EP0764924B1 - Time stamp with means for abnormality message emission - Google Patents

Time stamp with means for abnormality message emission Download PDF

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Publication number
EP0764924B1
EP0764924B1 EP19960202450 EP96202450A EP0764924B1 EP 0764924 B1 EP0764924 B1 EP 0764924B1 EP 19960202450 EP19960202450 EP 19960202450 EP 96202450 A EP96202450 A EP 96202450A EP 0764924 B1 EP0764924 B1 EP 0764924B1
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EP
European Patent Office
Prior art keywords
ticket machine
anomaly
machine according
module
luminous means
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Expired - Lifetime
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EP19960202450
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German (de)
French (fr)
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EP0764924A1 (en
Inventor
Jörg Hubert
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Axalto SA
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Schlumberger Systemes SA
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07BTICKET-ISSUING APPARATUS; FARE-REGISTERING APPARATUS; FRANKING APPARATUS
    • G07B15/00Arrangements or apparatus for collecting fares, tolls or entrance fees at one or more control points
    • G07B15/02Arrangements or apparatus for collecting fares, tolls or entrance fees at one or more control points taking into account a variable factor such as distance or time, e.g. for passenger transport, parking systems or car rental systems
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C3/00Registering or indicating the condition or the working of machines or other apparatus, other than vehicles
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F9/00Details other than those peculiar to special kinds or types of apparatus
    • G07F9/02Devices for alarm or indication, e.g. when empty; Advertising arrangements in coin-freed apparatus

