EP2608157A1 - Electronic surveillance bracelet - Google Patents

Abstract

The bracelet (1) has an electronic monitoring system placed in an annular body (2) that is adapted to be mounted around a member e.g. wrist/ankle, of a person or an object. The monitoring system has an integrity detection system (4) and an internal energy source. The annular body completely circles the bracelet and is in the form of a rigid shell containing a chamber or multiple chamber sections in which components of the monitoring system are placed. A sensor e.g. ultrasonic sensor, detects an attack to the integrity of a channel (8) or an enclosure of the detection system. An independent claim is also included for a monitoring kit.

Description

The present invention relates to an electronic monitoring bracelet, in particular for monitoring the movements of a person, for example in the context of a judicial surveillance.

Some persons suspected of having committed a crime awaiting trial, or having committed a crime and being on parole, may be required to wear an electronic surveillance bracelet so that the supervisory authority can locate the person and monitor his movements at all times. Such bracelets contain a satellite tracking system (called "GNSS"), such as GPS (Global Positioning System), a telecommunication system for transmitting data to a central office. monitoring / control and a bracelet integrity detection system to detect whether the bracelet is removed or failed.

Indeed, in order to monitor the movement of the wearer of the bracelet at all times, it is necessary to ensure that the wearer can not remove the bracelet without this being detected. The absence of a signal to locate the bracelet or a signal confirming the integrity of the bracelet makes it possible to report to the authorities a non-compliant or unauthorized behavior of the wearer of the bracelet. It should be stressed that the objective is not a bracelet that can not be removed, on the contrary, in case of force majeure, it must be possible to remove the bracelet by tearing or cutting.

In a conventional device, the monitoring bracelet is intended to be fixed around a wrist or ankle of the wearer, and includes electrical son around the bracelet and forming a closed electrical circuit. To remove the bracelet, the wearer must cut the wire or disconnect the wire at one end, the opening of the electrical circuit can be detected by a sensor mounted in the bracelet.

Conventional systems are however not reliable enough on the typical times of wearing bracelets, or do not have sufficient protection against subtraction of the bracelet without detection by clever means, such as bypassing electrical wires, or they can transmit false signals of non-integrity. We try to eliminate any situation of false positive (indication of non-integrity, while the bracelet is intact) and false negative (indication of a bracelet integrity, while the wearer was able to get rid of the bracelet). It is also advantageous to reduce monitoring costs, taking into account not only the cost of the bracelet but also the costs of setting up the bracelet on the wearer and its replacement.

An object of the invention is to provide an electronic monitoring bracelet with a tamper-proof integrity detection system and which makes it possible to reduce or eliminate positive false alarms.

It is advantageous to provide an economical electronic monitoring bracelet to manufacture and install.

It is advantageous to provide an electronic monitoring bracelet that has a great autonomy.

It is advantageous to provide an electronic monitoring bracelet that is robust and reliable over a long period of use.

Objects of the invention are made by an electronic monitoring bracelet, comprising an annular body configured to be mounted around a member or an object, and an electronic monitoring system disposed in the body comprising a detection system of integrity, the annular body being in the form of a rigid shell enclosing a chamber or a plurality of chamber sections in which one or more components of the electronic monitoring system are arranged, the annular body forming the whole turn of the bracelet. The electronic monitoring system may further include an energy source, a location system, and a communication system for transmitting monitoring and integrity data.

In an advantageous embodiment, the integrity detection system comprises a sensor configured to detect an impairment of the integrity of the rigid shell of the annular body. The sensor includes a pressure sensor configured to sense a pressure variation in the chamber or one or more chamber sections enclosed by the rigid shell.

In an advantageous embodiment, the annular body is formed of two separate parts, configured to be mounted around a member and locked together.

In one embodiment, the closure system is configured for irreversible locking without its destruction, the closure system comprising welding at the interface of the body portions of the bracelet. Alternatively, the interface of at least one of the body parts comprises an electric heating wire connected to an internal energy source of the wristband disposed near a surface of the interface and configured to heat by Joule effect for perform a solder of the two parts to the interface. The heating element can be connected to an electronics arranged in the bracelet, allowing the welding at the interface to be engaged by a wireless remote control.

