EP3105103A1

EP3105103A1 - Method and system configuration for re-determining the location of a rail vehicle

Info

Publication number: EP3105103A1
Application number: EP15712554.3A
Authority: EP
Inventors: Jacob Johannes KOHLRUSS
Original assignee: Siemens AG
Current assignee: Siemens Mobility GmbH
Priority date: 2014-04-08
Filing date: 2015-03-17
Publication date: 2016-12-21
Anticipated expiration: 2035-03-17
Also published as: DK3105103T3; HUE038476T2; ES2662612T3; DE102014206741A1; CN106103236B; WO2015154950A1; CN106103236A; EP3105103B1; NO2748793T3

Abstract

The invention relates to a method for re-determining the location of a first rail vehicle (1) whose locating function has failed, and to a corresponding system configuration. The method permits rapid re-determination of the location without deployment of personnel by providing the following steps: 1. Stopping the first rail vehicle (1), 2. Transmission of the failure information by the first rail vehicle (1) to a route-monitoring device (12), 3. Transmission of the failure information by the route-monitoring device (12) to a second rail vehicle (2) which follows the first rail vehicle (1), 4. Moving the second rail vehicle (2) close to the first rail vehicle (1), 5. Activating a distance sensor (7) of the second rail vehicle (2), and measuring the distance from the first rail vehicle (1, 6. Stopping the second rail vehicle (2) at a position which is at a safe distance from the first rail vehicle (1), 7. Transmitting the position of the second rail vehicle (2) and its distance from the first rail vehicle (1) to the route-monitoring device (12) and 8. Determination of the position data of the first rail vehicle (1) by the route-monitoring device (12) from the data received in step 7.

Description

description

Method and system configuration for the reortening of a rail vehicle

The invention relates to a method for reortening a first rail vehicle whose locating function has failed, as well as a corresponding system configuration. In railway systems, the location of rail vehicles, that is the permanent location of each individual rail vehicle, is of crucial importance for safety. Especially with dense vehicle sequence, for example in metro systems, trackside, for example, in a signal box or a control center, the current position of the individual rail vehicles must be known at any time. In case of failure of the localization of a rail vehicle, this rail vehicle must be stopped. Subsequent rail vehicles must also be stopped because the trackside is not known where the rail vehicle with the failed locating function and thus the possibility of collision with another rail vehicle. This significantly affects the performance of the overall system. The causative failure of the locating function can occur, for example, in the case of technical faults or due to certain tolerance violations.

So far, the Delokarisierung a rail vehicle with considerable staff effort is reacted. First, personnel are sent to the rail vehicle to manually drive the rail vehicle through the nearest absolute location device, for example via a balise. The train driver assumes the function of Auffahrschutzes and can also communicate on the basis of the track kilometrization by telephone the trackside monitoring system, where the rail vehicle is currently. The trackside monitoring system is also staffed. After the rail vehicle has been moved over the absolute location drive, the proper localization is restored, so that the rail vehicle can continue automatically. Should the re-location by means of the absolute locating device not be possible, there is a technical defect of the locating system and the train driver drives only up to a nearest stopping point, where the evacuation of the passengers may take place.

The invention has for its object to provide a method and a system configuration, which allow a faster and staff-independent reortening of a first rail vehicle whose locating function has failed.

The object is achieved by a method in which the following steps are provided:

1. stopping the first rail vehicle,

2. transmitting the failure information by the first rail vehicle to a route monitoring device,

3. Transmission of the failure information by the rail monitoring device to a second rail vehicle, which follows the first rail vehicle,

4. Approach the second rail vehicle to the first

Rail vehicle,

5. activating a distance sensor of the second rail vehicle and measuring the distance to the first rail vehicle,

6. stopping the second rail vehicle at a position at a safe distance from the first rail vehicle,

7. Transferring the position of the second rail vehicle and its distance to the first rail vehicle to the

Route monitoring device and

8. Determining the position data of the first rail vehicle by the route monitoring device from the in

Step 7 receiving data.

The object is also achieved with a system configuration in which a track monitoring device for on-demand communication with a train control unit of a rail vehicle is provided, wherein the Zugsteuergerät is connected to a locating device of the rail vehicle and a distance sensor of the rail vehicle for determining the distance to a further rail vehicle located in the direction of travel of the rail vehicle.

In this way, the delocalized first rail vehicle is located by a second rail vehicle whose location is intact and a track monitor. In this case, the second rail vehicle approaches the first rail vehicle up to a safety distance and then determines its distance to the delocalized first rail vehicle by means of a distance sensor. The distance sensor also allows compliance with the safety distance between see the trains, which usually corresponds to at least the braking distance. After stopping the second rail vehicle this transmits its own position and the measured distance to the track monitoring device, which determines the position data of the first rail vehicle from these data. Thus, the reortening of a rail vehicle without instantaneous locating function with technical means is possible, with no staffing required.

According to claim 2, the method is continued with the following steps:

9. Transferring the position data of the first rail vehicle by the route monitoring device to the first rail vehicle and

10. Determine if with the received position data on

Restoring the own locating function is possible by the first rail vehicle, wherein

10.1 in the affirmative, this information is transmitted to the route monitoring device and the regular operation is continued by the first rail vehicle or, if the answer is negative, this information is continued by the first

Rail car is transmitted to the route monitoring device, which then move orders to the first rail vehicle for slow travel and the second Rail vehicle for tracking the first rail vehicle at a safe distance granted, with the steps 7, 8 and 9 are cyclically repeated until safe stop positions of the two rail vehicles.

After reortening, the position data determined by the route monitoring device according to step 8 are transmitted to the first rail vehicle, which then undertakes a comparison attempt with its own location data, if available. The aim is to restore their own locating function.

