EP1561663A1 - Train integrity monitoring system and method - Google Patents

Abstract

The method involves transmitting a first signal (WS) representing the front of the train (2) as it passes a track point (16), recording the input and/or type of the first signal at the track point and/or an associated control unit, transmitting a second signal (ZS) representing the end of the train as it passes over the track point, recording the input and/or type of the second signal at the track point and/or the associated control unit and using theses signals and/or a comparison of their types to decide whether a complete train has passed the track point.. An independent claim is also included for a device for monitoring the completeness of a railway train.

Description

The invention relates to a method and a Device for train integrity control of a railbound train.

The train integrity check is a very important one Function in the train traffic, because of interlocking and / or Control technology side view from the acknowledged Completeness control of a train is derived that a certain section of the road is free. Comparatively simple the train integrity control in modern day Train compositions, such as an ICE of the German course AG or an ICN of the Swiss Federal Railways AG or comparable high-speed trains, where the individual wagons mostly via a so-called train bus in data-technically connected and the demolition of a or more wagons due to an interruption of the train bus would be detected. Nevertheless, it still remains here to solve the task, as well as the interlocking and / or the control system of this unwanted train separation learns and blocks the relevant section and / or the continued partial composition brings to a stop, if the latter not already by a self-imposed braking the continued partial composition was achieved, the is initiated automatically when the train bus on free Route is interrupted.

For example, to train integrity control from the German Patent 198 28 906 discloses a method in which the the train leading vehicle a predefined pressure increase, Holding and lowering pattern sends, that of a Pressure gauge in the detection and communication unit is registered and evaluated. This acknowledges the Recognition and communication unit registering the Printed pattern by sending a pressure signal through the Main air line, including a connected to the pressure gauge controllable vent valve is opened briefly. The disadvantage here is the one that a Energy supply for the detection and Communication unit must be provided so that for example, evaluated the print pattern and accordingly On the other hand, that it is the the train leading vehicle is known that the train (still) is complete, but not to the units for Zuglenkung (signal box, control technology) is reported.

Further, from German Patent Application 198 32 603 a device for train integrity control and / or Zuglängenmessung known in which the traction vehicle of a Vehicle Association in at least one track of him traveled track ultrasound signals feeds. Everybody on the Rail located vehicle wheel of the train forms for this Ultrasonic signals an impurity that is used to reflect a Fraction of the coupled radiation leads. The Traction vehicle evaluates the reflected signals in terms Frequency, amplitude and, if necessary, time behavior off and recognize from this the number and if necessary the distance of the vehicle wheel sets. About a transmitting / receiving device, the traction unit corresponding messages together with location messages transmit other trains and / or track facilities. The disadvantage of this solution may be that it is due to of railway interruptions, rail malfunctions, switches and may be possible that it is distorted reflected signal, which is therefore incorrect Draw conclusions about the integrity of the train can.

In addition, from German Patent Application 197 50 755 an arrangement known in which one on the last car arranged compressed air generator an electric power generated with the one to be attached at the end of transmission unit is supplied. The transmitting unit sends electromagnetic Signals from, which detects the train leading vehicle be, with the detection of these signals on the Completeness of the train is closed. Here too remains the two problems already mentioned above that on the one hand the last car of the vehicle with one corresponding compressed air generator and the transmitting unit must be equipped and on the other hand, the vehicle side present information about the completeness of the train not available for the train steering.

Known and in use for the control Train integrity is DC circuits for Track sections (block sections) as well as axle counters for counting and counting the axes of a train in respective route section. Rail contacts are only limited suitable for such monitoring. These However, processes also have disadvantages. The DC circuit For example, there are difficulties with rust on the rail and / or the wheels created by e.g. not regular Driving, and the section length is determined by the method of Short circuit relatively limited. The axle counter is not particularly useful on very small wheels (e.g., truck piggyback wagons). In addition, in exceptional situations, but really safety-related necessarily be excluded, impairments of the count by electro-magnetic effects of traction current or On-vehicle equipment, such as linear Eddy current brakes, not sure excluded.

