An engagement unit for co-operation with an attachment unit in a docking and recharging system for a power assisted personal mobility vehicle having a battery accumulating electronic power to be supplied to an electric motor is provided. The engagement unit includes a first electric terminal module configured to establish an electrical connection with a second electric terminal module provided at the attachment unit; a locking means configured to secure the attachment unit when the attachment unit is in a lockable position and an actuation means of the attachment unit is fully engaged with the engagement unit; and a control module configured to receive an identification signal from an identification means provided in the attachment unit. Moreover, the attachment unit for co-operation with the engagement unit includes the second electric terminal module configured to establish the electrical connection with the first electric terminal module provided at the attachment unit.
B60L 53/16 - Connecteurs, p. ex. fiches ou prises, spécialement adaptés pour recharger des véhicules électriques
B60L 53/65 - Surveillance et commande des stations de charge impliquant l'identification des véhicules ou de leurs types de batteries
B60L 53/68 - Surveillance ou commande hors site, p. ex. télécommande
B62H 3/10 - Supports séparés ou étriers pour parquer ou entreposer les cycles comportant des supports en forme de fourche ou des potences embrassant la partie inférieure du cadre
An EV charging station includes a charging source providing an electrical charge, and is configured to be coupled to the charging station or included with the charging station. A charging interface and a communication link are provided. An on-line connector provided charging, locking and communication of the EV, the charging station configured to be coupled to an EV including an EV charging adapter.
An EV charging station includes a charging source providing an electrical charge, and is configured to be coupled to the charging station or included with the charging station. A charging interface and a communication link are provided. An on-line connector provided charging, locking and communication of the EV, the charging station configured to be coupled to an EV including an EV charging adapter.
An electric vehicle is coupled to communicate with the cloud. The cloud is coupled to and communicates with the electric vehicle. The cloud includes a server. The electric vehicle is configured to distribute information between electric vehicles in a fleet. The electric vehicle has cloud connectivity and a second local wireless communication to communication information to the fleet of electric vehicles. When a message is received by the first electric vehicle, the first and second components provide a verification of their existence. The first and second components decrypt and verify their parts of the message. When either the first or second component fails to provide a verification, the electric vehicle is not activated.
G08B 21/00 - Alarmes réagissant à une seule condition particulière, indésirable ou anormale, et non prévues ailleurs
G08G 1/00 - Systèmes de commande du trafic pour véhicules routiers
H04W 4/46 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour les véhicules, p. ex. communication véhicule-piétons pour la communication de véhicule à véhicule
G08G 1/01 - Détection du mouvement du trafic pour le comptage ou la commande
5.
BATTERY POWERED SKATEBOARD WITH UPPER AND LOWER CONTROL ARMS
An electric skateboard includes a frame assembly has a deck with an opening of the deck to house a battery case mounted to a bottom of the deck. The frame has a top plate that covers the opening and forms with the battery case an enclosure. A battery pack is positioned at least partially in the enclosure. Front and a rear truck are mounted to the bottom of the deck. At least one of the first and front and rear trunks are coupled to first and second wheels mounted on axles of the front and rear trucks. The front truck is mounted on the front end and a rear truck mounted on a rear end of the deck. Upper and lower control arms share a single shaft.
An electric vehicle is in a fleet. A first electric vehicle includes one or more components that have unique identifications and a unique public key stored at the one or more components. When a message is received by the first electric vehicle, the first and second components provide a verification of their existence. The first and second components decrypt and verify their parts of the message. A first electric vehicle processor is provided. The first electric vehicle processor provides at least one of a database, an order module, a distribution module, and a loading module.
B60P 1/64 - Véhicules destinés principalement au transport des charges et modifiés pour faciliter le chargement, la fixation de la charge ou son déchargement l'élément supportant ou contenant la charge étant rapidement démontable
H04L 9/30 - Clé publique, c.-à-d. l'algorithme de chiffrement étant impossible à inverser par ordinateur et les clés de chiffrement des utilisateurs n'exigeant pas le secret
B60P 3/00 - Véhicules adaptés pour transporter, porter ou comporter des charges ou des objets spéciaux
G08G 1/00 - Systèmes de commande du trafic pour véhicules routiers
7.
ELECTRIC VEHICLE WITH CONTACT SURFACE SANITIZING DEVICE
An electric vehicle is provided with a steering element that can include a handle bar element. A platform is configured to support a rider of the electric vehicle. At least one front wheel and at least one rear wheel are included. An electric motor is configured to provide a mechanical power to at least one of the front and rear wheels. A battery housing, is configured to removably receive and hold one or more battery packs. The one or more battery packs are configured to power the electric vehicle. An applicator device is included for dispensing sanitizing layer/coating to at least a portion of the steering element.
