DE102015211141A1 - Level crossing protection system and method for controlling a level crossing protection system - Google Patents

Abstract

The invention relates to a level crossing safety system with a level crossing controller (4) for controlling any safety devices (2, 3) and a method for controlling such a level crossing safety system. In order to achieve a higher level of security with little effort, in particular less cabling, it is provided that the level crossing controller (4) of at least one track circuit (5) and at least one wheel sensor (6, 14) is switched on.

Description

The invention relates to a level crossing safety system with a level crossing controller for controlling any safety devices and a method for controlling such a level crossing safety system.

To activate or switch on and off the level crossing safety devices, in particular roadside barriers and warning signals and partly also trackside signals, technical facilities are required, which recognize the approach of a rail vehicle to the railroad crossing. Such switching means are based predominantly on wheel sensors, axle counting devices, loops or track circuits. Line conductor loops and other switching devices are also common.

Historically, many NAFTA countries, such as the US, have used switching circuits based on track circuits to turn on and off level crossings. The example in the DE 10 2004 057 459 A1 Track circuits described must meet the AREMA Failsafe standard, which places high demands on the track condition, in particular with regard to ballast resistance and to the vehicle axles, in particular with regard to axle shunting. However, the requirements are often not met or, for example due to weather conditions, can not be fulfilled continuously. These feature limitations in track circuits sometimes require track circuits to be replaced by axle counters, which requires additional cabling along the track.

In Europe, a different approach has prevailed. Railway operators demand high reliability and a high level of safety according to the CENELEC-Norn EN50129 , In this standard, the safety levels of SIL0 are - not safe in terms of signal technology - up to SIL4 - highly safe signaling - defined. As switching means for the safety devices at level crossings axle counting systems are often used, such as in the DE 102 16 215 A1 described. In comparison to other sensors, in addition to the higher reliability, there is above all the advantage that track and direction-related switching on or off of the safety devices is easy to implement and continuous line monitoring is ensured. The disadvantage is in addition to the high cost of the counting especially the considerable amount of cabling.

Also known are radio frequency detectors based on GSM-R. The achievable with reasonable effort security level is very low in radio transmission.

The invention has for its object to provide a level crossing system and a method for its control, which allow a higher level of security, with the lowest possible cabling effort is desirable.

According to the invention the object is achieved in that the level crossing controller of at least one track circuit and at least one wheel sensor is switched on.

The object is also achieved by a method in which it is provided that at least one track circuit and at least one wheel sensor to turn on the level crossing controller independently.

In this way, the occupancy information of the track circuit and the over-ride of the wheel sensor are used as two-channel diverse information for activating the level crossing protection system. The diverse sources guarantee the independence of the control signals, while at the same time allowing a mutual disclosure of errors. Even with poor bedding properties and / or unfavorable vehicle situations for track circuits, the dual-channel functionality of the wheel sensor and track circuit results in high availability of the entire system and the attainability of a safety level of SIL3 or SIL4. The combination of track circuit and wheel sensor control also enables cost-effective design of level crossing systems in AREMA markets as well as in CENELEC markets.

According to claim 2 it is provided that the track circuit is formed as an audio frequency track circuit with data transfer function and the wheel sensor is connected upstream in the direction of the railroad crossing, wherein the wheel sensor is connected to the transmitter of the track circuit. The track circuit extends over the entire proximity range from the switch-on point of the safety devices to the level crossing controller. At this switch-on point is the transmitter of the track circuit to which the wheel sensor is connected. The wheel sensor is mounted at a certain distance in front of the transmitter and wired up to this. In this way, the track circuit is used as a transmission medium for the signal of the wheel sensor to the level crossing controller, so that a complete wiring from the wheel sensor to the level crossing controller is unnecessary. The property of the audio Frequency track circuit exploited to provide a transfer function of a few bits.

After crossing the rail vehicle via the wheel sensor, this information is forwarded via the track circuit to the level crossing controller. Thereafter, the rail vehicle reaches the track circuit, which reports the occupancy information to the level crossing controller as a kind of second channel. At the same time, the information transmission from the first channel, namely that of the wheel sensor signal, is interrupted by the track circuit. If one of these two channels or the transfer function should fail, there is a fault and the level crossing protection system switches to the safe failure state.

In accordance with claim 3, a time difference measurement is provided between the vehicle passages of a plurality of wheel sensors and / or a wheel sensor and the transmitter of the track circuit for direction detection and speed determination of a rail vehicle approaching the railroad crossing, the point of switch-on of the safety devices being dependent on the determined speed by the level crossing controller is. This functionality, which is increasingly required by railway operators, makes it possible in some cases to considerably reduce the waiting times of road users at the level crossing. The level crossing protection system is activated independently of the vehicle speed in a largely constant closing time before the arrival of the rail vehicle at the level crossing. This feature is known as> constant warning time <. The blocking time of the level crossing is thus optimized and shortened, especially in very slow rail vehicles.

In order to further increase the safety level, in particular to SIL4, it is provided according to claim 4 that at least one additional track circuit is provided for driving at least one track-side signal. Through this special track circuit, data transfer in the reverse direction, i. provided by the level crossing controller to the signal. The trackside signal serves as a monitoring signal and is only set to continue when the level crossing is secured.

