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EP0024978B1 - Method and system for detecting landslip(s) on railways - Google Patents

Method and system for detecting landslip(s) on railways Download PDF

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Publication number
EP0024978B1
EP0024978B1 EP80401193A EP80401193A EP0024978B1 EP 0024978 B1 EP0024978 B1 EP 0024978B1 EP 80401193 A EP80401193 A EP 80401193A EP 80401193 A EP80401193 A EP 80401193A EP 0024978 B1 EP0024978 B1 EP 0024978B1
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EP
European Patent Office
Prior art keywords
band
rail
detection
pass filter
output
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Expired
Application number
EP80401193A
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German (de)
French (fr)
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EP0024978A1 (en
Inventor
Francis Rouzier
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SNCF Mobilites
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SNCF Mobilites
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Priority to AT80401193T priority Critical patent/ATE8231T1/en
Publication of EP0024978A1 publication Critical patent/EP0024978A1/en
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Expired legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L23/00Control, warning or like safety means along the route or between vehicles or trains
    • B61L23/04Control, warning or like safety means along the route or between vehicles or trains for monitoring the mechanical state of the route
    • B61L23/041Obstacle detection
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L1/00Devices along the route controlled by interaction with the vehicle or train
    • B61L1/02Electric devices associated with track, e.g. rail contacts
    • B61L1/06Electric devices associated with track, e.g. rail contacts actuated by deformation of rail; actuated by vibration in rail
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61LGUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
    • B61L23/00Control, warning or like safety means along the route or between vehicles or trains
    • B61L23/06Control, warning or like safety means along the route or between vehicles or trains for warning men working on the route

