JP2004175182A - Electronic interlock system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simplify new installation and renewal work of a railway signal instrument by standardizing software of a terminal included in a field control terminal controlling a railway signal field instrument. <P>SOLUTION: This electronic interlock system consists of an interlock logic device (a field instrument facility data group 70, interlock logic operation part 80, a telegram creation part 90)10 creating control commands to a plurality of railway signal field instruments 31ij such as a point, a signal and a contact output, and a plurality of the field control terminals 3n connected to the interlock logic device via a communication circuit 20 having a plurality of control boards 31i carrying out control output to a plurality of the railways signal field instruments and a control operation part 310 controlling the control boards 31i mounted thereon. A control command telegram sent to a plurality of the field control terminal from the interlock logic device includes facility data group relating to a plurality of the railway signal field instruments of control targets, but a plurality of the field control terminals does not include facility data group relating to a plurality of the railway signal field instruments. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic interlocking system for railway signal control, and more particularly to a technology of equipment-distributed electronic interlocking in which a plurality of on-site control terminals control a traffic signal and a switch at one station.
[0002]
[Prior art]
A conventional control method of an electronic interlocking system in which equipment is dispersed will be briefly described below.
The interlocking logic device, which constitutes the electronic interlocking system, stores a database that associates field devices owned by itself with addresses in the telegram of the field device control instruction data in a control instruction message in a format defined uniformly for the system. By referring to this, the control instruction data is set at a predetermined position and transmitted to the communication line.
The on-site control terminal includes, in the control instruction message, an address in which control instruction information of a plurality of on-site devices connected thereto is set, a type of the on-site device targeted by the control instruction of the address, and the on-site device. And a facility data group associated with a mounting position in the site control terminal of the site control terminal. , And outputs DO control output to the field device based on the control instruction information and the mounting position information.
[0003]
[Problems to be solved by the invention]
In the conventional method described above, the storage location of the control instruction information for each local device in the control instruction message sent by the interlocking logic device, the equipment data group in which the type of the local device and the mounting position in the local control terminal are associated with each other. It is necessary to have both the interlocking logic device and the on-site control terminal. That is, it is necessary to create a unique equipment data group for each site control terminal, and if there is an update in the equipment of the site equipment, the equipment data group is used for both the interlocked logic device and the site control terminal. Update work is required.
Therefore, the number of steps required for equipment update work and new equipment installation work increases, and it is difficult to update railway signals, which are generally limited in work time.
[0004]
It is an object of the present invention to provide an electronic interlocking system suitable for standardizing software of a terminal included in a site control terminal for controlling a railway signal field device and simplifying new installation and update work of a railway signal facility. .
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, an interlocking logic device that creates control instructions for a plurality of railway signal field devices such as a switch, a traffic light, and a contact output, and a plurality of railways connected to the interlocking logic device by a communication line, In an electronic interlocking system including a plurality of control boards for performing control output to signal field devices and a plurality of on-site control terminals on which a control operation unit for controlling the control board is mounted, a plurality of on-site control terminals are provided from an interlocking logic device. Includes a group of equipment data relating to a plurality of railway signal field devices to be controlled, and a plurality of field control terminals do not have a group of facility data relating to a plurality of railway signal field devices.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a configuration of an electronic interlocking system according to one embodiment of the present invention.
In FIG. 1, an interlocking logic device 10 includes an on-site equipment data group 70, an interlocking logic operation unit 80, and a message creating unit 90, and is connected to a maximum of n on-site control terminals (31 to 3n) via the LAN 20. Have been. The maximum number n of the field control terminals (31 to 3n) that can be connected to one interlocked logic device 10 is defined uniformly in the system.
Each of the on-site control terminals (31 to 3n) has a maximum of i control boards (311, 312,..., 3ni) for directly outputting to the on-site equipment, and a control operation unit (310) for controlling these control boards. , 320,..., 3n0). The maximum number i of control boards (311, 312,..., 3ni) that can be mounted on one site control terminal (31 to 3n) is defined uniformly in the system, and the type of the field device to be controlled (signal / Each type of control board has a dedicated control board.
The control boards (311, 312, ..., 3ni) are connected to field devices (3111, 3112, ..., 3nij) of a type corresponding to the type of the control board. The maximum number j of field devices that can be connected to one control board is uniformly defined for each field device type (signal / pointer / contact output).
The control operation units (310, 320,..., 3n0) use hardware dip switches to control their own site control terminal numbers and the control board types (1 to i) for each of the mounting positions (1 to i) of the field devices connected thereto. Signal / pointer / contact output / no board).
