EP2819907B1 - Method for the auxiliary operation of a track element and operation control system - Google Patents

Description

The invention relates to a method for auxiliary operation of a track element.

Such a method is for example from the published European patent application EP 1 396 413 A1 known.

In the field of railway automation is an auxiliary operation of a track element, which is also referred to as command-KF or KF operation, especially in cases where a normal operation of the signal box would be rejected for security reasons. A typical scenario for the use of an auxiliary operation is thus, for example, the correction of incidents. Since the operation passes in the event of an auxiliary operation on the signal-technically safe interlocking logic, the safety responsibility is in such cases to a considerable extent in the respective operating personnel.

A method according to the preamble of claim 1 is known from the article Antweiler B. " Networked control technology for safety-critical applications using the example of Switzerland ", Signal + Draht (99) 3/2007 known.

The present invention has for its object to provide a particularly high operational safety exhibiting method for auxiliary operation of a track element.

This object is achieved by a method for auxiliary operation of a track element, wherein by a betriebsleittechnisches System are received at least one track-bound vehicle driving data from a control device of a train control system and the received driving data are taken into account by the operational control system in the context of an auxiliary operation of the track element in the form that the operational control system based on the driving data is a check with respect to the Auxiliary operation resulting potential hazard situations.

In the context of the present invention, a track element is understood to mean an element used in track-bound traffic, which is usually arranged in the outer area and can assume or record different states for controlling and / or monitoring the track-bound traffic. In the case of corresponding track elements, these may be, for example, wheel sensors, axle counters, switches, track barriers or also railroad crossing systems. Furthermore, the concept of the track element also includes logical units formed with the aid of several such components, such as track sections or driveways.

According to the first step of the method according to the invention, driving data relating to at least one track-bound vehicle are received by a control device of a train control system by an operational control system. This can be done both in the immediate temporal context with an auxiliary operation of a guideway element, ie for example after triggering or start of an auxiliary operation by an operator, as well as temporally decoupled from the actual auxiliary operation, ie for example at regular time intervals. The driving data thus received becomes the second step of the method according to the invention taken into account by the operational control system in the context of an auxiliary operation of the track element. This means that before or during the execution of the auxiliary operation, ie before a complete execution of the auxiliary operation, consideration is given to the travel data received from the control device of the train control system.

The method according to the invention has the advantage that with the driving data relating to at least one track-bound vehicle, additional information is made available to the operational control system beyond usual system limits, which makes a more reliable and thus operational safety-increasing decision possible as to whether a requested auxiliary operation in the respective situation may or may not be executed. Thus, the respective dispatcher - or other operating personnel of the operational control system - a more accurate overview of the current vulnerability during an auxiliary operation can be given. In addition to an increase in safety, this also relieves the burden on the responsible operator.

According to the invention, the received driving data are taken into account by the operational control system in the context of the auxiliary operation of the guideway element in such a form that the operational control system makes a check with respect to the potential hazard situations resulting from the auxiliary operation on the basis of the driving data. This is advantageous because, based on the driving data through the operational control system itself, a check or evaluation is carried out to determine whether potential hazardous situations can arise from a triggered or requested auxiliary operation. This will cause the operating or operating personnel of the operational control system thus advantageously relieved in relation to an evaluation of the data received from the control device of the train control system and optionally visualized on the display device of the operational control system driving data.

According to a particularly preferred development of the method according to the invention, the received driving data are additionally taken into account by the operational control system as part of the auxiliary operation of the track element in such a way that the driving data are visualized by means of at least one display device of the operational control system. By means of a corresponding visualization, it is advantageously possible for the operating personnel to more reliably estimate whether or not an auxiliary operation of a particular track element in the respective situation is possible or permissible. Thus, for example, in the case of an auxiliary operation of a switch by means of the driving data displayed on a display device of the operational control system, whether a train currently drives the relevant way or is at least in dangerous proximity to this switch.