Definitions

  • the present invention relates to a parking meter comprising luminous means for indicating anomalies.
  • GB-A-1565552 discloses an apparatus comprising light means capable of emitting, each, a light radiation characteristic of a given type of anomalies, said apparatus comprising a module connected to said light means and comprising detection means capable of detecting the emission of said light radiation by each of the light means in order to identify said given type of anomalies and means for transmitting to a recipient unit a message representative of the type anomalies thus identified.
  • the present invention finds a particularly application advantageous in the field of parking meters having in particular different colored light emitting diodes to indicate anomalies of a different nature.
  • parking meters that include a microprocessor intended, in particular, to receive information anomalies in the operation of various parking meters and to apply an alarm signal to a light emitting diode whose color corresponds to the type of anomaly detected.
  • anomalies which are real device malfunctions, i.e. those that deactivate parking meters, for example when the circuit supply is cut, the ticket roll is empty, printer or coin selector no longer works or the piggy bank is full.
  • anomalies also mean the situations preceding certain malfunctions but in which parking meters are still able to deliver a ticket, this is particularly the case when the next end of the roll of tickets is detected.
  • the microprocessor of the device applies to a red light-emitting diode a periodic signal causing the flashing of said diode, while if an anomaly of the second type is detected the same signal periodic flashing is applied to a diode green light emitting light.
  • the flashing of one or the other of the diodes light emitting is identified by personnel responsible for maintenance of the parking meters during surveillance rounds. AT following an intervention ending the anomaly noted, applying the periodic signal to the light emitting diode concerned is deleted and the flashing stops.
  • the technical problem to be solved by the subject of this invention is to propose a parking meter comprising means luminous capable of emitting, each, a luminous radiation of color characteristic of a given type of anomaly, time stamp which would ensure efficient maintenance of the parking meters by centralized monitoring, without having to increase staff Staff.
  • said parking meter comprises a module connected to said light means and comprising means for detection capable of detecting the operating state of each of the light means to identify said type of anomalies given and means for transmitting a message to a unit representative of the type of anomalies thus identified.
  • the parking meter is capable of signaling remotely to said destination unit, the type of anomalies detected directly from the operating state of the light means, light emitting diodes for example which will have been imposed by the parking meter microprocessor.
  • the means of detection allow to know if one of the two diodes are blinking and, in which case which.
  • the form of the anomaly message sent by the emission means will depend on that of the two diodes, the blinking will have been recognized.
  • the recipient unit will then be in measure from a distance which of the two diodes lights flashes, so that you can intervene by result.
  • the destination unit can be a fixed central station or a portable receiver with which surveillance and monitoring agents are equipped maintenance.
  • said means for detecting said module are optical detectors each associated with a light means, each optical detector being connected to the associated light means by an optical fiber.
  • said means of detection of said module are made by electrical connections each associated with a luminous medium.
  • the diagram in FIG. 1 relates to a parking meter comprising two light means, here light-emitting diodes D1, D2, each capable of emitting characteristic light radiation of a given type of anomaly.
  • the anomalies which completely deactivate the parking meter will be identified by the flashing of a red light-emitting diode D1, this will be the case during a printer failure, a cut power supply, etc., while the flashing of a diode D2 green light emitting light will be significant anomaly which does not affect the immediate functioning of the parking meter, but announces that an anomaly of the first type is on the point of happening, like when it does stay on the roll paper only a limited number of tickets.
  • the diodes D1 and D2 are controlled by the microprocessor 10 which manages the entire parking meter, including basic operations consisting of calculating the parking time limit from the sum entered by the user and the current time, and at print the ticket.
  • the microprocessor 10 is also connected by terminals referenced from 1 to 6, for example, to the various organs of the apparatus whose anomalies must be taken into account, such as printer, piggy bank, coin selector, etc. when anomaly is detected on one of these organs, the microprocessor 10 applies a signal to the corresponding light emitting diode periodic causing the flashing of said diode and this as long as the cause of the anomaly remains.
  • Figure 1 shows that the parking meter is also provided with a module 20 connected to light-emitting diodes D1, D2, the function is to send a message to a recipient unit representative of the type of anomalies after it has been identified by the module 20.
  • the anomaly is identified, in the example shown in FIG. 1, using detection means constituted by optical detectors, here phototransistors T1, T2, each associated, to a light-emitting diode D1, D2, each phototransistor being connected to the associated diode by an optical fiber F1, F2.
  • detection means constituted by optical detectors, here phototransistors T1, T2, each associated, to a light-emitting diode D1, D2, each phototransistor being connected to the associated diode by an optical fiber F1, F2.
  • the signals supplied by the phototransistors T1, T2 are applied to two different terminals 1 ', 2' of a microprocessor 21 of the module 20, which allows to differentiate the types of anomalies observed.
  • the microprocessor 21 of the module 20 composes a message representative of said anomaly and transmits it to the destination unit using transmission means such as a modem 22 via a radio link or the switched telephone network.
  • said unit recipient can be a central station of the parking meters or a portable receiving device with which the personnel of maintenance during surveillance rounds.
  • an identifier of said parking meter a number for example, is stored in module 20, at know here in a read only memory associated with microprocessor 21.
  • the message representative of the type of anomalies emitted then contains said ID.
  • said module is capable of transmitting a end of fault message.
  • said end of anomalies message if necessary contains the identifier of the corresponding parking meter.
  • module 20 can be extended by connecting it to other means indicating anomalies such as shocks occurring during physical assaults against timestamps.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Business, Economics & Management (AREA)
  • Finance (AREA)
  • Traffic Control Systems (AREA)
  • Burglar Alarm Systems (AREA)

Description

La présente invention concerne un horodateur comportant des moyens lumineux d'indication d'anomalies.The present invention relates to a parking meter comprising luminous means for indicating anomalies.

Il est connu, notamment par le document GB-A-1565552, d'assurer une surveillance centralisée des dysfonctionnements susceptibles d'affecter un parc d'horodateurs. Pour ce faire, des moyens de détections et de transmission des anomalies sont prévus dès l'origine par construction dans les horodateurs.It is known, in particular from document GB-A-1565552, ensure centralized monitoring of malfunctions likely to affect a fleet of parking meters. To do this, means of detection and transmission of anomalies are provided from the outset by construction in parking meters.