[0007]
FIG. 2 shows a format of the on-site equipment data group 70 included in the interlocking logical device 10.
In FIG. 2, the traffic light data area 40 has data blocks for a maximum of x traffic lights (401 to 40 x) within the control range of the interlocked logic device 10.
Each data block includes traffic signal type data (41a to 4xa), which is numerical data representing each traffic signal type (for example, 2 traffic lights, 3 traffic lights, terrestrial traffic lights, etc.), and each traffic light (401 to 40x). ) Is connected to field control terminal number data (41b to 4xb), which is numerical data of 1 to n indicating the number of the field control terminal (31 to 3n) connected thereto, and controls each traffic light (401 to 40x). Mounting position data (41c to 4xc), which are numerical data from 1 to i representing the mounting position of the control board in the field control terminals (31 to 3n), and 1 to 1 indicating the connection position of the signal in the control board. It is composed of connection position data (41d to 4xd) which are numerical data up to j.
The maximum number x of traffic signals that can be controlled by the interlocking logic device 10 is uniformly defined in the system, and x is set to a value larger than the number of traffic signals installed in one station. Within the control range of the interlocking logic device 10, a data block corresponding to an unused traffic signal number stores a numerical value (for example, 0) indicating that it is not installed.
[0008]
In FIG. 2, the switch data area 50 has a maximum of y data blocks (501 to 50y) in the control range of the interlocking logic device 10.
Each data block is numerical data representing the type of each of the switches (one-point switch, two-point switch, etc.), the switch type data (51a to 5ya), and each switch. Field control terminal number data (51b to 5yb), which are 1 to n numerical data representing the numbers of the field control terminals (31 to 3n) to which the devices (501 to 50y) are connected, and Mounting position data (51c to 5yc), which are numerical data from 1 to i, representing mounting positions of the control boards for controlling the devices (501 to 50y) in the field control terminals (31 to 3n); It is composed of connection position data (51d to 5yd) which are numerical data from 1 to j indicating the connection position of the switch.
The maximum number y of switches that can be controlled by the interlocking logic device 10 is uniformly defined in the system, and y is set to a value larger than the number of switches installed in one station. Within the control range of the interlocking logic device 10, a data block corresponding to an unused switch number stores a numerical value (for example, 0) indicating that it is not installed.
[0009]
In FIG. 2, the contact output data area 60 has data blocks for a maximum of z contact outputs (601 to 60z) within the control range of the interlocked logic device 10.
Each data block is connected to contact output type data (61a to 6za), which is numerical data representing each contact output type (lever speed lever, train approach warning, etc.), and each contact output (601 to 60z). Field control terminal number data (61b to 6zb), which are 1 to n numerical data representing the numbers of the field control terminals (31 to 3n), and a control board for controlling each contact output (601 to 60y). Mounting position data (61c to 6zc), which are numerical data from 1 to i representing mounting positions in the field control terminals (31 to 3n), and from 1 to j representing connection positions of the contact outputs in the control board. And connection position data (61d to 6zd).
The maximum number z of contact outputs that can be controlled by the interlocking logic device 10 is defined uniformly in the system, and z is set to a value larger than the number of contact outputs installed in one station. Within the control range of the interlocking logic device 10, a data block corresponding to an unused contact output number stores a numerical value (for example, 0) indicating that it is not installed.
[0010]
FIG. 3 shows a format of a control instruction message 200 which is transmitted from the interlocked logic device 10 to the site control terminals (31 to 3n) via the LAN 20 and is defined uniformly in the system.
In FIG. 3, the site control terminal configuration control data area 100 stores system management data for controlling the configuration of each site control terminal (31 to 3n) within the control range of the interlocking logic device 10.
The field control terminal signal control board number area 110 includes numerical data of the number of signal control boards mounted on the field control terminal for each field control terminal (31 to 3n) within the control range of the interlocked logic device 10. Is stored.
In the traffic light control instruction equipment data group area 120, for each traffic light control board, the mounting position of the control board in the on-site control terminal, and the equipment data including the types and control instructions of the plurality of traffic lights connected to the control board, are stored. The traffic light control instruction equipment data group 121, which is arranged and stored in the ascending order of the connection position on the control board, is the ascending order of the site control terminal number where the traffic light control board is mounted, and then the ascending order of the mounting position of the traffic light control board. , Are stored justified.