According to claim 5, it is provided that the track circuit or its transmitter can be activated upon passage of a wheel sensor and can be deactivated upon passage of the level crossing controller. The track circuit is thus activated only during the time required functionality and disabled during the rest of the time, in particular switched to a sleep mode. This results in a reduction of the decentralized energy requirement.

The invention will be explained in more detail with reference to figurative representations. Show it:

1 the functional principle of a level crossing system,

2 a second configuration of the level crossing protection system according to 1 and

3 a third configuration of the level crossing protection system according to 1 ,

1 illustrates the essential components of a basic configuration of the claimed level crossing system. The railroad crossing 1 is in this embodiment on both sides by barriers 2 and warning signals 3 secured. The safety devices 2 . 3 to be from a railroad crossing controller 4 driven. The input information of the level crossing controller 4 namely, whether a rail vehicle is at the railroad crossing 1 Approaches are from an audio frequency track circuit 5 and from a wheel sensor 6 generated. The wheel sensor 6 is the track circuit 5 towards the railroad crossing 1 upstream, so that the wheel sensor 6 from one to the railroad crossing 1 approaching rail vehicle in front of the track circuit 5 is happening. The wheel sensor is via a signal line 7 with a transmitter 8th of the track circuit 5 connected. At the receiving end 9 is the track circuit 5 directly with the level crossing controller 4 connected. Via the signal line 7 and the track circuit 5 First, the vehicle passage of the wheel sensor 6 to the level crossing controller 4 forwarded as a turn-on signal. The track circuit 5 acts to form this first transmission channel only as a transmission medium. Only when the rail vehicle, the transmitter side 8th of the DC circuit 5 happens, the track circuit 5 closed and in turn generates a drive signal for the level crossing controller 4 , This results in a second switch-on signal which is independent of the wheel sensor switch-on signal the level crossing controller 4 activated. At the passage of the track circuit 5 the edge sensor signal is preferably interrupted. Due to the dual-channel control of the level crossing controller 4 A very high safety level can be achieved, whereby the two independent switch-on signals can mutually check their functionality and, in the event of a fault, can activate a failsafe state of the level crossing safety system. The fault disclosure required for a safety certification according to CENELEC is guaranteed during operation.

2 shows an extension of the basic configuration according to 1 , There is another audio frequency track circuit 10 provided, the transmitter side 11 with the level crossing controller 4 and receiving side 12 with a trackside signal 13 connected is. This monitoring signal 13 is from the level crossing controller 4 only released if the safety devices 2 . 3 the railroad crossing 1 have closed the road. This results in a saving in the signal wiring.

Based on the basic configuration according to 1 shows 3 an embodiment with two spaced wheel sensors 6 and 14 , both via the track circuit transmitter 8th and the track circuit 5 timed passage information to the level crossing controller 4 hand off. This dual-wheel sensor configuration also offers increased safety of the overall system. In order to further increase the security level, the embodiments according to 2 and 3 be combined with each other, with additional track circuits and / or wheel sensors can be included.

All configurations also provide the ability to determine the speed of the rail vehicle through travel time measurement from the first wheel sensor 6 to the transmitter 8th of the first track circuit 5 and / or the other wheel sensor 14 to the first wheel sensor 6 so that the railroad crossing controller 4 the safety devices 2 . 3 the railroad crossing 1 can turn on depending on the speed. This results in a time-optimized switch-on with a constant switch-on time and, above all, a shortening of the waiting times of road users before the railroad crossing 1 ,

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102004057459 A1 [0003]
• DE 10216215 A1 [0004]

Cited non-patent literature

• EN50129 [0004]

Claims (6)

Level crossing system with a level crossing controller ( 4 ) for controlling any safety devices ( 2 . 3 ), characterized in that the level crossing controller ( 4 ) of at least one track circuit ( 5 ) and at least one wheel sensor ( 6 ) is switched on. Level crossing protection system according to claim 1, characterized in that the track circuit as an audio frequency track circuit ( 5 ) is formed with data transmission function and the wheel sensor ( 6 ) towards the railroad crossing ( 1 ), wherein the wheel sensor ( 6 ) with the transmitter ( 8th ) of the track circuit ( 5 ) connected is. Level crossing protection system according to claim 2, characterized in that the direction of travel detection and speed determination of the railroad crossing ( 1 ) approaching rail vehicle, a time difference measurement between the vehicle passages of several wheel sensors ( 6 . 14 ) and / or a wheel sensor ( 6 ) and the transmitter ( 8th ) of the track circuit ( 5 ), wherein the switch-on time of the safety devices ( 2 . 3 ) through the level crossing controller ( 4 ) depends on the determined speed. Level crossing protection system according to one of the preceding claims, characterized in that at least one additional of the track circuits ( 10 ) for controlling at least one track-side signal ( 13 ) is provided. Level crossing protection system according to one of the preceding claims, characterized in that the track circuit ( 5 . 10 ) when passing a wheel sensor ( 6 . 14 ) and at passage of the level crossing controller ( 4 ) is deactivated. Method for controlling a level crossing protection system with a level crossing controller ( 4 ) for controlling any safety devices ( 2 . 3 ), characterized in that at least one track circuit ( 5 ) and at least one wheel sensor ( 6 . 14 ) the level crossing controller ( 4 ) switch on independently.

Images