An electric vehicle includes a steering element that can include a handle bar element. A platform supports a ride of the electric vehicle. At least one front wheel and at least one rear wheel are included and coupled to the platform. An electric motor provides a mechanical power to at least one of the front and rear wheels. A battery housing removably receives and holds one or more battery packs, where the one or more battery packs are configured to power the electric vehicle. A camera is included.
B62H 5/08 - Accessoires empêchant ou signalant l'emploi non autorisé ou le vol des cyclesDispositifs de verrouillage (antivols) faisant corps avec les cycles empêchant la conduite
B62H 5/20 - Accessoires empêchant ou signalant l'emploi non autorisé ou le vol des cyclesDispositifs de verrouillage (antivols) faisant corps avec les cycles signalant l'emploi non autorisé, p. ex. actionnant un dispositif de signalisation
B62J 45/20 - Calculateurs pour cycles en tant qu’accessoires de cycle
H04N 7/18 - Systèmes de télévision en circuit fermé [CCTV], c.-à-d. systèmes dans lesquels le signal vidéo n'est pas diffusé
G06V 40/16 - Visages humains, p. ex. parties du visage, croquis ou expressions
An electric vehicle includes a steering element with a handle bar element. The steering element has a hand grip portion, and at a distal end a plurality of UVC light sources producing light that is incident on the hand grip portion. The UVC light sources are coupled to a controller and a power source. A platform supports a rider of the electric vehicle. The electric vehicle includes: at least one front wheel and at least one rear wheel; an electric motor configured to provide a mechanical power to at least one of the front and rear wheels; and a battery housing configured to removably receive and hold one or more battery packs, wherein the one or more battery packs are configured to power the electric vehicle.
A61L 2/10 - Procédés ou appareils de désinfection ou de stérilisation de matériaux ou d'objets autres que les denrées alimentaires ou les lentilles de contactAccessoires à cet effet utilisant des phénomènes physiques des radiations des ultraviolets
Provided is an electric scooter with a top-swappable battery. In some embodiments, the electric scooter a frame having an opening, and a removable deck assembly disposed in the opening, the removable deck assembly comprising a deck having an upper surface and a lower surface, and a battery pack attached to the lower surface of the deck.
B60L 50/64 - Détails de construction des batteries spécialement adaptées aux véhicules électriques
B62J 43/16 - Agencements des batteries sur les cycles pour la propulsion sur les motocyclettes ou analogues
B62J 43/28 - Agencements des batteries sur les cycles caractérisés par le montage cachées dans le cadre du cycle
B62K 11/10 - Cadres caractérisés par le moteur sur ou à côté de la roue arrière motrice
H01M 50/20 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports
B62J 43/26 - Agencements des batteries sur les cycles caractérisés par le montage transportées sur une remorque
B62K 11/14 - Structure du guidon ou aménagements sur celui-ci des commandes spécialement adaptées à ce guidon
B62J 43/00 - Agencements des batteries sur les cycles
11.
Electric vehicle that distributes information between vehicles in a fleet
An electric vehicle is coupled to an communicates with the cloud. The cloud is coupled to and communicates with the electric vehicle. The cloud includes a server. The electric vehicle is configured to distribute information between electric vehicles in a fleet. The electric vehicle has cloud connectivity and a second local wireless communication to communication information to the fleet of electric vehicles.
H04W 4/46 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour les véhicules, p. ex. communication véhicule-piétons pour la communication de véhicule à véhicule
G08G 1/00 - Systèmes de commande du trafic pour véhicules routiers
G08G 1/01 - Détection du mouvement du trafic pour le comptage ou la commande
Provided is an electric scooter with a top-swappable battery. In some embodiments, the electric scooter a frame having an opening, and a removable deck assembly disposed in the opening, the removable deck assembly comprising a deck having an upper surface and a lower surface, and a battery pack attached to the lower surface of the deck.
A wearable mobility device comprising a base for the placement of a shoe, the base including a heel-support section, a battery pack, a tail reflector, and a wireless receiver. The device including a first wheel having a wheel hub motor embedded therein, the motor rotatably connected to a first partial axial shaft connected to the base. The device including a second wheel having a wheel hub motor controller embedded therein, the motor controller rotatably connected to a second partial axial shaft connected to the base and operative to control a speed of rotation of the first wheel and the second wheel. The device also including a remote control for controlling the speed of rotation of the first wheel and the second wheel, the remote control operative to transmit one or more control signals to the wireless receiver, the wireless receiver being electrically coupled to the motor controller.
The disclosure relates generally to an electric skateboard. The electric skateboard may include a deck, at least a rechargeable battery pack, a control module, and a communications module, a pair of trucks mounted to the deck, a plurality of wheels mounted on axles of the trucks; and one or more motors installed in one or more of the plurality of wheels for propelling the electric skateboard. The deck may include a front end, a rear end, a top plate. The rechargeable battery pack, control module, and communications module may be enclosed in an enclosure attached to the deck.