It is therefore the object of the invention to provide a method and a Specify facility for train integrity control, with which it is possible to carry out a train integrity check perform only a few additional components and at the same time the result of the completeness check to the actual Transfer train control.

A

bei Überfahrt des Zuges über einen Streckenpunkt ein die Zugspitze repräsentierendes erstes Signal übertragen wird;

B

der Eingang des Signals und/oder die Art des ersten Signals im Streckenpunkt und/oder einer diesem Streckenpunkt zugeordneten Steuereinheit registriert wird;

C

bei Überfahrt des Zuges über den Streckenpunkt ein das Zugende repräsentierendes zweites Signal übertragen wird;

D

der Eingang des zweiten Signals und/oder die Art des zweiten Signals im Streckenpunkt und/oder einer diesem Streckenpunkt zugeordneten Steuereinheit registriert wird; und

E

anhand des Eingangs des ersten und zweiten Signals und/oder anhand eines Vergleichs der Art des ersten Signals mit der Art des zweiten Signals im Streckenpunkt und/oder der diesem Streckenpunkt zugeordneten Steuereinheit entschieden wird, ob der Streckenpunkt von dem vollständigen Zug überfahren wurde.

The object is achieved with respect to the method according to the invention that a method for Zugvollständigkeitskontrolle a rail-bound train, such as an arbitrarily collapsible passenger and / or freight train is provided in the

A

when crossing the train over a route point a Zugspitze representing the first signal is transmitted;

B

the input of the signal and / or the type of the first signal is registered in the waypoint and / or a control unit associated with this waypoint;

C

when crossing the train over the waypoint a second signal representing the end of the train is transmitted;

D

the input of the second signal and / or the type of the second signal is registered in the waypoint and / or a control unit associated with this waypoint; and

e

It is decided on the basis of the input of the first and second signal and / or on the basis of a comparison of the type of the first signal with the type of the second signal in the waypoint and / or the control unit associated with this waypoint whether the waypoint has been crossed by the complete train.

This method is characterized in that the Transmission of the first and the second signal with comparatively technically simple means are achieved can and at the same time with the devices for Train control / Zuglenkung connected waypoint its control unit a corresponding completeness signal in the direction of the train itself or to an interlocking / control system can settle.

One regarding the installation needs and the Control technology comparatively easy to implement Embodiment of the invention results when a second Distance point whose distance from the first waypoint is greater is considered an upper limit for an allowable train length, is provided, the result of the Completeness check from the first waypoint and / or the control unit associated with the first waypoint the second waypoint and / or the second Waypoint associated control unit is transmitted. This has this second waypoint and / or his Control unit information about the train state in terms completeness and can take appropriate measures initiate.

In an expedient development of this above Characteristics may be the result of train integrity control on second waypoint and / or the second this Waypoint associated control unit on a zugseitige Train control unit is transmitted. Such Train control unit, for example, the control unit of Locomotive or the tax car. With completeness of Zuges may only be an optical one to the platoon leader and / or acoustic indication of the actual Given train completion. In case of a message of missing Completeness to the train control unit will this Take appropriate measures to prevent accidents. So it can be provided that the train control unit via Train radio or GSM-R a corresponding message to Signal box or a control center. These in turn can for conflict resolution, for example, the remaining remainder of the train continue driving until the rest of the train on one Siding or a free station siding or one Service area can be stopped. To avoid a Rear-end collision on the or the lost car becomes the Rail section on which the loss of train integrity occurred, marked as "occupied" and the salvage of the lost car depending on urgency for the Track section availability immediately or with a time delay initiated.

Alternatively or in addition, it may be provided the result of the train completion check on the second Waypoint and / or this second waypoint assigned control unit on a trackside Train control unit to transmit. A trackside Train control unit can, for example, a signal or a signal chain and / or a switch or a soft chain be. For example, the remainder of the train can be used with the first one immediately stop at a desired position. With second is the rest train to a desired one Track section controllable and also according to need to stop.

