and synchronization signals for each amplifier can be added to the header of the data packet. The control signal may be a volume, amplification factor, or equalizing control signal for the digital sound source data of the corresponding data packet. The synchronization signal for each amplifier may be configured to include an output synchronization time for when to output the digital sound source data of the corresponding data packet. This output synchronization time can be set based on the standard synchronization timing, and can also be set based on GPS time, etc.
The amplifier may be driven by a control signal received from the control unit, and may be configured to synchronize its output timing with that of other individual speakers by a synchronization signal for each amplifier received from the control unit 20.
As the reception time of packets received through a broadband network varies between individual speakers located far away, errors may occur even in the output time, resulting in increased overlap and interference in output sounds. Accordingly, the amplifiers can be configured to prevent interference and overlap of output sounds by synchronizing their outputs with each other through synchronization timing by the synchronization signal for each amplifier.
Individual speakers can be configured to output amplified analog data from an amplifier.
An IP network (internet protocol network) including a control unit that transmits the digital sound source data through an IP network (IP network) using the IP address can be used.
The control unit may be configured to transmit a sound source input through a microphone or a pre-stored sound source to the individual speaker 11.

As an example, in the present invention, the public address system is installed indoors such as apartment complexes, schools, government offices, large buildings, ports, airports, etc., and is used not only for internal broadcasting but also for emergency broadcasting in the event of an emergency call situation such as a fire. For example, For example, in the event of an emergency, such as a fire, it can notify people through speakers and encourage safe evacuation, minimizing casualties.
To solve this problem, a specific location information transmission module (e.g., a beacon or a speaker combined with a beacon) that can be added in the present invention is a short-range communication technology that transmits information using Bluetooth communication and determines the location of the smartphone user.
The specific location information transmission module can communicate with terminals (smart devices, including smartphones) within a radius of up to 50m within the building, so the moment visitors enter a specific place or building where the specific location information transmission module is installed, there is no need to tag the terminal. You can receive guidance services and related information. In addition, since it uses a specific location information transmission module terminal that supports low-power BLE (Bluetooth Low Energy) technology, it has the advantage of reducing battery consumption of the smartphone.
While GPS has an error of tens of meters, the specific location information transmission module is capable of precise location measurement up to about 50cm, and is especially advantageous for determining the location of smartphone users indoors. For example, even if it is the same building, different guidance services or related information can be provided depending on the location, and information about the building can be checked in the direction in which pedestrians are moving.
In this way, the specific location information transmission module has outstanding advantages over previously commercialized short-distance wireless communication in terms of location accuracy and range of use, and it can easily obtain indoor location information that is difficult to determine with GPS technology, so it can provide specific location information worldwide. The introduction of delivery module systems is rapidly spreading.

The public address system with an emergency call function according to the present invention can perform announcements in addition to emergency broadcasts such as fire, etc. The public address system with the emergency call function can perform n multi-distance broadcasting functions. To achieve this, a speaker control unit can be used between n speaker amplifiers and m speakers.
When an emergency broadcast is made in a public address system equipped with the emergency call function, the emergency broadcast is broadcast for the entire building, so all speakers can be connected to one amplifier output.
Accordingly, data can be communicated by being connected to one wireless unit. However, when multi-source broadcasting is in progress, broadcasts from each floor in the building must be transmitted differently and speakers must be connected according to the output of n amplifiers, so in this case, wired communication is disconnected.
When conducting multi-source broadcasting to improve the above problems, when n multi-source broadcasts are input to the speaker control unit, n communication modems are configured for each input, so that the speaker-specific location information transmission module is connected to the wireless unit. It can be configured so that communication between the control unit and the control unit of the speaker integrated with the specific location information transmission module is not interrupted even if the connection is lost.
In the present invention, the control unit can transmit data to the database unit through a TCP/IP network. In the present invention, in order to enable wired communication even in various connection situations, a speaker control unit and a wired communication modem are configured, so that information on m speaker-specific location information transmission modules can be collected and managed from one control unit without interference between speakers.
