KR100607123B1 - Serial communication interface based train course control system - Google Patents

Abstract

The present invention relates to an interface method for improving the safety and reliability of the entire train path control infrastructure by optimizing the interface method of the centralized traffic control (CTC) device and the interlocking device, which are core devices in the field of train path control.

The present invention relates to a train route control system, comprising an interface by serial communication between a central data transmission device (CDTS) and an electronic interlock device, wherein the electronic interlock device is input through a serial data communication port (CDTS). It is a technical feature to include a data transmission means for receiving the control data of the transmission and monitoring data received from the field equipment to the central data transmission system (CDTS) through the serial data communication port, By eliminating the local data transmission device (LDTS) for transmitting and receiving serial data between the CDTS) and the electronic interlocking device from the system configuration, the system can be simplified and the physical failure rate of the device by unnecessary system components can be reduced.

Train Track Control, Train Concentration Control, CTC, CDTS, LDTS

Description

Serial communication interface based train course control system

1 is a block diagram showing a conventional conventional train route control system.

Figure 2 is a block diagram showing a communication connection structure of the train central control device (CTC) and the electro-interlocking device which is a key device for controlling the course of the train in the conventional system.

Figure 3 is a block diagram showing the interface configuration of the present invention serial communication interface type train control system.

The present invention relates to an interface method for improving the safety and reliability of the entire train path control infrastructure by optimizing the interface method of the centralized traffic control (CTC) device and the interlocking device, which are core devices in the field of train path control.

The train route control system consists of a system that centrally controls on-site signal facilities through a central station facility configured for each individual station, and currently has a central control command for each route group such as Gyeongbu Line and Honam Line. Central station is controlled by constructing unit station facilities at each station.

1 is a block diagram showing a train path control system.

The central train control (CTC) device for each unit station facility is a central command facility, which consists of a central data transmission system (CDTS) that monitors the status of signaling devices at individual stations and transmits data for handling train routes. In addition, a regional data transmission device (LDTS) for delivering control data (CTC command) received from the central data transmission system (CDTS) to the electric interlocking device is provided as a unit station facility for each station.

Each station is equipped with an electric interlocking device to control the signaling devices (on-site signaling equipment) of each individual station such as an operator console, a line changer, a signaling device, and an occlusion device as a unit station facility. Send and receive data with the central command facility.

The interlock system that receives the train's position into the track circuit and controls the course of the train through the track changer and the signal is implemented with an analog sequence logic circuit using a signal relay with relatively high reliability.

This existing configuration is called an electro-interlocking device, and a local data transmission device (LDTS) that interfaces with parallel contacts is required to control and monitor the electro-linking device at a central command.

The local data transmission device (LDTS) is a unit station facility, which interfaces with the central data transmission device (CDTS) of the train intensive control (CTC) device through serial communication, and communicates with the interlocking device in parallel by relay contact. .

In order to transfer the command of handling the command of the command to the electric interlocking device, the computer of the command sends data through serial communication to the local data transmission device (LDTS) installed at each station through the central data transmission device (CDTS). The device (LDTS) transmits parallel data through the contact point to the electro-interlocking device.

The data transmitted as described above is inserted into the relay circuit as a relay contact condition in the sequence circuit of the electric interlocking device composed of the relay structure, and the command is executed by the relay logic conversion according to the input data.

The status of on-site signaling equipment changed by the execution of the command is transmitted from the interlocking device to the command train control system (CTC) in the reverse direction.

Figure 2 shows the communication connection structure of the train central control device (CTC) and the electro-interlocking device which is a key device for controlling the course of the train.

As the CTC device and the electric interlock device are developed as separate systems, as shown in FIG. 2, the data transmitted from the train concentration control device to the electric interlock device is the data of the memory? Parallel data D2 is converted to bus data D3.

In addition, the data transmitted from the electric interlocking device to the train concentration control (CTC) device is converted into data in the bus data (D3) ?? parallel data (D2) ?? serial data (D1) ?? memory.

In FIG. 2, serial data D1 is data based on balanced serial communication RS422, parallel data D2 is relay switch data using DC 24V, and bus data D3 is a system bus of VME or ISA. It is a signal.

 Here, due to the operator's more convenient operating environment orientation and the introduction of a communication-based embedded system, the electro-interlocking device is being replaced with an electronic interlock device that is a built-in system with a fault-tolerant structure.