Definitions

  • the invention relates to safety on railway tracks and in particular to the detection of landslides likely to occur in tunnels and tracks in trenches or open to such a threat by the environment, with a view to signaling them.
  • the invention also relates to the detection of approaching trains.
  • seismographic type safety devices has the disadvantage that the transmission of tremors due to a landslide is very quickly absorbed by the ground, which implies a prohibitive multiplication of equipment and possible causes of failure.
  • the detection device uses a vibration sensor cooperating with a rail and associated with a low-pass filter detection circuit to eliminate the signals appearing at the natural frequency of the rail, which limits its use to the detection of the passage of a train and excludes any detection of landslides on the railway track and any detection of approaching trains.
  • the landslide detection device comprises a barrier to be installed next to the railway track and provided with an electrical contact reacting to the mechanical deformation of the barrier in the event of a landslide.
  • the installation of such a barrier is bulky and expensive and the barrier is not reliable. Train approach detection is not possible.
  • the subject of the present invention is a method for detecting landslides on a railway track, the implementation of which requires only relatively small apparatus for good detection quality.
  • the detection method according to the invention of landslide (s) on a railway track is characterized in that the vibrations induced by the landslide or landslides are detected in at least one rail of the track, used as a mechanical transducer and preferred transmitter at least one specific frequency band of the rail detected to trigger an alarm signaling, and that the detection is neutralized each time the train passes.
  • the detection device based on such a method is characterized in that it comprises a vibration sensor intended to be fixed on the side of a rail and producing electrical output signals as a function of the detected vibrations, means for amplifying the signals produced by the sensor, at least one bandpass filter adjusted to a frequency band having a privileged propagation in the rails of the track and connected to the output of said amplification means, a device for switching a signaling of alarm responding to a certain level of signal at the output of the bandpass filter, and means for neutralizing the operation of the device that can be actuated at each passage of the train.
  • the detection device comprises two bandpass filters in parallel, these two filters being adjusted to the frequency bands which have been found to encompass the main frequency domains generated in the rails by the phenomena to be detected , or on the one hand, 1100 to 1500 Hz and, on the other hand, 6400 to 9600 Hz for the rails normally used in France.
  • the device In the absence of said means for neutralizing its operation, the device is applicable to the detection of approaching trains, which can in particular be useful for the protection of yards on track.
  • the detection device uses a vibration sensor, preferably constituted by a piezoelectric accelerometer of known type, covering a range of frequencies from 0 to 9,700 Hz, and having a sensitivity of 20 mV / g.
  • This accelerometer designated by 1 as a whole and provided with an output connector 1a, is intended to be fixed, as illustrated in FIG. 1, on the external flank of the head 2 of a rail 3 of the track, which has proven to be the best vibration detection area on the rail.
  • the frame forms a sort of support bracket, one branch of which constitutes a sole plate 6 which can be engaged under the pad 4 between two track crosspieces and having one end 7 which forms a hook for gripping an edge of the pad, while a clamping toad 8 is provided on the other edge of the shoe, mounted on a stud 9 which the sole carries and lockable with a nut 10 and lock nut 11.
  • the toad 8 has an oblong slot 12 d 'engagement on the stud 9, allowing the possible adaptation of the frame to any form of pad that may be encountered.
  • the other branch 13 of the support bracket has an oblong slot 14 at its upper part which is traversed by the threaded tail 15 of a guide piece 16 of the spring 5 for holding the accelerometer 1.
  • the positioning of the latter can thus be carried out by adjusting the threaded shank 15 in the slot 14, before it is blocked by a nut 17 and lock nut 18.
  • a vibration resulting in an acceleration of 0.1 - 10- 3 g can lead in this example to a peak voltage of 2 mV at the output of said charge amplifier.
  • the output of the charge amplifier 19, which provides a signal on low impedance, is connected to a vibration analysis circuit which will be seen later, via an input amplifier designated by 20 as a whole and which is here constituted, as illustrated in FIG. 3, using a differential amplifier 21 whose inverting input is connected to the output of the amplifier 19 by a resistor 22 and the input non-inverting to ground by a resistor 23, while a feedback loop provided between non-inverting output and input comprises, in parallel, a resistor 24 of impedance here a hundred times higher than that of resistor 22 and two limitation diodes 25, 26 arranged head to tail.
  • Such an amplifier 20 has a high gain for weak signals (40 dB without saturation). At strong signals, its response becomes logarithmic and the signal is written by diodes 25-26 in order to avoid a risk of saturation of the stages of the vibration analysis circuit.
  • the latter here comprises two bandpass filters designated by 27 and 28 as a whole, arranged in parallel and to the inputs of which the output of the differential amplifier 21 is connected, the bandpass 27 being adjusted to the frequencies from 1100 to 1,500 Hz and bandpass 28 on frequencies from 6,400 to 9,600 Hz.
  • Each band pass filter is here composed (see fig. 3) of a high pass filter 27a or 28a followed by a low pass filter 27b or 28b, each of these high pass or low pass filters being here constituted by a filter of well-known type, the diagram of which will not be described further on and of which it will be sufficient to recall that the resistances connectable at the choice of these filters, respectively designated by 29 for the filter 27a, 30 for the filter 27b, 31 for the filter 28a and 32 for the filter 28b, determine with the associated capacitors 33 the cut-off frequency of these filters, while the high-pass output is taken from the output of the first differential amplifier constituting each filter while the output passes -bas is taken from the output of the last differential amplifier of each filter.
  • the filters are adjusted so that the high-pass filter 27a transmits to the low-pass filter 27b only the frequencies above 1100 Hz, the latter blocking the frequencies above 1500 Hz, so that its pass-through output low 34 transmits only frequencies between 1100 and 1500 Hz.
  • the high-pass filter 28a transmits to the low-pass filter 28b only frequencies above about 6,400 Hz, the latter blocking frequencies above 9,600 Hz, so that its low-pass output 35 only transmits than frequencies between 6400 and 9600 Hz.
  • the outputs of the bandpass filters 27, 28 can then be simply connected by an adaptation amplifier 36 to a switching device 37 for alarm signaling, which can take various forms.
  • this switching device 37 will be provided with memory or self-maintenance in response to any detection of landslides where the phenomenon is of a temporary nature but where the signaling must remain until security check and remedy brought to the incident.
  • Alarm signaling can also take various forms.
  • It may be a luminous visual signaling 38 provided on the track at an appropriate distance from the detector, or a signaling calling on the well-known track safety circuit known as an “luminous automatic block”, with track sections which can be short-circuited by the passage of trains, the signaling of landslides then resulting from the maintained closure of a circuit for short-circuiting the track section or sections adjacent to the area protected by the detector or more of them.
  • FIG. 3 An example of a relay switching device is given in FIG. 3, in which an amplifier assembly also serving as a rectifier is provided for supplying a relay 39 with direct current, the closing contact 40 of which is placed on the supply circuit of the light signaling 38 and of which the reopening contact 41 with manual control is placed on its self-maintenance circuit.
  • This amplifier-rectifier assembly comprises at the output 34, 35 of each bandpass filter 27, 28 a separator amplifier 42 followed by a peak detector amplifier 43, the outputs of the latter being both connected to the input terminal of relay 39 solenoid.
  • Each separating amplifier 42 is formed using a differential amplifier 42a driven at its non-inverting input and arranged to have a gain of approximately 10dB.
  • Each peak detector amplifier 43 is constituted by means of a differential amplifier 43a driven on its non-inverting input by means of a writing diode 44 in derivation with respect to which a resistance circuit 45 is arranged. and capacitor 46 having a time constant RC of the order of 0.1 S, so that the capacitor 46 forms a capacitor continuous supply tank of the non-inverting input of the differential amplifier 43a when it is loaded by the half-waves passing through the clipping diode.
  • This amplifier 43a also has a resistance feedback loop 47 between output and inverting input, which here gives it a gain of about 27 dB.
  • the solenoid of the relay 39 is notably supplied with inrush direct current. and maintaining its closing contact activating the light signaling 38.
  • Detection distances ranging from 200 to 300 and even 500 meters have thus been obtained experimentally, by simulating landslides by falling material of a nature and minimum quantity capable of causing an obstruction in a tunnel, depending on whether the fall affects the ballast alone, the ballast and at least one cross member, or the detection rail.
  • Such a detection device is also applicable, as already mentioned, to the detection of approaching trains, for which a detection signaled at an average distance of 500 meters has been obtained experimentally, the alarm signaling then being sound in the case of sites under way.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Automation & Control Theory (AREA)
  • Train Traffic Observation, Control, And Security (AREA)
  • Control Of Turbines (AREA)
  • Measurement Of Mechanical Vibrations Or Ultrasonic Waves (AREA)
  • Emergency Alarm Devices (AREA)