GB-A-1565552 divulgue un appareil comportant des moyens lumineux aptes à émettre, chacun, un rayonnement lumineux caractéristique d'un type d'anomalies donné, ledit appareil comportant un module relié auxdits moyens lumineux et comprenant des moyens de détection aptes à détecter l'émission dudit rayonnement lumineux par chacun des moyens lumineux afin d'identifier ledit type d'anomalies donné et des moyens d'émission vers une unité destinataire d'un message représentatif du type d'anomalies ainsi identifié.GB-A-1565552 discloses an apparatus comprising light means capable of emitting, each, a light radiation characteristic of a given type of anomalies, said apparatus comprising a module connected to said light means and comprising detection means capable of detecting the emission of said light radiation by each of the light means in order to identify said given type of anomalies and means for transmitting to a recipient unit a message representative of the type anomalies thus identified.

Cette centralisation des dysfonctionnements ne peut toutefois être mise en oeuvre avantageusement que sur de nouvelles installations d'horodateurs, l'adaptation à des horodateurs existants étant par trop coûteuse.This centralization of dysfunctions cannot however be implemented advantageously only on new parking meter installations, adaptation to existing parking meters being too expensive.

La présente invention trouve une application particulièrement avantageuse dans le domaine des horodateurs disposant notamment de diodes électroluminescentes de couleur différente pour indiquer des anomalies de nature différente.The present invention finds a particularly application advantageous in the field of parking meters having in particular different colored light emitting diodes to indicate anomalies of a different nature.

On connaít actuellement des horodateurs qui comportent un microprocesseur prévu, en particulier, pour recevoir des informations d'anomalies de fonctionnement de divers organes de l'horodateur et pour appliquer un signal d'alarme à une diode électroluminescente dont la couleur correspond au type de l'anomalie détectée.We currently know parking meters that include a microprocessor intended, in particular, to receive information anomalies in the operation of various parking meters and to apply an alarm signal to a light emitting diode whose color corresponds to the type of anomaly detected.

D'une manière générale, on distingue, d'une part, les anomalies qui sont de véritables dysfonctionnements des appareils, c'est-à-dire celles qui mettent hors-service les horodateurs, par exemple lorsque l'alimentation des circuits est coupée, le rouleau de tickets est vide, l'imprimante ou le sélecteur de monnaie ne fonctionne plus ou que la tirelire est pleine. D'autre part, on entend également par anomalies les situations précédant certains dysfonctionnements mais dans lesquelles les horodateurs sont toujours en mesure de délivrer un ticket, c'est le cas notamment lorsque la fin prochaine du rouleau de tickets est détectée.Generally speaking, there are, on the one hand, anomalies which are real device malfunctions, i.e. those that deactivate parking meters, for example when the circuit supply is cut, the ticket roll is empty, printer or coin selector no longer works or the piggy bank is full. On the other hand, anomalies also mean the situations preceding certain malfunctions but in which parking meters are still able to deliver a ticket, this is particularly the case when the next end of the roll of tickets is detected.

En présence du premier type d'anomalies, le microprocesseur de l'appareil applique à une diode électroluminescente de couleur rouge un signal périodique provoquant le clignotement de ladite diode, tandis que si une anomalie du second type est détectée le même signal périodique de clignotement est appliqué à une diode électroluminescente de couleur verte.In the presence of the first type of anomaly, the microprocessor of the device applies to a red light-emitting diode a periodic signal causing the flashing of said diode, while if an anomaly of the second type is detected the same signal periodic flashing is applied to a diode green light emitting light.

Le clignotement de l'une ou l'autre des diodes électroluminescentes est repéré par le personnel chargé de la maintenance du parc d'horodateurs lors de rondes de surveillance. A la suite d'une intervention mettant fin à l'anomalie constatée, l'application du signal périodique à la diode électroluminescente concernée est supprimée et le clignotement cesse.The flashing of one or the other of the diodes light emitting is identified by personnel responsible for maintenance of the parking meters during surveillance rounds. AT following an intervention ending the anomaly noted, applying the periodic signal to the light emitting diode concerned is deleted and the flashing stops.

