Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60L—PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
  • B60L50/00—Electric propulsion with power supplied within the vehicle
  • B60L50/20—Electric propulsion with power supplied within the vehicle using propulsion power generated by humans or animals
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDECARS, FORECARS, OR THE LIKE
  • B62K3/00—Bicycles
  • B62K3/02—Frames
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60L—PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
  • B60L53/00—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
  • B60L53/10—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
  • B60L53/14—Conductive energy transfer
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60L—PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
  • B60L53/00—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
  • B60L53/10—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
  • B60L53/14—Conductive energy transfer
  • B60L53/16—Connectors, e.g. plugs or sockets, specially adapted for charging electric vehicles
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62J—CYCLE SADDLES OR SEATS; AUXILIARY DEVICES OR ACCESSORIES SPECIALLY ADAPTED TO CYCLES AND NOT OTHERWISE PROVIDED FOR, e.g. ARTICLE CARRIERS OR CYCLE PROTECTORS
  • B62J6/00—Arrangement of optical signalling or lighting devices on cycles; Mounting or supporting thereof; Circuits therefor
  • B62J6/01—Electric circuits
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
  • B62M6/00—Rider propulsion of wheeled vehicles with additional source of power, e.g. combustion engine or electric motor
  • B62M6/40—Rider propelled cycles with auxiliary electric motor
  • B62M6/45—Control or actuating devices therefor
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
  • B62M6/00—Rider propulsion of wheeled vehicles with additional source of power, e.g. combustion engine or electric motor
  • B62M6/80—Accessories, e.g. power sources; Arrangements thereof
  • B62M6/90—Batteries
• • H—ELECTRICITY
  • H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
  • H02J—ELECTRIC POWER NETWORKS; CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
  • H02J7/00—Circuit arrangements for charging or discharging batteries or for supplying loads from batteries
  • H02J7/50—Circuit arrangements for charging or discharging batteries or for supplying loads from batteries acting upon multiple batteries simultaneously or sequentially
• • H—ELECTRICITY
  • H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
  • H02J—ELECTRIC POWER NETWORKS; CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
  • H02J7/00—Circuit arrangements for charging or discharging batteries or for supplying loads from batteries
  • H02J7/70—Circuit arrangements for charging or discharging batteries or for supplying loads from batteries characterised by the mechanical construction
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60L—PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
  • B60L2200/00—Type of vehicles
  • B60L2200/12—Bikes
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60L—PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
  • B60L2260/00—Operating Modes
  • B60L2260/20—Drive modes; Transition between modes
  • B60L2260/22—Standstill, e.g. zero speed
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDECARS, FORECARS, OR THE LIKE
  • B62K15/00—Collapsible or foldable cycles
  • B62K2015/001—Frames adapted to be easily dismantled
• • H—ELECTRICITY
  • H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
  • H02J—ELECTRIC POWER NETWORKS; CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
  • H02J2105/00—Networks for supplying or distributing electric power characterised by their spatial reach or by the load
  • H02J2105/30—Networks for supplying or distributing electric power characterised by their spatial reach or by the load the load networks being external to vehicles, i.e. exchanging power with vehicles
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
  • Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
  • Y02T10/00—Road transport of goods or passengers
  • Y02T10/60—Other road transportation technologies with climate change mitigation effect
  • Y02T10/70—Energy storage systems for electromobility, e.g. batteries
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
  • Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
  • Y02T90/00—Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
  • Y02T90/10—Technologies relating to charging of electric vehicles
  • Y02T90/14—Plug-in electric vehicles

Definitions

• the field of the invention is that of the means of transport.
• the invention relates to a structure of a human-powered vehicle capable of compact storage.
• the invention finds particular applications for compactly storing a bicycle fleet. As part of a shared bicycle service, this storage can be carried out in one or more places in an urban environment. STATE OF THE ART
• Such terminals generally include a mechanical device that locks the use of the bicycle and needs to be controlled to release the bicycle which can then be used.
• these terminals can be electrically powered to be able to recharge a battery of an electrical assistance possibly included in the bicycle.
• None of the current systems can simultaneously meet all the required needs, namely to propose a technique that allows to densify the storage of a fleet of human-powered vehicles while requiring minimal installation.
• the present invention aims to remedy all or part of the disadvantages of the state of the art mentioned above.
• the present invention aims, in a first aspect, a structure of a human-powered vehicle.
• a human-powered vehicle may be for example a bicycle, also called a bicycle, a tricycle, a scooter, a pedal car, a pedal boat, etc.
• human propulsion is provided by a pedaling device used by an individual, the pedaling device generally comprising two cranks driving the crank shaft in rotation.
• the structure can be in particular a frame or a frame.
• the structure of the vehicle comprises at least one coupling set comprising hooking means and complementary hooking means, the hooking means cooperating with complementary hooking means presented by a similar vehicle or by a fixed terminal.
• the structure of the vehicle comprises at least one coupling set comprising hooking means and complementary hooking means, the hooking means being able to mate with complementary hooking means presented by a second similar vehicle or a terminal.
• the hooking means are configured to mate with complementary hooking means presented by a second similar vehicle or a terminal.
• the space between two vehicles coupled together can be reduced to a minimum or even zero, which allows for a vehicle storage that is compact.
• the hooking means and the complementary hooking means of one and the same coupling set are positioned laterally in a plane perpendicular to a longitudinal axis of said vehicle, or to the axis main movement of said vehicle.
• the hooking means and the complementary hooking means of the same coupling set are positioned on either side of the vehicle.
• two coupled vehicles are aligned along an axis perpendicular to the longitudinal axis or the axis of displacement.
• the bicycle when the vehicle is a bicycle, the bicycle has a longitudinal median plane substantially corresponding to a main plane of symmetry of the bicycle.
• the longitudinal median plane When moving the bicycle online right, the longitudinal median plane is vertical and parallel to the wheels of the bicycle.
• the hooking means and the complementary hanging means are offset laterally with respect to the longitudinal median plane.
• hooking means and the complementary hanging means are also generally at the same level or height, keeping the bicycle vertically in its natural position.
• the hooking means and the complementary hooking means of one and the same coupling set are positioned laterally, on either side of said vehicle, and offset by a distance predetermined along the main axis of movement of said vehicle.
• the vehicles coupled together are aligned in a predefined position, to reduce the congestion of parked vehicles.
• the distance between the hooking means and the complementary hooking means of the same coupling set is smaller than the span of said vehicle.
• the span is the distance between the ends of the handlebars.
• the distance between the hooked means and the complementary hooking means corresponds to the distance between the first surface and the second surface of the same coupling set.
• first surface and the second surface of the same game are parallel to each other and preferably parallel to a median plane of the vehicle, or even to the longitudinal median plane in the case of a bicycle.
