FR2879792A1 - Intrusion detecting device for use in e.g. field of perimeter protection of swimming pool, has tank encircled by light beam formed by four emitter/receiver units, where surveillance data is transmitted by beam - Google Patents

Abstract

The device has a tank (11) encircled by a light beam (3) formed by four emitter/receiver units (1, 2) in order to form a broken light barrier, when a person is introduced in perimeter under surveillance. The units cooperate with a control room (6) including surveillance data processing unit. Surveillance data is transmitted by the beam. The beam is emitted in an infrared length under form of series of pulses with low repetition rate.

Description

The present invention relates to a device for detecting an intrusion

in an area under surveillance.

  The invention will find in particular, but not limited to, its application in the field of perimeter protection of swimming pools to prevent drowning, including children escaping the visual surveillance of those around them. The entry of a person into the monitored area, by breaking a light beam, triggers an alarm.

  The invention may also find application for the protection of property in general, including homes against theft to detect an intrusion and pass on the detection information to the owners or a supervisory authority.

  In the field of pool pool monitoring, the same applicant is already known from document FR 2 785 704 A1 concerning a device for monitoring the perimeter of access to an aquatic basin. According to this prior document, the device comprises presence detection means, means for actuating an alarm and a control unit enabling the user to activate or deactivate the monitoring. The detection means are advantageously presented in the form of terminals located around the pool and able to emit and receive a light beam.

  In general, the devices known hitherto involve many wiring between the terminals and to the control unit. In fact, for each terminal and for the control unit, it is necessary to ensure the transfer of the monitoring data (detection information, information as to the state of the system, etc.) as well as the power supply. As a result, it is common for an installation comprising four terminals and a control unit, the assembly comprises more than eighty electrical connections.

  This requires of course a long and expensive installation with 3o risks of bad connections, especially if the installers are not knowledgeable people.

  In addition, for the equipment of pools pools or buildings already built, the cable passages involve heavy site changes often unsightly and further increasing the installation time.

  The object of the present invention is to remedy all or part of the disadvantages indicated above and to do this, a new detection device in which the monitoring data are transmitted by the light beam itself. This eliminates much of the wiring needed so far.

  It should be noted that the invention overcame a prejudice consisting of distinguishing the barrier function of the beam (previously considered as a means allowing the detection) and the processing and transmission of the data (hitherto specifically operated in such a way as to separated by a series of cables between the different organs and to treatment means). Thus, by means of the invention, the beam implemented by the detection device is no longer a passive element revealing only the breaking of an optical barrier.

  Other objects and advantages will become apparent from the following description of a preferred embodiment of the invention, which is however not limiting.

  The present invention relates to a device for detecting an intrusion in a zone under surveillance, comprising a plurality of emitter / receiver members of a light beam so as to form a light barrier whose crossing is detected. According to the invention, the device is such that monitoring data is transmitted between the transmitting / receiving organs by the light beam.

  According to preferred embodiments, this device is such that: the light beam is an infrared light pulse signal, the surveillance data is digitally coded on the light beam, it comprises means for processing the monitoring and tripping means, - the monitoring data is transmitted to the processing means from a master transmitter / receiver, - the master transmitter / receiver is configured to be the original transmitter of the transmitter / receiver, light beam and the final receiver of said beam, the other or emitter / receiver members being relay slave members of said beam, - each transmitter / receiver member comprises a solar power supply, - each transmitter / receiver member comprises a battery of each transmitter / receiver unit has two transmitters and two receivers so as to produce two luminous ins between the bodies to transceivers, - at least one transmitter / receiver unit is incorporated in a pole, - the monitoring data comprises data selected from: - beam interruption status data, data d operating state of the transmitter / receiver bodies - battery state of charge data - transmitter and receiver alignment quality data, - transmission and reception quality data.

  The accompanying drawings are given by way of example and are not limiting of the invention. They represent only one embodiment of the invention and will make it easy to understand.

