WO2022062525A1 - 一种平交道口安全防护方法及系统 - Google Patents
一种平交道口安全防护方法及系统 Download PDFInfo
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- WO2022062525A1 WO2022062525A1 PCT/CN2021/102904 CN2021102904W WO2022062525A1 WO 2022062525 A1 WO2022062525 A1 WO 2022062525A1 CN 2021102904 W CN2021102904 W CN 2021102904W WO 2022062525 A1 WO2022062525 A1 WO 2022062525A1
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- Prior art keywords
- level crossing
- train
- area
- speed limit
- speed
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- 230000004224 protection Effects 0.000 title claims abstract description 143
- 238000000034 method Methods 0.000 title claims abstract description 26
- 230000009286 beneficial effect Effects 0.000 abstract 1
- 238000013459 approach Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000005674 electromagnetic induction Effects 0.000 description 1
- 230000003993 interaction Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L29/00—Safety means for rail/road crossing traffic
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L29/00—Safety means for rail/road crossing traffic
- B61L29/08—Operation of gates; Combined operation of gates and signals
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L15/00—Indicators provided on the vehicle or train for signalling purposes
- B61L15/0062—On-board target speed calculation or supervision
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L27/00—Central railway traffic control systems; Trackside control; Communication systems specially adapted therefor
- B61L27/20—Trackside control of safe travel of vehicle or train, e.g. braking curve calculation
- B61L2027/202—Trackside control of safe travel of vehicle or train, e.g. braking curve calculation using European Train Control System [ETCS]
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L29/00—Safety means for rail/road crossing traffic
- B61L29/08—Operation of gates; Combined operation of gates and signals
- B61L29/18—Operation by approaching rail vehicle or train
- B61L29/22—Operation by approaching rail vehicle or train electrically
- B61L29/226—Operation by approaching rail vehicle or train electrically using track-circuits, closed or short-circuited by train or using isolated rail-sections
Definitions
- the invention belongs to the field of rail transit, and in particular relates to a level crossing safety protection method and system.
- the safety protection is carried out by the staff. Before the train passes the level crossing, the staff will close the level crossing. After the train passes the level crossing, the staff will reopen the level crossing. Manned level crossings are inefficient and take up a lot of human resources.
- the present invention proposes a level crossing safety protection method, comprising:
- the protection state of the level crossing determines the protection state of the level crossing, where the protection state includes a protected state or an unprotected state
- the level crossing information when the protection state is an unprotected state, the level crossing information includes a stop sign and a level crossing speed limit;
- the protection state is the unprotected state
- stop sign and the speed limit at the level crossing stop first and then pass the level crossing or pass through the level crossing without stopping.
- stop sign is parking, and according to the speed limit at the level crossing, parking first and then passing the level crossing includes:
- controlling the train to stop in the parking area includes:
- controlling the train to pass through the level crossing area at a speed not exceeding the speed limit of the level crossing includes:
- the front end of the train After the front end of the train stops in the parking area, the front end of the train is taken as the starting point of the speed limit area of the level crossing, the end point of the level crossing area is taken as the end point of the speed limit area of the level crossing, and the speed limit of the level crossing is included in the maximum speed limit curve to control The train passes through the level crossing speed limit area.
- the stop sign is not to stop, and according to the speed limit at the level crossing, the non-stop passing through the level crossing includes:
- controlling the train to reduce the specified speed to the level crossing speed limit before the starting point of the level crossing area includes:
- controlling the train to pass through the level crossing area at a speed not exceeding the speed limit of the level crossing includes:
- the level crossing information also includes:
- the level crossing number, the level crossing protection status, the level crossing area information, and the parking area information before the level crossing are the level crossing number, the level crossing protection status, the level crossing area information, and the parking area information before the level crossing.
- the speed of the train is controlled according to the line data provided by the ground equipment, and the train passes through the level crossing safely.
- obtaining level crossing information includes:
- the on-board equipment continuously receives level crossing information and updates the previously received level crossing information
- the speed limit of the level crossing is stopped into the most limited speed curve, and the train is allowed to run at a higher speed.
- the ground equipment sends the level crossing information that the level crossing is in an unprotected state to the vehicle-mounted equipment.
- the present invention also provides a level crossing safety protection system, comprising:
- the command sending module is used to send the closing command to the level crossing protection system
- a state judging module configured to determine the protection state of the level crossing according to the execution of the closing command, and the protection state includes a protected state or an unprotected state;
- an information acquisition module configured to acquire level crossing information, when the protection state is an unprotected state, the level crossing information includes a stop sign and a level crossing speed limit;
- the train control module is configured to, when the protection state is the unprotected state, limit the speed at the level crossing according to the stop sign, stop first and then pass the level crossing or pass through the level crossing without stopping.
- stop sign is parking, and according to the speed limit at the level crossing, parking first and then passing the level crossing includes:
- controlling the train to stop in the parking area includes:
- controlling the train to pass through the level crossing area at a speed not exceeding the speed limit of the level crossing includes:
- the front end of the train After the front end of the train stops in the parking area, the front end of the train is taken as the starting point of the speed limit area of the level crossing, the end point of the level crossing area is taken as the end point of the speed limit area of the level crossing, and the speed limit of the level crossing is included in the maximum speed limit curve to control The train passes through the level crossing speed limit area.
- the stop sign is not to stop, and according to the speed limit at the level crossing, the non-stop passing through the level crossing includes:
- controlling the train to reduce the specified speed to the level crossing speed limit before the start of the level crossing area includes:
- controlling the train to pass through the level crossing area at a speed not exceeding the speed limit of the level crossing includes:
- the front end of the train is taken as the starting point of the level crossing speed limit area
- the end point of the level crossing area is taken as the end point of the level crossing speed limit area
- the level crossing The speed limit is included in the most limited speed curve, and the train is controlled to pass through the speed limit area of the level crossing.
- the level crossing protection system is connected to the ground signal system, and the level crossing is closed and opened through the signal system, with a high degree of automation;
- level crossing protection system can monitor the working status of the level crossing protection system in real time, and provide different types of level crossing information to the train according to the protection status of the level crossing to achieve different levels of safety protection;
- the level crossing According to the different states of the level crossing, it supports two ways to pass through the level crossing after parking and to pass through the level crossing without stopping, so as to improve the efficiency of the train passing through the level crossing.
- the on-board equipment on the train incorporates the limit speed of the level crossing into the maximum speed limit curve to monitor the train operation, and try to improve the driving efficiency while ensuring safety.
