KR910006310B1 - Emergency call system - Google Patents

Abstract

The system including the electronic private branch exchnage provides the accurate and convenient tone signals. The set up distance of the system expanded and the state display function is improved. The system includes a holding tone sender (41) for sending the holding tone to the hand set when the exchange (500) holds the loop, an emergency phoen interface unit (210) for transmitting emergency sigal by inputting the signal transmitted from the emergency phone, an exchange interface unit (200) for sending the emergency signal to the exchnage (300), an emergency phonestate I/O interface unit (230), for transmitting the I/O signal discriminating siganl by sdiscriminating the I/O signal by a programmed control method, and for checking the state of the emergency phone using the test signal, and a display for displaying the I/O signal discriminating signal and the state of the emergency phone.

Description

Emergency call system

1 is a block diagram of an emergency telephone system of the present invention.

2 is a block diagram of an emergency telephone of the present invention.

3 is a block diagram of an emergency telephone matching unit of the present invention.

Figure 4 is a block diagram of the input / output and emergency call status display matching unit of the present invention.

5 is a block diagram of an emergency telephone status display unit of the present invention.

6 is a block diagram of an exchange matching unit of the present invention.

* Explanation of symbols for main parts of the drawings

21, 31: amplifying unit 41: hold sound transmitting circuit

100: emergency call 200: matching unit

210: emergency telephone matching unit 220: switchboard matching unit

230: I / O and emergency phone status display matching unit

300: switch 400: repeater

500: relay unit 510: peripheral device

520: emergency call status display unit

The present invention relates to an emergency telephone system, and more particularly, to an emergency telephone system capable of circuit switching including an electronic switch.

Typically, an emergency telephone system is an emergency communication system that is installed in a place where communication means are not provided so that the situation can be delivered accurately and quickly in the event of an emergency. Can be performed. More specifically, when installed on the highway, various functions can be obtained by quickly and accurately receiving all traffic information such as breakdowns, accidents, traffic conditions, and road conditions of highway vehicles, minimizing valuable human and material damages and enhancing the functions of the highway. Can be provided. In the conventional emergency telephone system, the installation section of the emergency telephone is limited, and each beep is not clearly distinguished, and the emergency telephone status due to a failure cannot be checked more quickly and accurately, and for recording the emergency contents. It was impossible to accurately record the contents of the call because the facility was to operate the recorder drive key after answering, and there was a problem such that another emergency call was put on hold by the switch operation.

Therefore, an object of the present invention is to solve such a problem and can provide a more accurate and convenient beeping sound, it is possible to extend the emergency telephone installation section, improved emergency call, such as providing a clear and accurate indication of the status of the failure, etc. To provide a system.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an emergency call system according to the present invention, the emergency call system includes an emergency telephone 100 for transmitting a situation to a user when an emergency occurs, a call and signal generated from the emergency telephone, and an exchange 300 and Matching unit 200 for transmitting to the relay unit 500, a switch 300 for performing circuit switching to the relay unit 500 by receiving a signal from the matching unit 200, and matching with the switch 300 It is composed of a relay unit 500 that can receive a signal from the unit 200 to receive the situation.

The matching unit 200 distributes the signal from the emergency telephone 100 to the switch matching unit 220 and the input / output and emergency telephone status display matching unit 230, and the emergency telephone matching unit 210 and the emergency telephone. In response to the signal from the matching unit 210, the signal is distributed to the peripheral device 510 and the emergency telephone state display unit 520 in the relay unit 500, and by the failure status check signal, according to the test command output and the situation according to the situation An input / output and emergency telephone state display matching unit 230 for storing a signal and an exchange matching unit 200 for providing a call path of a subscriber line by the emergency telephone matching unit signal and the exchange signal.

The relay unit 500 is connected to the switch 300 and receives the signal from the relay station 400 and the input / output and status display matching unit 230, and receives the status of the call signal, the emergency telephone and the line breakdown Receiving a determination signal from the peripheral device 510 for outputting the status and the input / output and emergency call status display matching unit 230, the first display device, the second display device, and the call status, fault status, distance, etc. of the emergency phone are displayed. And an emergency telephone state display unit 520 which can be displayed using a third display element.

As an embodiment, the emergency call system configured as described above is described in detail with reference to the block diagrams of FIGS. 2, 3, 4, 5, and 6 as follows.