Therefore, when converting the bus data D3 of the electronic interlocking device into serial data, the conversion process to parallel data except for the serial data type for remote data transmission becomes meaningless. In order to transfer the data of the device CDTS, a local data transmission device LDTS for parallel data conversion is unnecessary.

However, even though the electronic interlocking device is digitalized as described above, the interface between the local data transmission device (LDTS) and the electronic interlocking device is implemented as parallel data communication with a contact structure as the electric interlocking device.

Therefore, in such a system, error diffusion to the electronic interlocking device, which is a core device of the entire system, occurs due to an error of a message generated by the LDTS.

In the present invention, in the train path control system as described above, an interlocking device for transmitting and receiving data to and from the field signal facility is configured as an electronic interlocking device, and accordingly, serial communication between the central data transmission device (CDTS) and the electronic interlocking device is performed. By configuring the interface, it simplifies the system by excluding the local data transmission device (LDTS) for transmitting and receiving serial data between the central data transmission device (CDTS) and the electronic interlocking device from the system configuration. This is to reduce the physical failure rate.

The present invention serial communication interface train route control system,

Train track control system that monitors the status of on-site equipment and handles the course of trains in remote centralized train control system (CTC) through an electronic interlocking device that performs data communication with on-site equipment to each station equipment. To

 The central data transmission system (CDTS) and the electronics in the centralized train control system (CTC) are used to monitor the status of signaling devices at individual stations and to transmit and receive data for handling the course of the train using the serial data communication port of the electronic interlocking device. Interlocking devices form a serial communication interface,

The electronic interlock device receives the control data of the central data transmission system (CDTS) input through the serial data communication port and transmits the monitoring data received from the field equipment to the central data transmission system (CDTS) through the serial data communication port. It characterized in that it comprises a data transmission means for.

Referring to the embodiment shown in the accompanying drawings, the present invention having such features are as follows.

3 is an interface configuration of the train concentration control apparatus and the electronic linkage apparatus to which the present invention is applied.

The present invention excludes the conversion of serial data and parallel data, which are roles of the local data transmission device (LDTS), and shows the symmetric serial communication signals of the central data transmission device (CDTS) of the train intensive control (CTC) device as shown in FIG. Similarly, it has a configuration of directly interfacing with the interlocking logic unit embedded system of the electronic interlocking device.

The central data transmission device (CDTS) establishes a serial communication interface through the serial communication port of the electronic interlock device, and the electronic interlock device transmits and receives data with the central data transmission device (CDTS) through the serial communication port.

The train control data of the train transmitted from the train control system (CTC) to the electronic interlocking device is transmitted from the memory data of the computer of the train control system (CTC) to the central data transmission device (CDTS) by serial or Ethernet communication. .

At this time, the transmitted data D11 transmits the data to the symmetrical serial data communication (D12, number 13) along the serial data cable connected to the corresponding station in which the electronic interlocking device is installed.

The career control data arriving at the station is directly connected to the integrated system serial port of the electronic interlocking device, and the symmetric serial data is converted into the memory data D14 or the bus data inside the electronic interlocking device.

On-site signal device status and career handling data transmitted from the electronic interlocking device to the train control system (CTC) are processed in the reverse order of the process transmitted from the above-mentioned train control system (CTC) to the electronic interlocking device.

  The present invention removes the local data transmission device (LDTS) from the system infrastructure, and integrates the two systems (LDTS, electronic interlocking device) and the failure rate due to hardware defects that may occur in the local data transmission device. This improves the reliability of the entire infrastructure of the train path control system by reducing the probability of errors that can occur in software that overlaps or is excluded from the hardware such as device drivers. By simplifying the connection of devices, they are more effective for system implementation and maintenance.

In addition, it improves the safety of the entire infrastructure of the train control system by eliminating the probability of failure of the dangerous side of the electronic interlocking device, which is a vital equipment due to the error of the message generated by the LDTS.

Claims (1)

Train track control system that monitors the status of on-site equipment and handles the course of trains in remote centralized train control system (CTC) through an electronic interlocking device that performs data communication with on-site equipment to each station equipment. To  The central data transmission system (CDTS) and the electronics in the centralized train control system (CTC) are used to monitor the status of signaling devices at individual stations and to transmit and receive data for handling the course of the train using the serial data communication port of the electronic interlocking device. Interlocking devices form a serial communication interface, The electronic interlock device receives the control data of the central data transmission system (CDTS) input through the serial data communication port and transmits the monitoring data received from the field equipment to the central data transmission system (CDTS) through the serial data communication port. Serial communication interface type train route control system comprising a data transmission means for.

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