- FIG. 1 shows a flowchart of a level crossing safety protection method according to an embodiment of the present invention
- FIG. 2 shows a schematic structural diagram of a level crossing safety protection system according to an embodiment of the present invention
- FIG. 3 shows a schematic diagram of a level crossing area and a parking area according to an embodiment of the present invention
- FIG. 4 shows a schematic structural diagram of another level crossing safety protection system according to an embodiment of the present invention.
- the embodiment of the present invention provides a level crossing safety protection method, so as to realize automatic safety protection of the level crossing.
- the method includes:
- the protection state of the level crossing determines the protection state of the level crossing, where the protection state includes a protected state or an unprotected state
- the level crossing information when the protection state is an unprotected state, the level crossing information includes a stop sign and a level crossing speed limit;
- the protection state is the unprotected state
- stop sign and the speed limit at the level crossing stop first and then pass the level crossing or pass through the level crossing without stopping.
- the level crossing safety protection method described in the embodiment of the present invention may be implemented by the level crossing safety protection system as shown in FIG. 2 .
- the level crossing safety protection system is composed of ground equipment, vehicle-mounted equipment, and signal systems.
- the level crossing safety protection system includes a level crossing protection system, an interlocking (CBI, Computer Based Interlocking), a train control center (TCC, Train Control Center), a train on-board system, and according to road conditions, it also includes signal systems such as Radio Block Center (RBC) and/or track circuits, trackside electronic units, transponders, etc.
- CBI Computer Based Interlocking
- TCC Train Control Center
- RBC Radio Block Center
- the level crossing protection system is used to automatically protect the level crossing, and can receive the crossing command to perform the crossing protection action, such as automatically closing the crossing according to the closing command, entering the protected state or unprotected state, and automatically opening the crossing according to the opening command;
- the level crossing protection system also feeds back the state of the level crossing according to the action result, which is the protection state of the level crossing in the embodiment of the present invention.
- the level crossing protection system is connected to the TCC, reports the crossing status to the TCC, the TCC sends the crossing status to the CBI, and the CBI sends the level crossing status to the RBC.
- a closing command is sent to the level crossing protection system, that is, the train enters a specified distance near the level crossing, and the closing command is sent to the level crossing protection system.
- the on-board equipment on the train sends the train's position to the RBC in real time via wireless.
- RBC determines the timing to send the command to the level crossing according to the relationship between the train position and the position of the crossing in front of the train.
- RBC sends the level crossing command to the level crossing protection system through CBI and TCC in turn.
- the RBC only sends the train position to the CBI, and the CBI sends the crossing command to the TCC according to the train position information, or sends the train position information to the TCC, and the TCC sends the crossing command to the level crossing protection system.
- the level crossing protection system executes the crossing command, and sends the latest level crossing information and crossing status to the CBI through the TCC, and then the CBI sends it to the RBC, and the RBC sends the level crossing information wirelessly to the on-board equipment on the train.
- the level crossing information includes the state of the crossing, that is, the protection state of the crossing. In another embodiment, the corresponding level crossing information and the state of the crossing may also be sent separately. If the level crossing protection system executes the command successfully, the level crossing status is protected, and the level crossing information sent by the RBC to the vehicle-mounted device includes the level crossing protected status. If the level crossing protection system fails to execute the command or the level crossing is faulty, the protection state in the level crossing information sent by the RBC to the vehicle-mounted device is the unprotected state.
- TCC detects the relationship between the position of the train and the position of the crossing in front of the train through the track circuit, etc. When the train reaches a certain distance before the level crossing, it sends the crossing command to the level crossing. protection system.
- the level crossing protection system executes the crossing command and sends the latest crossing status to the TCC.
- TCC transmits the level crossing information to the ground active transponder through the wayside electronic unit. When the train passes the active transponder, it receives the level crossing information through electromagnetic induction. If the level crossing protection system executes the command successfully, the level crossing information sent by the TCC to the vehicle-mounted device through the active transponder indicates that the level crossing status is protected. If the level crossing protection system fails to execute the command or the level crossing is faulty, the level crossing information sent by the TCC to the on-board equipment through the active transponder is the unprotected state.
- the ground equipment (RBC or TCC) sends the level crossing closing command to the level crossing protection system to close the level crossing to prepare for the passage of the train.
- the ground equipment (RBC or TCC) sends a level crossing opening command to the level crossing protection system to reopen the level crossing.
- the level crossing protection system executes the closing of the crossing according to the closing command of the crossing command and feeds back the status of the crossing.
- the level crossing protection system If the level crossing protection system is automatically closed successfully, the level crossing protection status is protected, and the on-board equipment does not need to provide additional safety protection for the level crossing, but directly controls the speed of the train according to the line data provided by the ground equipment to safely pass the level crossing. crossing.
- the level crossing information does not need to include speed limit information, information about the parking area before the level crossing, parking signs, and the like.
- the feedback protection state of the level crossing is the unprotected state.
- the ground equipment feeds back the protection status and other information required by the train to pass the level crossing by itself through the level crossing information.
- the embodiment of the present invention provides different types of level crossing information to the train according to the protection state of the level crossing, so as to realize different levels of safety protection.
- the level crossing information sent by the ground equipment to the vehicle-mounted equipment includes the level crossing number, level crossing area information, parking area information before the level crossing, level crossing protection status, stop sign, level crossing
- the speed limit is the allowable speed at a level crossing.
- the level crossing number is used to identify the level crossing.
- the interlocking system can control multiple level crossings, the train will also pass through multiple level crossings, and there is a situation in which the information of the level crossing is continuously received. , therefore, the level crossing is distinguished by the level crossing number, and the vehicle-mounted device updates the information corresponding to the level crossing according to the level crossing number.
- the vehicle-mounted device receives a new level crossing information
- the newly received level crossing number is the same as the previously received level crossing number
- the newly received level crossing information replaces the previously received level crossing information.
- the in-vehicle device also acquires level crossing area information and corresponding parking area information.
- the level crossing area information and the parking area information are represented by the starting point of the level crossing, the length of the level crossing, and the length of the parking area before the level crossing.
- the end of the level crossing the starting point of the level crossing + the length of the level crossing
- the end point of the parking area the starting point of the level crossing
- the starting point of the parking area the starting point of the level crossing - the length of the parking area.
- the level crossing area information and the parking area information may also be represented by the level crossing starting point (or the parking area ending point), the level crossing ending point, and the parking area starting point in the level crossing information.