Abstract

1. Method for detecting landslip(s) on railway tracks, characterized in that the vibrations induced by the landlip(s) in at least one rail of the track are detected, the rail being used as the mechanical transducer and transmitter letting through preferentially at least one band of rail natural frequencies detected to set off an alarm signal system, and in that the detection system is neutralized each time a train passes.

Description

L'invention se rapporte à la sécurité sur les voies ferroviaires et notamment à la détection des éboulements susceptibles de se produire dans les tunnels et les voies en tranchées ou ouvertes à une telle menace par l'environnement, en vue de leur signalisation. L'invention a par ailleurs trait également à la détection d'approche de trains.The invention relates to safety on railway tracks and in particular to the detection of landslides likely to occur in tunnels and tracks in trenches or open to such a threat by the environment, with a view to signaling them. The invention also relates to the detection of approaching trains.

Le recours à des dispositifs de sécurité de type sismographique présente l'inconvénient que la transmission des secousses dues à un éboulement est très vite amortie par le terrain, ce qui implique une multiplication prohibitive d'appareillage et des causes de défaillance éventuelles.The use of seismographic type safety devices has the disadvantage that the transmission of tremors due to a landslide is very quickly absorbed by the ground, which implies a prohibitive multiplication of equipment and possible causes of failure.

Le dispositif de détection selon FR-A-2 206 224 utilise un capteur de vibrations coopérant avec un rail et associé à un circuit de détection à filtre passe-bas pour éliminer les signaux apparaissant à la fréquence propre du rail, ce qui limite son utilisation à la détection du passage d'un train et exclut toute détection d'éboulement sur voie ferroviaire et toute détection d'approche de trains.The detection device according to FR-A-2 206 224 uses a vibration sensor cooperating with a rail and associated with a low-pass filter detection circuit to eliminate the signals appearing at the natural frequency of the rail, which limits its use to the detection of the passage of a train and excludes any detection of landslides on the railway track and any detection of approaching trains.

Le dispositif de détection d'éboulements selon US-A-2187518 comprend une barrière à installer à côté de la voie ferroviaire et munie d'un contact électrique réagissant à la déformation mécanique de la barrière en cas d'éboulement. L'installation d'une telle barrière est encombrante et onéreuse et la barrière n'est pas fiable. Une détection d'approche de trains n'est pas possible.The landslide detection device according to US-A-2187518 comprises a barrier to be installed next to the railway track and provided with an electrical contact reacting to the mechanical deformation of the barrier in the event of a landslide. The installation of such a barrier is bulky and expensive and the barrier is not reliable. Train approach detection is not possible.

La présente invention a pour objet un procédé de détection d'éboulements sur voie ferroviaire dont la mise en oeuvre n'exige qu'un appareillage relativement réduit pour une bonne qualité de détection.The subject of the present invention is a method for detecting landslides on a railway track, the implementation of which requires only relatively small apparatus for good detection quality.

Le procédé de détection selon l'invention d'éboulement(s) sur voie ferroviaire, est caractérisé en ce qu'on détecte les vibrations induites par le ou les éboulements dans au moins un rail de la voie, utilisé comme transducteur mécanique et transmetteur privilégiant au moins une bande de fréquences propre du rail détectée pour déclencher une signalisation d'alarme, et qu'on neutralise la détection à chaque passage de train.The detection method according to the invention of landslide (s) on a railway track, is characterized in that the vibrations induced by the landslide or landslides are detected in at least one rail of the track, used as a mechanical transducer and preferred transmitter at least one specific frequency band of the rail detected to trigger an alarm signaling, and that the detection is neutralized each time the train passes.

Le dispositif de détection fondé sur un tel procédé est caractérisé en ce qu'il comprend un capteur de vibrations destiné à être fixé sur le côté d'un rail et produisant des signaux électriques de sortie fonction des vibrations détectées, des moyens d'amplification des signaux produits par le capteur, au moins un filtre passe-bande ajusté sur une bande de fréquences ayant une propagation privilégiée dans les rails de la voie et raccordé à la sortie desdits moyens d'amplification, un dispositif de commutation d'une signalisation d'alarme répondant à un certain niveau de signal à la sortie du filtre passe-bande, et des moyens de neutralisation du fonctionnement du dispositif actionnables à chaque passage de train.The detection device based on such a method is characterized in that it comprises a vibration sensor intended to be fixed on the side of a rail and producing electrical output signals as a function of the detected vibrations, means for amplifying the signals produced by the sensor, at least one bandpass filter adjusted to a frequency band having a privileged propagation in the rails of the track and connected to the output of said amplification means, a device for switching a signaling of alarm responding to a certain level of signal at the output of the bandpass filter, and means for neutralizing the operation of the device that can be actuated at each passage of the train.

