JP2007528314A - Automatic train protection stop device for railway control using data communication (ATPSFORCONTROLLINGTRAINUSINGDATACOMMUNICATION) - Google Patents

Abstract

The present invention relates to an automatic train protection stop (ATPS) device. The ATPS of the present invention is provided with both the functions of an automatic train protection (ATP) and an automatic train stop (ATS) by adding a K-Balise, on the ground, which is capable of transmitting ground information using a small air-gap data communication, and a ground information memory pack on a train. The present invention includes an on-board equipment including a main device, an on-board antenna, a speed detector connected to a shaft of wheel, an operation switch, a train controller, and a communication module; and a ground equipment including an ATS beacon connected to a track occupancy detection device, a K-Balise using data communication, and a program part for inputting ground information data to the K-Balise. According to the present invention, it is possible to implement the high-speed data communication and to secure the security and reliability by operating in an available distance in electric source free scheme. Also, it has advantages of self-testing and operation recoding and maintaining functions and the improvement of the stability by protecting the no reaction and malfunctioning.

Description

  The present invention relates to an automatic train protection stop device (ATPS; automatic train protection stop device, hereinafter referred to as “ATPS”) for railway control using data communication. Specifically, K-Balise which transmits ground information using the narrow air data communication system (Small Air-gap Data Communication) is provided on the ground, and an automatic train protection device (ATP) is added by adding a ground information memory pack on the vehicle. : Automatic Train Protection (hereinafter referred to as “ATP”) and an automatic train stop device (ATS: Automatic Train Stop; hereinafter referred to as “ATS”).

  Here, K-Balise is a part of ATP currently used, and is a technique obtained by improving Eurovalise used in Europe, and is referred to as “K-Balise”.

  Here, K-Balise is a concept in which a ground unit, a tag, a card, or a terminal is integrated, but in the present invention, it is commonly referred to as “K-Balise”.

  Generally, a ground information transmission device for train automatic control is referred to as “Balise”. Baris is a device that transmits ground information such as ground driving conditions, ground element distance, ground element position, and target speed between the train and the ground using data communication.

  In the conventional railway section, there are various problems such as frequent traffic jams, safety accidents due to increase in track capacity and speed increase. Therefore, there is a need to ensure safe operation by shortening train operation time, providing operation information, and auxiliary functions. In order to increase the speed of existing railway lines, it is necessary to develop an automatic train protection stop device that can be operated up to 200 km / h.

  In particular, in order to guarantee reliability, it is necessary to introduce a communication method capable of controlling a target distance (distance-to-go) by providing ground information and communicating in a close space.

  In general, existing communication methods that occupy space use the characteristics of electron wave spatial transmission, which is advantageous for long-distance transmission, but the reliability and security are not guaranteed. There is.

  A communication method applied to recent cards and the like that enables data communication in a narrow (proximity) space based on inductive coupling is used. However, such a communication method significantly reduces the communication speed. In a high-speed moving body such as a railway, this method is difficult to use in practice.

  In particular, Korea has a disadvantage that the communication speed is very low in the frequency band used by ATS, which is the main type of railway signal system. As an example, the communication speed is limited to a maximum of 8 Kps at a frequency of 150 Khz or less.

  On the other hand, communication used as a method for obtaining information for deciphering the absolute position in signal control of railways must be high speed, and high reliability and security are required.

  Narrow space data communication generally occupies almost one-to-one restrictive data communication that requires a high degree of safety and reliability as compared to long-distance wide-area communication using free-space radio waves.

  Narrow space communication used for RF-ID (high frequency recognition) and the like is composed of a main device (reader) that supplies energy and collects data, and a varistor (Balise) that transmits the data held by receiving energy and carriers. .

  Such a conventional narrow space communication has a disadvantage in that the communication speed and distance are determined based on the frequency used, and the communication speed is very low particularly in the low frequency region (125 Khz).

  A transponder or pulse or tag applied to an automatic train protection device (ATP) for controlling a train on a railway requires high reliability and security. However, the existing ATS frequency (60 Khz to 150 Khz) is not required. However, it was not possible to realize its performance in communication speed, reliability and security.

  Further, since the communication speed is also limited in the RF-ID, it is not used in an application field that requires a large amount of data. Therefore, such a conventional technique has a problem that it is difficult to be used for a ballast or the like that requires high reliability and security.