• the distance between the hooking means and the complementary hooking means of the same set defines the pitch between each vehicle of a coupling comprising a plurality of coupled vehicles.
• the distance between the hooking means and the complementary hooking means of one and the same coupling set can advantageously be greater than the width of the crankset at the level of the two cranks, a pedal of a bicycle possibly coming into contact with a pedal of a second bicycle, since this contact causes only a driving effect of the second pedal by the first pedal, without blocking the rotation of the two cranksets.
• the distance between the hooking means and the complementary hanging means of the same game can be advantageously greater than the pedal width taking into account the pedals so that the pedals can freely rotate when two bicycles are coupled.
• the vehicle structure comprises at least two coupling sets.
• the complementary hooking means comprise at least one magnet cooperating with at least one magnet comprised by the hooking means.
• the two magnets may advantageously be of opposite polarity.
• the complementary hooking means comprise at least one permanent magnet cooperating with at least one metal element presented by the hooking means.
• the metal element may in particular be a metal sheet.
• the complementary hooking means also comprise an electromagnet capable of creating a magnetic field opposite to the magnetic field of the permanent magnet.
• the vehicle may comprise means for detecting gripping by an individual.
• the electromagnet is controlled to create a counter-field.
• the hooking means have a male element adapted to mate with a female element presented by the complementary hanging means.
• the complementary hooking means have a male element adapted to mate with a female element presented by the hooking means.
• the female member comprises a recess of oblong shape, in the length is oriented perpendicular to the main axis of movement of said vehicle.
• the hooking means and the complementary hooking means each comprise complementary electrical connection means, able to electrically connect said vehicle with the second vehicle or with the terminal.
• a charging circuit can be put in place, electrically connecting the bicycles coupled together.
• the charging circuit can be realized via a coupling play, the coupling play comprising at least two pairs of complementary electrical connectors.
• the charging circuit can also be realized via two sets of couplings, each set comprising at least one pair of complementary electrical connectors.
• the vehicle also comprises means for identifying said vehicle and means for communicating the identification of said vehicle to a similar vehicle.
• the means of communication of the identification of said vehicle comprise a tag according to the NFC (Near Field Communication) standard, the tag being included in the hooking means.
• the hook means comprises an NFC reader adapted to read the NFC tag of the second vehicle.
• said structure is a frame of a bicycle.
• the invention also provides a structure, such as a bicycle frame, of the type comprising a frame structure comprising a pair of mutually opposed side faces and a first attachment member mounted in a first region on the frame structure.
• the frame further comprises a second attachment element arranged in a second zone of the frame structure, the second attachment element being complementary to the first attachment element, the first zone is on one of the lateral faces, while the second zone is on the other side faces, and the first zone and the second zone are arranged substantially at the same level of the frame structure and offset the one of the other in a longitudinal direction of the frame.
• analogous frames according to the invention can attach to each other in a predefined position.
• the offset arrangement of the fastening elements on the frame makes it possible to reduce the size of parked bicycles.
• the first zone may be arranged on a saddle tube or an oblique tube of the frame structure, and the second zone may be arranged a guy tube or a steering column fork of the frame structure. In this way, the offset between different analog bicycles is optimized.
• At least one of the first attachment member and the second attachment member protrude from the respective side face. This facilitates access to the first attachment member and / or the second attachment member, respectively. The attachment of the first element on the second is facilitated.
• the frame structure includes a steering column, which includes a third attachment member, and a fourth complementary attachment member of the third attachment member, the third attachment member being arranged in a third zone on a front face of the steering column and the fourth attachment element being arranged in a fourth zone on a rear face of the steering column, the third and fourth zones being arranged substantially at the same level and staggered the one of the other in a direction transverse to the frame.
• Analogous bicycles according to the invention can thus attach themselves to each other in a predefined position. This further reduces the congestion of parked bicycles.
• the frames are also maintained between them, which notably avoids the need for a crutch to park the bikes in a standing position.
• the frame may further include a fastener assembly that holds the first fastener element in the first zone, the second fastener element in the second zone, the third fastener element in the third zone and / or the fourth attachment element in the fourth zone. This facilitates the positioning of each fastener element on the frame structure.
• the steering column comprises a handlebar, and the third and fourth attachment members are positioned on said handlebar. This keeps the handlebar firmly in a predefined position.
• each attachment element comprises a magnet and each complementary attachment element comprises a piece of magnetic material. This facilitates the connection between two similar bicycles.
• At least one of the first, second, third and fourth attachment members may comprise an electromagnet device (s) which includes control means for locking and unlocking the fastener (s) with the fastener (s) complementary. This provides more flexibility for self-service access for bicycles.
• the fastener assembly includes a slider device for holding each fastener member while permitting movement of each fastener member at a degree of freedom in a direction perpendicular to the ground. This makes it possible to overcome terrain irregularities, for example a floor that is not perfectly level or a sloping floor.
• the slide device comprises a rail and a slide mounted on said rail and each attachment element is mounted on said slide.
• This construction is effective to achieve a degree of freedom in a direction perpendicular to the ground with attachment elements of shape and / or nature potentially quite different.
• each attachment element is mounted on the slide by means of a pivot. This makes it possible to further reduce terrain irregularities.
• the invention also provides a vehicle comprising a structure according to any one of the preceding embodiments.
• the vehicle also comprises wireless communication means able to communicate with a similar vehicle, a terminal or a remote server.
• said vehicle is a bicycle.
• the invention also relates to a terminal comprising complementary hooking means adapted to receive hooking means of a vehicle according to any one of the preceding embodiments.
• the complementary hooking means of the terminal comprise electrical connection means configured to electrically power hooking means of a vehicle coupled to the terminal.
• a single terminal is sufficient to electrically power one or more vehicles coupled to the terminal.
• the terminal can be electrically connected to a battery, an electric generator or an electrical network.
• the battery or the electrical generator making it possible to make the terminal autonomous, can advantageously be integrated into the terminal.
• the invention relates to a method of recharging a battery of all or part of a plurality of vehicles according to any one of the preceding embodiments, said vehicles each comprising an electronic module and an electric battery supplying an assistance device for pedaling said vehicle, said vehicles being coupled to each other, the set of coupled vehicles being called stock, the stock being coupled to a terminal according to the preceding embodiment, the terminal being connected to a power supply electric.
• Such a method comprises steps of:
• the selection of the battery (s) to be charged is restricted to a predetermined number, said selection comprising the battery (s) having a level of charge less than one. predetermined threshold, among the batteries of the vehicles connected at a predetermined distance from the free end of the stock.
• the terminal comprises an electronic module and the master module is determined among the electronic modules included in the vehicles of the stock or in the terminal.