The present invention can provide an automatic fault diagnosis system for speakers that can wirelessly control fault diagnosis of speakers using a ZigBee wireless module to solve the shortcomings and functional limitations of conventional speaker systems, and can provide an automatic fault diagnosis system for each speaker. In a broadcasting equipment system in which a speaker diagnostic circuit is connected to one side of the system and a central speaker diagnostic controller is connected to the other side, a ZigBee module is connected to each of the speaker diagnostic circuits, and is wirelessly connected through the Zigbee module that performs two-way communication. This is achieved by composing a Zigbee module that sequentially receives or transmits signals, and a central speaker diagnostic controller that is connected to the Zigbee module and receives a signal to select the target of the speaker and determine whether there is an abnormality, thereby minimizing hardware configuration and providing simple data We can provide a system that can only send and receive.
In one embodiment, the present invention includes a cloud server that assigns a unique ID to a speaker, monitors the speaker, and stores reference noise samples including ambient noise information in a database; an access point that allows wireless communication between the cloud server, the amplifier device, and the speaker; A high-sensitivity microphone connected to the amplifier device to detect noise around the speaker and input it to the amplifier device, wherein the amplifier device collects data from at least one sensor device, and noise input by the high-sensitivity microphone is included. It may further include an IoT circuit (e.g., a circuit for connecting to an IOT LORA network) that automatically sets the volume value of the speaker by comparing the value with the reference noise sample.
The present invention includes an ID setting unit for setting a unique ID (Identification) to the individual ID of the speaker, a communication control unit for connecting communication with an audio signal input unit that receives an audio signal, and a speaker control unit equipped with an audio amplifier. There is a (Local Controller); There are multiple speakers, each with a speaker control unit attached; A main controller with an audio signal input unit and an environmental value input device for inputting the ID selection and volume value of the speaker control unit; It is equipped with a wireless unit (communication means) connecting the speaker control unit and the control unit, so that the ID of the speaker control unit to be controlled corresponding to a certain environmental value is selected using the environmental value input device connected to the control unit, and the received ON/OFF signal and When a control command such as a volume value is transmitted through the wireless unit, the speaker control unit of the corresponding ID analyzes the transmitted control command and controls the ON/OFF and volume level of the connected speaker, and each speaker control unit controls the microphone in the speaker control unit. There is a signal input unit and a microphone connected to it, so that the audio output of the speaker is received back into the microphone and analyzed to check whether normal audio output is being made through the speaker.
The present invention includes a storage unit where the control unit stores speaker IDs of a plurality of speaker devices; a transmitter that transmits a control signal and a broadcast signal including at least one speaker ID selected among the speaker IDs and an ON/OFF signal corresponding to each of the selected speaker IDs to the plurality of speaker devices; a receiving unit that receives a response signal from the plurality of speaker devices including ON/OFF states of the speaker devices according to reception of the control signal; A signal amplifier that amplifies the broadcast signal; calculates the degree of amplification of the broadcast signal based on the number of selected speaker IDs and the return signal, and controls the signal amplifier according to the calculated value.
Each of the plurality of speaker devices through the control unit includes: a receiving unit that receives the control signal and the broadcast signal from the speaker control unit; a transmitting unit that transmits the response signal to the speaker control unit; A storage unit that stores a unique speaker ID; and changes the ON/OFF state of the speaker according to the ON/OFF signal only when one of the selected speaker IDs and the stored speaker ID are the same.