  The present invention, which has been devised to solve the problems of the prior art, is a function of ATP and ATS by adding K-Balise that transmits ground information on the ground using a narrow space data communication system and a ground information memory pack on the vehicle. An object of the present invention is to provide an ATPS that can also be used for both. In particular, it has an on-board driving information provision and driving assistance function, a system self-diagnosis function before departure and a storage and retention function for operation records, and ATPS with speed control for each track section according to the ATS frequency. The purpose is to provide.

  Another object of the present invention is to provide an ATPS capable of high-speed communication for each frequency band and ensuring high security and reliability.

  Furthermore, an object of the present invention is to provide an ATPS that improves the utilization rate of tracks and improves the safety and accuracy of train control by improving the efficiency of target distance control based on ground information.

  In order to achieve the above object, the present invention provides K-Balise for transmitting ground information using the data communication method on the ground, and adds a ground information memory pack on the vehicle to combine the functions of ATP and ATS. It is related to ATPS. In particular, it can be said to be an information type ATS in which data communication is added to the ATS frequency response concept for the purpose of providing a speed limit and a distance-to-go.

  Further, the present invention is characterized in that it has a function of adding on-vehicle driving information and a driving assistance function, self-diagnosis of the system before departure, and storing and holding operation records.

  The main technical configuration is the main device composed of a number of circuits that implement the ATS function and the ATP function, the on-board antenna integrated with the on-board coil and transmitter, and connected to the wheel shaft. Rotating speed detector, driving information display that provides speed information, ground information and driving information to the driver, operation switch to select the driving mode, vehicle controller to control the train brake, all the vehicle current status An on-board device composed of a communication module that transmits ground information and on-vehicle information to the integrated control system and receives radio commands from now on; an ATS ground unit connected to the track occupation detection device, and a data communication system on the ground It includes a ground device comprising a K-Balise for transmitting ground information and a separate programmer for inputting data to the K-Balise.

  According to the present invention, it is possible to realize ATPS that combines the functions of ATP and ATS using a data communication method. The ATPS of the present invention has on-board driving information provision and driving assistance functions, has a system self-diagnosis function before departure and a function to store and maintain operation records, and efficiently performs speed control for each track section according to the ATS frequency. Can be done.

Since the ATPS of the present invention adopts a data communication system based on a non-power supply system, it is possible to perform high-speed communication for each frequency band and ensure high security and reliability.
Moreover, the utilization rate of a track | line can be improved by improving the efficiency which controls the target distance by ground information, and a multi-angle vehicle position can be obtained via a ground element and K-Balise, a speed detector or a GPS receiver. Since it is a system to check, the safety and accuracy of train control can also be improved.

  In particular, if a frequency to be used is selected based on the amount of information, a large amount of data can be transmitted, and there is an advantage that safety can be improved by preventing inaction and malfunction.

  Hereinafter, the present invention will be described in detail with reference to the drawings.

  FIG. 1 shows an ATPS device using data communication according to the present invention. As shown in FIG. 1, the ATPS of the present invention is a device that satisfies the ATS function and the ATP function, and includes an on-board device (1) and a ground device (10).

  The on-board device (1) is a main device (2), an on-board antenna (3), a speed detector (4), a driving information display (5), an operation switch (6), a vehicle controller (7), a communication module. (8).

  The ground device (10) is composed of an ATS ground element (11) and a K-Balise (12) connected to the orbit occupation detection device, and includes a programmer (13) for inputting data to the K-Balise (12). It is a configuration.

  The main device (2) of the on-board device is a device for speed control and automatic stop of the vehicle, and is composed of a large number of electronic circuits satisfying the ATS function and the ATP function. Is as follows.

  The speed interpreter (21) interprets the output of the speed detector at the actual speed and always provides speed information.

  The response frequency discriminator (22) has a function of discriminating the resonance frequency generated by the response of the ATS ground unit (11) and the on-board antenna (3), and always provides the response frequency and the discriminated display signal information. To do.

  When the ground K-Balise (12) and the on-board antenna (3) are close to each other, the target distance controller (23) receives information on the corresponding section (display signal information, track information) on the vehicle and It receives position information, travel distance information, etc., calculates the target distance and target speed, and the safe operation speed of the train, and always provides them to the system.

  The operation controller (24) summarizes the operations necessary for operation and always provides information on the operation to the system. The operation mode selection, wheel diameter setting and communication with an external device are connected, and the speed calculation function of the speed interpreter (21) is monitored.