According to a further particularly preferred embodiment of the method according to the invention, a warning signal is output by the operational control system in the event of the detection of a potential hazard situation resulting from the auxiliary operation. In this case, the issuing of the warning signal on the one hand, for example, by a corresponding visualization, such as in the form of a flashing display and / or by the display of warning signs, and on the other hand, alternatively or additionally thereto, for example, also be carried out by an audible warning.

Preferably, the method according to the invention can also be developed in such a way that driving data relating to the location, the speed and / or a driving permission of the at least one tracked vehicle are received by the control device of the train control system. This is advantageous since the variables mentioned are travel data which are particularly suitable for the recognition of hazardous situations in the context of an auxiliary operation and are usually available to a control device of a train control system. Depending on the type of the respective train control system, the location and speed of tracked vehicles can be reported by them, for example, in corresponding position reports, which are also referred to as "position reports", to a stationary, central control device of the train control system. Furthermore, the control device of the train control system usually has information on driving licenses which have been issued to the tracked vehicles monitored and secured by the train control system. This relates in particular to information, also referred to as "movement authority", as to which location or route point the respective track-bound vehicle may move on the basis of a present driving license. By transmitting corresponding driving data to the operational control system, this and / or its operating personnel are enabled to recognize possible risks in the case of an auxiliary operation or to determine using the driving data that such auxiliary operation is possible without risk. Thus, by including a driving license, it can be signaled or become clear that a driving license of a train is required for the track or track element which is to be operated and such an operation would therefore be extremely risky. Conversely, however, it is also conceivable that it is clear from the driving license that, although a track-bound vehicle is in a section, the driving permission of this vehicle ends in front of the track element which is to be actuated by means of the auxiliary operation.

According to a further particularly preferred embodiment of the method according to the invention are received by the operational control system on the at least one track-bound vehicle related signaling safe driving data from the control device of the train control system. In terms of signaling safety, such data are referred to which satisfy the particularly stringent safety requirements of railway operations according to the regulations applicable to the respective approval authority. This means that in the case of signal-technically secure data, it is advantageously possible to rule out an unrecognized adulteration with almost certainty. Usually, the driving data used by a control device of a train control system for controlling and securing the track-bound vehicles is such fail-safe data. This has the consequence that such fail-safe driving data can also be used on the part of the operational control system in the context of a fail-safe auxiliary operation, thereby further increasing the security of the auxiliary operation.

In the context of the method according to the invention, the control device of the train control system can basically be a control device of any type. This implies that the control device can be a vehicle-side control device, ie a control device that is mobile together with the vehicle and has the shape a vehicle device is arranged on the respective track-bound vehicle. In this case, the driving data are thus transmitted directly or indirectly - for example, radio-based - directly from the respective track-bound vehicle to the operational control system.

Preferably, the inventive method may also be configured such that the driving data related to the at least one track-bound vehicle are received by the operational control system from a stationary control device of the train control system. Typically, train control systems have stationary control devices, preferably located in a control center, which are in communication with the monitored and secured lane-bound vehicles and which bear the safety responsibility for securing and influencing the lane-bound vehicles. Corresponding stationary control devices of the train control system are thus usually the driving data of a plurality of track-bound vehicles, which can be forwarded to the operational control system or transmitted. This offers the advantage that it is possible to dispense with additional communication links between the track-bound vehicles and the operational control system, which advantageously reduces the outlay for introducing the method according to the invention.

The invention further relates to an arrangement with an operational control system and a control device of a train control system.

An operational control system, for example, from the company publication " Efficient rail traffic with the control system family VICOS OC - Economic Operational Management ", Siemens AG 2008 , Order no. A19100-V100-B874-V1 known.

With regard to the arrangement, the present invention has the object to provide an arrangement that supports a particularly high operational safety exhibiting method for auxiliary operation of a track element.

This object is achieved by an arrangement with an operational control system and a control device of a Zugbeeinflussungssystems, wherein the operational control system is adapted to receive from the control device of Zugbeeinflussungssystems on at least one tracked vehicle related driving data, wherein the Betriebssleittechnische system is formed, the received driving data to be considered in the context of an auxiliary operation of a track element in the form that it makes a check on the basis of the driving data with respect to potential hazardous situations resulting from the auxiliary operation of the track element.

