CN112415917A - Turnout control system and method for traction of single or multiple point switches - Google Patents
Turnout control system and method for traction of single or multiple point switches Download PDFInfo
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L5/00—Local operating mechanisms for points or track-mounted scotch-blocks; Visible or audible signals; Local operating mechanisms for visible or audible signals
- B61L5/06—Electric devices for operating points or scotch-blocks, e.g. using electromotive driving means
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/048—Monitoring; Safety
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
- G05B19/4183—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM] characterised by data acquisition, e.g. workpiece identification
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- G—PHYSICS
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
- G05B19/41835—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM] characterised by programme execution
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- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
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Abstract
The invention relates to a switch control system and method for single or multiple switch machine traction, the switch control system is respectively connected with main control equipment and switch machine to be dragged, the switch control system includes: the file configuration module is used for providing configuration data required by the control equipment; the turnout control module is used for controlling the switch machine to rotate and acquiring the representation of the switch machine; and the communication module is respectively connected with the main control device, the file configuration module and the turnout control module and is used for distributing configuration data, combining and sending the data of the turnout control module to the host device and sending a command of the host device to the turnout control module. Compared with the prior art, the method has the advantages of reducing hardware expenditure, good system compatibility and expansibility and the like.
Description
Technical Field
The invention relates to a turnout control system and a turnout control method, in particular to a turnout control system and a turnout control method for traction of one or more switch machines.
Background
A switch is a line connection device for a rolling stock to be switched from one track to another, and is one of weak links of a track, and is usually laid in a large number at a station and a marshalling station. With the turnout, the passing capacity of the line can be fully exerted. Even if a single-track railway is paved with turnouts, and a section of fork line with the length larger than that of a train is constructed, the train can be split, and the opening direction of the turnout is specifically controlled by utilizing the rotation of a point switch.
Chinese patent publication No. CN111409668A is searched to disclose a turnout control system, which comprises a power supply control cabinet, a turnout control module, a point switch control module and a point switch; the switch control module comprises a switch relay control circuit, a power control cabinet comprises a safety type gravity relay, the safety type gravity relay is connected to the switch relay control circuit to control the output of the action power supply, and the switch relay control circuit outputs a positioning control signal or an anti-position control signal; the switch relay control circuit and the safe gravity relay realize that the alternating current point switch uses the circuit structure of the existing direct current four-wire system, simplify the circuit structure and avoid the potential safety hazard that the switch shows that the relay does not fall down when the open circuit fault occurs under the condition that a loop exceeds 2.5 km. But the technology is designed with a relay circuit.
In order to realize the application scene that a single point switch/multiple point switches synchronously pull a turnout, complex relay control circuits need to be built, the design and construction of the relay circuits are time-consuming and labor-consuming, and the relay control circuits need to be redesigned according to different scenes, so that the reutilization property is poor. In addition, the technical route cannot meet the current intelligent track control requirement, and a lot of inconvenience exists in maintenance and repair.
Disclosure of Invention
The present invention is directed to overcoming the above-mentioned deficiencies of the prior art and to providing a switch control system and method for single or multiple switch machine trails.
The purpose of the invention can be realized by the following technical scheme:
according to one aspect of the present invention, there is provided a switch control system for single or multiple switch machine traction, the switch control system being in communication connection with a master control device and a switch machine to be dragged, respectively, the switch control system comprising:
the file configuration module is used for providing configuration data required by the control equipment;
the turnout control module is used for controlling the switch machine to rotate and acquiring the representation of the switch machine;
and the communication module is respectively connected with the main control device, the file configuration module and the turnout control module and is used for distributing configuration data, combining and sending the data of the turnout control module to the host device and sending a command of the host device to the turnout control module.
As a preferred technical solution, for the switch control function, the configuration data of the file configuration module includes 1) the mapping relationship between the switch and the switch machine; 2) control parameters for each switch.
As a preferred technical solution, the mapping relationship between the switches and the switches, when a switch is controlled by one switch, includes:
a) directly mapping the command of the host equipment to the turnout control module;
b) the state of the switch control module is directly mapped to a representation that is returned to the host device.