De préférence, le dispositif de détection selon l'invention comprend deux filtres passe-bande en parallèle, ces deux filtres étant ajustés sur les bandes de fréquences qui se sont avérées comme englobant les domaines principaux de fréquences engendrées dans les rails par les phénomènes à détecter, soit d'une part, 1 100 à 1 500 Hz et, d'autre part, 6400 à 9600 Hz pour les rails normalement utilisés en France.Preferably, the detection device according to the invention comprises two bandpass filters in parallel, these two filters being adjusted to the frequency bands which have been found to encompass the main frequency domains generated in the rails by the phenomena to be detected , or on the one hand, 1100 to 1500 Hz and, on the other hand, 6400 to 9600 Hz for the rails normally used in France.

En absence desdits moyens de neutralisation de son fonctionnement, le dispositif est applicable à la détection d'approche des trains, pouvant notamment être utile à la protection de chantiers en voie.In the absence of said means for neutralizing its operation, the device is applicable to the detection of approaching trains, which can in particular be useful for the protection of yards on track.

L'invention est d'ailleurs ci-après plus complètement décrite sous une forme de réalisation d'un dispositif de détection qui en est donnée, à titre d'exemple seulement, avec référence au dessins annexé, dans lequel :

  • la figure 1 est une vue schématique illustrative de la fixation prévue du capteur de vibrations sur un rail ;
  • la figure 2 est un schéma de principe d'un dispositif de détection selon l'invention ;
  • la figure 3 est un schéma électrique de détail d'un ensemble de circuits associés au capteur de vibrations et faisant suite à un amplificateur de charge de ce dernier.
The invention is moreover hereinafter more fully described in an embodiment of a detection device which is given thereof, by way of example only, with reference to the attached drawings, in which:
  • Figure 1 is a schematic illustrative view of the intended attachment of the vibration sensor on a rail;
  • Figure 2 is a block diagram of a detection device according to the invention;
  • Figure 3 is a detailed electrical diagram of a set of circuits associated with the vibration sensor and following a charge amplifier of the latter.

Le dispositif de détection selon l'invention fait appel à un capteur de vibrations, de préférence constitué par un accéléromètre piézoélectrique de type connu, couvrant une gamme de fréquences de 0 à 9 700 Hz, et ayant une sensibilité de 20 mV/g.The detection device according to the invention uses a vibration sensor, preferably constituted by a piezoelectric accelerometer of known type, covering a range of frequencies from 0 to 9,700 Hz, and having a sensitivity of 20 mV / g.

Cet accéléromètre, désigné par 1 dans son ensemble et pourvu d'un connecteur de sortie 1a, est destiné à être fixé, comme l'illustre la figure 1, sur le flanc externe du champignon 2 d'un rail 3 de la voie, qui s'est avéré être la meilleure zone de détection de vibrations sur le rail.This accelerometer, designated by 1 as a whole and provided with an output connector 1a, is intended to be fixed, as illustrated in FIG. 1, on the external flank of the head 2 of a rail 3 of the track, which has proven to be the best vibration detection area on the rail.

Cette fixation est ici effectuée par l'intermédiaire d'une monture s'adaptant sur le patin 4 du rail et maintenant l'embase de l'accéléromètre appuyée élastiquement sur le flanc du champignon 2 par l'intermédiaire d'un ressort 5. La monture forme une sorte d'équerre de support, dont une branche constitue une semelle 6 enga- geable sous le patin 4 entre deux traverses de voie et ayant une extrémité 7 qui forme crochet d'aggripage d'un bord du patin, tandis qu'est prévu un crapaud de serrage 8 sur l'autre bord du patin, monté sur un goujon 9 que porte la semelle et blocable à l'aide d'un écrou 10 et contre-écrou 11. Le crapaud 8 présente une lumière oblongue 12 d'engagement sur le goujon 9, permettant l'adaptation éventuelle de la monture à toute forme de patin pouvant être rencontrée. L'autre branche 13 de l'équerre de support présente à sa partie supérieure une lumière oblongue 14 que traverse la queue filetée 15 d'une pièce-guide 16 du ressort 5 de maintien de l'accéléromètre 1. Le positionnement de ce dernier peut ainsi être effectué par ajustement de la queue filetée 15 dans la lumière 14, avant son blocage par écrou 17 et contre-écrou 18.This fixing is carried out here by means of a mount adapting to the shoe 4 of the rail and now the base of the accelerometer resting elastically on the side of the mushroom 2 by means of a spring 5. The frame forms a sort of support bracket, one branch of which constitutes a sole plate 6 which can be engaged under the pad 4 between two track crosspieces and having one end 7 which forms a hook for gripping an edge of the pad, while a clamping toad 8 is provided on the other edge of the shoe, mounted on a stud 9 which the sole carries and lockable with a nut 10 and lock nut 11. The toad 8 has an oblong slot 12 d 'engagement on the stud 9, allowing the possible adaptation of the frame to any form of pad that may be encountered. The other branch 13 of the support bracket has an oblong slot 14 at its upper part which is traversed by the threaded tail 15 of a guide piece 16 of the spring 5 for holding the accelerometer 1. The positioning of the latter can thus be carried out by adjusting the threaded shank 15 in the slot 14, before it is blocked by a nut 17 and lock nut 18.