The above-mentioned first signal may be, for example, a be emitted from the locomotive emission lobe, with their transferred energy, for example, in various Train control systems Signal concepts from waypoints be read out. It may be advantageous with this the first signal transmitted energy in the waypoint or in store the control unit associated with the waypoint, so that the waypoint and / or the control unit this can use stored energy in the further process and thus self-sufficient from an additional energy supply can be operated. For example, it is direct possible to use this stored amount of energy that Initiate transmission of the second signal. With others In other words, this means that the stored energy is used can be to send the second signal too trigger. Thus, the stored energy can be used advantageously be assigned to from the waypoint Control unit to retrieve an amount of energy, in turn, from the waypoint is used to send an interrogation signal. The power of the radiated interrogation signal can thus be set so that the transmitter of the second signal turns off feed this interrogation signal to transmit the second signal can.

To facilitate the isolation of the data of different Signals and / or for better adjustability of the transmitted Energy, it is expedient if the frequency of the first Signal, the interrogation signal and the second signal are designed differently from each other. Typically, can while the frequency of the first signal in the range of 27 MHz lie. Because the interrogation signal, e.g. also in order appropriate energy transfer and to avoid the Crosstalk on adjacent tracks, more at close range should be appropriate here, if the frequency of the Interrogation signal in the range of several MHz is. Especially from the Reason that the range of the second signal so only in Range of about 1 m can also be the frequency of the second signal in the range of a few MHz, with the Radiation of the second signal required power extreme can be small.

It can also be used to reduce crosstalk be that the waypoint at least partially sideways is shielded.

For the evaluation of the first and the second signal in special with regard to the conclusion that the first and / or second signal has actually existed, that can first and / or the second signal in terms of their Signal levels are analyzed. It can be for the first and the second signal is a first or a second lower one Limit be defined for the respective signal level, wherein the first and second signals are their respective defined ones lower limit must be exceeded in order to be considered to be valued.

To be safe after putting together a train composition be able to be that, for example, the shunting staff the Transmitter for the second signal mounted on the last car and / or activated and / or active, can with the Vehicle composition will be run over a test waypoint, checking if, and if so, how many second signals be transmitted during the crossing.

a) einer an ersten Wagen des Zuges angebrachten ersten Sendeeinheit;

b) einer zumindest am letzten Wagen des Zuges angeordneten zweiten Sendeeinheit;

c) einer im Gleisbett angeordneten Streckeneinheit, die Übertragungen der ersten und der zweiten Sendeeinheit empfängt; und

d) einer Logikeinheit, mittels derer anhand einer Analyse der empfangenen Übertragungen auf die Vollständigkeit des Zuges schliessbar ist.

The above object with regard to a device for train integrity control is achieved according to the invention with a device comprising the following components:

a) a first transmission unit attached to the first car of the train;

b) a second transmission unit arranged at least on the last carriage of the train;

c) a track unit arranged in the track unit, the transmissions of the first and the second transmission unit receives; and

d) a logic unit, by means of which an analysis of the received transmissions on the completeness of the train can be closed.

As explained above on the method feature can the device should be designed in such a way that the with the Transmission of the first transmitting unit transmitted energy the waypoint or one associated with the waypoint Control unit is storable and this stored energy preferably usable to send a Interrogation signal is initiated. With appropriate Embodiment of the interrogation signal may be the second Transmitting unit be possible in an advantageous manner, the Transmitting their transmission required electrical To gain power from the interrogation signal. The special Advantage exists u.a. in that the second transmission unit thus does not need to have its own energy supply, but this energy from the receipt of the interrogation signal wins.

For example, it can be problematic for the shunting personnel be, always only the last wagon with a second Equip transmitter and control that otherwise does not include any second transmission units in the train composition are. To solve this problem, the second transmitting unit a switching unit, with the frequency and / or the Amplitude of transmission between them at least two types of transmission is selectable. It can a transmission method even provide that no signal at all is sent, even if the transmission of this second signal has been initiated accordingly. That's the way it is even possible every wagon with a second transmitting unit equip, being achieved by means of the switching unit, that is arranged from the second to the last wagon Sending unit radiated signal from the remainder Distinguishes signals or that on the last car arranged second transmitting unit is the only one, which, for example, after receiving the interrogation signal second signal.