As a preferred technical scheme, the mapping relationship between the switches and the switch machines comprises the following steps of when one switch is pulled by a plurality of switch machines together;
a) a mapping relation table from the host equipment command to the switch machine command;
b) a list of mappings of switch machine representations to switch representations.
As a preferred technical solution, the mapping relationship between the switch and the switch machine includes, for a scene of a multi-action switch:
a) network communication configuration of a first movable turnout and a subsequent multi-movable turnout;
b) a command and a mapping table representing information.
As a preferred technical solution, the control parameters of each switch machine include:
a) starting delay time, wherein the starting delay time is 0 for a scene that one turnout is pulled by one point switch, and the starting delay time is configured according to a starting sequence for a scene that one turnout is pulled by a plurality of point switches together;
b) and starting a timeout time, wherein the starting timeout time is available.
As a preferred technical solution, the specific functions of the communication module are as follows:
for a scene that a switch is dragged by a switch machine, directly mapping a switch control command to a control command of the switch machine, and directly mapping the representation of the switch machine to the representation of the switch;
for a scene that one turnout is jointly pulled by a plurality of point switches, reading a command sent by host equipment, generating a point switch control command according to the mapping relation between the turnout and the point switch in configuration data, and sending the command to each turnout control module;
reading the starting identifier of each point switch, and if the point switch cannot be started after a specified time, sending a cutting command to all the point switches; setting the representation information of the turnout according to the representation information of all the point switches;
for the use scene of the multiple-action turnout, firstly, the operation of a first movable turnout is finished within the overtime time, after the first movable turnout is in place, an action command is sent to a second movable turnout, and after the first movable turnout is finished within the overtime time, the command is continuously sent to the subsequent turnout until all turnouts are in place;
if any turnout is not in place within the overtime time, immediately stopping the turnout and cutting off all outputs;
and setting switch indication information according to all switch indications.
As a preferred technical solution, the switch control module has specific functions including:
(1) obtaining a switch machine control command from the internal bus, and operating the switch machine to operate on the set operation or the reverse operation according to the command; starting in a delayed mode according to the delay time set in the configuration data; when the turnout control module receives a command of cutting off output, the turnout control module directly stops the rotation of the point switch;
(2) if the point switch can not be started within the overtime time, the turnout control module cuts off the power supply of the point switch and sends a sign of abnormal starting to the internal bus;
(3) for the switch machine with normal working state, once the switch machine is started, even if the control command to the switch machine is interrupted or stopped at the moment, the switch machine is continuously driven until the action is finished;
(4) when receiving a driving command in the opposite direction in the process of driving the point switch, the turnout control module controls the point switch to drive in the opposite direction;
(5) if the point switch cannot rotate in place within the overtime time, the point switch control module stops driving the point switch after the overtime;
(6) the representation information of the switch machine is collected and sent to the internal bus.
As a preferred solution, the switch machine, once stopped due to an abnormal situation, is not allowed to restart until being overhauled.
According to another aspect of the present invention, there is provided a method for using the switch control system for single or multiple switch machine traction, comprising the steps of:
(1) initializing a system, performing self-checking, and checking configuration data;
(2) periodic self-checking, if a fault occurs, cutting off the output and reversing to a safety side;
(3) the communication module receives a control command from the main control equipment, judges whether the command is an effective combination, analyzes the control command of the main control equipment according to the configuration data of the configuration file to generate a control command of the point switch if the command is the effective combination, and sends the control command of the point switch to the point switch control module; when the starting time is up, the switch machine driving circuit is switched on, and the switch machine is started to be driven until the switch machine is driven in place; the turnout control module acquires the state of a switch machine, if the turnout control module is not started or does not act in place within overtime, the switch machine circuit is cut off, the communication module sends abnormal driving state, the communication module checks the validity of the driving state and then sends a cut-off command to the other turnout control modules, and the other turnout control modules execute the cut-off command after checking the validity of the command;
(4) the turnout control module continuously collects the representation information and sends the representation information to the communication module, the communication module checks whether all the point switches are positioned, and if so, the turnout general representation is set as a fixed table; if not, checking whether all the switch machines are in the reverse positions, if so, setting the turnout total representation as a reverse table, and otherwise, setting the turnout total representation as a loss representation.