A cet accéléromètre est associé un amplificateur de charge, désigné par 19 à la figure 2 et pouvant être de tout type connu permettant notamment d'obtenir un gain de tension de 1 000. Ainsi, une vibration se traduisant par une accélération de 0,1 - 10-3 g peut conduite dans cet exemple à une tension de crête de 2 mV à la sortie dudit amplificateur de charge.With this accelerometer is associated a charge amplifier, designated by 19 in FIG. 2 and which can be of any known type, making it possible in particular to obtain a voltage gain of 1000. Thus, a vibration resulting in an acceleration of 0.1 - 10- 3 g can lead in this example to a peak voltage of 2 mV at the output of said charge amplifier.

La sortie de l'amplificateur de charge 19, qui fournit un signal sur basse impédance, est connectée à un circuit d'analyse des vibrations que l'on verra plus loin, par l'intermédiaire d'un amplificateur d'entrée désigné par 20 dans son ensemble et qui est ici constitué, comme l'illustre la figure 3, à l'aide d'un amplificateur différentiel 21 dont l'entrée inverseuse est reliée à la sortie de l'amplificateur 19 par une résistance 22 et l'entrée non-inverseuse à la masse par une résistance 23, tandis qu'une boucle de contre-réaction prévue entre sortie et entrée non-inverseuse comporte, en parallèle, une résistance 24 d'impédance ici cent fois plus élevée que celle de la résistance 22 et deux diodes de limitation 25, 26 disposées tête- bêche. Un tel amplificateur 20 est à fort gain pour les faibles signaux (40 dB sans saturation). Aux forts signaux, sa réponse devient logarithmique et le signal est écrété par les diodes 25-26 afin d'éviter un risque de saturation des étages du circuit d'analyse des vibrations.The output of the charge amplifier 19, which provides a signal on low impedance, is connected to a vibration analysis circuit which will be seen later, via an input amplifier designated by 20 as a whole and which is here constituted, as illustrated in FIG. 3, using a differential amplifier 21 whose inverting input is connected to the output of the amplifier 19 by a resistor 22 and the input non-inverting to ground by a resistor 23, while a feedback loop provided between non-inverting output and input comprises, in parallel, a resistor 24 of impedance here a hundred times higher than that of resistor 22 and two limitation diodes 25, 26 arranged head to tail. Such an amplifier 20 has a high gain for weak signals (40 dB without saturation). At strong signals, its response becomes logarithmic and the signal is written by diodes 25-26 in order to avoid a risk of saturation of the stages of the vibration analysis circuit.

Ce dernier comprend ici deux filtres passe-bande désignés par 27 et 28 dans leur ensemble, disposés en parallèle et aux entrées desquels est reliée la sortie de l'amplificateur différentiel 21, le passe-bande 27 étant ajusté sur les fréquences de 1 100 à 1 500 Hz et le passe-bande 28 sur les fréquences de 6 400 à 9 600 Hz.The latter here comprises two bandpass filters designated by 27 and 28 as a whole, arranged in parallel and to the inputs of which the output of the differential amplifier 21 is connected, the bandpass 27 being adjusted to the frequencies from 1100 to 1,500 Hz and bandpass 28 on frequencies from 6,400 to 9,600 Hz.

Chaque filtre passe-bande est ici composé (voir fig. 3) d'un filtre passe-haut 27a ou 28a suivi d'un filtre passe-bas 27b ou 28b, chacun de ces filtres passe-haut ou passe-bas étant ici constitué par un filtre de type bien connu dont le schéma ne sera pas plus avant décrit et dont on se contentera de rappeler que les résistances connectables au choix de ces filtres, respectivement désignées par 29 pour le filtre 27a, 30 pour le filtre 27b, 31 pour le filtre 28a et 32 pour le filtre 28b, déterminent avec les condensateurs associés 33 la fréquence limite de coupure de ces filtres, tandis que la sortie passe-haut est prélevée sur la sortie du premier amplificateur différentiel constitutif de chaque filtre alors que la sortie passe-bas est prélevée sur la sortie du dernier amplificateur différentiel de chaque filtre.Each band pass filter is here composed (see fig. 3) of a high pass filter 27a or 28a followed by a low pass filter 27b or 28b, each of these high pass or low pass filters being here constituted by a filter of well-known type, the diagram of which will not be described further on and of which it will be sufficient to recall that the resistances connectable at the choice of these filters, respectively designated by 29 for the filter 27a, 30 for the filter 27b, 31 for the filter 28a and 32 for the filter 28b, determine with the associated capacitors 33 the cut-off frequency of these filters, while the high-pass output is taken from the output of the first differential amplifier constituting each filter while the output passes -bas is taken from the output of the last differential amplifier of each filter.