Further advantageous embodiments of the invention are the to remove other dependent claims.

Figur 1

eine schematische Darstellung einer Vorrichtung zur Kontrolle der Vollständigkeit eines Zuges;

Figur 2

eine schematische Darstellung eines ersten Verfahrens zur Kontrolle der Vollständigkeit eines Zuges; und

Figur 3

eine schematische Darstellung eines zweiten Verfahrens zur Kontrolle der Vollständigkeit eines Zuges.

Embodiments of the invention will be explained in more detail with reference to a drawing. Showing:

FIG. 1

a schematic representation of a device for controlling the completeness of a train;

FIG. 2

a schematic representation of a first method for controlling the completeness of a train; and

FIG. 3

a schematic representation of a second method for controlling the completeness of a train.

FIG. 1 shows a schematic representation of a device to check the completeness of a move 2. The move 2 includes a locomotive 4 and several cars 6, 8 and 10. The locomotive 4 includes a first Transceiver 12, the one of the locomotive. 4 leading emission lobe 14 with a frequency of 27 MHz sending out. This radiation lobe 14 is in the present Context of train integrity control a first signal which is hereinafter referred to as wake-up signal WS. In addition to the use of this Abstrahlkeule 14 for example for Retrieving a signal term or a Balisentelegramms is in this embodiment as a transmit / receive Festbalise trained transceiver as so-called Waypoint 16 is provided. This waypoint 16 is Bidirectionally connected to a control unit 18, the in turn is connected bidirectionally with a signal box 20.

To determine the completeness of the train 2, i. in the Answering the extremely extremely safety-relevant Question, whether the retracted in a stretch of train 2 This section also completely at the Exit has left, the following procedure chosen, at which it is assumed that the waypoint 16 supplied by the control unit 18 with electrical power becomes. When approaching the locomotive 4 receives the Waypoint 16 the Abstrahlkeule 14 as a wake-up signal WS and reports the reception of this wake-up signal WS to the control unit 18. The locomotive 4 has with this the Zugspitze representing wake-up signal WS so to speak in the system for Determination of the completeness of the train 2 registered.

The control unit 18 provides the reception of this wake-up signal WS fixed and gives to the waypoint 16 the command, a Interrogation signal AS to the waypoint 16 crossing train 2 to send out. In the process, this interrogation signal can be continuous or discontinuously with a predeterminable duty cycle to be sent out. This interrogation signal AS is from a second transmitting / receiving unit 22 received in the present embodiment only on the last car 10th is attached. The transmitted with the interrogation signal AS Energy uses the second transceiver 22 for one second signal, subsequently transmitted as Zugendesignal ZS, which is received by the waypoint 16. The reception This Zugendesignals ZS is sent to the control unit 18th reported from the fact that the train end signal ZS of the waypoint 16 has been received, to the correct Complete train 2 crossing concludes. At the same time after receipt of the train end signal by the waypoint 16 set the transmission of the interrogation signal AS. The frequency the interrogation signal AS is present in the present Embodiment 8 MHz. The frequency of the train end signal ZS is in the range of 5 MHz. Regarding the chosen Field strengths are for the interrogation signal AS and the Zugendesignal ZS a level selected, the range of the Signals limited to the near range and crosstalk adjacent tracks avoids.

The control unit 18 then reports a signal to the interlocking 20, which in this way the completeness of the train 2 in the further train control of the train 2 and / or this integrated immediately following train.

But now receives the waypoint 16 despite the broadcast of the interrogation signal AS after a predetermined period of time not the train end signal ZS, this absence is considered safety-relevant fault reported to the interlocking 20. It is irrelevant whether the train 2 actually on the Track has been separated and one or more wagon to the demolition of the brake compressed air line are on free range remained or the second transmitting / receiving unit 22 only is defective and needs to be replaced.