Compared with the prior art, the invention has the following advantages:
1) the invention processes the logic processing part by the control system in a software mode, and the display and drive circuits are all integrated by electronic circuits. Compared with the traditional logic control by a relay, the hardware expense is reduced.
2) The system can intelligently control the switches in various forms such as single-action switches, multi-action switches and the like aiming at the scenes where a single switch machine/multiple switch machines pull the switches and the like, supports the hybrid driving of heterogeneous switch machines, is compatible with the existing 4/6 wire system, 5 wire system and other types of switch machines for hybrid grouping use, and has good compatibility and expansibility;
3) the system can detect the circuit state and the switch machine state in real time and perform periodic self-detection, and is more intelligent and visual.
4) Aiming at different application scenes, circuits do not need to be redesigned and hardware does not need to be changed, only configuration files and external connection circuits need to be modified in a small range, and the like, so that the portability and maintainability of the system are greatly improved.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a flow chart of the operation of the present invention;
FIG. 3 is a flow chart illustrating the processing of information in accordance with the present invention;
FIG. 4 is a schematic structural diagram of a file configuration module according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.
The invention provides a synchronous traction control system for a railway turnout by a single point switch/multiple point switches, which needs to realize the following parts: 1. and operating the turnout to rotate towards the positioning position/the reverse position according to the turnout operation command of the host equipment. For a scenario where only movable point switches are present and are controlled simultaneously by a plurality of switches, the system can control each switch to start in sequence and time-shared, with the start time interval being in a reasonable interval and being adjustable. For switches where there are point and point rails movable, it is achieved that the point and point rails are separately towed by different switch sets, and that the two switch sets may be configured to start off peak by peak or simultaneously. 2. If the turnout can not be started within a certain time, the operation of the turnout is stopped. In a scene where switches are simultaneously controlled by a plurality of switches, if all the switches cannot be started for a certain time, the rotation of all the switches is cut off. In the scene that the turnout is respectively pulled by the switch machine set for pulling the switch rail and the point rail, the cutting-off function needs to be respectively executed, and the mutual influence is avoided. 3. For a normal switch (no-block, no-stick), once the switch is activated, the switch should continue to be actuated until the desired position is reached, even if the control command to the switch is interrupted or stopped at that time. 4. During driving, the switch points can be controlled to move in the opposite direction. 5. If the switch is not able to rotate in place for a certain amount of time (which may be configured, typically 13/30 seconds), the drive to the switch is stopped after a timeout. 6. The switch can not be started again when the switch is stopped due to faults. 7. For multi-action turnouts, the action of the turnout which moves before (the turnout is in place) is required to be completed, and the action of the next-stage turnout is started. 8. The representation information of the turnout is collected and sent to the host equipment. Under the scene that the turnout is simultaneously controlled by a plurality of point switches, the turnout can be considered to be positioned/reversed only when all the point switches are positioned/reversed. For multiple-action switches, only two switches are in the positioning/reversing position, and the multiple-action switches are considered to be in the positioning/reversing position. And the system may provide sub-representative information for each switch machine. 9. During the turnout action time, non-representation information is provided to the host device.
To achieve the above requirements, the system of the present invention is composed of the following parts.
And the file configuration module is used for providing configuration parameters required by the control equipment. For the switch control function, the configuration data includes: (1) mapping relation of turnout and switch machine; (2) control parameters for each switch. The mapping relationship between switches and switches, for a scenario where a switch is controlled by a switch, should include: a) directly mapping the command of the host equipment to the turnout control module, b) directly mapping the state of the turnout control module to a representation replied to the host equipment; for a scene that a switch is jointly pulled by a plurality of switch machines, the method comprises the following steps: a) a mapping table of host device commands to switch machine commands, b) a mapping table of switch machine representations to switch representations; for the scene of the multi-motion turnout, the method comprises the following steps: a) network communication configuration of a first dynamic switch and a subsequent multiple dynamic switch, b) a mapping table of commands and representation information. The control parameters for each switch machine should include: a) the starting delay time is 0 for a scene that one turnout is pulled by one point switch, and the starting delay time is configured according to the starting sequence and can be adjusted within 50-250 milliseconds for a scene that one turnout is pulled by a plurality of point switches together. b) The start-up timeout, which should be compatible, is typically 13 seconds/30 seconds.