According to an advantageous aspect, components forming the integrity detection system, the energy source, the location system and the communication system are arranged in several zones distributed around the bracelet in the body.

In the present invention, there is also described a monitoring kit comprising an electronic monitoring bracelet and a mobile wireless charging unit, comprising one or more rechargeable batteries, and configured to be removably mechanically coupled to the monitoring bracelet to effect a recharging the internal power source wirelessly, the kit further comprising a charging station for recharging the batteries of the charging unit.

In the present invention, there is also described an electronic monitoring bracelet comprising an annular body configured to be mounted around a member or an object, and an electronic monitoring system disposed in the body, the electronic monitoring system comprising less an integrity detection system and an internal energy source. The integrity detection system comprising at least one enclosure and at least one channel disposed in the body, the channel and the enclosure around the bracelet and further comprising at least one sensor configured to detect an impairment of integrity the canal or the enclosure. The electronic monitoring system may further include a location system, and a communication system for transmitting monitoring and integrity data.

In one embodiment, said at least one sensor comprises a pressure sensor. Said at least one pressure sensor may be disposed in the enclosure and configured to measure a pressure variation in the enclosure and / or in the channel.

In another embodiment, said at least one sensor comprises an ultrasonic sensor. In an advantageous embodiment, there are at least two ultrasonic sensors, including an ultrasonic transmitter and an ultrasonic detector.

In a variant, the ultrasound emitter may be arranged facing one end of the channel and the ultrasonic detector facing the other end of the channel.

In a variant, the integrity detection system comprises at least one ultrasonic sensor disposed in the enclosure. Said at least one ultrasonic sensor disposed in the enclosure may be configured to detect an impairment of the integrity of the enclosure, or also an impairment of the integrity of the channel.

The channel may be in fluid communication with the enclosure, depending on the variant.

In advantageous variants, the channel and / or the enclosure contains a fluid, the fluid may be a gas or a liquid under or overpressure relative to the atmospheric pressure.

In a variant, the monitoring system comprises an electronic card on which the communication system, the location system and the energy source are mounted, the electronic card being disposed in the enclosure, said at least one integrity sensor being mounted on the electronic board.

The communication system may advantageously comprise a transmitter configured for data transmission over a mobile telephone network.

The location system may advantageously comprise a satellite positioning signal (GPS) sensor. Depending on the field of use of the bracelet, in a variant, the location system may additionally, or alternatively, include a transmitter and / or wireless receiver configured to communicate with a wireless receiver and / or transmitter of a station base to detect the presence of the bracelet in a defined communication area around the base station. The base station and the monitoring bracelet may for example each comprise a transceiver operating with one or more communication protocols without such as Bluetooth, Wi-Fi, Zigbee or other communication protocols. When the bracelet is no longer in the wireless communication zone, an alarm can be issued by the base station to a central monitoring.

In one variant, the body of the bracelet comprises a closure system enabling the bracelet to be placed around a limb or an object and comprises a fastening means that is irreversible unless the bracelet is permanently damaged (bracelet broken voluntarily).

The fixing means may advantageously comprise a weld of two interface parts of the bracelet.

According to the variant, the body may contain an orifice for the partial evacuation or the overpressure of the channel and / or the enclosure after the introduction of the bracelet around a member or an object, the port being sealed after partial vacuum or overpressure.