As a consequence of these safety-relevant extremely relevant Fault the train control is changed in a way that train 2 stops before the next possible signal must or stop at the nearest possible siding must and that a subsequent train also before entering is stopped in this section of the route. The platoon commander of In case of doubt, turn 2 must even take its turn 2 expire and check for completeness. Is the train 2? still completely, he has the second transmitting / receiving unit 22 check for function and replace if necessary. About the train radio or any other similar measure to GSM-R the platoon leader then completeness of his turn 2 and / or the readiness of the second Transmit / receive unit 22 to the interlocking 20 and / or a Hierarchically overlying control system to acknowledge.

If no longer complete Zugkomposition 2 then the recovered wagon (s) salvaged and the free message of the Section of track after the mountain or the lying wagon (s) explicitly by message in the Signal box 20 and / or the control system are made.

Figures 2 and 3 illustrate this above Process again schematically and assign in addition to the illustration according to Figure 1, a second waypoint 24th or further route points 24a and 24b, which have a Data link 26 connected to the first waypoint are. The data exchange can be done via a cable, but also via wireless communication. Changed the exemplary embodiment according to FIG. 1 was continued, that the second waypoint 24 the result of am Route point 16 concentrated train integrity control in the form of a train completion signal VS on the Transmit / receive unit 12 transmits. This is the result of the Train integrity control on the cab of the Locomotive 4 or a tax car known and it can in Dependence on the transmitted train completion signal VS appropriate measures are initiated.

In a case of a long distance by sparsely populated Area, as in North America, Eastern Europe, Africa and parts Asia may be the case, or in the case of a branch line it may be sufficient if incompleteness of the turn 2 or 2 'no automatic feedback to a signal box is provided because, for example, the data line to a last happened interlocking some dozen kilometers what can be comparatively expensive and installation side signal side almost can not be solved without intermediate amplification. In such a case, the driver must use the radio for not responsible for this section of the control center more existing completeness of his turn 2, 2 ' inform. Further measures will be taken by the Control center initiated.

In another case, but also from the cab automatically send a signal via train radio, e.g. GSM-R, to the relevant interlocking / control center are discontinued. From there Then the corresponding measures will be used again Ensuring safety on the stretch causes.

FIG. 3 differs from FIG. 2 in that respect only in that two waypoints 24a and 24b are provided can contribute to the spatial resolution of the To improve train integrity control. Of the comparatively long train 2 'in Figure 3 therefore receives the Completeness signal VS only at the waypoint 24b, because at the crossing at the waypoint 24a the Zugende the Route point 16 has not yet run over.

The present embodiments show all train journeys according to arrow 28 in the direction from left to right in the graphic representation. Of course, everyone can be shown Installation in trains traveling in the opposite direction with the then also correspondingly inverse functionality be used.

Next also the transmitted signals, like that Wake-up signal WS and the train end signal ZS, further data such as e.g. a train number or the like. The Wake-up signal WS, for example, on the waypoint 16 be emitted, which in turn then delays one queries arranged on the vehicle head transponder brand and reads. Likewise, instead of one of the Waypoint 16 (with reverse pull direction 24 or 24b) emitted interrogation signal AS at the end of a train also Wake-up signal WS (also 27 MHz emission lobe, for example) be sent out, then what synonymous with a time delay on am Zugende attached transponder brand is read out. So can for example, from reading two times Transponder brand with the same ID on the completeness getting closed. In addition, an ETCS balancing telegram to be provided.

The above embodiments provide Of course, only possible variants of the beginning The skilled person will be in the Within his knowledge a variety of variants and Modification, which inter alia in the possible Utilization of the radiated from the radiation lobe 14 To deal with energy.

