FR2978414A1 - Automatic storage system for storing cycle, has control device communicated with central unit of host structure, and signaling device sending signal to user when battery of cycle is locked on fixed host structures without removing battery - Google Patents

Abstract

The system has a communication interface communicated with another communication interface of cycles (1). External control devices (2, 8) are communicated with a central unit of a fixed host structure (7) and arranged to selectively allow locking and unlocking of the cycles on the host structure. Each cycle includes a removable rechargeable battery (9) and a signaling device (9a). The signaling device sends a control signal to a user when the battery of the cycle is locked on the fixed host structures without removing the rechargeable battery.

Description

Automatic cycle storage system and cycle for such a system.

FIELD OF THE INVENTION The present invention relates to automatic cycle storage systems and cycles for such systems. More particularly, the invention relates to an automatic system for storing cycles comprising: a plurality of cycles (for example bicycles) each comprising: a rechargeable electric battery, at least one electronic central unit (belonging to the battery or another part of the cycle), - at least one communication interface, a plurality of fixed reception structures on which said cycles can be locked and each comprising: - an electronic central unit, - at least one adapted communication interface to communicate with the communication interface of the cycle, - and at least one external control device 25 communicating with the central unit of each host structure and adapted to selectively allow the locking and unlocking of the cycles on the structures of Home. A cycle storage system as described above can be used, for example, to make cycles available to the public, by identifying the borrower of the cycle and possibly paying a rental. BACKGROUND OF THE INVENTION EP-A-1,820,722 discloses an example of such a cycle storage system wherein the battery of each cycle is permanently fixed to the cycle and recharges while the cycle is in progress. is locked on the host structure, which has the disadvantage that said battery is not necessarily well recharged when the next user borrows the cycle. OBJECTS OF THE INVENTION The present invention is intended to overcome this disadvantage.

For this purpose, according to the invention, an automatic system for storing cycles of the kind in question is characterized in that the battery of the cycle is removable and the system comprises a signaling device controlled to send a battery removal signal to a user when he locked a cycle on a home structure without removing the battery from the cycle. Thanks to these provisions, each user can use his own battery or at least a battery which he mastered the right load. In addition, the battery removal signal prevents the user from forgetting his battery on the cycle when it makes it by locking the cycle on the host structure. In different embodiments of the automatic cycle storage system according to the invention, one of the following arrangements may also be used in addition (and possibly independently of each other and independently of the above). the signaling device is adapted to emit a sound signal; - the signaling device is controlled to emit the sound signal until the battery has been removed from the cycle after locking the cycle on the host structure; the signaling device belongs to the cycle (either to the battery or to another part of the cycle). Moreover, the subject of the invention is also a cycle for an automatic cycle storage system as defined above, adapted to lock on a reception structure which comprises at least one electronic central unit and a communication interface. , said cycle comprising: - a rechargeable electric battery, - at least one electronic central unit (belonging to the battery or to another part of the cycle), - at least one communication interface adapted to communicate with the communication interface of the host structure, characterized in that the cycle battery is removable and the cycle (the battery or other part of the cycle) includes a signaling device controlled to send a battery removal signal to a user when locked the cycle on a home structure without removing the battery from the cycle. Advantageously, the signaling device is adapted to emit a sound signal, and it can be controlled to emit the sound signal until the battery has been removed from the cycle after locking the cycle on the host structure. BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will become apparent from the following description of several of its embodiments, given by way of non-limiting examples, with reference to the accompanying drawings. In the drawings: FIG. 1 is a schematic perspective view showing an automatic cycle storage system according to an embodiment of the invention, FIG. 2 is a block diagram illustrating the main electrical components of the storage system. FIG. 3 is a diagrammatic view showing a user wearing a rechargeable battery at his belt that may be used in particular in the system of FIGS. 1 and 2; FIG. 4 is a block diagram showing components of the battery; FIG. 5 is a schematic perspective view of a battery that may belong to the system of FIGS. 1 and 2, being loaded, FIG. 6 is a schematic diagram of the battery of FIG. block showing components of the battery and its charger; and FIG. 7 is a block diagram showing components of the battery and the host structure, in a variant of the invention. DESCRIPTION DETAILED DESCRIPTION In the different figures, the same references designate identical or similar elements. As shown in FIG. 1, the present invention relates to an automatic system for storing cycles 1 such as, in particular, bicycles, making it possible, for example, to store cycles on the public road so as to make them available to the public. This automatic cycle storage system may comprise a plurality of cycle storage stations, one of which is shown in FIG. 1. Each cycle storage station comprises a station central station 2, which is here in the form of a stationary station. interactive terminal with a user interface comprising for example a keyboard 3, a screen 4, an electronic portable card reader 5, a ticket printing device 6, etc. Alternatively, the interactive terminal 2 may not have a user interface and be a simple communication gateway between the cycle storage station and a central server 8 (SERV.). The interactive terminal 2 communicates, on the one hand, with the central server 8 which manages the subscriptions and the rents of cycles, and on the other hand, with a plurality of reception structures 7 which make it possible to lock the cycles during their storage and which can for example be in the form of locking terminals fixed to the ground on the public road and adapted to each lock a cycle 1.