If affirmative, the now intact locating function of the first rail vehicle is used to continue the regular driving operation of the first rail vehicle. At the same time, the first rail vehicle transmits the affirmative information to the route monitoring device whose activities are thereby terminated.

In the case of negation, that is to say in the event of impossibility of self-locating the first rail vehicle, for example because of a technical defect, the track monitoring device undertakes the coordination of the two rail vehicles, with the first rail vehicle being guided with the aid of the second rail vehicle to a safe holding position by the second rail vehicle constantly transmits position and distance to the distance monitoring device, which determines it from current position data of the first rail vehicle and transmits it to the first rail vehicle. As a result, a safe passage of the first rail vehicle, whose locating function is defective, is virtually possible until a safe stop position, in which passengers can possibly get off, is reached. The stop position may also be a parking facility or a repair depot. If a tunnel has to be crossed during escorting, the claimed automatic procedure also eliminates a tunnel closure in which the entire would have to be shut down because people do not have to enter the tunnel. In addition, it is particularly advantageous that a reaction takes place immediately after detection of the failure of the locating function of the first rail vehicle and no delays occur during sharpening with the aid of the second rail vehicle. Impairment of the operation and its performance is reduced to a minimum. The system configuration according to claim 3 consists of components that are already largely available and can be shared for the procedure. In this case, the distance sensor according to claim 4 may be formed as a radar sensor, which is usually provided for distance and / or speed measurements over ground, with only an orientation of the radar sensor in the direction of travel must be possible. However, other embodiments of the distance sensor are also conceivable, for example based on RFID radio frequency identification or laser scanners.

Essential components of a system configuration for the reortening of a rail vehicle with a failed locating function are illustrated by the single figure. It can be seen that a first rail vehicle 1 and a second rail vehicle 2 are located on a common track 3, the second rail vehicle 2 following the first rail vehicle 1. The rail vehicles 1 and 2 are each equipped with a train control unit 4 and 5, which cooperates with a distance sensor 6 and 7 and a locating device 8 and 9 respectively. In addition, the train control unit 4 or 5 via a transmitting / receiving device 10 or 11 with a stationary route monitoring device 12th

connectable.

This system configuration is designed such that the re-locating of the first rail vehicle 1 is possible, if whose locating device 8 fails. For this purpose, the second rail vehicle 2 by means of the distance sensor 7 and the track monitoring device 12 as close as possible - while maintaining a safe distance - to the first Schienenfahr- tool 1, which was stopped because of Ortungsausfalls. In this holding position, the locating device 9 of the second rail vehicle 2 transmits its locating data to the track monitoring device 12 via the train control device 5 and the transceiver 11. The distance sensor 7 measures the distance to the first rail vehicle 1, the distance data also being transmitted via the train control device 5 and the transmitting / receiving device 11 are sent to the route monitoring device 12. With the location data and the distance data, the distance monitoring device 12 determines the position of the first rail vehicle 1. The re-location of the first rail vehicle 1 is thus carried out.

The system configuration can also be used to guide the rail vehicle 1 with the aid of the second rail vehicle 2 and its distance and location data at a slow speed to a position at which it is possible to restore the locating function of the first rail vehicle 1 or a certain other location. where the train service on track 3 is no longer impaired. This method is automatic and without time delay, with a particular advantage is that personnel deployment to locate the first rail vehicle and its safety-related move out of the danger area is not required.

Claims

claims

1. A method for reortening a rail vehicle (1) whose locating function has failed

marked by

following steps:

1. stopping the first rail vehicle (1),

2. transmission of the failure information by the first rail vehicle (1) to a route monitoring device (12),

3. Transmission of the failure information by the route monitoring device (12) to a second rail vehicle (2), which follows the first rail vehicle (1),

4. approximating the second rail vehicle (2) to the first rail vehicle (1),

5. activating a distance sensor (7) of the second rail vehicle (2) and measuring the distance to the first rail vehicle (1),

6. stopping the second rail vehicle (2) at a position at a safe distance from the first rail vehicle (1),

7. Transfer the position of the second rail vehicle

(2) and its distance from the first rail vehicle (1) to the route monitoring device (12) and

8. Determining the position data of the first rail vehicle (1) by the route monitoring device (12) from the data received in step 7.

2. The method according to claim 1,

marked by

following further steps:

9. transmitting the position data of the first rail vehicle (1) by the route monitoring device (12) to the first rail vehicle (1) and

10. Determine if with the received position data on

Restoring the own locating function is possible by the first rail vehicle (1), wherein

10.1 if this information is affirmatively transmitted to the route monitoring device (12) and the regular drove through the first rail vehicle (1) is continued or

10.2 if this information is negatively transmitted by the first rail vehicle (1) to the route monitoring device (12), which then move orders to the first rail vehicle (1) for slow travel and to the second rail vehicle (2) for tracking the first rail vehicle (1) in Safety distance granted, with the steps 7, 8 and 9 are repeated cyclically until reaching safe stop positions of the two rail vehicles (1, 2).

3. System configuration for carrying out the method according to one of the preceding claims,

d a d u r c h e c e n c i n e s that

a track monitoring device (12) is provided for communication with a train control device (5) of a rail vehicle (2), wherein the train control device (5) with a locating device (9) of the rail vehicle (2) and a distance sensor (7) of the rail vehicle (2) Determining the distance to a direction of travel of the rail vehicle (2) located further rail vehicle (1) is connected.

4. System configuration according to claim 3,

d a d u r c h e c e n c i n e s that

the distance sensor (6; 7) is designed as a radar sensor.