Il faut cependant remarquer que pour une bonne gestion du parc lesdites rondes de surveillance doivent être très fréquentes pour éviter l'immobilisation trop longue d'un horodateur hors-service, avec les pertes de revenus qui en résultent. Or, il n'est pas toujours possible d'augmenter la fréquence des rondes sans augmenter parallèlement les effectifs du personnel de maintenance et donc les coûts d'entretien. Il faut de plus résoudre les problèmes de surveillance hors des heures de travail, notamment pendant les congés de fin de semaine.It should however be noted that for good management of the park said surveillance rounds must be very frequent to avoid the immobilization of an out-of-service parking meter for too long, with the resulting loss of income. However, it is not always possible increase the frequency of rounds without increasing in parallel the number of maintenance personnel and therefore the maintenance costs. In addition, after-hours monitoring problems must be resolved work, especially during weekends.

Aussi, le problème technique à résoudre par l'objet de la présente invention est de proposer un horodateur comportant des moyens lumineux aptes à émettre, chacun, un rayonnement lumineux de couleur caractéristique d'un type d'anomalies donné, horodateur qui permettrait d'assurer une maintenance efficace du parc d'horodateurs par une surveillance centralisée, sans avoir à augmenter les effectifs du personnel.Also, the technical problem to be solved by the subject of this invention is to propose a parking meter comprising means luminous capable of emitting, each, a luminous radiation of color characteristic of a given type of anomaly, time stamp which would ensure efficient maintenance of the parking meters by centralized monitoring, without having to increase staff Staff.

La solution au problème technique posé consiste, selon la présente invention, en ce que ledit horodateur comporte un module relié auxdits moyens lumineux et comprenant des moyens de détection aptes à détecter l'état de fonctionnement de chacun des moyens lumineux afin d'identifier ledit type d'anomalies donné et des moyens d'émission vers une unité destinataire d'un message représentatif du type d'anomalies ainsi identifié.The solution to the technical problem posed consists, according to the present invention, in that said parking meter comprises a module connected to said light means and comprising means for detection capable of detecting the operating state of each of the light means to identify said type of anomalies given and means for transmitting a message to a unit representative of the type of anomalies thus identified.

Ainsi, l'horodateur conforme à l'invention est capable de signaler à distance à ladite unité destinataire, le type d'anomalies détecté directement à partir de l'état de fonctionnement des moyens lumineux, diodes électroluminescentes par exemple, lequel aura été imposé par le microprocesseur de l'horodateur. En d'autres termes, les moyens de détection permettent de savoir si l'une des deux diodes clignotent et, dans ce cas, laquelle. La forme du message d'anomalie envoyé par les moyens d'émission dépendra de celle des deux diodes dont le clignotement aura été reconnu. L'unité destinataire sera alors en mesure de savoir à distance laquelle des deux diodes électroluminescentes clignote, ceci de manière à pouvoir intervenir en conséquence.Thus, the parking meter according to the invention is capable of signaling remotely to said destination unit, the type of anomalies detected directly from the operating state of the light means, light emitting diodes for example which will have been imposed by the parking meter microprocessor. In other words, the means of detection allow to know if one of the two diodes are blinking and, in which case which. The form of the anomaly message sent by the emission means will depend on that of the two diodes, the blinking will have been recognized. The recipient unit will then be in measure from a distance which of the two diodes lights flashes, so that you can intervene by result.

L'unité destinataire peut être un poste central fixe ou encore un récepteur portatif dont sont équipés les agents de surveillance et de maintenance.The destination unit can be a fixed central station or a portable receiver with which surveillance and monitoring agents are equipped maintenance.

Selon un mode de réalisation particulier de l'invention, lesdits moyens de détection dudit module sont des détecteurs optiques associés, chacun, à un moyen lumineux, chaque détecteur optique étant relié au moyen lumineux associé par une fibre optique.According to a particular embodiment of the invention, said means for detecting said module are optical detectors each associated with a light means, each optical detector being connected to the associated light means by an optical fiber.