And the basic function of the communication module comprises distributing configuration data, sending the data combination of the turnout control module to the host equipment, and sending a command of the host equipment to the turnout control module. The functions to be realized are as follows: for a scenario where a switch is pulled by a switch machine, the switch control commands are directly mapped to the switch machine control commands, and the switch machine representations are directly mapped to the switch representations. For a scene that one turnout is jointly pulled by a plurality of point switches, a command sent by a host device needs to be read, a point switch control command is generated according to a turnout-point switch mapping relation in configuration data, and the command is sent to each turnout control module; reading the starting identifier of each switch, and if the switch cannot be started after a predetermined time (set in configuration data), transmitting a cutting command to all switches; and setting the indication information of the turnout according to the indication information of all the switch machines. For the use scene of the multiple-action turnout, firstly, the operation of the first movable turnout is completed within the overtime time, after the first movable turnout is in place, an action command is sent to the second movable turnout, and after the first movable turnout is completed within the overtime time, the command is continuously sent to the subsequent turnout until all turnouts are in place. If any turnout is not in place within the overtime time, the turnout is immediately stopped and all outputs are cut off. And setting switch indication information according to all switch indications.
And the turnout control module is used for controlling the switch machine to rotate and acquiring the switch machine representation. The functions are as follows: (1) and acquiring a switch machine control command from the internal bus, and operating the switch machine to operate or reverse the switch machine according to the command. And starting in a delayed mode according to the delay time set in the configuration data. When the turnout control module receives a command of cutting off the output, the turnout control module directly stops the rotation of the switch machine. (2) If the switch machine can not be started within the overtime time, the switch control module should cut off the power supply of the switch machine and send a sign of abnormal starting to the internal bus. (3) For a switch machine that is operating normally (no-jam, no-stick), once the switch machine is started, the switch machine may continue to be driven until the action is completed even if the control command to the switch machine is interrupted or stopped at that time. (4) When receiving a driving command in the opposite direction in the process of driving the switch machine, the switch control module controls the switch machine to drive in the opposite direction. (5) If the switch machine can not rotate in place within the overtime time, the turnout control module stops driving the switch machine after the overtime. (6) Once the switch machine stops due to abnormal conditions, the switch machine is not allowed to be restarted until the switch machine is overhauled, and the system is restarted. (7) The representation information of the switch machine is collected and sent to the internal bus, and the non-representation information is provided during driving.
As shown in fig. 2 and 3, the control system is composed of the above three parts. The execution flow is as follows:
(1) system initialization, self-checking and configuration data checking.
(2) And periodically performing self-checking, and if a fault occurs, cutting off the output and reversing to a safety side.
(3) The communication module receives the control command from the main control equipment, judges whether the command is an effective combination, and analyzes the control command of the main control equipment according to the configuration data of the configuration file to generate the control command of the switch machine if the command is the effective combination. And after receiving the command, the turnout control module checks whether the command is a positioning operation command or a reverse operation command, sets timeout time and delay starting time according to configuration data in a configuration file, checks the state of the turnout switch and starts a timer. And after the starting time is up, the switch machine driving circuit is switched on, and the switch machine is started to be driven until the switch machine is driven in place. The turnout control module acquires the state of the turnout switch, if the turnout switch is not started or does not act in place within the overtime, the turnout switch circuit is cut off, the driving state abnormity is sent to the communication module, the communication module checks the validity of the driving state and then sends a cut-off command to the rest turnout control modules, and the rest turnout control modules execute the cut-off command after checking the validity of the command.
(4) The turnout control module continuously collects the indication information and sends the indication information to the communication module, the communication module checks whether all the point switches are positioned, and if the point switches are positioned, the turnout general indication is set as a fixed table. If not, checking whether all the switch machines are in the reverse positions, if so, setting the turnout total representation as a reverse table, and otherwise, setting the turnout total representation as a loss representation.