- Figure 3 shows the parking area and the level crossing area when the train goes from one direction to the level crossing, and the relationship between the parking area and the level crossing area when the train goes from the other direction to the level crossing Symmetrically with this, those skilled in the art can obtain a security protection solution in another direction according to a security protection solution in one direction in the embodiment of the present invention.
- the vehicle-mounted equipment When the vehicle-mounted equipment receives the level crossing information from the wireless or active transponder, for the protected level crossing, the vehicle-mounted equipment does not add additional protection, according to the line data provided by the ground equipment (the speed limit information of the level crossing is already included) ) to control the speed of the train and pass the level crossing safely.
- the vehicle-mounted device After the vehicle-mounted device receives the level crossing information, if the level crossing protection status is unprotected, the vehicle-mounted device uses the level crossing information. When the level crossing is not protected, the vehicle-mounted equipment will incorporate the level crossing speed limit into the most limited speed curve to monitor the train operation. The maximum speed of the train passing the level crossing cannot exceed the level crossing speed limit. The stop sign before the level crossing is used to indicate whether the train needs to stop before passing the level crossing. Therefore, there are two ways to pass through the level crossing without stopping or stop first and then pass the level crossing.
- the on-board equipment For unprotected level crossings, the on-board equipment needs to decide whether to stop in front of the level crossing according to the stop sign in front of the level crossing. If the stop sign before the level crossing is stop, the on-board equipment controls the train to stop in front of the level crossing, and then pass through the level crossing. If the stop sign in front of the level crossing is no stop, the on-board equipment controls the train to reduce the speed and pass the level crossing without stopping at a low speed.
- stop sign When the stop sign is stop, according to the stop sign and the speed limit at the level crossing, stop first and then pass the level crossing, including:
- the on-board equipment obtains the information of the level crossing area and the parking area in front of the level crossing, and controls the train to park in the parking area; after that, the on-board equipment controls the train to pass through the level crossing area at a speed that does not exceed the speed limit of the level crossing.
- the starting point of the level crossing area that is, the ending point of the parking area
- the front end of the train is controlled to park in the parking area. That is, when the train stops, the front end of the train is located in the parking area in front of the level crossing.
- the train front end is specifically the train estimation front end.
- the train front end may also be the maximum safety front end or the minimum safety front end.
- the on-board equipment no longer monitors the starting point of the level crossing as the end point of the temporary traffic permit, but starts from the estimated front end of the train and incorporates the speed limit at the level crossing into the maximum speed limit curve.
- the most limited speed curve is the speed limit curve obtained by the on-board equipment integrating various speed limit information such as line speed limit, temporary speed limit, and maximum train running speed. Without loss of generality, the minimum speed limit in each area is taken. , to form the most limiting speed curve.
- the level crossing speed limit area is a special temporary speed limit area. The starting point of the temporary speed limit area is the estimated front end of the train, the end point of the speed limit area is the end point of the level crossing area, and the allowable speed of the temporary speed limit area is the level crossing speed limit. .
- the speed limit is given by the on-board equipment, allowing the driver to control the train operation according to the speed limit, and the on-board equipment provides safety protection for the train operation according to the speed limit.
- the on-board equipment will not incorporate the level crossing speed limit into the maximum speed limit curve. In this case, control the train to continue running according to the allowable speed, stop the train in the parking area, and then incorporate the level crossing speed limit into the maximum speed limit curve.
- the on-board equipment obtains the information of the parking area in front of the level crossing; the on-board equipment or the driver slows down the train, and before the starting point of the level crossing area, when the current position of the train is
- the on-board equipment will incorporate the level crossing speed limit into the most limited speed curve from the current position to the end area of the level crossing, and the on-board equipment will control the train at a speed that does not exceed the level crossing speed limit. Pass through the level crossing area.
- a variety of speeds are involved in the train operation control process, such as the current running speed of the train and the maximum common braking speed. Reduces the specified speed to the level crossing speed limit before the start of the crossing area.
- the second stage is entered, that is, the train passes through the level crossing area at a speed not exceeding the speed limit of the level crossing.
- the on-board equipment monitors the starting point of the level crossing, that is, the end point of the parking area as the end point of the temporary driving permit, and the on-board equipment, such as ATP (Automatic Train Protection, automatic train protection system) or the driver controls the speed of the train.
- the on-board equipment such as ATP (Automatic Train Protection, automatic train protection system) or the driver controls the speed of the train.
- ATP Automatic Train Protection, automatic train protection system
- the maximum common braking speed of the train also gradually decreases.
- the maximum common braking speed of the train is reduced to the level crossing limit speed, the on-board equipment will no longer apply the level crossing.
- the starting point is monitored as the end point of the temporary traffic permit, but from the front end of the train, the level crossing speed limit is included in the maximum speed limit curve.
- the train front end is specifically the train estimated front end.
- the level crossing is also a special temporary speed limit area.
- the starting point of the speed limit area is the estimated front end of the train, the end point of the speed limit area is the end point of the level crossing area, and the allowable speed of the speed limit area is the level crossing speed limit.
- the speed limit of the level crossing is included in the most limited speed curve, and the train is controlled to pass through the speed limit area of the level crossing.
- the embodiment of the present invention can support the level crossing to pass through the level crossing safely, efficiently and automatically in two ways of parking and non-stop through the stop sign and speed limit information.
- the efficiency of the train passing through the level crossing can be improved.
- the allowable speed is no longer affected by the speed limit of the level crossing, but is determined by the most limited speed curve, and the train can speed up.
- the ground equipment sends the level crossing information to the on-board equipment, and marks the level crossing unprotected state.
- the vehicle needs to comply with the level crossing speed limit and pass the level crossing at a low speed. First reduce the speed of the train, or stop and run again, or run at a low speed.
- the driver observes the crossing in front of the train and has carried out manual protection and other protections, and will pass the level crossing at a relatively low speed. Due to the low speed of the train, once the driver observes an unexpected situation, the driver can apply the brakes to stop the train in time.
- the ground equipment sends the information of the level crossing with the same number to the vehicle-mounted equipment, and marks the level crossing as the protected state, that is, the protection state is updated from the unprotected state to protected state.
- the vehicle-mounted device receives the new level crossing information, and the new level crossing information replaces the old level crossing information. Since the new level crossing information indicates that the level crossing is protected, the on-board equipment stops incorporating the level crossing speed limit into the maximum speed limit curve, allowing the speed to rise and the train to accelerate.