The advantages of the arrangement according to the invention correspond to those of the method according to the invention, so that in this regard reference is made to the corresponding above statements. The same applies with regard to the below-mentioned preferred developments of the arrangement according to the invention with respect to the corresponding preferred developments of the method according to the invention, so that reference is also made in this regard to the corresponding explanations above.

According to a particularly preferred embodiment of the arrangement according to the invention, the operational control system is designed to receive the received driving data as part of the auxiliary operation the Fahrwegelements in the form that it visualizes the driving data by means of at least one display device of the operational control system.

According to a further particularly preferred embodiment of the arrangement according to the invention, the operational control system is designed to output a warning signal in the event of the detection of a potential hazard situation arising from the auxiliary operation.

Preferably, the arrangement according to the invention can also be designed such that the operational control system is designed to receive travel data related to the location, the speed and / or a driving permission of the at least one tracked vehicle from the control device of the train control system.

Preferably, the arrangement according to the invention is configured such that signal-safe driving data related to the at least one track-bound vehicle is received by the control device of the train control system by the operational control system.

According to a further particularly preferred embodiment of the arrangement according to the invention, the control device is a stationary control device of the train control system.

Figur

zur Erläuterung eines Ausführungsbeispiels des erfindungsgemäßen Verfahrens in einer schematischen Skizze eine Anordnung mit einem Ausführungsbeispiel des erfindungsgemäßen betriebsleittechnischen Systems.

In the following the invention will be explained in more detail by means of exemplary embodiments. This shows the

figure

for explaining an embodiment of the method according to the invention in a schematic sketch of an arrangement with an embodiment of the operational control system according to the invention.

It should be pointed out that the representation of the figure is a greatly simplified schematic representation, in which only the components necessary to explain the exemplary embodiments of the method according to the invention and the operational control system according to the invention are taken into account.

In the figure, a track-bound vehicle 10 in the form of a rail vehicle can be seen, which moves along a track or a track 20. The track-bound vehicle 10 has a vehicle-side transmission device 30, by means of which it is possible for the track-bound vehicle 10 to communicate radio-based with a track-side transmission device 40. The track-side transmission device 40 is connected via a communication link 50 to a stationary control device 60 of a train control system. This makes it possible for the control device 60 of the train control system to receive data from the track-bound vehicle 10, for example in the form of information on the position and speed of the vehicle 10, and to transmit control commands to the track-bound vehicle 10. Corresponding control commands may be, for example, a driving license, also referred to as a "movement authority". This determines up to which place or waypoint the track-bound Vehicle 10 may move based on the present release by the controller 60.

In addition to the components already mentioned, an interlocking 70 is indicated in the figure. The interlocking 70 is connected via communication links 80 and 90 communication technology to infrastructure elements 100 and 110 in the form of two-channel, trained for direction detection wheel sensors or axle counters. On the one hand, the communication connections 80 and 90 make it possible for information from the infrastructure elements 100, 110 to be transmitted to the signal box 70, for example in the form of axle counting pulses, and can be used by the latter for example to detect the occupancy state of the section formed by the infrastructure elements 100, 110 , In addition, on the other hand, the interlocking 70 via the communication links 80, 90 may also be possible to transmit control commands to the guideway elements 100 and 110, respectively.

Via a further communication link 120, the interlocking 70 is further connected to an operational control system 130. The operational control system 130 serves to operate and observe the interlocking 70 and the elements of the outdoor facility connected thereto, i. For this purpose, the operational control system 130 - in addition to other components not shown in the figure - a processing device 140 and a display device 150 on.

In the regular operation of the system shown in the figure, operator actions are performed by an operator by means of the operational control system 130 and executed by the interlocking 70 after transmission of appropriate commands or data via the communication link 120.

In this case, the safety responsibility lies with the signaling technology-safe interlocking logic, so that hazards can be usually excluded by possible operating errors.