• La Fig. 1a est une vue en coupe schématique d'un bracelet de surveillance selon une première forme d'exécution de l'invention ;
• La Fig. 1b est une vue en coupe schématique d'une partie du bracelet de la figure 1a ;
• La Fig. 2a est une vue coupe schématique d'un bracelet de surveillance selon une deuxième forme d'exécution de l'invention ; et
• La Fig. 2b est une vue en coupe schématique de la figure 2a.
• La Fig. 3a est une vue en coupe schématique d'un bracelet de surveillance selon une troisième forme d'exécution de l'invention;
• La Fig. 3b est une vue en perspective du bracelet de surveillance de la Fig. 3a en éclaté avant montage;
• La Fig. 3c est une vue en perspective détaillée d'une partie du système de fermeture du bracelet de la Fig. 3b;
• La Fig. 4a est une vue en perspective d'un bracelet de surveillance et d'une source d'énergie externe pour la recharge du bracelet selon une forme d'exécution de l'invention;
• La Fig. 4b est une vue similaire à la Fig. 4a, montrant la source d'énergie externe connectée au bracelet;
• La Fig. 4c est une vue en perspective de la source d'énergie externe connectée à une station de base pour la recharge de la source d'énergie externe;
• La Fig. 5 est un diagramme montrant un bracelet de surveillance dans un contexte global en communication avec des systèmes externes de localisation par satellite, de transfert de données par téléphonie mobile et de traitement de données sur des serveurs.

Other objects and advantageous aspects of the invention will appear on reading the claims, as well as on the following detailed description of the embodiments, and the appended drawings, in which:

• The Fig. 1a is a schematic sectional view of a monitoring bracelet according to a first embodiment of the invention;
• The Fig. 1b is a schematic sectional view of a part of the bracelet of the figure 1a ;
• The Fig. 2a is a schematic sectional view of a monitoring bracelet according to a second embodiment of the invention; and
• The Fig. 2b is a schematic sectional view of the figure 2a .
• The Fig. 3a is a schematic sectional view of a monitoring bracelet according to a third embodiment of the invention;
• The Fig. 3b is a perspective view of the bracelet monitoring the Fig. 3a exploded before assembly;
• The Fig. 3c is a detailed perspective view of part of the bracelet closure system of the Fig. 3b ;
• The Fig. 4a is a perspective view of a monitoring bracelet and an external power source for charging the bracelet according to one embodiment of the invention;
• The Fig. 4b is a view similar to the Fig. 4a , showing the external energy source connected to the bracelet;
• The Fig. 4c is a perspective view of the external power source connected to a base station for recharging the external power source;
• The Fig. 5 is a diagram showing a monitoring bracelet in a global context in communication with external systems of satellite location, mobile data transfer and data processing on servers.

Referring to the figures, an electronic monitoring bracelet 1, according to various embodiments, comprises a body or housing 2 of generally annular shape, configured to be mounted around a wrist or ankle of a person, carrying electronic bracelet, and an electronic monitoring system 3 disposed in the body or housing.

The electronic monitoring bracelet can also be used for other applications than the surveillance of people, for example, it can be placed around a closing system of a good or any other valuable object that the we want to monitor, in particular to ensure that the object has not been opened, and optionally still to have a record of the movement of the object or property.

Before use, the body of the bracelet is open at least at an interface 7, but can also be provided in two separate parts 2a, 2b forming two interfaces 7a, 7b, closed by a closure system 6. The closure system is preferably an irreversible or permanent system, namely, it can not be re-opened to remove the monitoring bracelet without damage to the bracelet, representing an attack on the integrity of the bracelet. The closure system may comprise mechanical means, such as a connector formed of protuberances (for example at the head of the arrow) or tabs on a portion inserted into a hole or a complementary cavity (for example with shoulders to engage the protuberances or tabs) on the other part. After insertion, the separation of the parts of the connector is blocked. The closure system may also include welding, for example ultrasonic welding, or glue bonding at the interface of the bracelet portions coupled together. The closure system may also include a combination of a mechanical attachment of the two parts of the bracelet in the closed position and a bonding or welding of the coupling interface. The closure system could also include a crimp, for example a metal ring crimped around the coupling interface.

In an alternative embodiment, the closure system may be a reversible system with a locking mechanism that can be opened with a key or an electronic code so that the bracelet can be removed without destruction.