The size of the traffic light control instruction equipment data group area 120 is defined uniformly throughout the system. In the data area where no equipment is present in the traffic light control instruction equipment data group 121, a numerical value (for example, 0) indicating no equipment is provided. Is stored.
The field control terminal switch control board number area 130 includes, for each of the field control terminals (31 to 3n) within the control range of the interlocked logic device 10, a switch mounted on the field control terminal. Numeric data of the number of control boards is stored.
The switch control instruction equipment data group area 140 includes, for each switch control board, a mounting position of the control board in the field control terminal and information on a plurality of switches connected to the control board. On-site control in which the switch control instruction equipment data group 141 stores equipment data including types and control instructions arranged in ascending order of connection positions on the control board and on which the switch control board is mounted The terminal numbers are stored in the ascending order and then in the ascending order of the mounting position of the switch control board.
The size of the switch control instruction equipment data group area 140 is defined uniformly throughout the system, and in the data area of the switch control instruction equipment data group 141 where no equipment exists, a numerical value indicating no equipment is present. (For example, 0) is stored.
The field number of contact output control boards 150 in the field control terminal includes, for each field control terminal (31 to 3n) within the control range of the interlocking logic device 10, the number of contact output control boards mounted on the field control terminal. Numeric data is stored.
The contact output control instruction facility data group area 160 includes, for each contact output control board, a mounting position of the control board in the field control terminal, and types and control instructions of a plurality of contact outputs connected to the control board. The contact output control instruction equipment data group 161 in which the equipment data is arranged and stored in ascending order of the connection position on the control board, the ascending order of the site control terminal number on which the contact output control board is mounted, and then the contact output control Stored in the ascending order of board mounting position, MSB justified.
The size of the contact output control instruction facility data group area 160 is defined uniformly throughout the system. In the contact output control instruction facility data group 161, the data area where no equipment is present has a numerical value (for example, 0) indicating no equipment. ) Is stored.
The CRC data area 170 stores data check CRC data.
The format of the control instruction message (100 to 170) is defined uniformly throughout the system, and the interlocking logic device 10 and the field control terminals (31 to 3n) determine the configuration of each data area of the control instruction message (100 to 170). It has common data to recognize.
[0011]
Next, the steps of the control method in the present embodiment will be described below with reference to FIG.
First, the interlocking logic device process 700 will be described. The interlocking logic operation unit 80 in the interlocking logic device 10 is installed within the control range of the interlocking logic device based on the route control instruction information received from the upper system not shown and the interlocking chart data table not shown. And the localization / inversion control instruction for the switches (501 to 50y) and the localization / inversion control instruction for the contact outputs (601 to 60z). (Step 710).
Next, the message creation unit 90 in the interlocking logic device 10 uses the field control terminal number data (41b to 4xb) and the mounting position data (41c to 4xc) in the traffic light data area 40 in the field device data group 70. For each site control terminal (31 to 3n) within the control range of its own device, the data of the number of signal control boards mounted on the site control terminal is created, and the number of signal control boards of the site control terminal in the control instruction message 200 is generated. It is stored in the area 110. Similarly, for the switches and contact outputs, the number of control boards for each site control terminal is set in the field control terminal switch control board number area 130 and the field control terminal contact output control board number area 150. It is stored (step 720).
Next, in the traffic light data area 40 in the field device / equipment data group 70, the telegram creating unit 90 determines, among the traffic lights (401 to 40x), the field control terminal number data (41b to 4xb) and the mounting position data (41c to 41x). 4xc), the mounting position data (41c to 4xc), the present control instruction data and the signal type data (41a to 4xa) created in step 710 are combined, and the ascending order of the connection position data (41d to 4xd) is set. Then, a traffic light control instruction facility data group 121 is created by combining the facility data arranged in (1). Next, the equipment data group 121 is arranged in the ascending order of the field control terminal number data (41b to 4xb) and then in the ascending order of the mounting position data (41c to 4xc), and the arranged data is controlled as the traffic light control instruction equipment data group 121. It is stored in the traffic light control instruction equipment data group area 120 in the instruction message 200. Similarly, for the switch and the contact output, the control instruction equipment data groups 141 and 161 are stored in the switch control instruction equipment data group area 140 and the contact output control instruction equipment data group area 160, respectively. (Step 730).
Next, the interlocking logical device 10 sends the control instruction message 200 created in Step 730 to the site control terminals (31 to 3n) via the LAN 20 (Step 740).
[0012]
Next, the site control terminal process 800 will be described.
First, the control calculation units (310 to 3n0) of the site control terminals (31 to 3n) receive the control instruction message 200 transmitted from the LAN 20 in step 740 (step 810).