Ainsi, les filtres sont ajustés de sorte que le filtre passe-haut 27a ne transmettre au filtre passe-bas 27b que les fréquences supérieures à 1 100 Hz, ce dernier bloquant les fréquences supérieures à 1 500 Hz, de sorte que sa sortie passe-bas 34 ne transmet que les fréquences comprises entre 1 100 et 1 500 Hz.Thus, the filters are adjusted so that the high-pass filter 27a transmits to the low-pass filter 27b only the frequencies above 1100 Hz, the latter blocking the frequencies above 1500 Hz, so that its pass-through output low 34 transmits only frequencies between 1100 and 1500 Hz.

De façon analogue, le filtre passe-haut 28a ne transmet au filtre passe-bas 28b que les fréquences supérieures à environ 6 400 Hz, ce dernier bloquant les fréquences supérieures à 9 600 Hz, de sorte que sa sortie passe-bas 35 ne transmet que les fréquences comprises entre 6400 et 9 600 Hz.Similarly, the high-pass filter 28a transmits to the low-pass filter 28b only frequencies above about 6,400 Hz, the latter blocking frequencies above 9,600 Hz, so that its low-pass output 35 only transmits than frequencies between 6400 and 9600 Hz.

Comme représenté à la figure 2, les sorties des filtres passe-bande 27, 28 peuvent ensuite être simplement reliées par un amplificateur d'adaptation 36 à un dispositif de commutation 37 d'une signalisation d'alarme, lequel peut prendre diverses formes.As shown in FIG. 2, the outputs of the bandpass filters 27, 28 can then be simply connected by an adaptation amplifier 36 to a switching device 37 for alarm signaling, which can take various forms.

En particulier, ce dispositif de commutation 37 sera prévu à mémoire ou automaintien en réponse à toute détection d'éboulements où le phénomène a un caractère temporaire mais où la signalisation doit demeurer jusqu'à vérification de sécurité et remède apporté à l'incident.In particular, this switching device 37 will be provided with memory or self-maintenance in response to any detection of landslides where the phenomenon is of a temporary nature but where the signaling must remain until security check and remedy brought to the incident.

La signalisation d'alarme elle aussi peut prendre diverses formes.Alarm signaling can also take various forms.

Ce peut être une signalisation visuelle lumineuse 38 prévue en voie à distance appropriée du détecteur, ou une signalisation faisant appel au circuit de sécurité de voie bien connu dit « bloc automatique lumineux •, à tronçons de voie court-circuitables par le passage des trains, la signalisation d'éboulements résultant alors de la fermeture maintenue d'un circuit de mise en court-circuit du ou des tronçons de voie adjacents à la zone protégée par le détecteur ou plusieurs de ceux-ci.It may be a luminous visual signaling 38 provided on the track at an appropriate distance from the detector, or a signaling calling on the well-known track safety circuit known as an “luminous automatic block”, with track sections which can be short-circuited by the passage of trains, the signaling of landslides then resulting from the maintained closure of a circuit for short-circuiting the track section or sections adjacent to the area protected by the detector or more of them.

Comme dispositif de commutation à mémoire 37 actionné par la sortie de l'amplificateur 36, on peut ainsi utiliser notamment un thyristor à gâchette commandée par ladite sortie, une bascule bistable à entrée de commande liée à ladite sortie et à entrée d'initialisation ou retour au repos à commande manuelle, ou un relais à automaintien et à commande de désexcitation manuelle.As memory switching device 37 actuated by the output of amplifier 36, it is thus possible in particular to use a trigger thyristor controlled by said output, a bistable flip-flop with control input linked to said output and with initialization or return input. at rest with manual control, or a self-sustaining relay with manual de-excitation control.

Un exemple de dispositif de commutation à relais est donné à la figure 3, dans laquelle un ensemble amplificateur tenant également lieu de redresseur est prévu pour alimenter un relais 39 à courant continu, dont le contact à fermeture 40 est placé sur le circuit d'alimentation de la signalisation lumineuse 38 et dont le contact de réouverture 41 à commande manuelle est placé sur son circuit d'automaintien.An example of a relay switching device is given in FIG. 3, in which an amplifier assembly also serving as a rectifier is provided for supplying a relay 39 with direct current, the closing contact 40 of which is placed on the supply circuit of the light signaling 38 and of which the reopening contact 41 with manual control is placed on its self-maintenance circuit.

Cet ensemble amplificateur-redresseur comprend à la sortie 34, 35 de chaque filtre passe-bande 27, 28 un amplificateur séparateur 42 suivi d'un amplificateur détecteur de crête 43, les sorties de ces derniers étant toutes deux reliées à la borne d'entrée du solénoïde du relais 39.This amplifier-rectifier assembly comprises at the output 34, 35 of each bandpass filter 27, 28 a separator amplifier 42 followed by a peak detector amplifier 43, the outputs of the latter being both connected to the input terminal of relay 39 solenoid.