  The output controller (25) outputs a contact signal for limiting the vehicle overspeed based on the speed information, ATS display information, and ATP speed limit that are always present in the system.

The power converter (26) converts the power source of the vehicle to the power source of the main device.
The GPS receiver (27) provides position information of the vehicle by GPS (Global Positioning System).

  The information recording device (28) is a USB card or flash memory card composed of a flash memory means, a roller roller for controlling data input / output, and a USB connection means. Information read / write is also used, information can be exchanged at any time, and the ease of information exchange is provided. Such an information recording device (28) converts the fixed information and variable information on the ground for each section into data and records it, and always provides it to the system.

  Here, among the ground information, the fixed information is data indicating the position of the ground element, the track condition including the geographical condition such as the curve section and the slope section, and the like, and is automatically recognized and corrected at the time of train operation. It is. Among the ground information, variable information is limited information that is changed from time to time, that is, controlled information such as track construction or construction movement information that is timed in connection with falling rocks, inundation, and other accidents. This is data that is input immediately before the train leaves.

  The interface card (29) receives international or intercontinental ground signals (orbit circuit signals), converts them into information, and provides them to the system at all times, enabling information exchange of such orbit circuit signals. Thus, the signaling for the track circuit allows other international or intercontinental train controls.

  Further, the on-board antenna (3) of the on-board device (1) is formed by combining and integrating the on-board coil and the oscillator, and the frequency and voltage according to the resonance frequency of the ground unit (11). Output the mutation signal. The on-board antenna (3) forms a data communication network by proximity to the K-Balise (12), and the ground of the railway track section coded by the programmer (13) from the K-Balise (12). Receive information and provide it to the system.

  The speed detector (4) has two devices as a double system such as a rotary speed detector or a Doppler speed measuring device connected to the wheel shaft.

  The driving information display (5) has a digital or analog instruction function, visually provides speed information, ground information and necessary driving information to the driver, and includes a speed indicator inside. . Further, the driving information display (5) uses a GPS receiver (27) and an information recording device (28), etc., to output the speed information and ground information for the corresponding section by voice and provide the driver with a voice output alarm device. including. That is, the sound output alarm device confirms the current position of the vehicle by GPS and then backs up the ground information (fixed information and variable information) for the corresponding section to output a sound signal. For example, speed information such as “Current section is a section of 150 km / h or less” and ground information “Current section is a section where construction is in progress” can be output by voice. It is intended to be able to operate the train safely by providing alertness to the train.

The operation switch (6) provides a necessary operation function when selecting an operation mode.
The vehicle controller (7) is a device that controls a train braking engine, and is a bimetallic contact output device that is constantly monitored.

  The communication module (8) sends all ground information and on-board information for the current status of the vehicle to an integrated control system (central monitoring device) that controls the vehicle in an integrated manner, and receives radio commands from the integrated control system to control the train To be. In this case, information exchange between the communication module and the integrated control system can be transmitted and received through wide-area data communication using free space, and if it is a command to be transmitted suddenly, it can be directly transmitted to the vehicle via the communication module. Try to be able to communicate. Here, on-vehicle information is data indicating vehicle information such as braking characteristics and driving characteristics for a currently operating vehicle, and is a train information system (TIS) or a train control monitoring system (TCMS; Train Control). The information is interfaced from the monitoring system, but may be provided by being recorded in an information recording device or a target distance controller in the on-board device. Such on-board information can be used as vehicle inspection information during train operation.

  On the other hand, the ATS ground unit (11) of the ground device generates a frequency by inductive coupling to generate speed control information determined in the track section, and confirms the current position of the vehicle such as whether there are obstacles before and after the vehicle. And provide ground information according to it.

  The ground device K-Balise (12) is an information transmission device that transmits ground information like the ATS ground unit (11), and a narrow space data communication network is configured if the on-board antenna (3) is in close proximity. Then, the information encoded and stored by the programmer is read and modulated, and this modulation signal is transmitted to the main device of the on-board device. At this time, K-Balise (12) provides information for changing the vehicle speed designation corresponding to the track section, and freely controls the speed limit in each track section in consideration of the braking characteristics and driving characteristics of the vehicle. Provide information that can be. It also provides vehicle current position information for safe and accurate control of trains.