Next, the on-site control terminals (31 to 3n) use the own control terminal number and the signal control board number data 110 set by the dip switch in the control instruction message 200 received in step 810, and From the head address of the signal control instruction equipment data group 121 for the local control terminal in the data group area 120, the signal control instruction equipment data groups 121 for the number of the signal control boards mounted on the local control terminal are extracted. Similarly, for the switches and the contact outputs, the switch control instruction equipment data group 141 for the number of the switch control boards mounted on the local control terminal and the contacts for the number of the contact output control boards The output control instruction facility data group 161 is extracted. (Step 820).
Next, the control operation unit (310-3n0) transmits the traffic light control instruction equipment data group 121 extracted in step 820 to the traffic light type, the control instruction, and the traffic light stored in the control operation unit (310-3n0). By referring to a common data table defined uniformly in the system that associates the DO output state with respect to the DO, the DO output state for the traffic signal is expanded, and the expanded DO output state is stored in the signal control instruction equipment data group 121. Is assigned to the mounting position indicated by the control board mounting position data, thereby determining the DO output state for the traffic light connected to the control board. Similarly, the DO output state is determined for the switch and the contact output (step 830).
Next, the control boards (311, 312,..., 3ni) mounted on the site control terminals (31 to 3n) determine the respective field devices (3111, 3112,...) According to the DO output state for the site devices determined in step 830. .. 3nij) is output.
[0013]
【The invention's effect】
As described above, by using the control method according to the present invention, it is possible to greatly standardize the software of the field control terminal. That is, in the prior art, each site control terminal has a facility data group in which the address of the site device instruction data in the control instruction message, the site device type, and the mounting position in the site control terminal are associated. On the other hand, in the present invention, in the control instruction message, the number of control boards for each field control terminal, the control board mounting position in the field control terminal, the field device type, and the equipment data in which the control instruction is combined Since the group is included, it is not necessary to have a unique facility data group for each site control terminal, and data relating to the control instruction message format can be shared by all site device control terminals.
Therefore, it is only necessary to update the on-site equipment data group in the interlocked logical device and the setting of the dip switch that recognizes the type classification for each mounting position of the changed on-site equipment control terminal in the equipment update work. Yes, the number of steps can be significantly reduced.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an electronic interlocking system according to an embodiment of the present invention. FIG. 2 is a configuration diagram of a field device facility data group of the present invention. FIG. 3 is a configuration diagram of a control instruction message of the present invention. Block diagram showing a field device control process of the present invention.
DESCRIPTION OF SYMBOLS 10 ... Interlocking logic device, 20 ... LAN, 31-3n ... Field control terminal, 311-3ni ... Control board, 3111-31ij ... Field device, 40 ... Signal data area, 50 ... Pointer data area, 60 ... Contact Output data area, 70: On-site equipment equipment data group, 80: Interlocked logic operation section, 90: Telegram creation section, 100: On-site control terminal configuration control data area, 110: On-site control terminal signal number data area, 120: Traffic light equipment data Group area, 121: traffic light control instruction equipment data group, 130: on-site control terminal switch device data area, 140: switch control instruction equipment data group area, 141: switch control instruction equipment data group, 150: field control terminal contact output number data area, 160: contact output control instruction equipment data group area, 141: contact output control instruction equipment data group, 200: control示電Bun, 700 ... interlocking logic device process, 800 ... field control terminal process

Claims (2)

An interlocking logic device that creates control instructions for a plurality of railway signal field devices such as switches, traffic lights, and contact outputs, and is connected to the interlocking logic device via a communication line to control the plurality of railway signal field devices. In an electronic interlocking system including a plurality of control boards performing output, and a plurality of site control terminals mounted with a control operation unit that controls the control board, from the interlocking logic device to the plurality of site control terminals The control instruction message transmitted includes a facility data group related to the plurality of railway signal field devices to be controlled, and the plurality of field control terminals do not have a facility data group related to the plurality of railway signal field devices. And electronic interlocking system. 2. The device data group according to claim 1, wherein the equipment data group includes each traffic light, each switch, and each contact output type data within the control range of the interlocking logic device, each traffic light, and each traffic light. Field control terminal number data indicating the number of the field control terminal to which each contact output is connected, and the control board for controlling each traffic light, each switch, and each contact output An electronic interlocking system comprising: mounting position data indicating a mounting position in a local control terminal of the same, and connection position data indicating a connection position of the signal, the switch, and the contact output in the control board. .

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