• FIG. 1 shows a view of a vehicle comprising a structure according to the invention
• Figure 2 is a view of the vehicle storage of Figure 1;
• FIG. 3 is a schematic sectional view of the vehicle storage of Figure 2, illustrating the coupling means between two vehicles;
• FIG. 3B is a simplified electrical diagram of the vehicle storage of FIG. 2;
• FIG. 4 is a view from above of a vehicle stock of FIG. 1;
• FIG. 5 is a block diagram of a method of reloading all or part of the stock of FIG. 4;
• FIG. 6 shows a side view of a bicycle frame according to the invention
• FIG. 7 shows a perspective view of a bicycle comprising the frame of FIG. 6;
• FIG. 8 shows a side view of a bicycle frame according to one embodiment of the invention.
• FIG. 9 shows a profile view of the frame of FIG. 8 comprising a steering column
• FIG. 10 shows a perspective view of a bicycle comprising a frame according to one embodiment of the invention
• - Figure 1 1 shows a diagram of a bicycle seen from above comprising a frame according to the invention
• FIG. 12 shows a diagram of a plurality of similar bicycles viewed from above, each bicycle comprising a frame according to the invention
• FIG. 13 shows a diagram of an attachment support viewed from above
• FIG. 14 shows the bicycles of FIG. 12, a bicycle of which is attached to the attachment support of FIG. 13;
• FIG. 15 shows an orthogonal projection of fastening elements in a frame plane.
• FIG 1 shows a human powered vehicle 100, commonly known as a bicycle.
• vehicle 100 comprising in particular a tubular frame 1 10, two wheels 120, a handlebar 130 and a crankset 140, is hereinafter referred to as the bicycle description 100.
• the structure of the vehicle 100 is therefore in the present non-limiting example of the invention.
• invention the frame 1 10 of the bicycle 100.
• the bicycle 100 moves along a longitudinal axis 150 when the wheels 120 are parallel.
• the frame of the bicycle 100 is substantially symmetrical with respect to a median plane 151 parallel to the longitudinal axis 150, the median plane 151 generally comprising the two wheels 120 when they are parallel.
• the bicycle 100 has laterally on each side, offset by a distance defined with respect to the median plane 151, a zone 160 of hung forward and a hung zone 165 located at the rear of the bicycle 100. It should be emphasized that the hooked area 160 1 on one side of the bicycle 100 is advantageously complementary to the hooked area 1860 on the other side of the bicycle 100.
• the bicycle 100 comprises two sets of coupling, one at the front of the bicycle 100 and the other at the rear of the bicycle 100, the front coupling set comprising a zone I 6O1 of Hooked and a complementary hooked area I 6O2, the rear coupling play comprising a hung zone 6S 1 and a complementary hung zone 165 2 .
• the bicycle 100 comprises only one coupling set, preferably close to the front of the bicycle 100, comprising a hooking zone and a driving zone. hung complementary.
• the two zones 160 of front hook are substantially plumb with the axis of rotation of the front wheel 120A, while the two zones 165 of rear hook are substantially in the axis of rotation of the rear wheel 120B.
• the zones 160, 165 make it possible to keep the bicycle 100 at a device 170 having at least one zone 180 for hooking complementary to one of the zones 160 or 165.
• the maintenance of the bicycle 100 to the device 170 is generally carried out using a force of magnetic attraction, by the presence of a permanent magnet or not.
• An icebreaker may be provided to create a magnetic counterforce to more easily detach the bicycle 100.
• a device indicating the gripping of the bicycle 100 by a user can advantageously be included in the bicycle 100.
• This gripping detection device can be for example placed at the handlebar 130 of the bicycle 100 so to detect via an accelerometer a movement of the handlebar 130.
• the device 170 may in particular be a fixed terminal or another bicycle similar or identical to the bicycle 100.
• the hooked areas 160 and 165 present on one side have a shape and / or a complementary polarity to the zones 160 and 165 of hung opposite, the other side, for example on the right side of the bicycle 100.
• two hooked areas 160 and the two hanging areas 165 are positioned laterally in a plane perpendicular to the longitudinal axis 150, to allow storage of the bicycles 100 in line perpendicular to the axis 150.
• the hooked areas 160 and 165 generally have a planar face parallel to the longitudinal axis 150, each planar face being adapted to come into contact with a plane face presented by the hooked zone 180.
• the distance between the hooked area 160i and the complementary hooked area 160 2 is smaller than the span of the bicycle 100, the span corresponding here to the distance between the ends of the handlebar 130, but greater than the width of the bottom bracket 140.
• the distance between the hitched areas 165 at the rear of the bicycle 100 is substantially equal to the distance between the hooking areas 160 located at the front of the bicycle 100.
• two bicycles 100 coupled together are parallel.
• the bicycle 100 also includes a battery 190 connected to an electrical pedal assistance device 191, and an electronic module 195 comprising a microprocessor, a computer memory and a wireless communication device 196.
• the wireless communication device 196 is based on for example on a Wi-Fi protocol, a Bluetooth Low Energy® protocol (BLE), or any other protocol well known to those skilled in the art.
• the electronic module 195 may also be called a microcontroller.
• FIG. 2 illustrates the storage of two bicycles 100 at a terminal 210 comprising two poles 215.
• the terminal 210 has a zone 220 on which is magnetized to the zone 180 A on the right side of the first bicycle 00 A and a zone 230 on which is held by magnetization to the zone 165AI on the right side of the first bicycle 100A-
• the terminal 210 also comprises an electronic module comprising a microprocessor, a computer memory and a wireless communication device.
• the electronic module of the terminal is generally similar to the electronic module 195 of the bicycle 100.
• the second bicycle 100 B is then positioned on the first bicycle 100.
• the zone Hooked 160BI on the right side of the second bicycle 100B is magnetized at 160A2 on the left side of the first bicycle 100A.
• the hooked zone 165 B i on the right side of the second bicycle 100 B is held by magnetization to the zone 165 A 2 on the left side of the first bicycle 100A.
• Each of the two sets of coupling may comprise for this purpose an electromagnetic suction pad on one side and a metal plate on the complementary side.
• a mechanical ball with degrees of freedom in rotation can also be provided, for example on the side of the metal plate, and a spring to ensure contact between the metal structures regardless of the roughness of the ground.
• the hooked areas 160 B 2 and 165 B 2 to the left of the bicycle 100 are free for the attachment of another bicycle.
• handlebars 130 and therefore the front wheels 120A, are advantageously rotated so as not to collide with each other, thus contributing to the compactness of the storage.
• hooked areas 160, 165 are generally eccentric laterally to the frame 1 10 and that the distance between each lateral end of the hooked areas 160 or hooked areas
• 165 is configured according to the spacing pitch between each bicycle 100.