In practice, however, the situation may arise that in special operational situations or in case of malfunctions by the operating personnel of the operational control system 130 so-called auxiliary operations, which are also referred to as command or KF operation due to their usual operating procedure, are executed. In this case, the safety-related responsibility lies to a substantial extent with the operating personnel of the operational control system 130, since the corresponding interlocking logic does not involve the safe interlocking logic. The reason for this is that auxiliary controls are used in cases where normal operation by the signal box would be rejected for safety reasons. As part of the described embodiment, this could for example relate to the case that the Fahrwegelement 110 in the form of Achszählers - or an attached to the track elements 100, 110 further Fahrwegelement in the form of Achszählrechners - by a dispatcher by means of the operational control system 130 back. Alternatively, it could be, for example, a Fahrstraßenhilfsauflösung, a substitute signal position or the placement of a disturbed switch in the relevant auxiliary operation.

In all the situations mentioned above, it is conceivable that the execution of the relevant auxiliary operation leads directly or indirectly to a hazardous situation. In order to relieve the dispatcher in this for him extremely difficult and demanding situation and additional To provide decision-making information as to whether an intended auxiliary service is actually to be implemented, the operational control system 130 is connected to the controller 60 of the train control system via a communications link 160. This advantageously allows the plant control system 130 to receive travel data related to the track bound vehicle 10 from the control system 60 of the train control system. In the context of the exemplary embodiment described here, it is assumed that the relevant driving data include information about the location, the speed and a driving license, ie a movement authority, of the track-bound vehicle 10. Advantageously, these transmitted driving data are signal-technical, secure information, which thus has a very high level of reliability.

As a result, the driving data transmitted by the control device 60 of the train control system to the operational control system 130 is now used or taken into account by the latter as part of the auxiliary operation of a track element, ie, for example, the track element 110. On the one hand, this can be done by displaying or visualizing the driving data on the display device 150 of the operational control system 130. For this purpose, the position of the track-bound vehicle 10 and / or the driving license valid for the track-bound vehicle can be displayed, for example, in an overview representation of the track topology. If, on the part of the operational control system 130, information is additionally available regarding train locations determined by means of other methods of track vacancy reporting, a comparative presentation of the relevant information is also possible. It should be noted that depending on the respective Application the provided by the train control system location or position information may have a higher accuracy than is the case with conventional train detection systems. This means that the track-bound vehicle 10 can be precisely located, for example, within the track section formed by the track elements 100, 110 in the form of the axle counters. This can be used in the case of an auxiliary operation of a switch, for example, to indicate to the operator whether a train is currently driving the switch in question or is in the immediate dangerous proximity to this switch.

In addition or as an alternative to a visualization of the driving data on the display device 150 of the operational control system 130, the operational control system 130 can also carry out a check with respect to the potential hazard situations resulting from the auxiliary operation based on the received driving data. This offers the advantage that recognized hazardous situations can be signaled by the operational control system 130. So it is conceivable, for example, that in the event that a current license of a train to the switch, which is to be converted as part of your auxiliary service, this danger the dispatcher, for example, by a flashing display of the range of the Movement Authority in a representation of Network topology and / or by the display of corresponding warning signs, such as in the form of conspicuous highlighted symbols or a flashing screen edge signaled. In addition to a representation in a network overview, corresponding warning information can also be displayed in other diagrams, such as time-distance-line diagrams, or output in the form of audible warning messages.

An evaluation of the driving data by the operational control system 130 thus leads to an overall increase in the safety of auxiliary operations. In addition, however, this also makes it clear that desired auxiliary operations are possible despite a potential hazard information hinweislos. This applies, for example, to the case where an axle counter, i. For example, the track element 110, to be reset, which belongs to a currently set route. In this case, in the case of systems based solely on interlocking information, the entire route is usually indicated as occupied, without the exact position of the train in the route and the part of the route for which the train has a movement authority being recognizable to the dispatcher. Inclusion of this information, i. The driving data, which is securely managed by the control apparatus 60 of the train control system, makes it easier for the dispatcher to make the decision as to whether or not the desired auxiliary operation is possible in the respective situation when performing the auxiliary operation. So it is conceivable, for example, that a train occupies a driveway, but the driving license or movement authority of the train does not extend to the driver element to be operated, so that an operation is possible without danger.