Making reference to Figures 3a to 3c in an advantageous embodiment, the closure system 6 comprises an extension or projection 19a projecting from the interface 7 of one of the body portions 2b, configured to be inserted and housed in a complementary cavity 19b on the other body part 2b. There may be only one pair of projection and complementary cavity, or more pairs of projection and complementary cavity. In the case of a plurality, the projections may be all located on the same part of the body, or distributed over the two body parts. The complementary protrusions and cavities are preferably configured to allow only one way to assemble the two body portions 2a, 2b in a single orientation, to prevent body parts can be put together in a wrong way . The extension 19a may be in the form of a tube with a channel portion 8a aligned with and forming a portion of the channel 8 surrounding the monitoring bracelet. The tube portion may be integral or pre-assembled in one of the body portions 2a, or be in the form of a separate piece inserted into cavities in the two body portions 2a, 2b at the time of closure of the monitoring bracelet .

In a variant, the extension and / or the complementary cavity comprises, close to its surface or on its surface, an electric heating wire 33 connected to a source of electrical energy disposed in the body of the bracelet and configured to provide energy thermal melting the plastic-type material on the surface of the extension and / or cavity to weld the two parts to their interfaces. The wire therefore produces thermal energy by Joule effect. The switching on of the heating can be controlled by the electronic circuit of the monitoring bracelet and controlled remotely, for example from a monitoring station 24 by the mobile telephone system, or controlled nearby by a wireless connection. The closure of the bracelet can thus be controlled by a central monitoring, or can be controlled and performed by an operator on site during the establishment of the monitoring bracelet.

In a variant, a very fine conductive wire is wound around the extension in a small groove, for example a helical groove on the surface of the extension 19a. Alternatively, the wire is disposed near the outer surface of the extension, but overmoulded and, therefore, under the outer surface. The welding of an extension tube in a complementary cavity makes it possible to ensure a hermetic closure between the two parts of the body, and in particular of the channel 8 in the bracelet. An electric heating wire may also be provided at the surface of the body interface disposed around 7a, 7b to also weld the abutting faces of each of the two body portions.

In a variant, instead of welding between the body parts 2a, 2b, it is also possible to provide a closure by means of an adhesive or other binder that can be activated thermally or optically by means of a light diode disposed in the interface.

The body-integrated monitoring system includes an integrity detection system 4, a power source 12 such as a lithium battery for powering the electronic circuit, a location system 14 and a communication system 16 for the transmission of surveillance data to a monitoring center 24. Referring to the Fig. 5 , the location system can include a satellite positioning system (called "GNSS"), such as for example GPS (Global Positioning System), the location system including an antenna for the reception of the signals transmitted by a satellite 21 and a processing circuit for calculating the earth position of the bracelet, this system being well known per se. Other tracking systems could be used instead of the GPS system, or in parallel, in particular for the location of the bracelet inside a building or structure that does not allow access to satellite signals 21. Depending on the field of use of the bracelet, the location system may include a transmitter and / or wireless receiver configured to communicate with a receiver and / or wireless transmitter of a base station to detect the presence of the bracelet in a communication area defined around the base station. The base station and the monitoring bracelet may for example each comprise a transceiver, or a transmitter and receiver, operating with one or more wireless communication protocols such as the protocols known under the names Bluetooth, Wi-Fi, Zigbee or other wireless communication protocols. When the bracelet is no longer in the wireless communication zone, an alarm can be issued by the base station to a central monitoring. The location system could also be based on or include a positioning system with respect to a mobile telephone system or other public or private wireless networks.

The communication system 16 for the transmission of surveillance data is preferably based on a communication system by the mobile telephone network 22 using known communication protocols for the transmission of data, such as GPRS, EDGE or others depending on the systems. used in the surveillance territory. The transmitted data 23 may comprise in particular a wristband identifier or an authentication code, the position of the wristband provided by the positioning system 14, and information indicating the condition of the wristband, namely a normal operating state, an anomaly that triggers an alarm requiring the intervention of the supervisory authority. The communication system can also transmit other information, such as the state of charge of the battery or a history on a given time on the location of the bracelet stored in memory in the bracelet. The monitoring data is preferably encrypted before transmission, in order to avoid manipulation or unauthorized reading of the data.