As shown in figure 1, the turnout control system for traction of a single/multiple switch machines utilizes an electronic circuit to replace a circuit only consisting of relays, and reduces construction difficulty and maintenance cost. The system comprises a file configuration module, configuration data is manufactured by a configuration data manufacturer according to the current turnout control requirement, the configuration data comprises the information of the currently controlled turnout, the turnout is mainly controlled by a plurality of switches, the starting sequence of each switch, the starting delay time, the action overtime time of the switches, the mapping relation of the turnout and the switch, and the like. After the configuration data is written into the control system, the control system analyzes the configuration data, and after receiving a control command sent by the host equipment, the control system generates the control command of each point switch according to the turnout-point switch mapping relation in the configuration data and information such as the starting sequence and the starting delay time of each point switch in the configuration data and sends the control command to the turnout control module of each point switch. And controlling the action condition of the switch machines controlled by the switch control module of each switch machine.
The control system mainly comprises a fuse management unit, a drive logic control unit, a presentation management unit and the like. The fuse management unit is mainly responsible for blowing fuses to cut output and reversing the system to a safe side when the system fails or a switch machine is in an abnormal scene. As shown in fig. 4, the drive logic control unit mainly analyzes a command transmitted from the host device to generate a control command for each switch. The display management means mainly manages the display information of each switch machine, and sets the display information of the switch after the logical processing.
The turnout control module consists of a driving module and an indication information acquisition module, is provided with a periodic self-checking detection module, and can realize the driving of the switch machine including positioning operation and inversion operation and the position state of the switch machine including the positioning state, the inversion state and the non-indication state.
While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
Claims (10)
1. A turnout control system for traction of a single or multiple switch machines, which is in communication connection with a master control device and the switch machines to be towed respectively, is characterized in that the turnout control system comprises:
the file configuration module is used for providing configuration data required by the control equipment;
the turnout control module is used for controlling the switch machine to rotate and acquiring the representation of the switch machine;
and the communication module is respectively connected with the main control device, the file configuration module and the turnout control module and is used for distributing configuration data, combining and sending the data of the turnout control module to the host device and sending a command of the host device to the turnout control module.
2. The switch control system for single or multiple switch machine trailed in claim 1, wherein for the switch control function, the file configuration module configuration data includes 1) mapping of switches to switch machines; 2) control parameters for each switch.
3. The switch control system of claim 2, wherein the mapping of switches to switches for a scenario where a switch is controlled by a switch comprises:
a) directly mapping the command of the host equipment to the turnout control module;
b) the state of the switch control module is directly mapped to a representation that is returned to the host device.
4. The switch control system for single or multiple switch machine traction of claim 2, wherein the mapping relationship between the switches and the switch machines comprises, for a scene where a switch is jointly pulled by multiple switch machines;
a) a mapping relation table from the host equipment command to the switch machine command;
b) a list of mappings of switch machine representations to switch representations.
5. The switch control system for single or multiple switch machine trailed in claim 2, wherein the mapping relationship between the switches and the switch machines comprises, for a multi-action switch scenario:
a) network communication configuration of a first movable turnout and a subsequent multi-movable turnout;
b) a command and a mapping table representing information.
6. The switch control system of claim 2, wherein said control parameters for each switch machine comprise:
a) starting delay time, wherein the starting delay time is 0 for a scene that one turnout is pulled by one point switch, and the starting delay time is configured according to a starting sequence for a scene that one turnout is pulled by a plurality of point switches together;
b) and starting a timeout time, wherein the starting timeout time is available.