In summary, therefore, to say that according to the above-described embodiments by the inventive method and the operational control system by providing provided on at least one track-bound vehicle driving data, which originate from a train control system, increases the safety of auxiliary operations and the affected operating personnel is relieved , Advantageously, the method and the operational control system are in conjunction with this different Zugbeeinflussungssystemen and different types of track-bound vehicles used. For example, the train control system from whose control device the driving data are transmitted to the operational control system can be, for example, the European Train Control System (ETCS) Level 2. Likewise, it is also conceivable that the train control system is a train control system used in the area of local traffic, for example for subways and metros. Accordingly, the tracked vehicles monitored and controlled by the respective train control system may also be quite different types of vehicles. This includes on the one hand rail-bound vehicles, such as trains, subways or metros, and on the other hand, other types of track-bound vehicles, such as track-guided vehicles with rubber tires, a.

Claims (12)

1. Method for the auxiliary operation of a track element (100, 110), wherein

   - an operation control system (130) receives travel data related to at least one rail-bound vehicle (10) from a control facility (60) of a train control system, characterised in that

   - the received travel data is taken into consideration by the operation control system (130), as part of an auxiliary operation of the track element (100, 110), such that the operation control system (130) performs an assessment on the basis of the travel data with regard to potentially hazardous situations arising from the auxiliary operation.
2. Method according to claim 1,
   characterised in that
   the received travel data is taken into consideration by the operation control system (130) as part of the auxiliary operation of the track element (100, 110), such that the travel data is visualised by means of at least one display apparatus (150) of the operational control system (130).
3. Method according to claim 1 or 2,
   characterised in that
   the operation control system (130) outputs a warning signal in the event that a potentially hazardous situation arising from the auxiliary operation is detected.
4. Method according to one of the preceding claims,
   characterised in that
   the operation control system (130) receives travel data relating to the location, the speed and/or a movement authority of the at least one rail-bound vehicle (10) from the control facility (60) of the train control system.
5. Method according to one of the preceding claims,
   characterised in that
   the operation control system (130) receives fail-safe travel data relating to the at least one rail-bound vehicle (10) from the control facility (60) of the train control system.
6. Method according to one of the preceding claims,
   characterised in that
   the travel data relating to the at least one rail-bound vehicle (10) is received by the operation control system (130) from a stationary control facility of the train control system.
7. Arrangement with an operation control system (130) as well as a control facility (60) of a train control system, wherein the operation control system (130) is embodied to receive travel data relating to at least one rail-bound vehicle (10) from the control facility (60) of the train control system,
   characterised in that
   the operation control system (130) is embodied to take into consideration the received travel data as part of an auxiliary operation of a track element (100, 110), such that it performs an assessment on the basis of the travel data with regard to potentially hazardous situations arising from the auxiliary operation of the track element (100, 110).
8. Arrangement according to claim 7,
   characterised in that
   the operation control system (130) is embodied to take into consideration the received travel data as part of the auxiliary operation of the track element (100, 110), such that it visualises the travel data by means of at least one display apparatus (150) of the operational control system (130).
9. Arrangement according to claim 7 or 8,
   characterised in that
   the operation control system (130) is embodied to output a warning signal in the event that a potentially hazardous situation arising from the auxiliary operation is detected.
10. Arrangement according to one of claims 7 to 9,
    characterised in that
    the operation control system (130) is embodied to receive travel data relating to the location, the speed and/or a movement authority of the at least one rail-bound vehicle (10) from the control facility (60) of the train control system.
11. Arrangement according to one of claims 7 to 10,
    characterised in that
    the arrangement is embodied such that the operation control system (130) receives fail-safe travel data relating to the at least one rail-bound vehicle (10) from the control facility (60) of the train control system.
12. Arrangement according to one of claims 7 to 11,
    characterised in that
    the control facility (60) is a stationary control facility of the train control system.

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