- the present invention is implemented to continuously receive the level crossing information during the stage of the train passing through the level crossing, monitor the protection state of the level crossing, and can improve the efficiency of the train passing through the crossing on the premise of ensuring safety.
- the ground equipment sends the level crossing information in the unprotected state of the level crossing to the on-board equipment on the train through RBC or TCC, and the on-board equipment incorporates the speed limit of the level crossing into the maximum limit. Speed curve, active safety protection.
- an embodiment of the present invention also provides a level crossing safety protection system.
- the system includes:
- the command sending module is used to send the closing command to the level crossing protection system
- a state judging module configured to determine the protection state of the level crossing according to the execution of the closing command, and the protection state includes a protected state or an unprotected state;
- the information acquisition module is used to acquire the level crossing information.
- the level crossing information includes the stop sign and the level crossing speed limit;
- the train control module is used to limit the speed of the level crossing according to the stop sign when the protection state is the unprotected state, stop first and then pass the level crossing or pass through the level crossing without stopping.
- the command sending module is ground equipment. After the ground equipment obtains the train position, it sends a crossing command according to the relationship between the train position and the level crossing. For example, when the train approaches the level crossing, it sends a closing command to the level crossing protection system. .
- the ground equipment is the TCC.
- the level crossing is closed according to the closing command, and feedback or collect the closing execution result through the ground equipment to obtain the protection status of the level crossing.
- the ground equipment sends the protection status of the level crossing to the train.
- the train passes the state judgment module to determine the protection state of the level crossing.
- the state judging module is provided in the vehicle-mounted device.
- the train also obtains level crossing information through the train control module in the on-board equipment.
- the train control module controls the train to run through the level crossing according to the protection status and level crossing information.
- the command sending module is connected to the on-board equipment for data connection, and specifically, interaction is realized through an interlocking system, an RBC, a transponder, and the like.
- the command sending module is connected with the state judging module and the information obtaining module in the on-board equipment, and the train control module is also connected with the information obtaining module and the state judging module. Further, specifically, the state judging module is connected with the information obtaining module, and the protection state is determined by analyzing the obtained level crossing information.
- the on-board equipment of the train is used as the train control module to control the operation of the train, and the driver may also use the train control module to control the train to pass through the level crossing according to the speed limit and other travel requirements.
- the train control module is a device capable of realizing train control, and the driving mode is not limited, such as automatic driving or manual driving.
- the level crossing information further includes: level crossing number, level crossing protection status, level crossing area information, and parking area information before the level crossing.