The data 23 transmitted on the mobile telephone network 22 may, initially, be received on the server 26 of the operator of the mobile telephone network, and then be transmitted to servers 25, by example by way of the so-called "internet" network by means of a secure communication, the data being stored on the servers 25 and accessible by means of a secure connection and authenticated by the central surveillance unit 24. In order to ensure the confidentiality monitoring data, this data can be distributed over several servers 25a, 25b, 25c, the recomposition of data requiring codes and special software.

The energy source, the location system, the communication system as well as the electronic part of the integrity detection system 4 can be mounted on one or more electronic cards 18 arranged in a enclosure 9 for the electronics in the body or housing 2. It is also possible to have electronic components distributed at two or three locations in the housing on a plurality of electronic boards with a rigid or flexible substrate. However, in a preferred embodiment, the electronics are concentrated on a single board to reduce manufacturing costs. The enclosure 9 may be filled with a gas or contain a gas, or may be filled with resin cast around the electronics to protect the components.

In an advantageous embodiment, various elements installed inside the body or casing 2 can be distributed in the body at different places, around the body in order to distribute the weight, and also to reduce the body section. for a higher comfort of use and also a port of the more discreet monitoring bracelet. Indeed, in conventional monitoring bracelets, all the active components are typically assembled in a case coupled to a flexible bracelet, only the bracelet around the ankle or wrist. In this conventional bracelet, the casing is therefore placed only on one side of the ankle or wrist. In the invention, the distribution of the components inside the bracelet also increases the security against an attempt to deceive the integrity maintenance system, the position of the various components inside the housing is not known in a way precise. In order to distribute the components in the case, one can for example have the electronic card on one side of the bracelet, and the power source, including a battery on the other side of the bracelet.

In advantageous embodiments, the integrity detection system comprises a channel 8 (hereinafter referred to as "annular channel") extending from one end of the enclosure 9 for electronics to the other end of the enclosure thus circling the bracelet. The integrity of this channel 8 and the enclosure 9 makes it possible to define the integrity of the electronic monitoring bracelet in use, by means of at least one sensor 10, 10a, 10b, 11a, 11b, which can be, in a preferred embodiment arranged or mounted at least partially in the enclosure 9.

In a preferred embodiment, the channel contains a gas. In other embodiments, the channel may contain a solid or other ultrasonic conductive material with acoustic wave impedance different from the body or housing surrounding the channel.

In one embodiment illustrated in the Fig. 1 the sensor comprises an ultrasonic generator or emitter 10a and an ultrasonic detector 10b, the emitter being positioned at one end 13a of the channel 8 configured to generate acoustic waves, especially in the ultrasonic frequency domain (30). kHz at 100 kHz), in the channel for the waves to progress along the channel to the ultrasonic detector 10b disposed at the other end 13b of the channel. The acoustic signal picked up by the detector is a function not only of the acoustic signal generated by the ultrasound emitter, but also of the geometry of the channel, in particular the length of the channel, as well as the properties of the fluid (or according to the variant of the solid ) filling the channel. An extension of the channel, even a fraction of a millimeter, can be detected. The crushing of the channel can also be detected. The ultrasound generator can be configured to generate an ultrasonic signal of specific shape and duration set in advance, this acoustic signal being able to be unique, that is to say different from one bracelet to another, or the same depending on the desired degree of security.

An important advantage of using an ultrasonic generator and detector to check the integrity of the channel running around the bracelet is the low power consumption and, therefore, the longer battery life, while ensuring detection. very reliable as well as a very robust system. The acoustic signal can be transmitted in very short pulses, lasting a few microseconds, at intervals of less than one second, or even at higher intervals if greater autonomy is desired.

In order to verify the integrity of the enclosure 9 for the electronics, in a variant, there is also an ultrasonic transmitter 11a and an ultrasonic detector 11b disposed in the enclosure at separate positions, for example mounted on the electronic card 18 and directed towards a wall 15 of the enclosure, operating on the same principle as the sensors 10a, 10b. A rupture or crushing of the enclosure 9 influences the acoustic signal and can be detected.

In a variant, it is possible to have a single pair of sensors comprising a detector and a transmitter, arranged in the chamber 9 and configured to emit the ultrasound signal so that it does not only travel through the channel 8 but also the enclosure 9, to reduce the number of components.