• the hooked areas 165 back generally offer more degrees of freedom than the hung areas 160 before to allow to compensate for roughness or possible inclination of the ground on which the bicycles 100.
• Each rear hung zone 165 may, for example, have a plane coming into contact with a plane of another hooked zone 165, the coupling of the two planes not being constrained in a lateral direction, in particular in a direction substantially vertical.
• the terminal 210 has hooked areas 160 and 160 front 165 on each side of the poles 215 to be able to store bicycles 100 on both sides of the terminal 210 and allow to easily remove two bicycles 100.
• FIG. 3 is a schematic view showing in detail an example of a coupling mechanism between two hooked areas before 160, namely between a hooking zone 310 and a complementary hooking zone 320.
• Figure 3 thus shows a terminal 210 and two identical bicycles 100.
• the bicycle 100 A is coupled to the terminal 210 via a front hitch zone 310 A , located in the present non-limiting example of the invention to the right of the bicycle 100A, and a zone of hung complementary 320c fixed to the mast 215 A of the terminal 210.
• the bicycle 100 A also includes a complementary hooked area
• 320 A located on its left side, and intended to be coupled with a gripping zone 310B 100B of the bicycle.
• a device of any kind can come to mate with the stock 250 to the extent that it has at least one hooked area 310 or at least one additional hooked area 320.
• the hooked area 310 has a male element 31 1 cooperating with a female element 321 of a hooked area before 320.
• the male element 31 1 of the hooked zone 310 is configured in the present nonlimiting example of the invention by a cylindrical part 315 comprising a shoulder 316 surrounding a cylindrical boss 317.
• the shoulder 316 is intended to abut on the female element 321 which comprises a recess of oblong shape configuring a housing 323 in which is inserted the cylindrical boss 317 presented by the male element 31 1.
• the shape of the recess is advantageously oblong in the vertical direction in order to overcome irregularities of the ground on which the bicycles 100A, 100B and the terminal 210 rest, while offering a degree of vertical freedom, the width of the oblong shape being substantially greater than the diameter of the boss 317.
• the male element 31 1 can be fixed at different heights, with a vertical freedom of the order of ten millimeters relative to the center of the housing 323.
• Each bicycle 100 includes an identification written in an NFC tag (short for Near Field Communication) 328 included in the female element 321, and an NFC 329 reader included in the ma1 element 31 1 able to read the tag. NFC 328 of a neighboring bicycle 100.
• NFC tag short for Near Field Communication
• an electromagnetic pad 330 fixed to the bottom of the housing 323 cooperates with a plate 340 of steel fixed to the flat end of the boss 317.
• the electromagnetic plunger 330 comprises a permanent magnet 331 and a coil 332 which, when energized, creates a magnetic counter-field reducing or neutralizing the magnetic field of the magnet 331, in order to make it easier to disconnect two zones of the magnet. hung 310 and 320.
• the electromagnetic plunger 330 is advantageously recessed in the female element 321, instead of being placed on the male element 31 1, thus reducing the risk of inadvertent magnetization of metal elements in the vicinity of the suction cup 330.
• the magnetic suction cup comprises a permanent magnet and a mechanism for moving the magnet between a near position and a position remote from the outer surface 325, the remote position conferring a force magnetization more reduced than in the near position.
• the electromagnetic pad 330 can be pressed against the plate 340.
• At least one of the hooked areas 310 and 320 may comprise a ball joint (not shown in the figure) allowing to offer additional degrees of freedom in rotation.
• the plate 340 may for example be mounted on this ball.
• the plate 340 may also be mounted on a spring (not shown in the figure) to contribute to the contact between the plate 340 and the electromagnetic lock 330.
• a spring not shown in the figure
• the two connectors 350 diametrically opposed horizontally, are in contact with two plates 355 presented by the vertical planar faces of the housing 323 of oblong shape.
• the electrical contact is assured regardless of the coupling height between the hooked areas 310 and 320.
• the connectors 350 comprise a spring in order to ensure electrical contact between the connectors 350 and the plates 355.
• the spring also makes it possible to make up for a difference in distance that can occur if the axis formed by the two connectors 350 is inclined relative to at the tangent of the plates 355, which can be the case when the ground comprises roughness.
• the maximum permissible angle is generally of the order of 5 to 10 °.
• each connector 350 is connected to a plate 355 in order to electrically connect all the bicycles 100 of the stock 250 by producing an electrical circuit, called a charging circuit, which is generally powered by a voltage continuous charging.
• the bicycle 100 comprises two sets of coupling, one at the front and one at the rear
• the coupling play having the most degree of freedom in the vertical plane that is to say in the present non-limiting example of the invention, that located at the rear of the bicycle, can also contribute to the electrical connection between two bicycles 100 coupled.
• the electrical contact at the rear can be carried out for example by virtue of the contact between the magnetic sucker of the rear coupling set of the first bicycle 100A and the metal plate of the rear coupling set of the second bicycle 100B.
• FIG. 3B shows a simplified electrical diagram bicycles 100a and 100b and the terminal 210.
• This circuit diagram includes the charging circuit 362 connecting each battery 190 in parallel.
• a switch 365 connects each battery 190 to the charging circuit 362.
• the charging circuit 362 is powered by a power source 370, which is for example an electrical network, an electric generator or a electric battery, and which generally delivers a DC voltage current.
• the charging circuit 362 ends with two free plates 355 for connection with another bicycle 100.
• each complementary coupling zone 320 is connected to each other via a capacitor 360. It should be emphasized that the voltage of Since the charge is generally continuous, capacitor 360 does not short circuit load 362.
• an alternating voltage signal is emitted by the electronic module 195 of the bicycle 100B, connected in parallel with the charging circuit 362, and flows in the charging circuit 362, superimposed on the continuous charging voltage.
• the electronic module 195 advantageously comprises electronic protection means (not shown in the figure) preventing the electronic module 195 from being damaged by the charging current flowing in the circuit 362.
• the AC signal flow does not require that the stock 250 is connected to the terminal 210 or that the terminal 210 is connected to the power source 370. In other words, it is possible to confirm the coupling between two bicycles 100 without any of the bicycles being coupled to the terminal 210 or when the terminal 210 is not powered by a power source.
• a switch 361 is associated with the capacitor 360 of each bicycle 100.
• the switch 361 is open when the bicycle 100 is free.
• the switch 361 of said bicycle 100 is closed when that the electronic module 195 detects the coupling by establishing the electrical connection with the stock 250.
• an alternating signal sent by the electronic module 195 B can circulate in the closed electric circuit by at least the capacitor 360 of the terminal 210 or the bicycle. 100A.