2 is an internal block diagram of an emergency telephone 100 which is used by a user to quickly and accurately report an emergency situation on a highway. When an emergency occurs, when the user lifts the handset 90, the magnetic switch connected with the call button 14 recovers and notifies the central controller 10 of the use state. Then, the central control unit 10 sends out a unique number of the user through the call path and the various sound control unit 40 to inform the matching device of the emergency telephone system of the signal to use. After that, the various sound control unit 40 oscillates the dial tone transmitting circuit 42, and the amplified tone is amplified by the handset 30 through the low frequency removing unit 45 and then enters the handset 90. After the user hears the dial tone, the user presses the call button 14 to report it to the central controller 10. The central controller 10 causes the call path and various sound controllers 40 to operate the unique number switch 13. In addition, the central control unit 10 sends data to the unique sound transmitting unit 11 to generate a unique number and amplifies the transmitting unit 20, and then transmits the unique number through the communication channel control circuit 44 and the transmitting unit 50. Will be sent.

The unique number transmitted from the emergency telephone 100 is amplified by the amplifying unit 212b through the receiving unit 213 in the emergency telephone matching unit of FIG. 3, and then the frequency is read by the receiving sound reading unit 211a. 211). The central control unit 211 received the report is transmitted to the central control unit 231 through the data transmission and reception unit 211b of FIG. 4 through the data transmission and reception unit 211e. The central control unit 231 inputs the data to the data converter 233 converting the parallel data into serial data for data transmission, and converts the serial data into parallel data again to report to the central control unit 521 in FIG. The converter 522 is passed through.

The central control unit 521 receiving the unique number data inputs the data to the data buffer 524a, and designates the address to be sent and sends it to the address buffer 524a. Then, the lamp control unit 526 and the lamp control unit 526 and Data is output to the call, response, and hold lamp 257a, and a signal indicating that the corresponding unique number is called is indicated by the green light emitting diode 257a. At this time, the green light emitting diode is a signal blinking 120 times per minute.

The central control unit 211 of the emergency telephone matching unit 210 buffers the data in the signal reproducing unit 211c to drive the call tone duplex oscillation circuit 43 in the emergency telephone 100 and then transmits the signal in the transmission sound generator 211b. After oscillating the frequency and amplified by the amplifier 212a, the transmitter 212 transmits the signal to the emergency telephone. At the same time, the central control unit 211 sends a branch to the M line through the signal regeneration unit 215 and the control signal transmission unit 215b to the electronic exchange matching unit 220 side. When the ring tone permission signal is transmitted to the receiver 30 through the receiver 80 and the communication path controller 44, the signal is reported to the central controller 10 after confirming whether the frequency reading unit 13 is data to generate a ring tone. Done. The central control unit 10 designates a call path and various sound control units 40 for transmitting the ring tone, and by this control, the ring tone transmitting circuit 43 oscillates at 480 Hz and passes through the low frequency removing unit 45 to receive the ringing unit 30. It is heard.

The 'M' liner sent from the emergency telephone matching unit 210 is received as the 'E' line of FIG. 6 and is called to the relay station 400 through the lead buffer 226c. When relay station 400 responds, exchange 300 reads the subscriber called by reader 227 and drives the data through buffer 225d to drive dial pulse generator 228d and data storage 228a. Control 229a. When the relay contact of the 'M' line is operated to inform the response of the relay station, the branch is transmitted to the 'E' line of the emergency telephone matching unit connected to the 'M' line of FIG. 5 and the central control unit 211 through the control signal receiver 214a. ).

The central control unit 211 of the emergency telephone matching unit 210 reports this data via the data transmission / reception unit 236b to report the data to the central control unit 231 of FIG. 4 through the data transmission / reception unit 211e.

The central control unit 231 collectively proceeds with all data for various control such as the change of LED state and opening of a communication path. First, the control unit converts and transmits the serial data through the data converter 223 to control the light emitting diode. The received data of the data converter 522 of FIG. 5 is input to the central controller 521. In order to change the state of the light emitting diode 257a, the central controller 521 loads data to the data buffer 524a and the assigned address buffer 524b to report the lamp control and selection unit 525. Will change.

That is, the light emitting diode pulses 120 times for 1 minute when called, but is continuously turned on in response to the relay band. After changing the state of the light emitting diode, the central control unit 231 transmits the following data to connect to the emergency telephone matching unit 210 for a call. Data for connection via a call is a data transmitter / receiver 236, various control signals for data transmission / reception are a signal transmitter 236c, and a card selector 236 is used to designate a card to be used among 12 emergency telephone matching card. Each is assigned.