As shown in FIG. 2, each cycle 1 can be an electrically assisted cycle comprising a removable and rechargeable battery 9 (BATT.) That can be connected to a connector 8 (DOCK) connected to an electronic central unit 10 of the cycle (CPU ), for example a microprocessor or the like. The battery 9 supplies an electric motor 11 (M), for example a pedal assist electric motor which can be controlled by the central unit 10. The central unit 10 also controls a loudspeaker or other sound transmitter 9a ( "buzzer" or other) and a communication interface 12 (COM) which is adapted to communicate with a similar communication interface 13 (COM) belonging to each locking terminal 7. The communication interfaces 12, 13 can be of any type known and operate for example in wired mode, by induction, by other radio waves. The communication interface 13 of the locking terminal 7, for its part, communicates with an electronic central unit 14 (CPU) specific to the locking terminal 7 (microprocessor, microcontroller or other), which central unit 14 also controls a lock 15 (LOCK) adapted to lock a cycle on the locking terminal 7, and communicates with at least one sensor 16 (SENS) adapted to detect the locking of a cycle on the locking terminal 7, and a communication interface 17 (COM), for example a MODEM adapted to communicate by wire or by any other means with a similar communication interface 18 (COM) belonging to the interactive terminal 2 mentioned above. The interactive terminal 2 also comprises an electronic central unit 19 (CPU) such as a microprocessor, microcontroller or other, which communicates with the keyboard 3, the screen 4 and the card reader 5 mentioned above as well as with a communication interface 20 (COM) such as a modem communicating by radio or wireline with the aforementioned central server 8. The device that has just been described operates as follows: when a user wishes to use a cycle 1 on the station, he identifies himself for example on the interactive terminal 2 or by any other known means, so as to choose a cycle 1 and release it from its locking terminal 7, in a manner known per se, and it brings with it a charged battery 9 which it connects to the connector 8 of the cycle. After use, the user returns cycle 1 to a cycle storage station (which may be the one on which he has borrowed the cycle or another station) by relocking it on a locking terminal 7 of this station, in a known manner in itself. When the cycle 1 has been locked on the locking terminal 7, the locking terminal detects this locking by means of the sensor 16 and returns the information to the cycle 1 via the communication interfaces 13 and 12. The unit 10 central cycle is programmed so that, if the user has not yet removed the battery 9 of the cycle at that time, the sound transmitter 9a emits a continuous or discontinuous sound signal, which lasts preferably as long as the Battery 9 was not removed from the cycle. This prevents the user from forgetting his battery 9 on the cycle after returning it to the cycle storage station.

It should be noted that the battery 9 could possibly include an electronic central unit similar to the above-mentioned central unit 10, a sound transmitter similar to the above-mentioned sound transmitter 9a and a short-range radio communication interface or the like, operating for example under the protocol ZIGBEE and communicating with a similar communication interface connected to the central unit 14 of the locking terminal 7. In this case, it is the battery 9 itself which could emit the audible signal when it detects that it is still connected to the cycle 1 when it is informed of the cycle 1 lock by the central unit 14 of the locking terminal. It should be noted that the sound signal emitted by the sound transmitter 9a could be replaced by any other type of signal that can draw the user's attention to the fact that he has not removed his battery 9 (light signal, message displayed on a screen or other). As shown in Figure 3, the user 21 can carry his battery 9 in a pocket 22 where any other container, it can for example wear belt or other. As shown in FIG. 4, the battery 9 may comprise an electronic central unit 25 (CPU) such as a microcontroller or microprocessor, controlling a communication interface 24 (COM) as well as a loudspeaker 26 or other sound transmitter ( "buzzer" or other). The communication interface 24 of the battery can be a contactless communication interface, operating for example by radio waves, by induction or the like, and adapted to communicate with a communication interface 23 (COM) belonging to the pocket 22, to detect the presence of the pocket 22 in the immediate vicinity of the battery. By way of example, the communication interface 23 of the pocket 22 may be an RFID chip and the communication interface 24 of the battery 9 may be an RFID chip reader, adapted for example to detect the presence of the pocket 22 within a few tens of centimeters of the battery (for example about 1 m). Under normal conditions of use, the battery 9 is either in the pocket 22 or in the immediate vicinity when the user uses the cycle 1. On the other hand, when the battery 9 moves away from the pocket 22 to the point where the communication interface 24 can no longer detect the belt 22, so the central unit 25 sounds the sound transmitter 26, so that the user 21 can see for example that he forgot the battery 9 on the cycle 1, especially during a temporary stop of cycle 1 or when it makes the cycle. In addition, if the battery 9 is stolen from the user 21, it starts to ring while the thief wins, without the thief can stop the ring, which is a deterrent against theft.