  The lower part of FIG. 1 shows the data transmission relationship of K-Balise. The programmer (13) is composed of a notebook personal computer and a data transmission device, and this device generates and records data of the K-Balise ground unit. K-Balise (12) is a non-powered transponder that uses the oscillation output of the vehicle top as an energy source and transmits the data recorded by the programmer to the vehicle. The ATS ground unit (11) holds the ATS (automatic train stop) function as described above. Communication can be performed between the on-board antenna (3) and the ATS ground unit (11) or between the on-board antenna (3) and the K-Balise (12).

On the other hand, the following four methods are conceivable for realizing ATPS.
First, a method for calculating ground information and distance as data by data transmission of K-Balise,
Second, a method for detecting ground information, driving speed and distance using information stored in a vehicle ground memory card or memory pack,
Third, the method of calculating ground information and distance according to the signal display in the closed section,
Fourth, there is a method for calculating the driving speed and the distance using the ground information stored in the memory pack by providing position information using GPS.

  It is an object of the present invention to improve the ATS function by using a narrow space data communication method improved from the RF-ID communication method and to control the target distance as a combined device for controlling the target distance. It provides ATPS with added communication.

  An information acquisition method, information content, and performance for ATPS having such a purpose will be described as follows.

  Obtaining the necessary information on a specific location on the ground on a train that runs at high speed requires a high degree of reliability and safety. Inductive coupling type data communication is mainly used for communication in a system that is perfectly protected from ambient noise (interference) because a method using spatial radio waves is not easy. For example, there are European ballis, Japanese transponder type, or commonly used RF-ID, but these methods are fixed carrier formats, and the main device (reader) that reads information is for carriers. A method is used in which a signal of a frequency is transmitted, the terminal receives the signal, secures power, and modulates the received signal by a method of changing the load by the back-scattering method. At this time, since such a method has a remarkably low modulation rate, it is difficult to obtain a high communication speed.

  On the other hand, the data communication method used in the present invention is a carrier according to a resonance circuit configured between the main device (reader) and the terminal, that is, between the on-board antenna and K-Balise. After the frequency (always oscillating condition) is determined, K-Balise is such that it implements synchronous high-speed communication in which power is secured with a carrier and data is transmitted at regular intervals.

  Accordingly, in order to secure two functions of ATS and ATP, a data communication network can be implemented in a frequency band used by the ATS ground unit, and an ATP data transmission function can be secured. By selecting the frequency to be used depending on the amount of data, it is possible to transmit a large amount of data, to ensure the safety that is operated only within an effective distance, and to provide ground information by a power-free system.

  That is, according to the present invention, an ATS antenna and an ATP K-Balise are provided on the ground by providing an on-board antenna in which the ATS onboard and the transmitter are integrated, and the ATS and ATP functions are simultaneously satisfied. can do.

  On the other hand, the essential information that must be transmitted from the ground to the vehicle is as follows.

  ID or Marker indicating that it is a valid ground child, the maximum speed allowed by the physical environment of the section, the section allowable speed determined by the preceding train or operation schedule, the distance to the allowable section (ground child) and data This is information for checking frame errors.

  The information must be composed of one data frame and transmitted within the time when the on-board antenna of the train passes through the ground element.

  Since information must be compressed in order to transmit information within the effective communication time, minimized effective data is created using the most generalized method of tabulating data. The compressed valid information and error confirmation information are composed of one frame and are transmitted continuously and repeatedly.

  FIG. 2 is a view showing an embodiment for explaining the concept of the narrow space data communication system of the present invention. As shown in FIG. 2, the on-board antenna (main device reader) (40) has an output of the power amplifier (42) on the primary side of the primary and secondary coils (L1, L2) that are coupled to each other. And the capacitance (C1) are coupled in series to generate the maximum output at the resonance frequency, and the secondary side is connected to the input of the first amplifier (41) and can always oscillate, and the data transmitted from the K-Balise is transmitted. It can comprise a demodulator (44) for decoding.

  K-Balise (50) forms a parallel resonant circuit of L3 and C3 so as to resonate at a frequency close to the oscillation frequency of the on-board antenna (40), and modulates so that ground information can be transmitted. Device (51), micro control unit (52), clock generator (53), and storage device (54), self-diagnosis of operation status (self-test) for K-Balise system and diagnosis for maintaining operation records It can consist of a device (55).

  Here, it is desirable that the modulator (51) is connected to the parallel resonant circuit (L3, C3) together with the modulation capacitor (Crr) using a high-speed FET (field effect transistor) at the time of modulation. The micro-control unit (52) outputs the encoded data stored in the storage device (54) to the modulator (51) at regular intervals of the clock. The storage device (54) stores ground information data encoded through the programmer (13).