In FIG. 3, the card selection and control signal is input to the signal receiver 211d and the data is input to the data transmitter / receiver 211e and transmitted to the central controller 211. On the other hand, the central control unit 211 inputs frequency data to the signal reproducing unit 211c so that the emergency telephone is a response, the frequency is oscillated by the transmission sound generator 211B, amplified by the amplifying unit 212A and then the transmitting unit 212 Transmits the frequency through). The frequency input to the receiving unit 80 of the emergency telephone passes through the control unit 44 and the receiver 90 and then enters the frequency reading unit 13 for frequency reading. When the frequency of the response is read, the data is reported to the central control unit 10. The central control unit 10 controls the communication path and various sound control units 40 and the communication channel control unit to open the communication path. You lose.

At this time, the built-in recorder (not shown) is automatically started by a call signal at the relay station 400. When the call is over and the handset (not shown) is dropped, recording will be interrupted by the magnet switch recovery. If you don't want to record the call, you can simply turn it off by pressing the record-break switch (not shown).

When the intermediary 400 is called with the subscriber 44 when the intermediary 400 is in a call, the intermediary operator suspends the operation.

In the relay station 400, the holding signal is automatically sent down the data through the buffer 226a to the switch matching unit 300 for the first call. The input data is converted into an analog signal in the digital through the analog digital converter 225 is amplified by the amplifier 224 and then sent to the emergency telephone matching unit 210 through the transmission and reception balance circuit 223. . The frequency introduced into the receiver control circuit 216 is reported to the central controller 231 of FIG. 4 in order to summarize the state and data of the emergency call system. The signal is first a pending frequency in the reception tone reading unit 211a. After confirming that, the central control unit 211 and the data transmission and reception unit 211e are introduced into the data transmission and reception unit 236 of FIG. 4, and the central control unit 231 controls each part for lamp control and holding sound transmission. Will send the data. The ramp control is converted into serial data via the data converter 233 for data transmission, and is entered into the data converter 522 of FIG. 5 and reported to the central controller 521.

The central control unit 521 introduces the ramp control and selection unit 525 through the data buffer 524a and the address buffer 524b in order to achieve 60 pulses per minute while the lamp state is continuously increased. The data is again divided into a call, response, hold and lamp control unit 526 to indicate the hold state as a light emitting diode. Meanwhile, in FIG. 4, the central controller 231 again sends data to the matching unit through the data transmitter / receiver 236b, the card selector 236a, and the signal transmitter 236c, and then the signal receiver 211d and the data transmitter / receiver. Data is entered into 211e and reported to the central controller 211.

The central control unit 211 transmits the frequency oscillated by the transmission sound generator 211b to the emergency telephone 10 through the amplifying unit 212a and the transmission unit 212 in order to generate a pending sound, After the pending frequency reading is performed by the frequency reading unit 13 through the receiving unit 80, the communication line control circuit 44, and the receiver 30, the central control unit 10 reports the result.

The central control unit 10 having reported the holding frequency causes the call path and various sound control units 40 to drive the holding tone transmitting circuit 41 for interrupting the ringing tone and transmitting the melody. The melody is heard by the call path and the various sound control unit 40 via the receiver and the receiver 90, and the ring tone is interrupted.

When the answer is re-answered at the relay station, the switch matching unit 220 reads the subscriber called by the reader 227 and stores the data through the buffer 226d to the dial pulse generator 228b and the data storage unit 228a. It drives to control the relay 229a. The relay contact of the 'M' line is operated to inform the repeater's re-response, and similarly, the ground is transmitted to the 'E' line of the emergency telephone matching unit 210 connected to the 'M' line of FIG. 6 to control the signal receiver 214d. Report to the central control unit 211 through.

The central control unit 211 of the emergency telephone matching unit 210 reports the data through the data transmission / reception unit 236b to report this data to the central control unit 231 of FIG. 4 through the data transmission / reception unit 211e. do. The central controller 231 converts and transmits serial data through the data converter 233 to control the light emitting diodes. The central controller 231 receives the data of the data converter 522 of FIG. 5 and reports the data to the central controller 521. do.

When the central controller 521 reports data to the data buffer 524a and the assigned address to the address buffer 524b to change the state of the light emitting diode 527a, the central controller 521 reports the light to the lamp control and selection unit 525. The state of the diode changes. In other words, the state of the light emitting diode is changed during the holding. That is, when the light-emitting diode is 60 pulses for 1 minute when it is on hold, it is continuously turned on when the repeater 400 re-responses. The data for a call is the same as the root in the answer.

Recovery after the call is made by subscriber line recovery and repeater recovery. The route for each circuit is as follows.

When the emergency phone user recovers first after the call, the call button 14 of the magnetic switch attached to the handset 90 is operated to report to the central control unit 10, and the central control unit 10 Through the intrinsic sound transmitter 11, the frequency transmission indicating the end of the call is transmitted to the emergency telephone matching unit (FIG. 3) through the transmitter 20, the communication path control circuit 44, and the transmitter 50. .