- stop sign When the stop sign is stop, according to the stop sign and the speed limit at the level crossing, stop first and then pass the level crossing, including: obtaining the information of the level crossing area; controlling the train to park in the parking area; controlling the train to Pass the level crossing area at a speed not exceeding the level crossing speed limit.
- the starting point of the level crossing area is used as the end point of the train's permission to monitor, and the front end of the train is controlled to park in the parking area. After that, take the front end of the train as the starting point of the level crossing speed limit area, and take the end point of the level crossing area as the end point of the level crossing speed limit area; incorporate the level crossing speed limit into the most limited speed curve, and control the train to pass through the level crossing speed limit area.
- the speed limit is based on the stop sign and the level crossing, and the non-stop passing through the level crossing includes: obtaining the information of the level crossing area and the parking area information before the level crossing; controlling the train to specify the Speed down to the level crossing speed limit; control the train to pass through the level crossing area at a speed not exceeding the level crossing speed limit.
- monitor the starting point of the level crossing area (the end point of the parking area) as the end point of the temporary driving permit; control the speed of the train, and before the starting point of the level crossing area, when the maximum common braking speed of the train drops to the limit speed of the level crossing , take the position of the front end of the train as the starting point of the level crossing speed limit area, and take the end point of the level crossing area as the end point of the level crossing speed limit area; incorporate the level crossing speed limit into the most limited speed curve, and control the train to pass through the level crossing speed limit area .
- the train speed is controlled according to the line data provided by the ground equipment, and the level crossing is safely passed.
- the state judging module continues to receive the level crossing information, and updates the level crossing information received before; according to the level crossing information, when the protection state is updated from the unprotected state to the protected state, the level crossing speed limit is stopped. Incorporated into the most limiting speed curve, allowing trains to run faster.
- the command sending module sends the level crossing information that the level crossing is in an unprotected state to the state judging module.
- the level crossing safety protection method and system of the present invention realizes the closing and opening of the level crossing through the signal system, with a high degree of automation; and can monitor the working state of the level crossing protection system in real time, and support the level crossing according to the different states of the level crossing.
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Abstract
一种平交道口安全防护方法及系统,方法包括:向平交道口防护系统发送关闭命令;根据关闭命令执行情况,确定平交道口的保护状态,保护状态包括受保护状态或未保护状态;获取平交道口信息,保护状态为未保护状态时,平交道口信息包括停车标志和平交道口限速,根据停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。有益效果:通过信号系统实现平交道口的关闭和开放,自动化程度高,并根据平交道口的不同状态,相应地控制列车安全通过平交道口,提高列车通过平交道口的效率。
Description
本发明属于轨道交通领域,特别涉及一种平交道口安全防护方法及系统。
在当前平交道口中,由工作人员进行安全防护,列车通过平交道口前,由工作人员封闭平交道口,列车通过平交道口后,工作人员再重新开放平交道口。有人值守的平交道口效率较为低下,还要占用大量的人力资源。
因此,亟需一种自动化的平交道口安全防护方案。
发明内容
针对上述问题,本发明提出一种平交道口安全防护方法,包括:
向平交道口防护系统发送关闭命令;
根据关闭命令执行情况,确定平交道口的保护状态,所述保护状态包括受保护状态或未保护状态;
获取平交道口信息,所述保护状态为未保护状态时,所述平交道口信息包括停车标志和平交道口限速;
所述保护状态为未保护状态时,根据所述停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。
进一步地,所述停车标志为停车,根据所述停车标志和平交道口限速,先停车再通过平交道口包括:
获取平交道口区域信息和平交道口前的停车区域信息;
控制列车在停车区域停车;
控制列车以不超过平交道口限速的速度经过平交道口区域。
进一步地,控制列车在停车区域停车包括:
将平交道口区域起点作为列车的行车许可终点进行监控,控制列车前端停在停车区域内。
进一步地,控制列车以不超过平交道口限速的速度经过平交道口区域 包括:
列车前端停在停车区域后,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过所述平交道口限速区域。
进一步地,所述停车标志为不停车,根据所述停车标志和平交道口限速,不停车通过平交道口包括:
获取平交道口区域信息和平交道口前的停车区域信息;
控制列车在平交道口区域起点前将指定速度降到平交道口限速;
控制列车以不超过平交道口限速的速度经过平交道口区域。
进一步地,控制列车在平交道口区域起点前将指定速度降到平交道口限速包括:
将平交道口区域起点作为临时行车许可终点进行监控;
控制列车降速,直到列车最大常用制动速度降到平交道口限速。
进一步地,控制列车以不超过平交道口限速的速度经过平交道口区域包括:
当满足列车最大常用制动速度降到平交道口限制速度时,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过平交道口限速区域。进一步地,所述平交道口信息还包括:
平交道口编号、所述平交道口保护状态、平交道口区域信息、平交道口前的停车区域信息。
进一步地,所述保护状态为受保护状态时,根据地面设备提供的线路数据控制列车速度,安全通过平交道口。
进一步地,获取平交道口信息包括:
车载设备持续接收平交道口信息,并更新之前接收的平交道口信息;
根据平交道口信息,当保护状态由未保护状态更新为受保护状态时,停止将平交道口限速纳入最限制速度曲线,允许列车提速运行。
进一步地,对于没有安装平交道口防护系统的平交道口,由地面设备 向车载设备发送平交道口为未保护状态的平交道口信息。
本发明还提供一种平交道口安全防护系统,包括:
命令发送模块,用于向平交道口防护系统发送关闭命令;
状态判断模块,用于根据关闭命令执行情况,确定平交道口的保护状态,所述保护状态包括受保护状态或未保护状态;
信息获取模块,用于获取平交道口信息,所述保护状态为未保护状态时,所述平交道口信息包括停车标志和平交道口限速;
列车控制模块,用于在所述保护状态为未保护状态时,根据所述停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。
进一步地,所述停车标志为停车,根据所述停车标志和平交道口限速,先停车再通过平交道口包括:
获取平交道口区域信息和平交道口前的停车区域信息;
控制列车在停车区域停车;
控制列车以不超过平交道口限速的速度经过平交道口区域。
进一步地,控制列车在停车区域停车包括:
将平交道口区域起点作为列车的行车许可终点进行监控,控制列车前端停在停车区域内。
进一步地,控制列车以不超过平交道口限速的速度经过平交道口区域包括:
列车前端停在停车区域后,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过所述平交道口限速区域。
进一步地,所述停车标志为不停车,根据所述停车标志和平交道口限速,不停车通过平交道口包括:
获取平交道口区域信息和平交道口前的停车区域信息;
控制列车在平交道口区域起点前将指定速度降到平交道口限速;
控制列车以不超过平交道口限速的速度经过平交道口区域。
进一步地,控制列车在平交道口区域起点前将指定速度降到平交道口 限速包括:
将平交道口区域起点作为临时行车许可终点进行监控;
控制列车降速,直到列车最大常用制动速度降到平交道口限速。
进一步地,控制列车以不超过平交道口限速的速度经过平交道口区域包括:
当满足列车最大常用制动速度降到平交道口限制速度时,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过平交道口限速区域。
本发明的平交道口安全防护方法及系统具有以下优点:
将平交道口防护系统接入地面信号系统中,通过信号系统实现平交道口的关闭和开放,自动化程度高;
并能够实时监测平交道口防护系统的工作状态,根据平交道口的保护状态向列车提供不同类型的平交道口信息,实现不同级别的安全防护;
根据平交道口的不同状态,支持停车后通过平交道口和不停车通过平交道口两种方式,提高列车通过平交道口的效率。
当平交道口防护系统故障时,列车上的车载设备将平交道口限制速度纳入最限制速度曲线,监控列车运行,在保证安全的同时,尽力提高了行车效率。
本发明的其它特征和优点将在随后的说明书中阐述,并且,部分地从说明书中变得显而易见,或者通过实施本发明而了解。本发明的目的和其他优点可通过在说明书、权利要求书以及附图中所指出的结构来实现和获得。
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作一简单地介绍,显而易见地,下面描述中的附图是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1示出了根据本发明实施例的一种平交道口安全防护方法流程图;
图2示出了根据本发明实施例的一种平交道口安全防护系统结构示意图;
图3示出了根据本发明实施例的一种平交道口区域及停车区域示意图;
图4示出了根据本发明实施例的另一种平交道口安全防护系统结构示意图。
为使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地说明,显然,所描述的实施例是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
本发明实施例提供一种平交道口安全防护方法,以实现平交道口自动安全防护。如图1所示,方法包括:
向平交道口防护系统发送关闭命令;
根据关闭命令执行情况,确定平交道口的保护状态,所述保护状态包括受保护状态或未保护状态;
获取平交道口信息,所述保护状态为未保护状态时,所述平交道口信息包括停车标志和平交道口限速;
所述保护状态为未保护状态时,根据所述停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。
示例性地,本发明实施例所述的平交道口安全防护方法可以由如图2所示的平交道口安全防护系统来实现。
如图2所示,所述平交道口安全防护系统由地面设备、车载设备以及信号系统等组成。具体地,平交道口安全防护系统包括平交道口防护系统、联锁(CBI,Computer Based Interlocking)、列控中心(TCC,Train Control Center)、列车车载系统,根据道路情况,还包括信号系统如无线闭塞中心(RBC,Radio Block Center)和/或轨道电路、轨旁电子单元、应答器 等。
其中,平交道口防护系统用于对平交道口进行自动防护,能够接收道口命令进行道口防护动作,如根据关闭命令自动关闭道口,进入受保护状态或未保护状态,根据开放命令自动打开道口;平交道口防护系统还根据动作结果反馈道口状态,在本发明实施例中即为平交道口的保护状态。具体地,平交道口防护系统与TCC相连,向TCC报告道口状态,TCC将道口状态发送给CBI,CBI将平交道口状态发给RBC。
本发明实施例中,根据列车与平交道口的位置关系,向平交道口防护系统发送关闭命令,即列车进入平交道口附近的指定距离,向平交道口防护系统发送关闭命令。
对于可以使用无线传输数据的线路,列车上的车载设备通过无线将列车位置实时发送给RBC。RBC根据列车位置和列车前方的道口位置之间的关系确定向平交道口发送命令的时机,RBC依次通过CBI和TCC将平交道口命令发送给平交道口防护系统。在另外的实施例中,RBC仅发送列车位置到CBI,由CBI根据列车位置信息发送道口命令到TCC,或者发送列车位置信息到TCC,由TCC发送道口命令到平交道口防护系统。平交道口防护系统执行道口命令,并将最新的平交道口信息和道口状态通过TCC发送到CBI,再由CBI发送给RBC,RBC将平交道口信息通过无线发送给列车上的车载设备。在本发明实施例中,平交道口信息包含道口状态,即道口保护状态。在另外的实施例中也可以分别发送对应的平交道口信息和道口状态。如果平交道口防护系统执行命令成功,平交道口的道口状态为受保护状态,RBC向车载设备发送的平交道口信息包括平交道口受保护的状态。如果平交道口防护系统执行命令失败或平交道口故障,RBC向车载设备发送的平交道口信息中的保护状态为未保护状态。
对于不能使用无线传输数据的线路,TCC通过轨道电路等方式检测到的列车位置和列车前方的道口位置之间的关系,在列车到达平交道口前一定距离时,将道口命令发送给平交道口防护系统。平交道口防护系统执行道口命令,并将最新的道口状态发送给TCC。TCC通过轨旁电子单元将平交道 口信息传递到地面有源应答器,列车经过有源应答器时,通过电磁感应方式接受到平交道口信息。如果平交道口防护系统执行命令成功,TCC通过有源应答器向车载设备发送的平交道口信息中道口状态为受保护状态。如果平交道口防护系统执行命令失败或平交道口故障,TCC通过有源应答器向车载设备发送的平交道口信息中道口状态为未保护状态。