The present invention includes an AC/DC power switching power saving power distributor connected to a speaker and an amplifier. AC/DC power transfer with IP address assigned The energy-saving power distributor includes one or more speakers to which a device ID is assigned; An AC/DC power transfer power-saving power distributor that supplies power through SMPS to which AC 220V voltage is normally applied, supplies emergency power DC voltage during power outages, and is assigned an IP address; And from the AC/DC power transfer power-saving power distributor to which the IP address is assigned, on/off control of each speaker and amplifier status (standby power mode, use mode) through a wired or wireless communication network (PoE module or Wi-Fi, LTE 4G/5G). ), or receives and displays sensor detection data and transmits voice data and the speaker's device ID to a power-saving power distributor to switch the amplifier and multiple speakers from standby power mode to use mode to output to the corresponding speaker or to the speaker's device. It includes a user terminal that transmits a remote control command to individually/group/entirely turn power ON/OFF, adjust volume, adjust equalizer, and output an individual alarm sound to a storage unit that stores speaker IDs.
As shown in Figure 3b, the charging unit is a device that supplies power to the speaker 11 and uses a device that is charged through a battery or an external power source.
As shown in FIG. 4, in the relay operation during individual broadcasting by public address speakers, only the speaker switching unit 1 among the plurality of speaker switching units is operated as a selective broadcast.
In other words, the A relay in the speaker transfer unit is inactive and the matching transformer is connected, and the matching transformer is removed from the speaker line where the A relay in the speaker transfer unit (N) is in operation, making broadcasting impossible.
As shown in Figure 5, in the relay operation when charging the public address, when the audio input of the A relay operating amplifier of the voice transfer unit is removed, the sine wave of the B relay operation of the voice transfer unit 60Hz is input to the amplifier input.
Then, the matching transformer is removed from the A relay operation speaker line of each speaker transfer unit, and the charging unit is connected to the B relay operation speaker line of each speaker transfer unit and charging begins.
Therefore, the present invention implements an emergency call function in a universal public address system to enable a two-way call between the place where the speaker is installed and the place where the control monitor unit is installed in an emergency emergency call situation, so that the worker or person in charge can quickly respond and understand the situation. Selective broadcasting, such as individual and group, is possible, suppressing broadcasting in unnecessary areas and monitoring the status of each speaker, so that the success of the broadcast can be monitored. If installed indoors, sensors can be used to detect fire and presence of people. It has a multi-functional effect that allows it to understand and respond to various situations.

1: Charging part
2: Emergency bell
12: Interphone
13, 13-2, 13-3: Speaker transfer unit, transfer unit
15: power unit
20: control unit
21: wireless unit
32: Control monitor unit

Claims (8)

When an emergency bell signal is received from the speaker control unit, the environmental values of the speaker control unit related to the amplifier are stored through control of each part of the speaker. It includes a CPU and memory that perform notification functions and control of each part when an event occurs, and includes a relay drive port and a communication port. A control unit that performs UART (Universal Asynchronous Receiver Transmit) communication with the radio unit and control monitor unit;
It receives the control signal from the control unit, contains a 60Hz sine wave generator and a relay inside, and operates by charging the lower charging unit. When the control signal from the control unit is received, the amplifier input sound source is separated, the internal sine wave generator is activated, and the 60Hz sine wave signal is transmitted to the amplifier. A voice switch that connects to the input and provides the ability to amplify a sine wave signal;
Receives a control signal from the control unit, has an individual ID, receives a control signal from the control unit, removes the speaker line from the amplifier of the speaker control unit, and performs a switching operation to connect the interphone instead, or conversely, removes the interphone line from the amplifier and connects the speaker line. A wireless unit that transmits wirelessly to the control unit and wirelessly receives individual emergency calls and environmental values and transmits them to the control unit;
It communicates with the control unit via UART and includes a touch-type monitor, allowing selection of individual group broadcasts, receiving environmental values of the speaker control unit, displaying individual IDs, and displaying individual IDs of speakers activated by the speaker control unit when an emergency call occurs. a control monitor unit that provides a microphone or speaker for input;
It has an individual ID and when an emergency bell call occurs, it activates the speaker switch unit to execute a control command to connect the speaker or interphone, generates an emergency bell call through the radio unit, and transmits the speaker control unit environment values and broadcast results to the control unit through the radio unit. Or a speaker control unit that receives the control unit control signal through the wireless unit and provides switching and charging operations;
It includes a speaker switching unit that receives a control signal from the speaker control unit, connects the interphone unit, and then performs a switching operation by removing the recovery speaker line from the matching transformer,
When an emergency call occurs at the speaker installation location and the bell is pressed, the control unit at the speaker location connects the interphone to the speaker line, and when an emergency call occurs through the wireless roller, the wireless unit is equipped with an emergency call function that receives the emergency call signal through the LoRa gateway. A public address system.