Chaque amplificateur séparateur 42 est constitué à l'aide d'un amplificateur différentiel 42a attaqué à son entrée non-inverseuse et agencé pour avoir un gain d'environ 10dB.Each separating amplifier 42 is formed using a differential amplifier 42a driven at its non-inverting input and arranged to have a gain of approximately 10dB.

Chaque amplificateur détecteur de crête 43 est constitué à l'aide d'un amplificateur différentiel 43a attaqué sur son entrée non-inverseuse par l'intermédiaire d'une diode d'écrétage 44 en dérivation par rapport à laquelle est disposé un circuit à résistance 45 et condensateur 46 ayant une constante de temps RC de l'ordre de 0,1 S, de sorte que le condensateur 46 forme condensateur réservoir d'alimentation continue de l'entrée non-inverseuse de l'amplificateur différentiel 43a lorsqu'il est chargé par les demi-ondes passant la diode d'écrétage. Cet amplificateur 43a présente en outre une boucle de contre-réaction à résistance 47 entre sortie et entrée inverseuse, qui lui confère ici un gain d'environ 27 dB.Each peak detector amplifier 43 is constituted by means of a differential amplifier 43a driven on its non-inverting input by means of a writing diode 44 in derivation with respect to which a resistance circuit 45 is arranged. and capacitor 46 having a time constant RC of the order of 0.1 S, so that the capacitor 46 forms a capacitor continuous supply tank of the non-inverting input of the differential amplifier 43a when it is loaded by the half-waves passing through the clipping diode. This amplifier 43a also has a resistance feedback loop 47 between output and inverting input, which here gives it a gain of about 27 dB.

Ainsi, en réponse à l'excitation vibratoire de l'accéléromètre 1 et à un certain niveau de signal à la sortie des filtres passe-bande 27 et/ou 28, le solénoïde du relais 39 se trouve notamment alimenté en courant continu d'appel et maintien de son contact à fermeture mettant en fonctionnement la signalisation lumineuse 38.Thus, in response to the vibratory excitation of the accelerometer 1 and to a certain level of signal at the output of the bandpass filters 27 and / or 28, the solenoid of the relay 39 is notably supplied with inrush direct current. and maintaining its closing contact activating the light signaling 38.

A titre indicatif, avec un gain d'ensemble du circuit de la figure 3 correspondant à 70 dB et pour un niveau de sortie de 5 V nécessaire pour actionner le relais 39, il suffit d'une tension de 2 mV à l'entrée de ce circuit, laquelle, compte tenu des caractéristiques précitées à l'accéléromètre et de son amplificateur de charge, correspond à un seuil d'accélération en flexion transversale du champignon du rail de 0,1 mg.As an indication, with an overall gain of the circuit of Figure 3 corresponding to 70 dB and for an output level of 5 V necessary to actuate the relay 39, a voltage of 2 mV is sufficient at the input of this circuit, which, taking into account the aforementioned characteristics of the accelerometer and its charge amplifier, corresponds to an acceleration threshold in transverse bending of the rail head of 0.1 mg.

On a ainsi obtenu expérimentalement, en simulant des éboulements par des chutes de matériaux de nature et quantité minimale propre à provoquer une obstruction de voie sous tunnel, des distances de détection allant de 200 à 300 et même 500 mètres, selon que la chute affecte le ballast seul, le ballast et au moins une traverse, ou le rail de détection.Detection distances ranging from 200 to 300 and even 500 meters have thus been obtained experimentally, by simulating landslides by falling material of a nature and minimum quantity capable of causing an obstruction in a tunnel, depending on whether the fall affects the ballast alone, the ballast and at least one cross member, or the detection rail.

Bien entendu un tel dispositif de détection d'éboulement(s) doit être neutralisé en temps utile au passage des trains, et ceci peut être simplement effectué par un équipement de voie à contacts à pédale usuels actionnés par les trains à leur passage, en vue de couper l'alimentation électrique de la détection ou signalisation sur un parcours suffisant pour éviter tout actionnement intempestif provenant des vibrations induites dans le rail par le roulement du train (une marge d'un kilomètre par rapport à la zone protégée semble devoir être largement suffisante en tous les cas).Of course, such a landslide detection device (s) must be neutralized in good time for the passage of the trains, and this can simply be done by track equipment with conventional pedal contacts actuated by the trains as they pass, in order to cut the electrical supply of the detection or signaling on a sufficient distance to avoid any untimely actuation coming from the vibrations induced in the rail by the rolling of the train (a margin of one kilometer compared to the protected zone seems to be largely sufficient in any case).

Enfin, un tel dispositif de détection est aussi applicable, ainsi que déjà évoqué, à la détection d'approche des trains, pour laquelle il a été obtenu expérimentalement une détection signalée à une distance moyenne de 500 mètres, la signalisation d'alarme étant alors sonore dans le cas de chantiers en voie.Finally, such a detection device is also applicable, as already mentioned, to the detection of approaching trains, for which a detection signaled at an average distance of 500 meters has been obtained experimentally, the alarm signaling then being sound in the case of sites under way.