  Figure 1 shows an example of implantation of the device of the invention around an aquatic basin.

  Figure 2 and Figure 3 illustrate other possibilities of implantation in the case where part of the water basin is already limited by walls.

  FIG. 4 schematizes a terminal configuration possibility capable of integrating transmitter / receiver units.

  Figure 1 illustrates a typical case of installation of the detection device of the invention.

  In this case, a pool 11 is surrounded by a light beam 3 formed by means of four emitter / receiver units 1, 2. A broken light barrier is thus formed when a person enters the perimeter under surveillance.

  The transmitter / receiver members 1, 2 cooperate with a control unit 6 comprising means for processing the monitoring data as well as alarm triggering means, for example in the form of a siren or by transmission of a light signal. near the pond or in a dwelling.

  In the case illustrated in Figures 1 to 3, the control unit 6 is also connected to a motion detector 7. In this way, when the to device is disabled by a user wanting to swim in the pool, the system can then be automatically reactivated, since the motion detector 7 no longer detects the presence of a person in the area under surveillance.

  As an advantage, the emitter / receiver units 1, 2 are each integrated in a post 8, an example of which is shown in FIG. 4. In this figure, the post is in elongate form, so as to be positioned vertically on the perimeter of the post. the area under surveillance. More precisely, it will be possible to form members 1, 2 integrated in a post 8 and each having two emitters and two receivers 9a, 9b, 10a, 10b. A transmitter and a receiver are positioned in the lower part of the pole 8 and another transmitter and another receiver are positioned in the upper part, as shown in Figure 4. To standardize the design of the posts and make them adaptable to all configurations, each element 9a, 9b, 10a, 10b can advantageously be configured as transmitter or receiver.

  In this way, and as appears for example in FIG. 1, a pole 8 allows the emission of a light beam 3 to the next post where the beam is received by a receiver 10a, 10b capable of generating a control of transmitting the next transmitter 9a, 9b and so on until it forms a loop.

  In the cases illustrated in FIGS. 2 and 3, the path of the beam is a little different insofar as it comprises a forward path 4 using, for example, the transmitters 9a and the receivers 10a placed in the upper part of the posts 8 and a return path 5 between these same posts 8 using, for example, the transmitters 9b and receivers 10b present on the bottom of the posts 8.

  More precisely, a master transmitter / receiver unit 1 is advantageously formed which is at the origin of the beam. The other members 2 are then relay members adapted to receive the incident beam to retransmit to the next post. According to this configuration, it is the master member 1 which is connected to the control unit 6, for example by a wired connection.

  Characteristically to the invention, the monitoring data is transmitted by the light beam itself. This data may for example be obscuration status data, operating state of the organs 1, 2, state of charge of accumulators, quality of alignment between transmitters and receivers or quality transmission and reception.

  According to one possibility, the monitoring data are digitally carried by the beam 3 and transmitted by data packets periodically indicating to the processing means the state of the device parameters.

  According to another possibility, the data are transmitted to each new event and each type of information is recognized by the means of processing by an identifier.

  Still preferably, the light beam 3 is emitted in the infrared wavelengths as a series of pulses of small width (from ten to a few hundred nano seconds) of high intensity (1 to a few amperes) and with a low repetition rate (for example less than 5% and advantageously 1%) so as to reduce the power consumption. The monitoring data is encoded on this pulse series.

  For example, in the event of a malfunction of one of the members 2, the information is transmitted via the light beam, possibly via other members 2 acting as a relay to the master member 1 for transfer to the central unit. 6 at which a signal light is presented to signal the technical problem.

  This example can be applied mutatis mutandis to the transmission of any other monitoring data. This is for example the case for monitoring data relating to the crossing of the light beam. Thus, a receiver 10a or 10b which is no longer in view of the beam of the relay member 2 stops transmitting to the next post 8. The receiver 10a, 10b placed at the end of the chain can then instantly detect the breaking of the beam and transmit the information to the control unit 6. The system can be rearmed automatically, including maintaining an intermittent flash instead of cutting the beam of return to normal operation when the light barrier is no longer closed.