• the electrical connection When the electrical connection is established successively between each bicycle 100 of the stock 250, the electrical connection can in particular be used to recharge the battery 190 of all or part of the bicycles 100 connected to the terminal 210.
• the terminal 210 generally has a limited available electrical power
• a clever charging strategy can be implemented in order to privilege the recharging of the battery 190 of one or more bicycles among the bicycles 100 attached to the terminal 210.
• a charging strategy is, for example, to top-load the 100 x bicycle located at the free end of the stock 250, or even a plurality of bicycles 100 located near a free end of the stock 250, included for example in lot 415 comprising the three bicycles located at the end of the free end of the stock 250.
• lot 415 it can be preferentially chosen to recharge those having the batteries having a lower energy level than the others, or having an energy level below a predetermined threshold.
• the module 195 of the bicycle 100 A hooked to the terminal 210 serves as "master" and sends a command to the modules 195 of each bicycle 100 of the stock 250 indicating either to connect or disconnect the battery 190 of the charging line.
• an electric switch 365 remotely controllable, is inserted into the electrical circuit connecting the battery 190 of each bicycle 100 to the charging circuit.
• the NFC 329 z reader reads the tag NFC 328 ⁇ of the bicycle 100 ⁇ including the list of identifiers of the stock 250, including the bicycles 100 and the terminal 205, and updates the tag NFC 328 z by adding to the list, the identifier of the bicycle 100 z .
• the list may also include an indication of the state of the battery of each bicycle 100
• the list can then be communicated to the module 195 A of the bicycle 100 A "master” or to a remote server management of the fleet of 100 bicycles, through for example a wireless telecommunications device, including for example a 3G antenna, installed either on a bicycle 100 or on terminal 205.
• a wireless telecommunications device including for example a 3G antenna
• the module 195 A of the bicycle 100 A receives the list of the bicycles 100 and the states of their batteries 190, the module 195 A processes the data in order to determine which batteries 190 to charge in order to optimize their time of reloading and allow a user to have more chances to be able to take a bicycle 100 located at the free end of the stock 250 and enjoy the electric assistance pedaling, the battery 190 of the bicycle 100 used having been previously reloaded .
• the module 195 A sends, through the wireless communication device 425, to each bicycle 100 a command indicating the opening or closing of the switch 365 of each bicycle 100, in order to connect only the selected batteries 190, to recharge them.
• the selected batteries 190, once connected to the charging circuit are then recharged.
• FIG. 5 represents in the form of a block diagram the method 500 of recharging a battery 190 of all or part of the bicycles 100 of the stock 250 coupled to the terminal 210.
• the method 500 comprises a first step of determining 510 of a "master" electronic module, among the bicycles 100 of the stock 250.
• the "master” electronic module corresponds in the present nonlimiting example of the invention to the electronic module 195 of the bicycle 100 A.
• the module 195 A will thus receive the information concerning the stock 250 in order to control the recharging of all or part of the batteries 190 of the stock 250.
• the second step of the method 500 is a step 520 of communication to the module 195 A "master" of the list of bicycles 100 of the stock 250 and the state of their battery 190. From this list, a selection of at least one battery 190 to be loaded is performed, during a third step 530 from the state of charge of the batteries 190 and their proximity to the free end of the stock 250.
• the selection comprises two batteries 190 having a charge level lower than a predetermined threshold, among the batteries of lot 415.
• a command is then communicated by the module 195 A of the bicycle 100 A to each bicycle 100 of the stock 250 during a fourth step 540.
• the command communicated to a given bicycle 100 indicates whether the battery 190 of said bicycle must be connected to the charging circuit 362 or if it must be disconnected. The control therefore results respectively in the closing or opening of the switch 365 associated with said battery 190.
• the selected batteries 190 are then recharged during the fifth step 550.
• Figure 6 shows a structure 600 of a human powered vehicle according to the invention.
• Structure 600 which is a bicycle frame 600, has a generally elongated shape.
• the frame 600 is made by an assembly of tubular elements connected to each other by their ends. This is a framework structure.
• the frame structure includes a pair of mutually opposite side faces.
• a frame 600 may comprise a variety of parts.
• the present description focuses mainly on the frame structure composed by the assembly of the tubular elements.
• framework and “framework structure” can generally be considered equivalent in the present description.
• the frame 600 comprises a seat tube 604 and an oblique tube 606 arranged with respect to each other in a generally V-shaped.
• the oblique tube 606 carries a junction 608 arranged to receive a steering column.
• the frame 600 further comprises a pair of shroud tubes 610 and a pair of base tubes 612.
• the pair of shrouds 610, the pair of base tubes 612 and the seat tube 604 are arranged in relation to one another according to one another. a generally triangular shape.
• the frame 600 includes a pair of rear legs 616 at the junction of the guy lines 610 and base tubes 612. The rear legs 616 are arranged to receive a bicycle rear wheel.
• the frame comprises a bottom bracket 614 at the junction of the seat tubes 604, base tube 612 and oblique tube 606.
• the bottom bracket 614 is arranged to receive bicycle pedals.
• the frame 600 further comprises a first fastening element 1 and a second fastening element 2.
• fastening element 1 corresponds in this example to a hooking means and that the fastening element 2 corresponds to a complementary hooking means, both forming a coupling game.
• the first fastening element 1 is mounted in a first zone on the frame structure 600.
• the first fastening element 1 can project from one of the lateral faces.
• the first attachment member 1 is held at the seat tube 604 by means of a fixing assembly, for example consisting of a set of screws and sockets.
• the fastener assembly holds the first fastener element 1 on a first face of the frame 600.
• the second fastening element 2 is complementary to the first fastening element 1. It is arranged in a second zone of the frame structure 600.
• the second zone is located on a second face of the frame, that is to say on the face opposite to the first face of the frame.
• the first and second areas are located on opposite sides of each other.
• the first zone and the second zone are arranged substantially at the same level of the frame structure 600 and offset from one another in a longitudinal direction of the frame. More particularly, the positions of the first 1 and second 2 fastening elements are substantially at the same height on the frame 600 and offset from one another in the longitudinal direction of the frame.
• the first fastening element 1 and the second fastening element 2 are complementary to one another.
• the first fastening element 1 constitutes a first half of a fastener and the second fastening element 2 constitutes a second half of this fastener.
• the first fastening element 1 and second fastening element 2 together constitute a complete fastener.
• the first and second attachment members are configured to mate together.
• first 1 and second 2 attachment elements implies a mutual correspondence, for example of shape or nature. It may be a male and female piece type arrangement, arranged to engage to form a unit.
• first fastening element 1 and the second fastening element 2 do not necessarily have a similar or similar shape. This is particularly the case when the first element comprises a magnetized part mounted on the frame and the second element is constituted by a portion of the frame structure. Both elements nevertheless have shapes able to come into contact on a sufficient surface to provide the fastening function.