The disclosed embodiments are directed to a transportation device, such as a skate. The transportation device may include a frame configured to support at least a portion of a user, and a support system configured to support the frame above the ground. The support system may include a first wheel connected to the frame, a second wheel connected to the frame, and a suspension system connected to the frame and positioned between the first and second wheel. The suspension system may include a rear wheel pivotally connected to a first portion of the frame, and a shock absorber connected between the rear wheel and a second portion of the frame. The shock absorber may be configured to dampen movement by the rear wheel with respect to the first portion of the frame.
Motorized skating systems and methods for controlling the systems are disclosed. One exemplary system may include a primary skate and a secondary skate. The primary skate may include a sensor configured to detect a tilting signal. The primary skate may also include a first processor. The processor may be configured to determine a first control signal for moving the primary skate based on the tilting signal and determine a motion signal for moving the secondary skate based on the first control signal. The primary skate may further include a first communication interface configured to send the motion signal to the secondary skate. The secondary skate may include a second communication interface configured to receive the motion signal from the first communication interface. The secondary skate may also include a second processor configured to determine a second control signal for moving the secondary skate based on the received motion signal.
Motorized skating systems and methods for controlling the systems are disclosed. One exemplary system may include a primary skate and a secondary skate. The primary skate may include a sensor configured to detect a tilting signal. The primary skate may also include a first processor. The processor may be configured to determine a first control signal for moving the primary skate based on the tilting signal and determine a motion signal for moving the secondary skate based on the first control signal. The primary skate may further include a first communication interface configured to send the motion signal to the secondary skate. The secondary skate may include a second communication interface configured to receive the motion signal from the first communication interface. The secondary skate may also include a second processor configured to determine a second control signal for moving the secondary skate based on the received motion signal.
A wheel assembly comprises a wheel, a transmission assembly mounted on the wheel, and a motor coupled to the wheel through the transmission assembly. The motor includes an axle extending in a radial direction of the wheel. The transmission assembly transmits a rotational motion of the axle to a rotational motion of the wheel.
A63C 5/08 - Skis ou surfs des neiges mus par un moteur
A63C 17/12 - Patins à roulettesPlanches à roulettes à mécanisme moteur
A63C 17/26 - Patins à roulettesPlanches à roulettes avec aménagements auxiliaires particuliers, p. ex. dispositifs lumineux, marqueurs ou de poussée
A63C 17/00 - Patins à roulettesPlanches à roulettes
A63C 17/08 - Patins à roulettesPlanches à roulettes avec des roulettes disposées autrement qu'en deux paires du type à une seule voie du type à roue unique
A wearable mobility device comprising a base for the placement of a shoe, the base including a heel-support section, a battery pack, a tail reflector, and a wireless receiver. The device including a first wheel having a wheel hub motor embedded therein, the motor rotatably connected to a first partial axial shaft connected to the base. The device including a second wheel having a wheel hub motor controller embedded therein, the motor controller rotatably connected to a second partial axial shaft connected to the base and operative to control a speed of rotation of the first wheel and the second wheel. The device also including a remote control for controlling the speed of rotation of the first wheel and the second wheel, the remote control operative to transmit one or more control signals to the wireless receiver, the wireless receiver being electrically coupled to the motor controller.
A foldable mobility device includes a chassis assembly, a steering assembly rotatably coupled to the chassis assembly, a seat assembly coupled to the chassis assembly through a first folding mechanism configured to convert the seat assembly between a first folded position and a first unfolded position, a front wheel assembly coupled to the steering assembly and configured to be rotated by the steering assembly for steering the foldable mobility device, and one or more rear wheel assemblies coupled to the chassis assembly through a second folding mechanism configured to convert the one or more rear wheel assemblies between a second folded position and a second unfolded position.
A wearable mobility device comprising a base for the placement of a shoe, the base including a heel-support section, a battery pack, a tail reflector, and a wireless receiver. The device including a first wheel having a wheel hub motor embedded therein, the motor rotatably connected to a first partial axial shaft connected to the base. The device including a second wheel having a wheel hub motor controller embedded therein, the motor controller rotatably connected to a second partial axial shaft connected to the base and operative to control a speed of rotation of the first wheel and the second wheel. The device also including a remote control for controlling the speed of rotation of the first wheel and the second wheel, the remote control operative to transmit one or more control signals to the wireless receiver, the wireless receiver being electrically coupled to the motor controller.
An optical pointing device has a rotatable optics housing and provides cursor control in one of two modes: a finger navigation mode and a desktop navigation mode. In the finger navigation mode, the rotatable optics housing is in a first position and moving a finger across a transparent plate in the optics housing controls the cursor movement. In the desktop navigation mode, the rotatable optics housing is in a second position and moving the entire optical mouse in a conventional manner across a fixed surface controls cursor movement. The optical pointing device may further include a touchpad scroll input device and a laser pointing device.