  Due to this advantageous configuration, it will be noted that any data transmission cable is thus avoided between the various posts 8.

  In addition, according to an advantageous variant of the invention, the power supply wiring of the posts 8 is also eliminated. For this purpose, a solar power supply is provided for each of the poles 8, for example by constituting a solar panel 13 on the upper surface of each of the poles 8 as illustrated in FIG. 4 and by providing means for accumulating electricity. inside the pole so as to feed the transmitter / receiver organs that it integrates. For safety, a backup battery is provided in each of the poles 8 to provide a relay power supply. However, given the low power consumption implemented by the present invention, particularly by the use of a light beam in the form of series of pulses as previously indicated, the solar power supply allows the device to self sufficient energy.

  By constituting such a system powered by solar energy, the installation of the device is only facilitated. Indeed, the user has only to position the posts 8 according to the configuration required by the location. A post 8 is then determined to constitute the receiving member / transmitter master 1. Of course, the alignment of the poles 8 and the height positioning are adjusted so as to allow an optimal vis-à-vis emitters and receivers 9a, 9b , 10a, 10b.

  It then suffices to wire the master member 1 to the central unit 6 and, according to the illustrated embodiment, to install the motion detector 7 so that the device is in the on position. The functionalities of each of the poles are then adjusted according to the path to be followed by the light beam 3. In the case of FIG. 1, two light beams 3 can be formed using poles 8 as shown in FIG. 4, namely a high beam and a low beam.

  In the case shown in FIGS. 2 and 3, the two high and low light signals 3 formed between the poles 8 constitute a forward path 4 and a return path 5 of the same light beam.

REFERENCES

  1. Master transceiver body 2. Slave transceiver body 5 3. Light beam 4. Way forward 5. Return path 6. Control unit 7. Motion detector 8. Pole 9a, 9b. Transmitter / receiver 10a, 10b. Transmitter / receiver 11. Pond 12. Wall 13. Solar panel

Claims (11)

  1. Device for detecting an intrusion in a zone under surveillance, comprising a plurality of emitter / receiver members (1, 2) of a light beam (3) so as to form a light barrier whose crossing is detected, characterized in that monitoring data is transmitted between the transmitter / receiver units (1, 2) by the light beam (3).   2. Device according to claim 1 wherein the light beam to (3) is an infrared light pulse signal.   3. Device according to claim 1 or claim 2 characterized in that the monitoring data are digitally coded on the light beam (3).   4. Device according to any one of claims 1 to 3 comprising means for processing the monitoring data and means for triggering an alarm.   5. The device of claim 4 wherein the monitoring data is transmitted to the processing means from a master transmitter / receiver member (1).   6. Device according to claim 5 wherein the master transmitter / receiver member (1) is configured to be the original emitter of the light beam (3) and the final receiver of said beam (3), the other organ or organs transmitters / receivers (2) being slaves relay members of said beam (3).   7. Device according to any one of claims 1 to 6 wherein each transmitter / receiver member (1, 2) comprises a solar power supply.   The device of claim 7 wherein each transmitter / receiver member (1, 2) comprises a backup battery.   9. Device according to any one of claims 1 to 8 wherein each transmitter / receiver member (1, 2) comprises two emitters and two receivers (9a, 9b, 10a, 10b) so as to produce two light paths between the organs transmitters / receivers (1, 2).   10. Device according to any one of claims 1 to 9 wherein at least one transmitter / receiver member (1, 2) is incorporated in a pole (8).   11. Device according to any one of claims 1 to 10 wherein the monitoring data comprises data selected from: - beam interruption status data (3), - operating status data of organs transceivers (1, 2), - electric accumulator charge state data, - transmitter and receiver alignment quality data (9a, 9b, 10a, 10b), - quality data transmission and reception.