7. The switch control system for single or multiple switch machine trailed in claim 1, characterized in that the specific functions of the communication module are as follows:
for a scene that a switch is dragged by a switch machine, directly mapping a switch control command to a control command of the switch machine, and directly mapping the representation of the switch machine to the representation of the switch;
for a scene that one turnout is jointly pulled by a plurality of point switches, reading a command sent by host equipment, generating a point switch control command according to the mapping relation between the turnout and the point switch in configuration data, and sending the command to each turnout control module;
reading the starting identifier of each point switch, and if the point switch cannot be started after a specified time, sending a cutting command to all the point switches; setting the representation information of the turnout according to the representation information of all the point switches;
for the use scene of the multiple-action turnout, firstly, the operation of a first movable turnout is finished within the overtime time, after the first movable turnout is in place, an action command is sent to a second movable turnout, and after the first movable turnout is finished within the overtime time, the command is continuously sent to the subsequent turnout until all turnouts are in place;
if any turnout is not in place within the overtime time, immediately stopping the turnout and cutting off all outputs;
and setting switch indication information according to all switch indications.
8. The switch control system for single or multiple switch machine trails of claim 1, wherein said switch control module includes specific functions including:
(1) obtaining a switch machine control command from the internal bus, and operating the switch machine to operate on the set operation or the reverse operation according to the command; starting in a delayed mode according to the delay time set in the configuration data; when the turnout control module receives a command of cutting off output, the turnout control module directly stops the rotation of the point switch;
(2) if the point switch can not be started within the overtime time, the turnout control module cuts off the power supply of the point switch and sends a sign of abnormal starting to the internal bus;
(3) for the switch machine with normal working state, once the switch machine is started, even if the control command to the switch machine is interrupted or stopped at the moment, the switch machine is continuously driven until the action is finished;
(4) when receiving a driving command in the opposite direction in the process of driving the point switch, the turnout control module controls the point switch to drive in the opposite direction;
(5) if the point switch cannot rotate in place within the overtime time, the point switch control module stops driving the point switch after the overtime;
(6) the representation information of the switch machine is collected and sent to the internal bus.
9. The switch control system for single or multiple switch machine trailed in claim 8, wherein the switch machine is not allowed to restart until re-maintenance once it has been stopped due to abnormal conditions.
10. A method of using the switch control system for single or multiple switch machine trailed in claim 1, characterized by the steps of:
(1) initializing a system, performing self-checking, and checking configuration data;
(2) periodic self-checking, if a fault occurs, cutting off the output and reversing to a safety side;
(3) the communication module receives a control command from the main control equipment, judges whether the command is an effective combination, analyzes the control command of the main control equipment according to the configuration data of the configuration file to generate a control command of the point switch if the command is the effective combination, and sends the control command of the point switch to the point switch control module; when the starting time is up, the switch machine driving circuit is switched on, and the switch machine is started to be driven until the switch machine is driven in place; the turnout control module acquires the state of a switch machine, if the turnout control module is not started or does not act in place within overtime, the switch machine circuit is cut off, the communication module sends abnormal driving state, the communication module checks the validity of the driving state and then sends a cut-off command to the other turnout control modules, and the other turnout control modules execute the cut-off command after checking the validity of the command;
(4) the turnout control module continuously collects the representation information and sends the representation information to the communication module, the communication module checks whether all the point switches are positioned, and if so, the turnout general representation is set as a fixed table; if not, checking whether all the switch machines are in the reverse positions, if so, setting the turnout total representation as a reverse table, and otherwise, setting the turnout total representation as a loss representation.
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CN113401167A (en) * | 2021-06-28 | 2021-09-17 | 卡斯柯信号有限公司 | Turnout action optimization control method, equipment and medium under energy constraint condition |
CN114194247A (en) * | 2021-11-12 | 2022-03-18 | 卡斯柯信号有限公司 | System and method for controlling 46-line turnout at trackside in plateau outdoor environment |
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CN112793621A (en) * | 2021-03-01 | 2021-05-14 | 北京全路通信信号研究设计院集团有限公司 | Computer interlocking turnout multi-machine control system and method |
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CN113401167B (en) * | 2021-06-28 | 2022-07-15 | 卡斯柯信号有限公司 | Turnout action optimization control method, equipment and medium under energy constraint condition |
CN114194247A (en) * | 2021-11-12 | 2022-03-18 | 卡斯柯信号有限公司 | System and method for controlling 46-line turnout at trackside in plateau outdoor environment |
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