Dans un autre mode de mise en oeuvre, lesdits moyens de détection dudit module sont réalisés par des connexions électriques associées, chacune, à un moyen lumineux.In another embodiment, said means of detection of said module are made by electrical connections each associated with a luminous medium.

La description qui va suivre en regard des dessins annexés, donnés à titre d'exemples non limitatifs, fera bien comprendre en quoi consiste l'invention et comment elle peut être réalisée

  • La figure 1 est un schéma d'un premier mode de réalisation d'un horodateur selon l'invention.
  • La figure 2 est un schéma d'un deuxième mode de réalisation d'un horodateur selon l'invention.
    • The description which follows with reference to the appended drawings, given by way of nonlimiting examples, will make it clear what the invention consists of and how it can be implemented.
  • Figure 1 is a diagram of a first embodiment of a parking meter according to the invention.
  • Figure 2 is a diagram of a second embodiment of a parking meter according to the invention.

    • Le schéma de la figure 1 se rapporte à un horodateur comportant deux moyens lumineux, ici des diodes électroluminescentes D1, D2, aptes à émettre, chacune, un rayonnement lumineux caractéristique d'un type d'anomalies donné. A titre d'exemple, les anomalies qui mettent complètement hors-service l'horodateur seront repérées par le clignotement d'une diode électroluminescente D1 de couleur rouge, ce sera le cas lors d'une panne d'imprimante, d'une coupure d'alimentation, etc, tandis que le clignotement d'une diode électroluminescente D2 de couleur verte sera significatif d'une anomalie qui n'affecte pas le fonctionnement immédiat de l'horodateur, mais annonce qu'une anomalie du premier type est sur le point de se produire, comme lorsqu'il ne reste sur le rouleau de papier qu'un nombre limité de tickets.The diagram in FIG. 1 relates to a parking meter comprising two light means, here light-emitting diodes D1, D2, each capable of emitting characteristic light radiation of a given type of anomaly. For example, the anomalies which completely deactivate the parking meter will be identified by the flashing of a red light-emitting diode D1, this will be the case during a printer failure, a cut power supply, etc., while the flashing of a diode D2 green light emitting light will be significant anomaly which does not affect the immediate functioning of the parking meter, but announces that an anomaly of the first type is on the point of happening, like when it does stay on the roll paper only a limited number of tickets.

    Les diodes D1 et D2 sont commandées par le microprocesseur 10 qui gère l'ensemble de l'horodateur, notamment les opérations de base consistant à calculer l'heure limite de stationnement à partir de la somme introduite par l'utilisateur et de l'heure courante, et à imprimer le ticket.The diodes D1 and D2 are controlled by the microprocessor 10 which manages the entire parking meter, including basic operations consisting of calculating the parking time limit from the sum entered by the user and the current time, and at print the ticket.

    Le microprocesseur 10 est également relié par des bornes référencées de 1 à 6, par exemple, aux différents organes de l'appareil dont les anomalies doivent être prises en compte, comme l'imprimante, la tirelire, le sélecteur de monnaie, etc. Lorsqu'une anomalie est détectée sur un de ces organes, le microprocesseur 10 applique à la diode électroluminescente correspondante un signal périodique provoquant le clignotement de ladite diode et ceci tant que la cause de l'anomalie subsiste.The microprocessor 10 is also connected by terminals referenced from 1 to 6, for example, to the various organs of the apparatus whose anomalies must be taken into account, such as printer, piggy bank, coin selector, etc. when anomaly is detected on one of these organs, the microprocessor 10 applies a signal to the corresponding light emitting diode periodic causing the flashing of said diode and this as long as the cause of the anomaly remains.

    La figure 1 montre que l'horodateur est également pourvu d'un module 20 relié aux diodes électroluminescentes D1, D2, dont la fonction est d'émettre vers une unité destinataire un message représentatif du type d'anomalies après qu'il ait été identifié par le module 20.Figure 1 shows that the parking meter is also provided with a module 20 connected to light-emitting diodes D1, D2, the function is to send a message to a recipient unit representative of the type of anomalies after it has been identified by the module 20.

