FR2962837A1 - Anti-theft system for photovoltaic or thermal solar panel installed on farm building, has beacon fixed to solar panel, and alarm center comprising antenna for communicating with antenna of beacon and alarm generation unit - Google Patents

Abstract

The system (250) has a beacon (106) fixed to a solar panel (100) and comprising a position sensor, central unit and a communication unit i.e. antenna (108). An alarm center (202) comprises a communication unit i.e. antenna (208) for communicating with the antenna of the beacon and an alarm generation unit e.g. sound or visual alarm generation unit. The beacon includes an electric energy source e.g. battery, and the sensor includes an accelerometer i.e. three-axis accelerometer. Independent claims are also included for the following: (1) a solar panel, comprising a frame and an anti-theft system (2) a method of detection of attempted theft of solar panel.

Description

The present invention relates to an antitheft system for solar panel, a solar panel comprising such an antitheft system and a method of detecting an attempted theft of such a solar panel. As part of the following description, the solar panels may be photovoltaic solar panels or solar thermal panels. The number of solar panels that are installed on buildings is increasing due to concerns about environmental protection. But some of these solar panels are located on isolated buildings, such as farm buildings.

The isolation of these solar panels that are left unattended facilitates the theft of these solar panels. Various solutions have been envisaged to prevent these thefts but none is entirely satisfactory. For example, it has been set up detection loops. The masses of all the panels of the same implantation are connected to a current loop. The breaking of at least one of the masses causes a variation of current in the loop which is detected by a suitable detector which can give the alert. This anti-theft protection can be easily bypassed. An object of the present invention is to provide a solar panel antitheft system which does not have the drawbacks of the prior art and which in particular allows increased antitheft protection. For this purpose, there is provided an antitheft system for a solar panel, the antitheft system comprising: a beacon intended to be fixed to the solar panel and comprising a position sensor, a central unit and a communication unit, and a central unit alarm system comprising a communication unit designed to communicate with the communication unit (108) of said beacon and means for generating an alarm. Advantageously, the beacon comprises a source of onboard electrical energy. Advantageously, the position sensor comprises an accelerometer. Advantageously, the accelerometer is a three-axis accelerometer. The invention also proposes a solar panel comprising: - a frame, - a receiver panel fixed to the frame, and - an anti-theft system according to one of the preceding variants, the beacon of which is fixed to the frame or panel of receivers, and whose central alarm is deported. Advantageously, when the frame is made of hollow profile, the tag is fixed inside said profile. The invention also proposes a method for detecting an attempted theft of a solar panel according to one of the preceding variants, the detection method comprising: a delaying step during which the antitheft system is in phase waiting, - a measuring step during which the position sensor reads the data representative of its position, - a transfer step, during which said data is transmitted to the central unit, - a step of analysis during which the central unit checks whether there are significant variations of said data relative to reference data, - if the check is negative, a loopback step on the delay step, - if the check is positive, a validation step during which the beacon informs the control panel of the validation of the change of position, and - an alarm activation step during which the alarm circuit triggers the means for generating an alarm The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of an exemplary embodiment, said description being in connection with the accompanying drawings, in which: FIG. 1 is a rear view of a solar panel according to the invention, FIG. 2 is a section along line II-II of FIG. 1, and FIG. 3 is an algorithm of a method for detecting an attempted theft of a solar panel according to the invention. Fig. 1 shows a solar panel 100 seen from behind and FIG. 2 shows the solar panel 100 in section along the line II-II.

The solar panel 100 comprises a frame 102 which is made here from a metal section and a receiver panel 104 which is fixed on the frame 102 for example by gluing. The receiver panel 104 is the active part of the solar panel 100, it is the part that has the light-sensitive receptors. The solar panel 100 is equipped with a tag 106 which is attached to the rear of the receiver panel 104, for example by gluing. The beacon 106 can also be fixed inside the profile constituting the frame 102 if said profile is hollow. Such an arrangement makes it possible to hide the beacon 106 from prying eyes. The beacon 106 comprises a closed housing fixed to the solar panel 100 and inside which are provided: - a central unit - a position sensor, - a communication unit, and - a source of electrical energy. The source of electrical energy is embedded which makes the beacon 106 autonomously energy-wise, the source of electrical energy may be for example a battery or a battery. The power source supplies the other elements of the beacon 106. The beacon 106 communicates by a wireless link with a control panel 202 which constitutes, with the beacon 106, an anti-theft system 250 for the solar panel 100. Communication beacon 106 is thus provided to communicate with a communication unit of the alarm center 202. In Figs. 1 and 2, the communication unit of the beacon 106 is represented by an antenna 108, and the communication unit of the alarm control unit 202 is represented by an antenna 208. To limit energy consumption, the The communication unit of the tag 106 is only a transmission module. The wireless link is preferably a radio link. The position sensor comprises means for detecting the position in which said position sensor is located and therefore of the solar panel 100 to which it is attached.