  A method for realizing data communication with such a configuration will be described. When a signal is applied to the coil (L2) of the mutual inductance (M21), the signal is amplified through the first amplifier (41) and constantly oscillates. Thus, the amplified signal is output to the power amplifier (42) and the second amplifier (43). Here, the power amplifier (42) operates the series resonance circuit (L1, C1) to output the resonance frequency, and the second amplifier (43) outputs the series resonance frequency.

  At this time, when the on-board antenna (40) comes close to the K-Balise (50), a frequency signal resonated with the constant oscillation frequency of the on-board antenna (40) is sent to the K-Balise. The electric power of the voltage dropped from is obtained and stored. Therefore, since no power supply method is used in data communication, reliability can be ensured.

  When power is stored in the K-Balise (50), the clock generator (53) generates a reference clock based on the transmitted frequency signal, and the micro control unit (52) uses the reference clock and power to generate the reference clock. Invoked ground information data coded by the storage device (54) at fixed intervals of the clock via a programmed control that has been activated and already stored (one bit every three clock cycles, for example) Output to (51). At this time, the modulator (51) modulates the data received from the micro control unit (52), and sends the modulated data to the vehicle antenna (40) side. The modulation method used here selects and uses one of a frequency modulation method (FSK; Frequency Shift Keying), an amplitude modulation method (ASK; Amplitude Shift Keying), or a pulse modulation method (PSK; Pulse Shift Keying). To do.

  According to the above method, when a frequency to be used is selected according to the amount of information, a large amount of data can be transmitted, and security that is operated only within an effective distance can be ensured.

  When data is sent from the K-Balise (50) to the on-board antenna (40), the modulated signal is demodulated (decoded) by the demodulator (44) after passing through the waveform shaping circuit. Is used for train control.

  The data communication in the above-described process maintains a completely integrated synchronization between the on-board antenna (40) and the K-Balise (50), so that accurate transmission of data can be ensured. .

  Furthermore, the diagnostic device (55) of K-Balise (50) diagnoses the performance of the system of K-Balise (50) by itself, and plays a role of storing and maintaining operation records.

  FIG. 3 is a drawing for explaining the target distance controller (23), which is a component of the main device (2) of the present invention, in more detail. As shown in FIG. 3, the target distance controller (23) includes a microprocessor (23a), a ground unit information DB (23b), and a composite unit (23c). Here, the microprocessor (23a) receives various information from the speed interpreter (21), the response frequency discriminator (22), the GPS receiver (27), the ground element information DB (23b), the decoder (23c), and the like. Thus, target distance information, target speed information, and speed limit information are calculated. At this time, the microprocessor (23a) receives the travel distance information from the speed interpreter (21), the current signal information from the response frequency discriminator (22), the standard position information from the GPS receiver (27), and the like. The position information is received from the information DB (23b), and the line information is received from the decoder (23c) that decodes the response frequency determined by the response frequency discriminator (22) and is processed. Here, the ground child information DB (23b) is data indicating ground child conditions for vehicle position determination and ground signal (frequency signal).

  Here, although the standard position information is only shown by the GPS receiver, the standard position is set by the combination of the position information of the ground unit, K-Balise, and speed detector that can confirm the current position of the vehicle. It is most desirable to do so, and it is desirable to combine information of two or more devices among the above-mentioned ground element, K-Balise, speed detector, and GPS receiver. This is intended to improve the accuracy and safety of train operation in consideration of equipment failure and error occurrence conditions.

  FIG. 4 is a diagram showing the concept of the control system of K-Balise. As shown in FIG. 4, the K-Balise is embedded on the ground at regular intervals, and constitutes a sub-control system (61) for controlling a large number of K-Balise together. Consists of many. Further, an integrated control system (62) configured to integrate and control a large number of sub-control systems (61) is configured. Such a system is a sequential control system based on the sequence control of the vehicle. After the command of the integrated control system (62) is transmitted to the serve control system (61), it is connected to the antenna on the vehicle via K-Balise. This is a system for transmitting information to an on-board device by narrow space data communication. There is a difference between the communication module as described above and the wireless control system based on wide area data communication of the integrated control system.