• the first attachment element 1 comprises a magnet of generally rectangular shape mounted on the seat tube 604 and the second attachment element 2 consists of at least a part of a 610 stay tube made of a magnetic material. Consequently, the first fastening element 1 and the second fastening element 2 are capable of being attached to each other. The offset between two similar bicycles attached to each other is thus optimized.
• first fastening element 1 and the second fastening element 2 being held on opposite faces of the same frame 600, they can attach respectively with a second fastening element 2 and a first fastening element 1 a similar frame, that is to say a separate frame which also includes the fasteners and whose positions of these fasteners are substantially identical to those of the frame 600.
• the first fastening element 1 is directly attached to the frame structure 600. More specifically, the first magnet attachment element 1 is attached to one of the pair of fasteners. tube stays 106 made at least partially of a magnetic material.
• the first fastening element 1 may have a radius so as to fit the shroud tube 610. In this way the fastener is reinforced.
• a first frame 600 may be attached to a second frame 600 similar to the first. The fastening is done by means of the respective and complementary fastening elements.
• a first fastening element 1 of a first frame 600 can attach to a second fastening element 2 of a second frame 600 similar to the first.
• a second fastening element 2 of a first frame 600 can attach to a first fastening element 1 of a second frame 600 similar to the first one.
• frames according to the invention can attach to each other when they are arranged side by side.
• the first and second zones are determined in part at least taking into account the shape and / or the nature of the first fastening element 1 and the second fastening element 2.
• first attachment member 1 and the second attachment member 2 and their respective positions are selected to maintain the frames together at a selected relative position.
• first attachment member on a frame 600 engages with a second attachment member of a similar frame 600, the frames are stabilized relative to each other at a predetermined position.
• Fig. 7 shows a bicycle 700 comprising a frame structure 600 of Fig. 1.
• the frame 600 has a steering column 720.
• the steering column 720 includes a handlebar 726 and a fork 724.
• the handlebar 726 is straight.
• the bicycle further comprises a saddle 730, a rear wheel 742, a front wheel 744 and a set of pedals 746.
• the bicycle 700 generally moves along a main axis of movement 750, corresponds to the axis of displacement when the wheels 742 and 744 are parallel.
• the frame 600 described above makes it possible to attach bicycles 700 to each other in a position dictated by the arrangement of the fastening elements on the frame structure.
• the positioning of the bicycles relative to each other is prescribed by the respective locations of the attachment elements.
• the first and second zones are arranged taking into account the shape of the bicycles. In particular, the zones are chosen to minimize and / or optimize the space requirement of all the attached bicycles.
• the first attachment element 1 comprises a rectangular-shaped magnet mounted on the oblique tube 606 and the second attachment element 2 consists of at least a portion of a fork 610 made of a magnetic material.
• the first fastening element 1 and the second fastening element 2 are capable of being attached to each other. The offset between two similar bicycles attached to each other is thus optimized.
• Figure 8 shows an alternative embodiment of a bicycle frame 600.
• the frame 600 has a generally elongate shape.
• the frame structure is made by an assembly of tubular elements connected to each other by their ends.
• the frame 600 comprises an upper tube 602, a seat tube 604 and an oblique tube 606 arranged with respect to one another in a generally triangular shape.
• the upper tube 602 and the oblique tube 606 are connected to each other in a junction 608.
• the junction 608 is arranged to receive a steering column.
• the frame 600 further comprises a pair of shroud tubes 610 and a pair of base tubes 612.
• the pair of shrouds 610, the pair of base tubes 612 and the seat tube 604 are arranged in relation to one another according to one another. a generally triangular shape.
• the triangle formed by the pair of shroud tubes 610, the pair of base tubes 612 and the seat tube 604, and the triangle formed by the upper tube 602, the seat tube 604 and the sloping tube, are arranged one relative to each other so as to provide the frame 600 a general diamond appearance.
• the frame 600 includes a pair of rear legs 616 at the junction of the guy lines 610 and base tubes 612.
• the rear legs 616 are arranged to receive a bicycle rear wheel.
• the frame includes a bottom bracket 614 at the junction of the seat tubes
• the bottom bracket 614 is arranged to receive bicycle pedals.
• the frame 600 further comprises a first fastening element 1 and a second fastening element 2 forming a coupling set.
• first fastening element 1 and the second fastening element 2 are respectively held to the frame by means of a fastening assembly. More particularly, the first fastening element 1 is held on a first face of the frame 600 and the second fastening element 2 is held on a second face of the frame, opposite to the first. The first fastening element 1 and the second fastening element 2 are thus held on either side of the frame 600.
• the first fastening element 1 and the second fastening element 2 are held at the top tube 602 of the frame 600 by means of a fastening assembly, for example consisting of a set screws and sockets.
• the fastener assembly holds the first fastener member 1 on the first face of the frame 600.
• the fastener assembly further maintains the second fastener member 2 on the second face of the frame 600.
• the fastener assembly is arranged to maintain the first fastener member 1 and the second fastener member 2 at the same height of the frame 600.
• the fastener assembly is arranged to maintain the first fastening element 1 and the second fastening element 2 offset relative to each other on the upper tube 602, in a longitudinal direction of this tube.
• the positions of the first 1 and second 2 fastening elements are substantially at the same height on the frame 600 and offset from each other in the longitudinal direction of the frame.
• the first 1 and second 2 attachment elements are substantially at the same level of the frame and offset from each other in the longitudinal direction of the frame.
• the first fastening element 1 and the second fastening element 2 are complementary to one another.
• the first fastening element 1 constitutes a first half of a fastener and the second fastening element 2 constitutes a second half of this fastener.
• the first fastening element 1 and second fastening element 2 together constitute a complete fastener.
• first 1 and second 2 attachment elements implies a mutual correspondence, for example of shape or nature. It may be a male and female piece type arrangement, arranged to engage to form a unit.
• the first fastening element 1 comprises a rectangular-shaped magnet and the second fastening element 2 comprises a plate of magnetic material of rectangular shape. Consequently, the first fastening element 1 and the second fastening element 2 are capable of being attached to each other.
• the first attachment element 1 comprises a first permanent magnet and the second attachment element 2 includes a second permanent magnet.
• the magnetic fields of force of the first and second permanent magnets are in opposite directions. This results in a self-centering effect which promotes the good engagement of the complementary fastening elements.
• the mutual commitment of the fasteners is optimized.
• EP 2,508,095 discloses a magnetic attachment loop having a self-centering effect.
• the loop includes a first plug-in element and a second receiver element.
• the first plug-in element and the second receiver element are suitable for forming a complete clip as described above.