列车接近平交道口时,地面设备(RBC或TCC)向平交道口防护系统发送平交道口关闭命令,关闭平交道口,为列车通过做准备。列车完全越过平交道口后,地面设备(RBC或TCC)向平交道口防护系统发送平交道口开放命令,重新开放平交道口。
下面对平交道口防护系统接收到道口命令后的安全防护过程进行说明。
平交道口防护系统根据道口命令的关闭命令执行道口关闭并反馈道口状态。
如果平交道口防护系统自动关闭成功,平交道口保护状态为受保护状态,车载设备不需要对平交道口进行额外的安全防护,直接根据地面设备提供的线路数据控制列车速度,安全通过平交道口。在平交道口受保护状态下,平交道口信息不需要包含限速信息、平交道口前停车区域信息、停车标志等。
如果平交道口防护系统执行命令失败或平交道口故障,则反馈平交道口保护状态为未保护状态。地面设备通过平交道口信息反馈保护状态及列车自行通过平交道口所需要的其他信息。
本发明实施例根据平交道口的保护状态向列车提供不同类型的平交道口信息,实现不同级别的安全防护。
本发明实施例中,地面设备向车载设备发送的平交道口信息包含平交道口编号、平交道口区域信息、平交道口前的停车区域信息、平交道口保护状态、停车标志、平交道口限速,即平交道口允许速度。
其中,平交道口编号用于标识平交道口,在一个实施例中,联锁系统可以控制多个平交道口,列车也会经过多个平交道口,并存在持续接收平交道口信息的情况,因此,通过平交道口编号对平交道口进行区分,车载 设备根据平交道口编号更新对应平交道口的信息。车载设备收到一条新的平交道口信息时,新收到的平交道口编号与之前收到的平交道口编号相同,新收到的平交道口信息替代之前收到的平交道口信息。
车载设备还获取平交道口区域信息及相应的停车区域信息。本发明实施例中,在通过平交道口起点、平交道口长度、平交道口前停车区域长度来表示平交道口区域信息和停车区域信息。如图3所示,平交道口终点=平交道口起点+平交道口长度,停车区域终点=平交道口起点,停车区域起点=平交道口起点-停车区域长度。在另外的实施例中,也可以在平交道口信息中通过平交道口起点(或停车区域终点)、平交道口终点、停车区域起点来表示平交道口区域信息和停车区域信息。本发明实施例对确定这两个区域的具体参数不做限制。图3示出了列车从平交道口一个方向驶向平交道口时的停车区域和平交道口区域,列车从平交道口另一个方向驶向平交道口的情况下,停车区域与平交道口区域的关系与此对称,本领域技术人员可以根据本发明实施例中的一个方向的安全防护方案得出另一个方向的安全防护方案。
车载设备从无线或有源应答器收到平交道口信息时,对于受保护的平交道口,车载设备不再增加额外防护,根据地面设备提供的线路数据(已包含平交道口的限速信息)控制列车速度,安全通过平交道口。
车载设备收到平交道口信息后,如果平交道口保护状态为不受保护,车载设备使用平交道口信息。当平交道口不受保护时,车载设备将平交道口限速纳入最限制速度曲线,以监控列车运行,列车通过平交道口的最高速度不能超过平交道口限速。平交道口前停车标志用于表示列车通过平交道口前是否需要停车,因此存在不停车通过平交道口和先停车再通过平交道口两种方式。
对于不受保护的平交道口,车载设备需要根据平交道口前停车标志决定是否需要在平交道口前停车。如果平交道口前停车标志为停车,则车载设备控制列车在平交道口前停车,再通过平交道口。如果平交道口前停车标志为不停车,则车载设备控制列车降低速度,以低速不停车通过平交道 口。
当停车标志为停车,根据所述停车标志和平交道口限速,先停车再通过平交道口,包括:
车载设备获取平交道口区域信息和平交道口前的停车区域信息,控制列车在停车区域停车;之后,车载设备控制列车以不超过平交道口限速的速度经过平交道口区域。
具体地,将平交道口区域起点,即停车区域终点作为列车的行车许可终点进行监控,控制列车前端在停车区域内停车。即当列车停车后,列车前端位于平交道口前的停车区域。本发明实施例中,列车前端具体为列车估计前端,在另外的实施例中,列车前端也可以为最大安全前端或最小安全前端。车载设备不再将平交道口起点作为临时行车许可终点进行监控,而是从列车估计前端开始,将平交道口限制速度纳入最限制速度曲线。其中,最限制速度曲线为车载设备将线路限速、临时限速、最大列车运行速度等各种限速信息进行融合得到限速曲线,不失一般性地,取每一个区域内的最低限速,组成最限制速度曲线。平交道口限速区域作为一种特殊的临时限速区域,临时限速区域起点为列车估计前端,限速区域终点为平交道口区域终点,临时限速区域的允许速度为平交道口限速。通过车载设备给出限速,允许司机依据限速控制列车运行,车载设备根据限速对列车运行进行安全防护。如果列车停在停车区域前,没有停在停车区域内,车载设备不将平交道口限速纳入最限制速度曲线。这种情况下,控制列车根据允许速度继续运行,将列车停在停车区域内,之后再将平交道口限速纳入最限制速度曲线。
如果平交道口前停车标志为不停车,车载设备获取平交道口区域信息和平交道口前的停车区域信息;车载设备或司机对列车进行降速,在平交道口区域起点前,当列车当前位置的指定速度到达平交道口限速时,车载设备从当前位置到平交道口终点区域内,将平交道口限速纳入最限制速度曲线,车载设备控制列车以不超过平交道口限速的速度经过平交道口区域。列车运行控制过程中涉及多种速度,如列车当前运行速度、最大常用制动 速度等,本发明实施例中,选择最大常用制动速度作为判断列车是否达到第一阶段的目标,即在平交道口区域起点前将指定速度降到平交道口限速。当满足该第一阶段的目标时,进入第二阶段,即列车以不超过平交道口限速的速度经过平交道口区域。通过将最大常用制动速度作为列车在停车区域的运行控制目标,能够保障列车在通过平交道口时安全可控,并提高了列车经过平交道口的效率。
具体地,车载设备将平交道口起点,即停车区域终点作为临时行车许可终点进行监控,车载设备,如ATP(Automatic Train Protection,列车自动保护系统)或司机控制列车降速。列车逐渐靠近平交道口区域并持续降速的过程中,列车最大常用制动速度也逐渐降低,当满足列车最大常用制动速度降到平交道口限制速度时,车载设备不再将平交道口起点作为临时行车许可终点进行监控,而是从列车前端开始,将平交道口限制速度纳入最限制速度曲线,本发明实施例中列车前端具体为列车估计前端。此时,平交道口也作为一种特殊的临时限速区域,限速区域起点为列车估计前端,限速区域终点为平交道口区域终点,限速区域的允许速度为平交道口限速,将所述平交道口限速纳入最限制速度曲线,控制列车经过所述平交道口限速区域。
本发明实施例通过停车标志和限速信息能够支持平交道口以停车和不停车两种方式安全、高效、自动地通过平交道口。通过设置列车行驶监控点,将限速纳入最限制速度曲线,能够提高列车通过平交道口的效率。
越过平交道口终点后,允许速度不再受平交道口限速影响,而是由最限制速度曲线决定,列车可以加速运行。
如果列车前方的平交道口故障,地面设备向车载设备发送平交道口信息,并标记平交道口未保护状态,车载需要遵守平交道口限速,低速通过平交道口。首先将列车速度降下来,或停车再运行,或低速运行,司机观察列车前方的道口进行了人工保护和其他方式的保护,将以比较低的速度通过平交道口。由于列车速度很低,一旦司机观察到意外情况,司机可以施加制动,将列车及时停下来。如果在列车越过平交道口前,故障的平交 道口恢复正常,地面设备向车载设备发送编号相同的平交道口信息,并标记平交道口为受保护状态,即保护状态由未保护状态更新为受保护状态。车载设备接收到新的平交道口信息,新的平交道口信息替代旧的平交道口信息。由于新的平交道口信息表示平交道口受保护状态,车载设备停止将平交道口限速纳入最限制速度曲线,允许速度抬升,列车可以加速运行。本发明实施在列车经过平交道口阶段持续接收平交道口信息,监控平交道口保护状态,能够在保障安全的前提下提高列车通过道口的效率。
对于没有安装平交道口防护系统的平交道口,地面设备通过RBC或TCC向列车上的车载设备发送平交道口未保护状态的平交道口信息,由车载设备将平交道口限速纳入最限制速度曲线,主动进行安全防护。
基于相同的发明构思,本发明实施例还提供一种平交道口安全防护系统。如图4所示,系统包括:
命令发送模块,用于向平交道口防护系统发送关闭命令;
状态判断模块,用于根据关闭命令执行情况,确定平交道口的保护状态,所述保护状态包括受保护状态或未保护状态;
信息获取模块,用于获取平交道口信息,保护状态为未保护状态时,平交道口信息包括停车标志和平交道口限速;
列车控制模块,用于在保护状态为未保护状态时,根据所述停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。
本发明实施例中,命令发送模块为地面设备,地面设备获取列车位置后,根据列车位置与平交道口的关系发送道口命令,如列车接近平交道口时,发送关闭命令到平交道口防护系统。不失一般性地,地面设备为TCC。