  FIG. 5 is a comparative curve showing operation control for the existing ATS and the ATPS of the present invention. It can be seen that the ATS operation control curve is controlled stepwise, but the ATPS operation control curve is parabolic and naturally controlled. The ATS is used for railways and operates in five signal formats. The five ground elements are linked to each other with the track section provided with one ground element as a unit, and train operation is performed for each track section according to the frequency. Limit the maximum speed. At this time, ATS is a method of controlling the speed below the speed already specified for each orbital section according to the frequency according to the signal of the ground unit. Therefore, regardless of the braking characteristics and driving characteristics of the train and other ground information, the speed is controlled at a constant speed or less for each track section. Said ATS shows the present 5 signal system, and shows the case where the operation speed of a train is decelerated within the section speed limit.

The ATPS of the present invention calculates a target distance (distance-to-go) to the ATS, recognizes and detects it, and automatically stops the train. In particular, ATPS can increase track capacity as a target distance control based on ground information, and can freely adjust the speed of each track section according to the frequency in consideration of on-board information such as braking characteristics and driving characteristics of the train together with ground information. By doing so, the operation time can be shortened. Therefore, train operation can be controlled and stopped naturally as shown in FIG.
(Example)
The ATPS of the present invention aims to improve the speed of existing lines and eliminate traffic congestion. ATPS can be used for the normal 3-5 current section and ATS section, and can be adapted to the branch line and the main line, thus improving safety. In addition, the operation time can be shortened by adjusting the closed section and adjusting the speed. ATPS can operate high-speed trains and can ensure safety and reliability through accurate speed control.

  The ATPS of the present invention is very economical because an existing line can be used as it is. Since ATPS has a 12 ms performance at a train speed of 200 km / h when the K-Balise size is 60 cm × 30 cm, the on-board antenna is designed / manufactured based on such values. It is desirable. The effective communication distance is determined based on the size and relative angle of each of the antenna on the vehicle and the K-Balise, but it is desirable that the communication is normally within 1 m.

  As the modulation method, any one of a frequency modulation method (FSK), an amplitude modulation method (ASK), and a pulse modulation method (PSK) is used.

  In this case, assuming that the constant oscillation frequency (carrier frequency) that constantly oscillates is in the range of 50 Khz to 1 Mhz, the data modulation appears as frequency modulation and amplitude modulation, and the communication speed is a maximum of 50 Kpbs as a speed of about 1/3 of the carrier frequency. The performance of. This indicates that the communication speed can be adjusted by adjusting the oscillation range of the constant oscillation frequency.

  Therefore, the ATPS of the present invention does not change the existing line and can obtain an efficient driving control curve to which Eurovaris is applied using K-Balise, and the existing line can be obtained through the combination of K-Balise and the on-board antenna. There is an advantage that the ATS and ATP functions can be combined without changing the ATS ground section.

  It is obvious to those skilled in the art that the present invention is not limited to the embodiments and numerical values described above, and all design changes within the technical scope equivalent to the scope of claims It is considered to be within the scope of the present invention.

It is drawing which showed the structure of the ATPS apparatus of this invention. It is drawing which showed the concept of the narrow space data communication system. It is drawing for demonstrating the target distance controller in the main apparatus of this invention. It is drawing which showed the concept of the control system of K-Balise. It is a comparison curve of the operation control of ATS and ATPS.

Explanation of symbols

1: Onboard device 2: ATPS main device 3, 40: Onboard antenna 4: Speed detector 5: Driving information display 6: Operation switch 7: Vehicle controller 8: Communication module 10: Ground device 11: ATS ground unit 12, 50: K-Balise
13: Programmer 21: Speed interpreter 22: Response frequency discriminator 23: Target distance controller 23a: Microprocessor 23b: Ground element information DB
23c: Decoder 23: Operation controller 25: Output controller 26: Power converter 27: GPS receiver 28: Information recording device 29: Interface card 41: First amplifier 42: Power amplifier 43: Second amplifier 44: Demodulation Decoder
51: Modulator
52: Micro control unit 53: Clock generator 54: Storage device 55: Diagnostic device 61: Serve control system 62: Integrated control system

Claims (14)