• first attachment member 1 comprises a hook and the second attachment member 2 comprises a loop.
• first 1 or the second 2 attachment members comprise a clipping device.
• first fastening element 1 and the second fastening element 2 being held on opposite faces of the same frame 600, they can attach respectively with a second fastening element 2 and a first fastening element 1 a similar frame, that is to say a separate frame which also includes the fasteners and whose positions of these fasteners are substantially identical to those of the frame 600.
• a first frame 600 can be attached to a second frame 600 similar to the first.
• the fastening is done by means of the respective and complementary fastening elements.
• a first fastening element 1 of a first frame 600 can attach to a second fastening element 2 of a second frame 600 similar to the first.
• a second fastening element 2 of a first frame 600 can attach to a first fastening element 1 of a second frame 600 similar to the first one.
• frames according to the invention can attach to each other when they are arranged side by side.
• the first and second zones are determined in part at least taking into account the shape and / or the nature of the first fastening element 1 and the second fastening element 2.
• the shape and / or the nature of the first fastening element 1 and the second fastening element 2 and their respective locations are chosen so as to keep the frames fixed to one another in a predetermined relative position. .
• the frame described above thus makes it possible to attach bicycles to each other in a predefined position.
• the invention makes it possible to store bicycles of a fleet in a fixed and defined configuration.
• the distribution is prescribed by the respective positions of the fastening elements.
• the bicycle frames being directly connected to each other, it follows a considerable space saving.
• Similar bicycles comprising frames of the invention have a general aspect integral, especially monobloc, when they are attached to others.
• the storage of bicycles is optimized in terms of size. The need for space compared to state-of-the-art systems is drastically reduced.
• bicycles attached together are held in a side-by-side position relative to each other. In this position, the bicycle wheels are placed on the ground. It follows that a group of bicycles, for example consisting of two or more bicycles, is able to stand without support once attached. It is thus possible to park the bicycles without the need for a crutch. Bicycles with the frame 600 can therefore be parked on any generally flat terrain.
• the fixing assembly comprises a rail and a slide.
• the slide is arranged on the rail.
• Each attachment member is attached to the slider, and the rail is attached to the bicycle frame 600 so as to provide a degree of freedom in a direction perpendicular to the ground to each fastener. This makes it possible to overcome any unevenness of the ground or a sloping floor when the fastener elements are engaged with each other.
• each fastener element is mounted on the slide by means of a pivot. This increases the degrees of freedom of the fasteners. In this way possible stronger ground irregularities can be overcome.
• Figure 9 shows the frame 600 of Figure 8 and a steering column 720.
• the steering column includes a column tube 722 and a fork 724.
• the fork 724 has an end comprising a pair of front legs 618 to receive a wheel before riding a bicycle.
• the junction 608 of the frame 600 is arranged to receive a column tube 722, and more generally to receive the steering column 720.
• the junction 608 comprises devices comprising clamping means and ball bearings for both maintain the column 720 and provide a rotational degree of freedom of the column 720.
• the steering column 720 comprises a third attachment element 3 and a fourth attachment element 4 forming a second coupling set.
• the third attachment element 3 corresponds in this example to a hooking means and that the fourth attachment element 4 corresponds to a complementary hooking means, both being configured to mate together .
• the third attachment element 3 and the fourth attachment element 4 are respectively held to the column tube 722.
• the third attachment element 3 is held on a first face of the column tube 722 and the fourth attachment element 4 is maintained on a second face of the column tube 722 opposite to the first.
• the third attachment element 3 is maintained on the rear face of the steering column 720, and the fourth attachment element 4 is maintained on the front face of the steering column 720.
• a fastener assembly for example a set of screws and bushings, holds the third fastener 3 on the back side of the column 720.
• the set of The fastener further maintains the fourth fastener element 4 on the front face of the column 720.
• the fastener assembly is arranged to hold the third fastener 3 and the fourth fastener 4 at the same height on the column 720.
• the fastener assembly is arranged to maintain the third attachment member 3 and the fourth attachment member 4 offset from each other in a direction perpendicular to the length of the column 720.
• the locations of the third 3 and fourth 4 fastening elements on the steering column 720 are substantially at the same height of the column 720 and shifted one by one. the other in a direction transverse to the frame 100.
• the third attachment element 3 and the fourth attachment element 4 are complementary to each other.
• the definition and embodiments described with respect to the first 1 and second 2 fastening elements also apply to the third 3 and fourth 4 fasteners.
• the third fastening element 3 comprises a magnet and the fourth fastening element 4 comprises a plate of magnetic material.
• the third attachment element 3 and the fourth attachment element 4 are capable of being attached to one another.
• the third 3 and fourth 4 attachment elements respectively comprise a first and a second permanent magnet whose lines of force of the magnetic fields are of opposite direction. This ensures a self-centering effect of the third 3 and fourth 4 fasteners, resulting in a reliable and easy to install.
• the third attachment member 3 comprises a hook and the fourth attachment member 4 comprises a loop.
• the third 3 and fourth 4 attachment members comprise a clipping device.
• the third attachment element 3 and the fourth attachment element 4 being fixed on opposite faces of the column 720, they can attach respectively with a fourth attachment element 4 and a third attachment element 3 of an analogous column, that is, a separate column that also includes the fastening elements and whose locations of these fastening elements are substantially identical to those of the column 720.
• a third fastening element 3 of a first column 720 can attach to a fourth fastening element 4 of a second column 720 similar to the first.
• a fourth fastener element 4 of a first column 720 can attach to a third fastener element 3 of a second column 720 similar to the first.
• the third 3 and fourth 4 attachment members engage with each other to maintain the steering column in a predefined position.
• This predefined position is dictated by the respective positions of the third 3 and fourth 4 fasteners.
• the steering column 720 which has a degree of freedom in rotation, can be kept straight with respect to the frame 600, that is to say so as to align the front and rear wheels on the same bicycle.
• Two similar bicycles attached to each other are arranged parallel to one another. This further enhances the storage of a fleet of bicycles. Congestion is minimized.
• the locations of the first attachment member and / or the second attachment member on the frame 600 may vary. For example because of the shape of said elements.
• two frames 600 When two frames 600 are attached, there may be a plurality of relative positions of the first frame 600 relative to the second like frame 100. As a result, there may be a plurality of relative positions of two similar bicycles including the frame 600.
• the locations of the third attachment member and / or the second attachment member on the column 720 may also vary. For example because of the shape of said elements.
• FIGS. 10 and 11 Reference is now made to FIGS. 10 and 11.
• FIG. 10 shows a bicycle 700 comprising a frame 600 and a steering column 720.
