FR3011025A3 - INTELLIGENT PADLOCK-INTELLIGENT ELECTRONIC PADLOCK PROCESS - Google Patents

Abstract

A padlock method incorporating an electronic card powered by a battery provides it with intelligence and allows it to communicate with the user in wireless technology, low-speed for a long-range range. ▪ Detection of unlocking (opening) and unlocking (closing) ▪ Detection of cut of the handle ▪ Detection of movements and shocks ▪ Geolocation ▪ Control via an actuator of the opening and closing ▪ Low battery detection

Description

The present invention relates to the general field of communications between electronic systems. DESCRIPTION OF THE FIGURES The characteristics and advantages of the invention will be better appreciated thanks to the description which follows, description which sets out the characteristics of the invention through a non-limiting example of application. The description is based on the appended figures which represent: FIG. 1: Electronic Content of the Smart Padlock Figure 2: Principle of Padlock Communication on a Low-Speed and Long-Distance Network Detailed Description of an Embodiment of the Invention smart padlock The main function of a padlock is to protect property and / or people. The smart padlock must respect a certain level of security. The tests and verifications to be carried out are: - The traction on the handle, - The shearing of the handle, - The torsion of the handle, - The traction on the cylinder, - The number of truly different keys. The opening and closing of the padlock must also be done by a key. Smart Padlock Electronic Features In order to provide the energy needed to operate the smart padlock, a battery (107) (Lithium or rechargeable) is built into the mechanism. The minimum autonomy desired is one year. The battery must be accessible only with the padlock key. The electronic part consists of the following blocks: - Microcontroller (101), - Padlock status sensor (102): unlocked (open) / locked (closed), - Actuator for locking (closing) and unlocking (opening) padlock (103), - GPS module (104), very low consumption, for the recovery of GPS coordinates, - Long-range radio module (105), very low consumption, for communication over a low-speed and long-distance network, - Detector Low battery (106), - Battery or rechargeable battery (107), - Accelerometers (108), very low consumption, for detecting shocks and movements experienced by the padlock, - Padlock rupture detector (109), for the detection of the cut of the handle of the padlock. - Thread (110) for testing the cut of the padlock handle. Information Flow The purpose of the smart lock (201) is to allow the user to communicate with a padlock, wherever installed, via their phone or computer (206). For this, the padlock uses a low-speed and long-distance network to connect to the Internet. "Rising" path The "rising" path is used for monitoring and feedback. When the padlock has information to communicate to the user, he uses his modem to send a frame on the low-speed and long-distance network. The nearest base station (202) retrieves the information for transmission to the proprietary servers (204) via the servers of the low speed network (203). This information is thus available for viewing by the user on web and mobile interfaces (206). Alerts can be generated (SMS, voice alerts or e-mails) to the user (205). "Down" path The "down" path is used for the command. When the user wishes to control a lock via his phone or his computer (206), he connects to the web or mobile interface. The information is transmitted to the servers of the low-speed network (203) and then to the base station (202) closest to the padlock (201). The radio module integrated in the padlock can thus retrieve the command generated by the user. Two modes of operation are possible according to the desired reactivity: - A permanent listening allows a reception of the fast information but is very consuming in energy. - A response to a periodic keep-alive of the radio module, less instantaneous but less energy consuming. Information exchanged with low speed and long distance network Monitoring The exchanged monitoring frames are: - Periodic presence frames (to indicate that the padlock is powered, functional). - Frame containing the GPS coordinates for the location. - Frames containing the unlocking (opening) or locking (closing) information of the padlock. - Alarm frame detected by the accelerometer (movement / shock distinction). - Alarm frame detected by the wire present in the handle. - Low battery alarm frames. - Geographical perimeter exit alarm frames with GPS coordinates. Commands The exchanged command frames are: - Unlocking (opening) or locking (closing) command frames for the padlock. - Settings frames (unlocking / locking schedules, activation / deactivation of alarms, geographical perimeter, etc.).

Claims (7)

REVENDICATIONS1. Padlock method, characterized in that it comprises: - a step of association of the connected device to a mobile receiver 5 type Smartphone or computer connected in any case to the Internet. when the padlock device connected to the Smartphone or the so-called "owner" computer is reassembled: a step of transmitting information from said padlock device connected to the central server via the SIGFOX network; the central server receiving information concerning said connected padlock device; o a step of determining by the central server the identifier of the padlock device connected; o a step of reading information concerning said padlock device connected to the central server by the Smartphone or computer identified via the Internet. when requesting the Smartphone or the so-called "owner" computer to the connected padlock device: a step of identification of the smartphone or computer or a step of controlling the function associated with the pair consisting of the smartphone or computer connected padlock device having a unique identification number. a step of receiving information from said connected padlock device from the central server via the SIGFOX network 2. Method according to claim 1, characterized in that, during the association step, a secure platform (server) is implemented capable of receiving the identifier of the padlock device connected during the step the central platform retrieves the data and transfers it to the Smartphone or "proprietary" computer. 3. Method according to claim 2, characterized in that, during the association step, it implements a secure platform (server) capable of receiving the smartphone or computer identifier during the ordering step. remotely, the said central platform transfers the command of the function to the padlock device connected to the Smartphone or "proprietary" computer. 4. Method according to any one of claims 1 to 3, characterized in that, during the control step the server communicates with the padlock electronic circuit via the SIGFOX radio network. 5. Method according to any one of claims 1 to 4, characterized in that, during the association step, it implements access to a central server via the Internet. 6. Method according to any one of claims 1 to 5, characterized in that, during the association step, one or more Smartphone is associated with a control function over an indefinite or planned authorization period. . 7. Method according to any one of claims 1 to 6, characterized in that, during the communication step, the connected padlock device communicates its security states to the smartphones and or computers associated, so synchronous (in case of emergency and alert) or asynchronous (for traceability of states)