In variants, it is also conceivable to have a single ultrasonic sensor having an emitter and detector function, disposed at one end of the channel 8 and / or in the enclosure 9 and configured to emit a signal of ultrasound and then detect it a few microseconds later when the signal has been around the bracelet and / or reflected from the wall of the enclosure.

In one embodiment, the integrity detection system comprises a pressure sensor 10 disposed in the enclosure, or at one or both ends of the channel 8, configured to detect a pressure variation in the channel and / or in the enclosure, either a pressure increase or a decrease in pressure, or both. When the pressure variation is beyond a predetermined threshold, an anomaly is reported. In this embodiment, the chamber and the channel are filled with a fluid at a pressure different from the atmospheric pressure, either a partial vacuum or an overpressure. When the integrity of the channel or the enclosure is affected, especially if the channel or the enclosure is pierced, the pressure drop in the case of overpressure or the pressure increase in the case of a partial vacuum is detected by the pressure sensor. The fluid can simply be air, especially in a variant with an enclosure and a partial vacuum channel. The fluid may also be a gas with large molecules, such as nitrogen, especially for overpressure variants, in order to reduce the rate of diffusion of gas molecules through the body causing a pressure drop over time. An orifice 17 through the body makes it possible to subtract air before sealing the orifice. The orifice can also be used to inject a gas to put the enclosure and the channel under overpressure.

According to an advantageous embodiment of the invention, the case 2 of the bracelet may be in the form of a rigid or semi-rigid shell, namely a self-supporting shell which offers some resistance against crushing. This makes it possible to protect the components arranged in a chamber 27 formed inside the housing. The housing 2 is therefore in the form of a shell enclosing a chamber in which the various components are arranged. In conventional bracelets, the electronic part is arranged in a box that is fixed or mounted on a flexible belt, forming the bracelet that goes around the wearer's ankle. The weight and bulk of the electronic box disposed on an outer side of the ankle are uncomfortable and exposed to shocks causing failure or inadvertent rupture of the monitoring bracelet. In the invention, the shell is essentially smooth and essentially constant or homogeneous section circling the bracelet offers no shoulder or protuberance that could cling to external objects and, in the case of a rigid or semi-rigid shell provides protection against external shocks.

It is also possible to have inside the housing 2, a partial vacuum or a gas at overpressure with respect to the ambient pressure, in order to detect an impairment of the integrity of the housing by detecting a pressure variation by a sensor. pressure disposed in the housing. The chamber 27 inside the shell-shaped housing 2 can thus have the function of the previously described channel 8 instead of and in place of the channel 8 illustrated in the variants of FIGS. Figures 2a to 3b . However, as illustrated in Figures 2a , 3a , 3b , combine a channel 8 formed by a dedicated tube, circling the bracelet, arranged in a rigid shell formed by the housing. In this case, one can have different levels of overpressure or partial vacuum in the channel 8 and in the chamber 27 of the housing 2 around the tube forming the channel, or have a pressure different from the ambient pressure in the chamber 27 and a ambient pressure in the channel to have several means for detecting an attack on the integrity of the monitoring bracelet. For example, in the case of an overpressure or a partial vacuum in the chamber 27 of the housing 2, it would be possible to send a signal of damage to the integrity of the bracelet before the source of the bracelet can be reached. energy or the electronic circuit. It would thus be possible to transmit a signal of integrity breach, which would allow the triggering of the alert and a faster intervention instead of waiting for the alarm to start due to a non-response of a surveillance bracelet that would be destroyed. Indeed, in the conventional system, if the electronics are destroyed or the supply of the electronics cut, so that it can not transmit the signal of failure, depending on the circumstances it may take a few minutes before the alarm is triggered, which is a significant disadvantage for the authorities to search for the carrier from its last known location.