Moreover, as shown in FIGS. 5 and 6, the battery 9 can be charged by the user 21, for example at home, by means of a charger 27 which can be connected to the electrical network and comprising an electronic central unit 29 (CPU) for example a microprocessor or microcontroller, which controls a communication interface 28 (COM) adapted to communicate with a communication interface 24a belonging to the battery. This communication interface 24a of the battery can be for example a simple RFID chip, previously paired with the communication interface 28 of the charger, which is then an RFID chip reader. If the communication interface 28 of the charger recognizes the battery 9 via the communication interface 24a, then the central unit 29 of the charger allows the charging of the battery, otherwise it prohibits recharging the battery. It will be noted that the charging control of the battery could possibly be carried out by the above-mentioned central unit of the battery, in which case the communication interface 28 of the charger could simply be an RFID chip previously paired with the communication interface. , and in this case the central unit 29 of the charger could possibly be deleted. In the variant of FIG. 7, the electronic central unit 14 of each locking terminal 7 can control a communication interface 30, such as an RFID chip reader, capable of communicating with a communication interface 24a of the battery 9. , for example an RFID chip containing a battery code previously stored by the central server 8 and associated with a user identifier or a battery number visible on the battery. This storage in the server 7 may occur for example when the user registers on the server 7 as a subscriber of the rental system of the cycle, or at any other time. When the user wishes to cycle on a cycle storage station, he indicates his user identifier or his battery number for example on the interactive terminal 2 and connects his battery 9 to the desired cycle, after which the user battery identifier is read by the communication interface 30 of the corresponding lock terminal 7, which indicates this identifier to the server 7, which server 7 authorizes the release of the cycle 1 by the lock terminal 7 only if the battery identifier corresponds to the code previously entered by the user on the interactive terminal 2. This communication of the battery identifier to the lock terminal 7 could possibly be carried out via the central unit 10 of the cycle and the communication interfaces 12, 13, when the central unit 10 of the cycle is able to read the battery identifier by communication (wired or without contact) with a central unit 9. Or again, the battery 9 could be provided with an electronic central unit which controls a short-range radio communication interface (operating for example under the ZIGBEE protocol) communicating with the above-mentioned communication interface 30. the locking terminal 7 (this communication interface 30 is then also a communication interface operating under the ZIGBEE protocol or other short-range radio communication protocol). The embodiments of FIGS. 5 to 7 make it possible in particular to prohibit the operation of stolen batteries.

Claims (5)

REVENDICATIONS1. Automatic cycle storage system comprising. a plurality of cycles (1) each comprising: - a rechargeable electric battery (9), - at least one electronic central unit - at least one communication interface, a plurality of fixed reception structures (7) on which said locks can be locked cycles (1) and each comprising: - an electronic central unit (14), - at least one communication interface (13) adapted to communicate with the communication interface (12) of the cycle, and at least one control device external connector (2, 8) communicating with the central unit (12) of each receiving structure (7) and adapted to selectively enable locking and unlocking of the cycles (1) on the reception structures, characterized in that that the battery (9) of the cycle is removable and the system comprises a signaling device (9a) controlled to send a battery removal signal to a user when he has locked a cycle (1) on a structure of Home (7) without removing the battery (9) from the cycle. 2. System according to claim 1, wherein the signaling device (9a) is adapted to emit a sound signal. 3. System according to claim 2, wherein the signaling device (9a) is controlled to emit the sound signal until the battery (9) has been removed from the cycle (1) after locking the cycle on the structure of home (7). System according to any one of the preceding claims, wherein the signaling device (9a) belongs to the cycle. Cycle for an automatic cycle storage system according to one of the preceding claims, adapted to lock on a host structure (7) which comprises at least one electronic central unit and a communication interface, said cycle including. a rechargeable electric battery (9), at least one electronic central unit (10), at least one communication interface (12) adapted to communicate with the communication interface of the reception structure, characterized in that that the battery (9) of the cycle is removable and the cycle comprises a signaling device (9a) controlled to send a battery removal signal to a user when he has locked the cycle on a reception structure without removing the battery (9) of the cycle. The cycle of claim 5, wherein the signaling device (9a) is adapted to emit a sound signal. System according to claim 6, wherein the signaling device (9a) is controlled to emit the sound signal until the battery (9) has been removed from the cycle (1) after locking the cycle on the structure. Hospitality (7).