According to paragraph 1,
The emergency bell includes a switch function for an emergency signal, provides a switch signal to the speaker control unit by wire or wirelessly, and has an emergency call call function that operates when the user at the speaker's individual ID location requires an emergency call. Equipped with public address system.
According to paragraph 1,
The speaker transfer unit provides a relay function and removes or connects the speaker from the speaker line by a control signal from the control unit. It also has the function of removing the speaker line from the speaker and connecting it to an intercom or charging unit and provides a matching transformer between the speaker line and the speaker. A public address system with an emergency call function, which monitors the primary current of the matching transformer of the speaker line, detects the secondary current of the matching transformer, measures the input current and output current during broadcasting, and provides the input current and output current to the control unit.
According to paragraph 1,
The speaker or interphone is connected to the speaker line and plays the role of transmitting or receiving voice at the speaker location. When the emergency bell is pressed, the speaker or interphone receives a signal from the speaker control unit and operates by being connected to the speaker line through the speaker switch unit. Public address system with emergency call function.
According to paragraph 1,
The speaker control unit controls the speaker switching unit by receiving transmission and reception signals from the wireless unit, receives control signals during group individual broadcasting, controls the switching unit, disconnects or connects the speakers, disconnects the speaker when an emergency call occurs, connects the intercom, and controls the switching unit when receiving a charging signal. The charging unit is connected to the speaker line, and during broadcasting, the switching unit detects the speaker line matching, primary current matching, secondary current, compares whether the same type of current is consumed, monitors whether the output is output to the speaker, and transmits whether the broadcast was successful or not through the wireless unit. A public address system with an emergency call function that has a built-in human body monitoring sensor, temperature sensor, and fire detection sensor, and monitors the presence or absence of people and other environments in the interior space and transmits the information through the wireless unit.
According to paragraph 1,
By the control signal from the control unit, the power unit is connected to the speaker line through the speaker transfer unit, rectifies the signal amplified by the amplifier, supplies operating power to each part, and contains a battery inside, which is charged and powers each part with the charging power at the end of charging. A public address system with an emergency call function, characterized in that it supplies.
According to paragraph 1,
The wireless unit uses the IOT LORA network and transmits control signals from each control unit, receives control signals from the speaker control unit, and provides a wireless transmission and reception function to transmit data to the control unit. broadcasting system.
According to paragraph 1,
The control unit receives a signal from the wireless unit and operates the switch unit, connects the interphone, receives a signal from the control monitor unit, transmits a control command to the lower speaker switch unit through the radio unit, or receives environmental values from the lower speaker control unit and transmits them to the control monitor unit. Send and receive data with the speaker control unit,
The switch unit always connects the amplifier and the speaker line, and separates the speaker line from the amplifier by a control signal to connect or return it to the intercom.
The voice switch unit removes the amplifier's voice input by the control signal from the control unit and supplies a signal to enable the amplifier to amplify the signal, supplying power to the lower charging section, and reconnecting the voice signal line when charging is completed.
The control monitor unit provides a monitor and displays the individual ID of each speaker for individual and group broadcasting. It displays the environmental value for each individual ID. When broadcasting, it indicates whether or not the broadcast was successful. When an emergency call occurs, it displays the individual ID of the speaker where the emergency call occurred. A public address system with an emergency call function that has a microphone and speaker for making calls and communicates with the control unit to receive data to be marked or transmit broadcast-related control signals.