平交道口根据关闭命令执行关闭,并反馈或通过地面设备采集关闭执行结果,获取平交道口的保护状态。地面设备将平交道口的保护状态发送到列车。列车通过状态判断模块确定平交道口的保护状态。具体地,状态判断模块设置在车载设备中。列车还通过车载设备中的列车控制模块获取平交道口信息。列车控制模块根据保护状态和平交道口信息控制列车运行通过平交道口。本发明实施例中,命令发送模块与车载设备数据连接,具 体地,通过联锁系统、RBC、应答器等实现交互。命令发送模块与车载设备中状态判断模块、信息获取模块相连接,列车控制模块也与信息获取模块和状态判断模块相连接。进一步地,具体地,状态判断模块与信息获取模块相连接,通过解析获取的平交道口信息确定保护状态。本发明实施例中,列车车载设备作为列车控制模块控制列车运行,也可以由司机通过列车控制模块控制列车按照限速等行驶要求通过平交道口。列车控制模块为能够实现列车控制的设备,对于驾驶方式不做限定,如自动驾驶或人工驾驶。
其中,平交道口信息进一步地还包括:平交道口编号、平交道口保护状态、平交道口区域信息、平交道口前的停车区域信息。
当停车标志为停车时,根据停车标志和平交道口限速,先停车再通过平交道口包括:获取平交道口区域信息和平交道口前的停车区域信息;控制列车在停车区域停车;控制列车以不超过平交道口限速的速度经过平交道口区域。
具体地,将平交道口区域起点作为列车的行车许可终点进行监控,控制列车前端在停车区域内停车。之后,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点;将平交道口限速纳入最限制速度曲线,控制列车经过平交道口限速区域。
当停车标志为不停车,根据停车标志和平交道口限速,不停车通过平交道口包括:获取平交道口区域信息和平交道口前的停车区域信息;控制列车在平交道口区域起点前将指定速度降到平交道口限速;控制列车以不超过平交道口限速的速度经过平交道口区域。
具体地,将平交道口区域起点(停车区域终点)作为临时行车许可终点进行监控;控制列车降速,在平交道口区域起点前,当列车最大常用制动速度降到平交道口限制速度时,将列车前端位置作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点;将平交道口限速纳入最限制速度曲线,控制列车经过平交道口限速区域。
当保护状态为受保护状态时,根据地面设备提供的线路数据控制列车速度,安全通过平交道口。
进一步地,状态判断模块持续接收平交道口信息,并更新之前接收的平交道口信息;根据平交道口信息,当保护状态由未保护状态更新为受保护状态时,停止将平交道口限速纳入最限制速度曲线,允许列车提速运行。
对于没有安装平交道口防护系统的平交道口,由命令发送模块向状态判断模块发送平交道口为未保护状态的平交道口信息。
本发明的平交道口安全防护方法及系统,通过信号系统实现平交道口的关闭和开放,自动化程度高;并能够实时监测平交道口防护系统的工作状态,根据平交道口的不同状态,支持停车后通过平交道口和不停车通过平交道口两种方式,在保障安全的情况下提高列车通过平交道口的效率。尽管参照前述实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的精神和范围。
Claims (18)
- 一种平交道口安全防护方法,其特征在于,包括:向平交道口防护系统发送关闭命令;根据关闭命令执行情况,确定平交道口的保护状态,所述保护状态包括受保护状态或未保护状态;获取平交道口信息,所述保护状态为未保护状态时,所述平交道口信息包括停车标志和平交道口限速;所述保护状态为未保护状态时,根据所述停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。
- 根据权利要求1所述的平交道口安全防护方法,其特征在于,所述停车标志为停车,根据所述停车标志和平交道口限速,先停车再通过平交道口包括:获取平交道口区域信息和平交道口前的停车区域信息;控制列车在停车区域停车;控制列车以不超过平交道口限速的速度经过平交道口区域。
- 根据权利要求2所述的平交道口安全防护方法,其特征在于,控制列车在停车区域停车包括:将平交道口区域起点作为列车的行车许可终点进行监控,控制列车前端停在停车区域内。
- 根据权利要求2所述的平交道口安全防护方法,其特征在于,控制列车以不超过平交道口限速的速度经过平交道口区域包括:列车前端停在停车区域后,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过所述平交道口限速区域。
- 根据权利要求1所述的平交道口安全防护方法,其特征在于,所述停车标志为不停车,根据所述停车标志和平交道口限速,不停车通过平交道口包括:获取平交道口区域信息和平交道口前的停车区域信息;控制列车在平交道口区域起点前将指定速度降到平交道口限速;控制列车以不超过平交道口限速的速度经过平交道口区域。
- 根据权利要求5所述的平交道口安全防护方法,其特征在于,控制列车在平交道口区域起点前将指定速度降到平交道口限速包括:将平交道口区域起点作为临时行车许可终点进行监控;控制列车降速,直到列车最大常用制动速度降到平交道口限速。
- 根据权利要求5所述的平交道口安全防护方法,其特征在于,控制列车以不超过平交道口限速的速度经过平交道口区域包括:当满足列车最大常用制动速度降到平交道口限制速度时,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过平交道口限速区域。
- 根据权利要求1-7中任一项所述的平交道口安全防护方法,其特征在于,所述平交道口信息还包括:平交道口编号、所述平交道口保护状态、平交道口区域信息、平交道口前的停车区域信息。
- 根据权利要求1-7中任一项所述的平交道口安全防护方法,其特征在于,所述保护状态为受保护状态时,根据地面设备提供的线路数据控制列车速度,安全通过平交道口。
- 根据权利要求1-7中任一项所述的平交道口安全防护方法,其特征在于,获取平交道口信息包括:车载设备持续接收平交道口信息,并更新之前接收的平交道口信息;根据平交道口信息,当保护状态由未保护状态更新为受保护状态时,停止将平交道口限速纳入最限制速度曲线,允许列车提速运行。
- 根据权利要求1-7中任一项所述的平交道口安全防护方法,其特征在于,对于没有安装平交道口防护系统的平交道口,由地面设备向车载设备 发送平交道口为未保护状态的平交道口信息。
- 一种平交道口安全防护系统,其特征在于,包括:命令发送模块,用于向平交道口防护系统发送关闭命令;状态判断模块,用于根据关闭命令执行情况,确定平交道口的保护状态,所述保护状态包括受保护状态或未保护状态;信息获取模块,用于获取平交道口信息,所述保护状态为未保护状态时,所述平交道口信息包括停车标志和平交道口限速;列车控制模块,用于在所述保护状态为未保护状态时,根据所述停车标志和平交道口限速,先停车再通过平交道口或不停车通过平交道口。
- 根据权利要求12所述的平交道口安全防护系统,其特征在于,所述停车标志为停车,根据所述停车标志和平交道口限速,先停车再通过平交道口包括:获取平交道口区域信息和平交道口前的停车区域信息;控制列车在停车区域停车;控制列车以不超过平交道口限速的速度经过平交道口区域。
- 根据权利要求13所述的平交道口安全防护系统,其特征在于,控制列车在停车区域停车包括:将平交道口区域起点作为列车的行车许可终点进行监控,控制列车前端停在停车区域内。
- 根据权利要求13所述的平交道口安全防护系统,其特征在于,控制列车以不超过平交道口限速的速度经过平交道口区域包括:列车前端停在停车区域后,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过所述平交道口限速区域。
- 根据权利要求12所述的平交道口安全防护系统,其特征在于,所述停车标志为不停车,根据所述停车标志和平交道口限速,不停车通过平交道口包括:获取平交道口区域信息和平交道口前的停车区域信息;控制列车在平交道口区域起点前将指定速度降到平交道口限速;控制列车以不超过平交道口限速的速度经过平交道口区域。
- 根据权利要求16所述的平交道口安全防护系统,其特征在于,控制列车在平交道口区域起点前将指定速度降到平交道口限速包括:将平交道口区域起点作为临时行车许可终点进行监控;控制列车降速,直到列车最大常用制动速度降到平交道口限速。
- 根据权利要求16所述的平交道口安全防护系统,其特征在于,控制列车以不超过平交道口限速的速度经过平交道口区域包括:当满足列车最大常用制动速度降到平交道口限制速度时,将列车前端作为平交道口限速区域起点,将平交道口区域终点作为平交道口限速区域终点,将所述平交道口限速纳入最限制速度曲线,控制列车经过平交道口限速区域。
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CN111923968A (zh) * | 2020-09-22 | 2020-11-13 | 北京全路通信信号研究设计院集团有限公司 | 一种平交道口安全防护方法及系统 |
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