The position sensor comprises for example an accelerometer and a detection of a variation of the acceleration experienced by the accelerometer is the translation of a particular position of the latter. Indeed, when the position of the accelerometer changes, the action of gravity on the accelerometer also varies and the data measured by the accelerometer also change. Preferably the accelerometer is a three-axis accelerometer. The advantage of a position sensor with respect to a motion sensor consists in the lower power consumption because the motion sensor requires a continuous power supply while a position sensor requires a punctual power supply during the taking measurements. The central unit receives information from the position sensor, analyzes the data thus received and transmits commands to the communication unit. The alarm center 202 is offset from the solar panel 100 and is disposed in a secure place, for example the interior of a building.

The alarm center 202 comprises means for generating an alarm. These generating means may be an audible and / or visual alarm and / or transmission means provided for calling the telephone of the owner of the solar panel, a security company or the police. The power supply of the alarm central 202 is provided by the sector and a backup battery is installed to ensure its operation in the event of a power failure. The transmitting means are represented by the arrow 210 and can take for example the form of a GSM transmitter. Fig. 3 shows an algorithm 300 of a method of detecting an attempted theft of the solar panel 100. At regular time intervals or not, the accelerometer measures the data representative of its position, and in particular of the gravity that it undergoes, and it sends these data to the central unit. The central unit compares this data with reference data and if there is a significant difference between them, it goes into alarm mode by sending a message to the alarm central 202. The reference data can be, for example, the data that was recorded during the installation of the solar panel 100, or data recorded during a previous measurement and stored. A significant difference is a difference which makes it possible to ensure that there has indeed been an unauthorized change of position of the solar panel 100 and not a simple variation due for example to variations of the carrier structure under the effect of the wind. The detection method is carried out at regular time intervals or not and it comprises: - a delay step 301 during which the antitheft system 250 is in the waiting phase, - a measurement step 302 during which the position sensor reads the data representative of its position, - a transfer step 304, during which said data are transmitted to the central unit, - an analysis step 306, during which the central unit verifies there are significant variations of said data with respect to reference data, - if the check is negative, a loopback step on the delay step 301, - if the check is positive, a validation step 308 during of which the beacon 106 informs the alarm center 202 of the validation of the change of position, and - a step of engaging the alarm 310 during which the alarm center 202 triggers the means of generating an alarm.

During the validation step 308, the central unit transmits an order to the communication unit 108 so that it transmits the information to the alarm center 202 by connecting with the communication unit. 208 of the alarm control unit 202. The triggering step of the alarm 310 consists for example in the triggering of the audible and / or visual alarm and the activation of the transmission means 210. Of course, the present invention is not limited to the examples and embodiments described and shown, but it is capable of many variants accessible to those skilled in the art.

For example, the alarm center 202 has been described as being linked to a single beacon 106, but it is possible to provide that a central alarm 202 is connected to several beacons 106, each being attached to a panel solar 100.

Claims (7)

CLAIMS1) Antitheft system (250) for a solar panel (100), the antitheft system (250) comprising: - a tag (106) for attachment to the solar panel (100) and comprising a position sensor, a central unit and a communication unit (108), and - an alarm center (202) having a communication unit (208) arranged to communicate with the communication unit (108) of said beacon (106) and means for generating 'an alarm. 2) antitheft system (250) according to claim 1, characterized in that the tag (106) comprises a source of embedded electrical energy. 3) antitheft system (250) according to one of claims 1 or 2, characterized in that the position sensor comprises an accelerometer. 4) antitheft system (250) according to claim 3, characterized in that the accelerometer is a three-axis accelerometer. 5) Solar panel (100) comprising: - a frame (102), - a receiver panel (104) fixed to the frame (102), and - an antitheft system (250) according to one of claims 1 to 4, whose beacon (106) is attached to the frame (102) or to the receiver panel (104), and whose alarm center (202) is offset. 6) solar panel (100) according to claim 5, characterized in that when the frame (102) is made of hollow profile, the tag (106) is fixed inside said profile. 7) A method of detecting an attempted theft of a solar panel (100) according to one of claims 5 or 6, the detection method comprising: - a delay step (301) during which the antitheft system (250) is in waiting phase, - a measuring step (302) during which the position sensor reads the data representative of its position, - a transfer step (304), during which said data are transmitted to the central unit, - an analysis step (306), during which the central unit checks whether there are significant variations of said data with respect to reference data, - if the verification is negative , a loopback step on the delay step (301), - if the check is positive, a validation step (308) in which the beacon (106) informs the alarm central (202) of the validation of the change of position, and - a step of engagement of the ala rme (310) during which the alarm center (202) triggers the means for generating an alarm.