The recovery on the exchange side cuts off the 'M' line through the signal regeneration unit 215 and the control signal transmission unit 215b. The received frequency is read by the receiving sound reading unit 211a via the receiving unit 213 and the amplifying unit 212b to read the received sound, and the reading result is reported to the central control unit 211 again and the data transmitting and receiving unit ( 211e) is passed to the overall central control unit 231. When the transmission process is received by the data transmitter / receiver 236b of FIG. 4, the transmission process is directly input to the central controller 231, and the LED is controlled and the call path is cut. The LED control is transmitted through the data converter 233, which sends data to the data converter 522 of FIG. 5 to recognize the central controller 521 that controls the lamp state. The data is input to the data buffer 524a, the address buffer 524b, and the ramp control and selection unit 525. The input data is extinguished by the lamp control unit 527a.

When the relay stage 400 is restored, the switch matching unit controls the relay 229a to block the ground of the 'M' line. The 'E' line of the emergency telephone matcher 210 connected to the 'M' line of the switch matcher 220 receives the ground block signal from the control signal receiver 214d and reports the signal to the central controller 211. In operation 211, the data is sent to the lamp control data converter 522 via the data converter 233 through the data converter 233 through the data transmitter / receiver 236b of FIG. The received central controller 521 blinks the green light emitting diode through the data buffer 524a, the address buffer 524b, and the lamp control and selector 525.

Meanwhile, the central control unit 211 on the emergency telephone matching unit 210 generates a transmission frequency to notify the emergency telephone 100 that the relay station 400 has recovered and transmits it through the transmission unit 212 to receive the received signal. The emergency telephone 100 reads the frequency and informs the result of the result to the central control unit 10. The central control unit controls the call path and various sound control units 40 to send out the busy sound. At this time, the outgoing talk sound can be easily distinguished because it is 480Hz, which is the same frequency as the ringing sound, or because the time for interception is different. The interruption time is 2 seconds and 1 second in case of ring tone, and 0.5 seconds and 0.5 seconds in case of ring tone. The above description is a function description for each block when using an emergency telephone.

'처럼 표시하게 된다. 상기 내용은 약 10초가 지난 후 램프 및 거리표시부가 자동 점멸된다.The following describes how to perform lamp operation and alarm test. When serial data is introduced into the data converter 233 of FIG. 4 which can directly exchange data with a terminal (not shown), the data converter converts the data into parallel data for reporting to the central controller 231. The central control unit analyzes this data and then turns on the green and red light emitting diodes 527a and 527b through the lamp control and selection unit 525, and assigns a address to the memory 523b side to select the unit 528 and the distance. In the display numeric display section 529,

'Will be displayed. After about 10 seconds, the lamp and the distance display are automatically flashed.

The function of judging the abnormality of emergency telephone terminal by terminal is as follows. In FIG. 4, the data inputted to the data converter 233 is introduced into the central control unit 231 for command analysis. After analyzing the data, the cable number corresponding to the unique number of the emergency telephone is calculated and the card of the emergency telephone matching unit is selected. When the signal is transmitted to the signal receiver 211d and the data transmitter / receiver 211e of the designated emergency telephone matching unit (FIG. 3) through the data transmitter 236b and the signal transmitter 236c, the central controller 211 makes an emergency call. Transmitting sound is generated for the test of the telephone and reaches the emergency telephone 100 through the amplifying unit 212b and the transmitting unit 212. Among the six emergency telephones, when their unique number and test command pass through the receiver 80 and the frequency readout 13, the central controller 10 sets the emergency status of the emergency telephone to the frequency generated by the unique sound transmitter 11. Will be sent.

The details of the fault status can be reported: the handset transmission status, the handset neglect status (if the call button is not pressed for 30 seconds after lifting the handset), and the emergency telephone self-diagnosis failure (transmission / reception) Incorrect sensitivity of the weapon, various sound generating circuit defects (outgoing sound, ringing tone)), and after receiving the received sound through the receiving unit 213 of the emergency telephone matching unit (FIG. 3), and inputting it to the central control unit 211, data transmission and reception are performed. The receiving unit 211e is notified to the overall central control unit 231. In order to display the received contents on the printer and the terminal screen, data is arranged and serial transmission is performed through the data converter 233. The red diode of the emergency phone status display unit 520 is operated by the central control circuit 521 which has received the fault signal, which blinks 120 times per minute in case of a line break and 60 times per minute in case of a line short circuit. As described above, when an abnormality occurs inside the terminal, that is, the emergency telephone, the state continues to grow.