• FIG. 11 shows a diagram of the bicycle seen from above of FIG. 10. More generally, FIG. 11 shows a construction diagram of FIG. a frame and a steering column according to the invention.
• the bicycle comprises a saddle 730, a rear wheel 742, a front wheel 744 and a set of pedals 746.
• the bicycle 700 generally moves along a main axis of displacement 750, corresponds to the axis of displacement when the wheels 742 and 744 are parallel.
• the steering column 720 comprises a handlebar 726.
• the handlebar 726 comprises a third attachment element 3 and a fourth attachment element 4.
• the third fastener element 3 and the fourth fastener element 4 are therefore not held to the column tube 722 (as shown in FIG. 9), but to the handlebar 726.
• the third attachment element 3 is held on a first face of the handlebar 726 and the fourth attachment element 4 is held on a second face of the handlebar 726 opposite to the first.
• the third attachment element 3 is held on the rear face of the handlebar 726, and the fourth attachment element 4 is held on the front face of the handlebar 726.
• the third attachment element 3 is held in the center of the rear face of the handlebar 726, that is to say that it is positioned in the general plane of the frame 600.
• the attachment assembly is arranged to hold the third attachment member 3 and the fourth attachment member 4 at the same height on the handlebar 726.
• the attachment assembly is arranged to hold the third attachment member 3 and the fourth attachment member 4 offset relative to each other on the handlebar 726 in a direction transverse to the frame 600.
• Figure 12 shows a diagram of a portion of a fleet of bicycles viewed from above comprising a frame 600 according to the invention.
• Each bicycle comprises a frame 600 and a handlebar 726 as described with reference to FIG.
• Each first fastening element 1 of a frame 600 is engaged with a second fastening element 2 of a similar frame 600.
• each third attachment member 3 of a handlebar 726 is engaged with a fourth attachment member 4 of a similar handlebar 726.
• the two bicycles respectively parked at a first and a second end of the set of bicycles each comprise unconnected fastener elements.
• these elements are respectively labeled 1 L to note the first attachment element not engaged, 2L to note the second attachment element not engaged, 3L to note the third attachment element not engaged and 4L to note the fourth attachment element not engaged.
• FIG. 13 shows a schematic diagram of an attachment support and FIG. 14 shows the bicycle of FIG. 12 with a bicycle attached to the attachment support of FIG.
• FIGS 13 and 14 show an attachment support 800.
• the support 600 comprises a pillar 802 and a support tube 804.
• Pier 802 is anchored to the ground. It can for example be a street lamp or an electric mast.
• the support tube 804 is fixed perpendicularly to the pillar 802. In this way, the support tube 804 is held in a horizontal position relative to the ground.
• the attachment support 800 further comprises a fifth fastening element 5.
• the fifth fastening element 5 is complementary to one of the fastening elements selected from a group consisting of the first fastening element 1, the second fastening element 2, the third attachment element 3 and the fourth attachment element 4.
• the fifth attachment element 5 is complementary to the fourth attachment element 4.
• the fifth attachment element 5 can therefore engage with the fourth attachment element 4.
• the fifth attachment element 5 is positioned relative to the ground substantially at the same height as the fourth attachment element 4. This allows to attach a bicycle 700 to the support 800. This bicycle can then serve as an attachment point for a similar bicycle and so on. A whole fleet of bicycles can therefore come attached, directly or indirectly, to the support 800.
• a storage accessory for example a rod, a fastening belt or buckle, street furniture such as an electric mast or a street lamp
• a storage accessory comprising a fastening element complementary to one of the fastening elements chosen from group consisting of the first fastening element 1, the second fastening element 2, the third fastening element 3 and the fourth fastening element 4 can respectively engage with the first 1, second 2, third 3 or fourth 4 attachment element.
• the storage accessory is anchored to the floor. Anchoring on the ground can be done either directly (this is the case of a street lamp for example) or indirectly (this is the case of a fastening loop fixed on a lamppost for example).
• the third and fourth locations are determined in part at least by taking into account the shape and / or the nature of the third fastening element 3 and the fourth fastening element 4.
• the shape and / or the nature of the third attachment element 3 and the fourth attachment element 4 and their respective positioning are chosen so as to maintain the columns fixed to each other in a determined relative position.
• Bicycles comprising the first 1, second 2, third 3 and fourth 4 attachment elements are fixed in a single relative position relative to each other.
• at least one of the first, second, third and fourth attachment members comprises an electromagnet device (s).
• the electromagnet device (s) comprises a control means for locking and unlocking the fastening element (s) with the one or more complementary fastening elements.
• the electromagnets may comprise coils for generating a magnetic field to lock the complementary fastening elements together, and conversely generate a magnetic counter-field facilitating the detachment of the complementary fastening elements.
• electromagnet device can in particular be used in the embodiments described with reference to Figures 6 and 7.
• the device is for example arranged in the first attachment element.
• Figure 1 1 shows that the distance d1 between the centers of the first 1 and second 2 attachment elements is substantially equal to the distance d2 between the respective outer surfaces of the third 3 and fourth 4 attachment elements.
• Figure 15 shows an orthogonal projection of the first 1, second 2, third 3 and fourth 4 fasteners in a frame plane.
• the frame 600 extends in a plane P.
• the respective orthogonal projections of the first 1, second 2, third 3 and fourth 4 attachment elements in this plane P show that the distance d1 between the centers of the first 1 and second 2 elements attachment is substantially equal to the distance d2 between the respective outer surfaces of the third 3 and fourth 4 fasteners.
• this is a longitudinal shift, according to the main axis of movement of the bicycle, which is included in the plane P of the bicycle.
• one of the bicycles according to the invention comprises bicycles arranged side by side with respect to each other and placed on the ground. Distance and offset between bicycles can be adjusted by positioning fasteners on the frame 600. It follows that an entire fleet can be organized according to a defined and fixed configuration and / or geometry. This is of particular interest when it is planned to embark an entire fleet or a part thereof for maintenance, for example by means of forklift type forklifts. The stability of the bicycle blocks is further ensured by the fasteners engaged on each other during transport.
• fastening elements and the complementary fastening elements of the two coupling sets may also comprise complementary electrical connection means for electrically connecting two coupled frames 600.
• complementary electrical connection means may for example correspond to those illustrated in FIG.
• a bicycle fleet that mates two by two in a reverse manner, that is to say a hooked area before a first bicycle being coupled to a hitched area. complementary to the rear of a second bicycle and a complementary hooked area at the front of the first bicycle being coupled to a hooked area at the rear of the second bicycle.
• At least one hooked area or a complementary hooked area may be provided to be movable, for example presented at the end of an articulated arm attached to the vehicle.

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• 2018
  • 2018-09-28 EP EP18808409.9A patent/EP3687885A2/de active Pending
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