On notera qu'avec le circuit décrit à la figure 3, on peut alors n'utiliser qu'un relais simple de commutation de l'alarme sonore, c'est-à-dire sans automaintien, de sorte que cette signalisation d'urgence fonctionnera automatiquement avant et jusqu'après un certain temps par rapport au passage du train devant le dispositif de détection considéré, sans intervention humaine sur celui-ci.It will be noted that with the circuit described in FIG. 3, it is then possible to use only a simple relay for switching the audible alarm, that is to say without self-maintenance, so that this emergency signaling will operate automatically before and until after a certain time in relation to the passage of the train in front of the detection device in question, without human intervention on it.

Bien entendu, diverses variantes de réalisation d'un tel dispositif de détection ou de son mode d'exploitation peuvent être imaginées sans pour autant sortir du domaine de l'invention.Of course, various alternative embodiments of such a detection device or its operating mode can be imagined without departing from the scope of the invention.

Claims (7)

1. Method for detecting landslip(s) on railway tracks, characterized in that the vibrations induced by the landlip(s) in at least one rail of the track are detected, the rail being used as the mechanical transducer and transmitter letting through preferentially at least one band of rail natural frequencies detected to set off an alarm signal system, and in that the detection system is neutralized each time a train passes.
2. System for detecting landslip(s) on railways, characterized in that it comprises a vibration sensor designed to be fixed on the side of a rail and producing electrical output signals which depend on the vibrations detected, means of amplifying the signals produced by the sensor, at least one band-pass filter set to a band of frequencies preferentially propagated through the track rails and connected to the output of the said amplification means, an alarm signal switching system responding to a certain signal level on the band-pass filter output and means of neutralizing operation of the system which can be operated each time a train passes.
3. The detection system according to claim 2, characterized in that the vibration sensor is a piezoelectric accelerometer designed to be fixed to the outer side of the rail head.
4. The detection system according to either of claims 2 or 3, characterized in that the band-pass filter is set to the 1 100 to 1 500 Hz frequency band.
5. The detection device according to either of claims 2 or 3, characterized in that it comprises two parallel band-pass filters, one of the filters being set to the 1 100 to 1 500 Hz frequency band and the other to the 6 400 to 9 600 Hz frequency band.
6. The detection device according to any of claims 2 to 5, characterized in that a matching or adaptation amplifier which may also rectify, is inserted between the band-pass filter(s) and the switching system.
7. The application of the detection system according to any of claims 2, 3, 4, 5 or 6 to the detection of approaching trains in the absence of the said means of neutralizing its operation.
EP80401193A 1979-08-23 1980-08-14 Method and system for detecting landslip(s) on railways Expired EP0024978B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT80401193T ATE8231T1 (en) 1979-08-23 1980-08-14 METHOD AND DEVICE FOR DETECTING LANDSLIDE(S) ON RAILWAYS.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR7921267A FR2463707A1 (en) 1979-08-23 1979-08-23 METHOD AND DEVICE FOR DETECTING DEDICATION (S) ON RAILWAYS OR APPROACHING TRAINS
FR7921267 1979-08-23

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EP0024978A1 EP0024978A1 (en) 1981-03-11
EP0024978B1 true EP0024978B1 (en) 1984-07-04

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EP (1) EP0024978B1 (en)
AT (1) ATE8231T1 (en)
DE (1) DE3068434D1 (en)
FR (1) FR2463707A1 (en)

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GB2251507A (en) * 1991-01-04 1992-07-08 Andrew Norman Young Rolling stock safety device
DE4116650A1 (en) * 1991-05-22 1992-11-26 Gerd R Dipl Ing Wetzler Detecting rail openings in continuously welded sections of railway track - transmitting sound along rails to microphone and logically combining electrical pulses detected from both rails
DE4116997A1 (en) * 1991-05-24 1992-11-26 Telefunken Systemtechnik METHOD FOR DETECTING UNWANTED CHANGES OR MANIPULATIONS ON LONG-STRETCHED BODY-CONDUCTIVE BODIES
ES2114389A1 (en) * 1994-06-20 1998-05-16 Sanchez Alba Jose Dynamic rail lookout post intended for studying and preventing accidents involving rail traffic
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US5713540A (en) * 1996-06-26 1998-02-03 At&T Corp. Method and apparatus for detecting railway activity
JP2012171560A (en) * 2011-02-23 2012-09-10 Nippon Signal Co Ltd:The Wheel detector
WO2019122193A1 (en) * 2017-12-20 2019-06-27 Railway Metrics And Dynamics Sweden Ab Detection units for monitoring a train travelling on a railway, and related systems and methods
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Also Published As

Publication number Publication date
ATE8231T1 (en) 1984-07-15
FR2463707A1 (en) 1981-02-27
EP0024978A1 (en) 1981-03-11
DE3068434D1 (en) 1984-08-09
FR2463707B1 (en) 1982-11-12

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