In the central control unit 231 in FIG. 4, a separate program memory element 234a and various situation memory elements 234b are used to provide a central control unit for the situation and control of all emergency telephones. Parts not described in the drawings are common circuit operation units, and thus descriptions thereof are omitted.

As described above, the emergency call system of the present invention is a system of a control program for accumulating programs using a microprocessor to minimize the number of parts of the card by applying a high hardware and software technology to ensure high reliability and economy. It is comprised so that wiring process may be mounted in the cabinet. In addition, it performs a test function by self-diagnosis program, and has abundant maintenance functions such as checking the abnormality and condition of emergency phone and emergency phone line automatically and manually and outputting the result to terminal and printer. It is extremely simple to operate and manage, and a battery (not shown) that maintains system operation related data even in the event of a power failure is installed in the memory circuit so that the data in the memory is not destroyed even in the event of power failure. The emergency telephone system acts as a bridge between the emergency telephone and the switchboard system, and is to receive and process various situations occurring in the emergency telephone by the reception board and the relay station. The emergency telephone line can be connected and operated in parallel with 6 emergency telephones per line (up to 12 lines) and can be extended up to 12 lines. Each emergency telephone has a unique number. And great benefits, such as allowing individual calls and pagers to communicate with each other.

Claims (6)

A plurality of telephones 100 for transmitting a situation when an emergency occurs, including a handset 90, a matching unit 200 for transmitting control and voice signals from the emergency telephone 100 to the switch 300, and Emergency from the emergency telephone 100 by inputting the control signal and the voice signal from the matching unit 200 to constitute a communication path, and by configuring the communication path of the exchange 300. In an emergency telephone system comprising a relay loan 500 applied to receive the status information, the emergency call 100 when the call is held by the relay loan 500, call holding from the matching unit 200 A holding sound transmitting circuit 41 for inputting a signal and transmitting a holding sound made of a melody sound to the handset 90, wherein the matching unit 200 a) receives a signal from the emergency telephone 100; To the appropriate preset signal type Emergency telephone registration unit 210 and the power; b) a switch matching unit 200 for inputting a signal from the emergency telephone matching unit 210 to the switch 300 and transmitting the signal; c) During a call, the signal from the emergency telephone matching unit 100 is input, the input / output signal is judged by the programmed control means 231, and the input / output signal determination signal is output. Outputs a test command to the emergency telephone 100, inputs a status signal corresponding to the test command from the emergency telephone 100, determines the emergency telephone 100 status by preset program control, and determines the status And an I / O and emergency telephone state display matching unit 230 for outputting a signal, wherein the relay unit 500 includes: d) the I / O signal determination signal from the I / O and emergency telephone state display matching unit 230; A peripheral device 510 for inputting an emergency telephone state determination signal and outputting the result in text form; e) an emergency telephone state display unit 520 for inputting the input / output signal determination signal and the emergency telephone state determination signal from the input / output and emergency telephone state display matching unit 230 and displaying them visually; Emergency telephone system. 2. The emergency telephone apparatus (100) according to claim 1, characterized in that the emergency telephone (100) and the emergency telephone matching unit (210) each comprise a transmitting and receiving unit (50, 80, 212, 213) having an amplifying means to extend the distance therebetween. Emergency telephone system. 3. The emergency telephone state display unit 520 includes first, second, and third display elements 527a, 527b, and 529 for displaying the input / output signal determination signal and the emergency telephone state determination signal information. The first display element 527a includes a green light emitting diode, and a signal generator displays a signal generation state at a blink cycle by the input / output signal determination signal, and the second display element 527b includes a red light emitting diode. When the emergency telephone state determination signal indicates a failure of the emergency telephone 100, the fault is displayed in a blinking cycle, and the third display element 529 includes a digital display element, and the emergency telephone having a call path ( Emergency telephone system, characterized in that for displaying the stored separation distance of 100). 4. The emergency telephone according to claim 3, wherein the emergency telephone (100) comprises a unique address switch (12) for preset coding of the individual calling and calling signals in a format for sparking individual calls and calls. system. The system of claim 4, wherein the relay station 400 is automatically operated in response to the signal for initiating a fire with the emergency telephone 100, automatically stopped in response to a call termination signal, and manually by an operation stop switch. Emergency call system comprising a recorder means that can be stopped. The emergency telephone system according to claim 5, wherein the matching unit (200) includes a plurality of modules configured to accommodate a predetermined number of emergency telephones (100) to form one channel.

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