• une enceinte 9 essentiellement à la pression ambiante, hermétiquement scellée par rapport au canal 8 en surpression ou sous-pression par rapport à la pression ambiante, avec un capteur d'ultrasons pour l'enceinte et un capteur de pression dans le canal;
• une enceinte 9 en surpression ou en sous-pression par rapport à la pression ambiante, hermétiquement scellée par rapport au canal 8 en surpression ou sous-pression par rapport à la pression ambiante, avec un capteur d'ultrasons pour le canal et un capteur de pression dans l'enceinte ;
• une enceinte 9 en surpression ou en sous-pression par rapport à la pression ambiante, hermétiquement scellée par rapport au canal 8 essentiellement à la pression ambiante, avec un capteur d'ultrasons pour le canal et un capteur de pression dans l'enceinte ;
• une enceinte 9 en communication fluidique avec le canal 8 en surpression ou sous-pression par rapport à la pression ambiante, avec seulement un ou plusieurs capteurs de pression dans l'enceinte ou le canal;
• une enceinte 9 en communication fluidique avec le canal 8 en surpression ou sous-pression par rapport à la pression ambiante, avec un ou plusieurs capteurs de pression dans l'enceinte ou le canal et en sus un ou plusieurs capteurs d'ultrasons pour le canal et/ou l'enceinte;
• une enceinte 9 en communication fluidique avec le canal 8 en surpression ou sous-pression par rapport à la pression ambiante, avec seulement un ou plusieurs capteurs d'ultrasons pour le canal et/ou l'enceinte;
• une enceinte 9 en communication fluidique avec le canal 8 essentiellement à pression ambiante, avec seulement un ou plusieurs capteurs d'ultrasons pour le canal et/ou l'enceinte.

The sensors and the overpressure / underpressure / ambient pressure combination described above can be combined to form different variants of the invention, in particular:

• an enclosure 9 substantially at ambient pressure, hermetically sealed with respect to the channel 8 under pressure or underpressure with respect to the ambient pressure, with an ultrasonic sensor for the chamber and a pressure sensor in the channel;
• an enclosure 9 under pressure or under pressure with respect to the ambient pressure, hermetically sealed with respect to the channel 8 at an overpressure or underpressure with respect to the ambient pressure, with an ultrasonic sensor for the channel and a sensor for pressure in the enclosure;
• an enclosure 9 under pressure or underpressure with respect to the ambient pressure, hermetically sealed with respect to the channel 8 essentially at ambient pressure, with an ultrasonic sensor for the channel and a pressure sensor in the chamber;
• an enclosure 9 in fluid communication with the channel 8 in overpressure or underpressure with respect to the ambient pressure, with only one or more pressure sensors in the enclosure or the channel;
• an enclosure 9 in fluid communication with the channel 8 under pressure or underpressure with respect to the ambient pressure, with one or more pressure sensors in the enclosure or the channel and in addition one or more ultrasonic sensors for the channel and / or the enclosure;
• an enclosure 9 in fluid communication with the channel 8 at overpressure or underpressure with respect to the ambient pressure, with only one or more ultrasonic sensors for the channel and / or the enclosure;
• an enclosure 9 in fluid communication with the channel 8 essentially at ambient pressure, with only one or more ultrasonic sensors for the channel and / or the enclosure.

The circumference of the bracelet, and therefore the length of the channel 8, may vary from one bracelet to another, especially to be adapted to the measurements of the wrist or ankle of the wearer or the object to be sealed. In this case, the closure system could be adjustable so that the object can be tightened to the desired diameter. Alternatively, parts of housing 2a, 2b of different sizes can be provided.

The calibration of the sensor or ultrasonic and / or pressure sensors, according to embodiments and variants, can be performed once the bracelet is placed on the carrier. The calibration procedure may include a storage in a memory of the electronics, a sensor signal shortly after its introduction on the carrier, constituting a reference value indicating an integral bracelet. It is possible to set predetermined value thresholds for this signal in order to ensure that the calibration is done on an integral bracelet, in particular that the setting up and closing of the bracelet are correct, by comparing the reference value after calibration with values predetermined thresholds that take into account possible variations in the geometry of the bracelet, but that avoid integrity failures outside of these measures or these permitted values.