In automatic train protection stop device for railway control,
A main device composed of a large number of circuits that implement the ATS function and the ATP function, an on-board antenna that combines and integrates an on-board coil and an oscillator, a rotational speed detector connected to the wheel shaft, Driving information display to provide speed information, ground information and driving information to the driver, operation switch for selecting the driving mode, vehicle controller to control the train brake, all ground information on the current situation of the vehicle and on-board An on-board device comprising a communication module for transmitting information to the integrated control system and receiving radio commands from now on;
It includes an ATS ground unit connected to the orbital occupancy detection device, a K-Balise that transmits ground information by narrow space data communication, and a ground unit composed of a programmer that inputs ground information data to the K-Balise. Automatic train protection stop device for railway control using data communication. The main unit is a speed interpreter that always interprets the output of the speed detector at the actual speed and provides speed information;
A response frequency discriminator having a function of discriminating the resonance frequency generated by the response of the ATS ground element and the on-board antenna, and always providing the response frequency and the discriminated signal information;
When the K-Balise on the ground and the antenna on the vehicle are close to each other, information on the corresponding section (present signal information, track information) is received on the vehicle and vehicle position information and movement distance information are received to obtain the target distance and target A target distance controller that calculates and always provides the speed and safe operating speed of the train;
An operation controller that summarizes the operations necessary for driving, constantly provides information on the operation, connects the operation mode selection, wheel diameter setting and communication with external devices, and monitors the speed calculation function of the speed interpreter ;
An output controller that outputs a contact signal for limiting the acceleration of the vehicle based on the speed information, the ATS display information, and the ATP speed limit;
2. The automatic train protection stop device for railway control using data communication according to claim 1, comprising a power converter that converts a power source of a vehicle into a power source of a main device.   3. The automatic train protection stop device for railway control using data communication according to claim 2, wherein the main device includes a GPS receiver that provides vehicle position information by GPS.   3. The automatic train protection stop for railway control using data communication according to claim 2, wherein the main device includes an information recording device that converts fixed information and variable information on the ground according to the corresponding section into data and provides the information. apparatus.   The main unit receives an international or intercontinental ground signal (track circuit signal), converts it into information, and provides it at all times, and the signal system for the track circuit allows other international or intercontinental train control. The automatic train protection stop device for railway control using data communication according to claim 2, comprising a card. A target distance controller of the main unit receives a variety of ground information for the train and calculates target distance information, target speed information and speed limit information;
A ground information DB having ground data in a database;
3. The automatic train protection stop device for railway control using data communication according to claim 2, comprising a decoder for decoding the response frequency discriminated by the response frequency discriminator.   The on-board antenna combines and integrates the on-board coil and the oscillator, outputs a frequency and voltage variation signal according to the resonance frequency of the ground unit, and if close to K-Balise, the data communication network The automatic train protection stop device for railway control using data communication according to claim 1, wherein the ground information of the track section is transmitted.   2. The K-Balise, when close to a vehicle antenna, modulates information stored in a data communication network and transmits it to a main device on the vehicle. Automatic train protection stop device for railway control using data communication.   The on-board antenna has a maximum output at the resonance frequency by connecting the output of the power amplifier and the capacity (C1) in series on the primary side of the primary and secondary coils (L1, L2) that are coupled to each other. And the secondary side is connected to the input of the first amplifier to enable continuous oscillation, and is constituted by a demodulator that decodes data transmitted from K-Balise. An automatic train protection stop device for railway control using the data communication according to Item 1.   K-Balise forms a parallel resonance circuit of L3 and C3 so as to resonate at a frequency close to the oscillation frequency of the on-board antenna, and can transmit ground information. Modulator, micro control unit, clock generator And a storage device, comprising a self-diagnosis (self-test) of an operating state for the K-Balise system and a diagnostic device for storing / holding operation records. Automatic train protection stop device for railway control.   2. The driving information indicator includes a voice output alarm device that outputs a speed information and ground information for a corresponding section to a driver by using a GPS receiver and an information recording device. Automatic train protection stop device for railway control using the described data communication.   2. The automatic train protection stop device for railway control using data communication according to claim 1, wherein the communication module transmits and receives information to and from the integrated control system via wide area data communication.   5. The automatic railway control using data communication according to claim 4, wherein the information recording device is a USB card or a flash memory card that also serves as a read / write of fixed information and variable information on the ground according to the corresponding section. Train protection stop device.   The fixed information of the ground information recorded in the information recording device is data including line conditions such as the position of the ground element fixed on the ground and the geographical situation, and the variable information of the ground information is limited 14. The automatic train protection stop device for railway control using data communication according to claim 4 or 13, wherein the data includes controlled information such as changed track construction and construction movement information.

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