    L'identification de l'anomalie est réalisée, dans l'exemple montré sur la figure 1, à l'aide de moyens de détection constitués par des détecteurs optiques, ici des phototransistors T1, T2, associés, chacun, à une diode électroluminescente D1, D2, chaque phototransistor étant relié à la diode associée par une fibre optique F1, F2.The anomaly is identified, in the example shown in FIG. 1, using detection means constituted by optical detectors, here phototransistors T1, T2, each associated, to a light-emitting diode D1, D2, each phototransistor being connected to the associated diode by an optical fiber F1, F2.

    Les signaux fournis par les phototransistors T1, T2 sont appliqués à deux bornes différentes 1', 2' d'un microprocesseur 21 du module 20, ce qui permet de différencier les types d'anomalies observées.The signals supplied by the phototransistors T1, T2 are applied to two different terminals 1 ', 2' of a microprocessor 21 of the module 20, which allows to differentiate the types of anomalies observed.

    L'anomalie étant ainsi identifiée, le microprocesseur 21 du module 20 compose un message représentatif de ladite anomalie et l'émet vers l'unité destinataire à l'aide de moyens d'émission tel qu'un modem 22 via une liaison radio ou le réseau téléphonique commuté.The anomaly being thus identified, the microprocessor 21 of the module 20 composes a message representative of said anomaly and transmits it to the destination unit using transmission means such as a modem 22 via a radio link or the switched telephone network.

    Comme cela a déjà été mentionné plus haut, ladite unité destinataire peut être un poste central du parc d'horodateurs ou un dispositif récepteur portatif dont est muni le personnel de maintenance au cours des rondes de surveillance.As already mentioned above, said unit recipient can be a central station of the parking meters or a portable receiving device with which the personnel of maintenance during surveillance rounds.

    De manière à renseigner les personnes chargées d'intervenir sur un horodateur défaillant, on prévoit qu'un identifiant dudit horodateur, un numéro par exemple, est stocké dans le module 20, à savoir ici dans une mémoire morte associée au microprocesseur 21. Le message représentatif du type d'anomalies émis contient alors ledit identifiant.In order to inform the persons responsible for intervening on a faulty parking meter, it is expected that an identifier of said parking meter, a number for example, is stored in module 20, at know here in a read only memory associated with microprocessor 21. The message representative of the type of anomalies emitted then contains said ID.

    Avantageusement, il est prévu qu'à la suite d'une intervention sur un horodateur défectueux, ledit module est apte à émettre un message de fin d'anomalie. De même, ledit message de fin d'anomalies contient au besoin l'identifiant de l'horodateur correspondant.Advantageously, it is expected that following an intervention on a faulty parking meter, said module is capable of transmitting a end of fault message. Likewise, said end of anomalies message if necessary contains the identifier of the corresponding parking meter.

    De même, on peut étendre l'utilisation du module 20 en le reliant à d'autres moyens indicateurs d'anomalies tels des détecteurs de chocs se produisant lors d'agressions physiques à l'encontre des horodateurs.Similarly, the use of module 20 can be extended by connecting it to other means indicating anomalies such as shocks occurring during physical assaults against timestamps.

    Enfin, on peut voir sur la figure 2 un deuxième mode de mise en oeuvre de l'invention dans lequel les moyens de détection dudit module 20 sont réalisés par des connexions électriques C1, C2, associées, chacune, à une diode électroluminescente D1, D2, chaque connexion électrique reliant le module 20 à la diode électroluminescente associée. Là encore, comme pour l'exemple de la figure 1, les signaux électriques prélevés sur le circuit des diodes sont appliqués à deux bornes différentes 1', 2' du microprocesseur 21 du module 20.Finally, we can see in Figure 2 a second mode of implementation work of the invention in which the means for detecting said module 20 are made by electrical connections C1, C2, each associated with a light-emitting diode D1, D2, each electrical connection connecting module 20 to the diode associated light emitting. Again, as with the example of the Figure 1, the electrical signals taken from the diode circuit are applied to two different terminals 1 ', 2' of the microprocessor 21 of the module 20.