Claims (16)

A method for train completeness control of a rail-bound train (2, 2 '), such as an arbitrarily collapsible passenger and / or freight train, in which a) when crossing the train (2, 2 ') via a route point (16) a Zugspitze representing the first signal (WS) is transmitted; b) registering the input of the first signal (WS) and / or the type of the first signal (WS) in the waypoint (16) and / or a control unit (18) assigned to this waypoint (16); c) when crossing the train (2) via the route point (16) a Zugende representing second signal (ZS) is transmitted; d) registering the input of the second signal (ZS) and / or the type of the second signal in the waypoint (16) and / or a control unit (18) assigned to this waypoint (16); and e) based on the input of the first and second signals (WS, ZS) and / or on the basis of a comparison of the type of the first signal (WS) with the type of the second signal (ZS) in the waypoint (16) and / or this waypoint ( 16) associated control unit (18) is decided whether the waypoint (16) has been crossed by the complete train (2). Method according to claim 1,
characterized in that
a second waypoint (24, 24a, 24b) whose distance from the first waypoint (16) is greater than an upper allowable train length limit, the result of the completeness check being from the first waypoint (16) and / or the first Waypoint (16) associated control unit (18) to the second waypoint (24, 24a, 24b) and / or the second waypoint (24, 24a, 24b) is assigned to the associated control unit. Method according to claim 2,
characterized in that
the result of the train completion check at the second route point (24, 24a, 24b) and / or the control unit associated with this second route point (24, 24a, 24b) is transmitted to a train-side train control unit. Method according to claim 2 or 3,
characterized in that
the result of the train integrity check at the second route point (24, 24a, 24b) and / or the control unit associated with this second route point (24, 24a, 24b) is transmitted to a trackside train control unit. Method according to one of claims 1 to 4,
characterized in that
the energy transmitted with the first signal (WS) is stored in the waypoint (16) or in the control unit (18) associated with the waypoint (16). Method according to one of claims 1 to 5,
characterized in that
the stored energy is used to initiate the transmission of the second signal (ZS). Method according to claim 5 or 6,
characterized in that
the stored energy is used to retrieve, from the control unit (18) associated with the waypoint (16), an amount of energy used by the waypoint (16) to transmit an interrogation signal (AS). Method according to claim 7,
characterized in that
the interrogation signal (AS) has a sufficiently high electrical energy for transmitting the second signal (VS). Method according to claim 7 or 8,
characterized in that
the frequency of the first signal (WS), the interrogation signal (AS) and the second signal (ZS) is designed differently from each other. Method according to one of claims 1 to 9,
characterized in that
the first and / or the second waypoint (16, 24, 24a, 24b) is shielded at least partially laterally. Method according to one of claims 1 to 10,
characterized in that
the first and second signals (WS, ZS) are analyzed for signal level. Method according to one of claims 1 to 11,
characterized in that
for the first and the second signal (WS ZS) a first and a second lower limit for the respective signal level is defined, wherein the first and second signal (WS, ZS) must exceed their respective lower limit to be considered detected , Method according to one of claims 1 to 12,
characterized in that
the train (2) passes over a test route point and it is checked whether, and if so, how many second signals (ZS) are transmitted during the crossing. Device for checking the completeness of a rail-bound train (2) with: a) a first transmission unit (12) attached to the first vehicle of the train (2); b) a second transmission unit (22) arranged at least on the last vehicle of the train (2); c) a path point (16) arranged in the track bed, which receives transmissions of the first and the second transmission unit (12, 22); and d) a logic unit (18), by means of which an analysis of the received transmissions on the completeness of the train (2) can be closed. Device according to claim 14,
characterized in that
the second transmitting unit (22) comprises a switching unit with which the frequency and / or the amplitude of the transmission transmitted by it can be selected between at least two types of transmission. Device according to claim 13 or 14,
characterized in that a) a second waypoint (24, 24a, 24b) is provided whose distance from the first waypoint (16) is greater than an upper limit for a permissible train length, b) means for transmitting the result (VS) of the train integrity control from the first waypoint (16) and / or from the control unit (18) assigned to this first waypoint (16) are provided, c) means for further dependent on the result (VS) of Zugvollständigkeitskontrolle further control of the journey of the train (2) are provided.

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