Making reference to Figures 4a to 4c in one embodiment, a kit for the monitoring bracelet may advantageously comprise a charging unit 28 forming an external power source, and configured to be coupled to the bracelet 1 in order to recharge the internal energy source 12. The electrical coupling between the charging unit 28 and the bracelet can be done by means of electric terminals 29, or there can be an induction coupling without direct electrical contact. In an advantageous embodiment, the charging unit 28 is in the form of a portable rechargeable battery, provided with fixing means 30, for example in the form of resilient arms with lugs 31 at their free ends forming resilient clips which are clipped on either side of a section of the bracelet 1, as illustrated in the Fig. 4b . The The bracelet holder can move freely during the recharge of the internal energy source, unlike the conventional system where charging is done by means of an electric cable connected to the monitoring bracelet. The batteries of the charging unit 28 can be recharged by means of a base station or recharging station 32 illustrated in FIG. Fig. 4c , connected to the electrical network.

Claims (16)

Electronic monitoring bracelet, comprising an annular body (2) configured to be mounted around a limb or an object, and an electronic monitoring system disposed in the body, the electronic monitoring system comprising a detection system of integrity (4) and an internal energy source (12), characterized in that the annular body (2) is in the form of a rigid shell enclosing a chamber or a plurality of chamber sections in which components of the electronic monitoring system system are arranged, the annular body making the whole circle of the bracelet. Bracelet according to claim 1, characterized in that the annular body is formed of two separate parts, configured to be mounted around a member and locked together. Bracelet according to one of the preceding claims, characterized in that it comprises a closure system (6) configured for irreversible locking without its destruction, the closure system comprising a welding at the interface (7a, 7b) of the parts body (2a, 2b) of the bracelet. Bracelet according to the preceding claim, characterized in that the interface of at least one of the body parts comprises an electric heating wire connected to an internal energy source of the bracelet disposed near a surface of the interface and configured to heat by Joule effect to perform a solder of the two parts to the interface. Bracelet according to the preceding claim, characterized in that the heating element is connected to an electronic disposed in the bracelet, allowing the engagement of the solder at the interface by a wireless remote control. Bracelet according to one of the preceding claims, characterized in that the monitoring system further comprises a location system (14), and a communication system (16) for transmitting surveillance and integrity data. Bracelet according to claim 6, characterized in that components forming the integrity detection system and the energy source, the location system and the communication system are arranged in several zones distributed around the bracelet in the body. Bracelet according to one of the preceding claims, characterized in that the integrity detection system comprises at least one enclosure (9) and at least one channel (8) disposed in the body (2), the channel and the enclosure circling the bracelet and further comprising at least one sensor configured to detect an impairment of the integrity of the channel (8) or the enclosure (9). Bracelet according to the preceding claim, characterized in that the monitoring system comprises an electronic card (18) disposed in the enclosure (9). Bracelet according to claim 8 or 9 characterized in that the channel and / or the enclosure contains / contain a fluid. Bracelet according to one of the preceding claims, characterized in that the chamber or several chamber sections of the rigid shell contains / contain a fluid. Bracelet according to claim 10 or 11, characterized in that the fluid is a gas under or overpressure relative to the atmospheric pressure. Bracelet according to one of the preceding claims, characterized in that the integrity detection system (4) comprises at least one sensor configured to detect an impairment of the integrity of the rigid shell of the annular body. Bracelet according to claim 8 or 13, characterized in that said at least one sensor comprises a pressure sensor and / or an ultrasonic sensor. Surveillance kit comprising an electronic monitoring bracelet and a charging unit (28), the monitoring bracelet comprising an annular body (2) configured to be mounted around a member or an object, and an electronic monitoring system disposed in the body, the electronic monitoring system comprising an integrity detection system (4) and an internal energy source (12), the recharging unit (28) comprising one or more rechargeable batteries and configured to be removably mechanically coupled to the monitoring bracelet for wirelessly charging the internal power source (12), the kit further comprising a charging station (31) for recharging the batteries of the charging unit (28). ). Monitoring kit according to the preceding claim characterized in that the electronic monitoring bracelet comprises one or more characteristics of the monitoring bracelet according to one or more of the preceding claims.

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