    Claims (10)

    1. Ticket machine equipped with luminous means (D1, D2) each able to emit coloured light radiation characteristic of a given type of anomaly, a module (20) connected to the said luminous means (D1, D2) and including detection means (T1, T2; C1, C2) able to detect the state of each of the luminous means in order to identify the said given type of anomaly and means (22) of transmission of a message representative of the type of anomaly so identified to a receiving unit.
    2. Ticket machine according to claim 1, characterised in that the said detection means of the said module (20) are optical detectors (T1, T2) each associated with a luminous means (D1, D2), each optical detector being connected to the associated luminous means by an optical fibre (F1, F2).
    3. Ticket machine according to claim 1, characterised in that the said detection means of the said module (20) are made by electrical connections (C1, C2) each associated with a luminous means (D1, D2).
    4. Ticket machine according to one of claims 1 to 3, characterised in that the said luminous means are light emitting diodes (D1, D2).
    5. Ticket machine according to one of claims 1 to 4, characterised in that the said module (20) is able to transmit an end of anomaly message after an intervention on the ticket machine.
    6. Ticket machine according to one of claims 1 to 5, characterised in that the transmission to the said receiving unit is made by radio link.
    7. Ticket machine according to one of claims 1 to 5, characterised in that the transmission to the said receiving unit is made by the switched telephone network.
    8. Ticket machine according to one of claims 1 to 7, characterised in that an identifier of the said ticket machine is stored in the module (20).
    9. Ticket machine according to claim 8, characterised in that the message representative of the anomaly type contains the said identifier.
    10. Ticket machine according to claims 5 and 8, characterised in that the end of anomaly message contains the said identifier.
    EP19960202450 1995-09-25 1996-09-03 Time stamp with means for abnormality message emission Expired - Lifetime EP0764924B1 (en)

    Applications Claiming Priority (2)

    Application Number Priority Date Filing Date Title
    FR9511297A FR2739205B1 (en) 1995-09-25 1995-09-25 TIMER PROVIDED WITH MEANS FOR TRANSMITTING FAULTS MESSAGES
    FR9511297 1995-09-25

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    EP0764924A1 EP0764924A1 (en) 1997-03-26
    EP0764924B1 true EP0764924B1 (en) 2002-06-05

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    FR (1) FR2739205B1 (en)

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    ES2345752B1 (en) * 2008-07-12 2014-01-16 Victor Garcia Jimenez INTEGRAL SYSTEM OF CONTROL OF RECREATIONAL MACHINES VIA GSM OR GPRS.

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    CA1077171A (en) * 1976-07-14 1980-05-06 Frank T. Check (Jr.) Electronic postal meter having noise-rejecting input/output channel
    GB1565552A (en) * 1976-09-24 1980-04-23 Brede F Systems for monitoring one or more commodity dispensers
    CH662665A5 (en) * 1983-09-14 1987-10-15 Automaten Ag METHOD AND DEVICE FOR MONITORING SEVERAL GOODS SALES MACHINES.
    US4736096A (en) * 1985-01-24 1988-04-05 Sanden Corporation Data collection system using a bar code reader
    FR2584515B1 (en) * 1985-07-02 1987-10-02 Flonic Sa MEMORY TERMINAL INTERCONNECTION SYSTEM
    US5207784A (en) * 1989-03-09 1993-05-04 Wilbur Schwartzendruber Vending machine with monitoring system
    FR2645304B1 (en) * 1989-03-28 1991-06-07 Elf France INDUSTRIAL FACILITIES MONITORING SYSTEM

    Also Published As

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    FR2739205B1 (en) 1997-10-31
    EP0764924A1 (en) 1997-03-26
    DE69621543D1 (en) 2002-07-11
    FR2739205A1 (en) 1997-03-28

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