An installation structure of a water temperature sensor configured to detect a temperature of cooling water in an engine is provided. In the installation structure, an outlet of an exhaust port is opened in a front surface of a cylinder head of the engine, and the water temperature sensor is provided at a location adjacent to the outlet of the exhaust port in a front view.
F01P 11/16 - Dispositifs indicateursAutres dispositifs de sécurité concernant la température de l'agent de refroidissement
F01P 3/02 - Disposition du refroidissement des cylindres ou des hauts de cylindres
G01K 1/14 - SupportsDispositifs de fixationDispositions pour le montage de thermomètres en des endroits particuliers
G01K 13/02 - Thermomètres spécialement adaptés à des fins spécifiques pour mesurer la température de fluides en mouvement ou de matériaux granulaires capables de s'écouler
4.
INSTALLATION STRUCTURE OF INTAKE AIR TEMPERATURE SENSOR
In an installation structure of an intake air temperature sensor for detecting a temperature of intake air to an engine in a straddle-type vehicle, an air cleaner case is installed behind the engine, an outlet tube is connected to a front surface of the air cleaner case, a rear suspension is installed in front of the air cleaner case, the outlet tube has a passage portion extending forward through one side with respect to the rear suspension in a vehicle width direction of the straddle-type vehicle, and the intake air temperature sensor is installed on a side surface on another side of the outlet tube in the vehicle width direction.
B62J 45/41 - Agencements de capteursLeur montage caractérisés par le type de capteur
B62J 40/10 - Agencements d’épurateurs d’air spécialement adaptés aux cycles caractérisés par les dispositions du conduit d’air
B62J 45/42 - Agencements de capteursLeur montage caractérisés par le montage
B62K 25/04 - Suspensions des moyeux de roues pour montage élastique des moyeux sur le cadre ou la fourche
G01K 1/14 - SupportsDispositifs de fixationDispositions pour le montage de thermomètres en des endroits particuliers
G01K 13/024 - Thermomètres spécialement adaptés à des fins spécifiques pour mesurer la température de fluides en mouvement ou de matériaux granulaires capables de s'écouler de gaz en mouvement
5.
INSTALLATION STRUCTURE OF ACCELERATOR POSITION SENSOR
In an installation structure of an accelerator position sensor connected to an accelerator grip via an accelerator cable in a straddle-type vehicle, a seat is supported from a lower side of the straddle-type vehicle by a pair of seat rails, an air cleaner case is installed below the pair of seat rails, an outlet tube extends forward from the air cleaner case, an upper surface of the outlet tube is lower than an upper surface of the air cleaner case, and the accelerator position sensor is installed above the outlet tube between the pair of seat rails.
G01K 13/024 - Thermomètres spécialement adaptés à des fins spécifiques pour mesurer la température de fluides en mouvement ou de matériaux granulaires capables de s'écouler de gaz en mouvement
An installation structure for an air control device, the air control device being configured to control supply of secondary air from an air cleaner to an exhaust passage of an engine. A cylinder head is located above the engine. A cylinder head cover is installed on the cylinder head. A fuel tank is installed above the cylinder head cover. The air control device is installed on a lateral side of the cylinder head cover below the fuel tank.
An upper structure of an engine in which secondary air is supplied to an exhaust port of an engine. The upper structure includes: a cylinder head in which an exhaust camshaft and an intake camshaft are installed; a cylinder head cover fixed on the cylinder head by fastening members; a reed valve configured to prevent backflow of exhaust gas from the exhaust port to an upstream side; and an ignition plug positioned between the intake camshaft and the exhaust camshaft. An accommodating portion for accommodating the reed valve is provided adjacent to the ignition plug above the exhaust camshaft in the cylinder head cover. A supply path for introducing secondary air from the accommodating portion to the exhaust port is formed on an opposite side of the cylinder head cover from the ignition plug across the exhaust camshaft.
F01N 3/34 - Aménagements pour l'alimentation en air additionnel utilisant des conduits d'air ou des pompes à air à jet, p. ex. à proximité de l'orifice d'échappement du moteur
A control device 10 for a motor 1 includes: a processor 20 for generating a control command for power supplied to a coil 2 of the motor 1; an inverter circuit 30 for controlling, based on the control command of the processor 20, the power supplied to the coil 2 of the motor 1; and a switching circuit 60 disposed between the inverter circuit 30 and the coil 2 of the motor 1, and configured to switch between an energized state where the inverter circuit 30 and the coil 2 are energized and a non-energized state where the inverter circuit 30 is electrically disconnected from the coil 2. The processor 20 is configured to give the switching circuit 60 a first disconnection command to switch from the energized state to the non-energized state, when rotation of the motor 1 is detected in a state where the power is not supplied to the coil 2.
H02P 27/06 - Dispositions ou procédés pour la commande de moteurs à courant alternatif caractérisés par le type de tension d'alimentation utilisant une tension d’alimentation à fréquence variable, p. ex. tension d’alimentation d’onduleurs ou de convertisseurs utilisant des convertisseurs de courant continu en courant alternatif ou des onduleurs
H02P 23/14 - Estimation ou adaptation des paramètres des moteurs, p. ex. constante de temps du rotor, flux, vitesse, courant ou tension
National University Corporation Yokohama National University (Japon)
Inventeur(s)
Negishi, Daisuke
Horita, Hidenori
Okajima, Katsunori
Onuki, Shumpei
Abrégé
A virtual space image generation device generates a virtual space image including a visibility change region in which a visibility changes based on movement of a viewpoint of a user. The virtual space image generation device includes an image generation unit that generates the virtual space image in which a degree of change in visibility of the visibility change region changes with elapse of time, when the viewpoint of the user moves. According to the virtual space image generation device, the virtual space image that achieves visibility close to that of the appearance of a real space can be generated when the viewpoint of the user moves.
A vehicle front structure for a straddle-type vehicle is provided. The straddle-type vehicle includes a headlight installed in a vehicle front. The vehicle front structure includes: a front cowl configured to cover a periphery of the headlight and having a lower surface with an opening; a cowl brace configured to support an inner side of the front cowl from a vehicle rear side; and a lower cover configured to cover the opening of the front cowl below the headlight. A front part of the lower cover is mounted to a lower edge of the front cowl, and a rear part of the lower cover is mounted to a lower portion of the cowl brace.
B62J 6/027 - Supports à cet effet, p. ex. supports de montage
B60Q 1/04 - Agencement des dispositifs de signalisation optique ou d'éclairage, leur montage, leur support ou les circuits à cet effet les dispositifs étant principalement destinés à éclairer la route en avant du véhicule ou d'autres zones de la route ou des environs les dispositifs étant des phares
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
B62K 11/04 - Cadres caractérisés par le moteur entre roues avant et arrière
A vehicle front structure for a straddle-type vehicle is provided. The straddle-type vehicle includes a headlight installed in a vehicle front. The vehicle front structure includes: a front cowl configured to cover a periphery of the headlight; and a terminal device installed inside the front cowl. The terminal device includes a connection terminal configured to allow insertion or removal of a terminal of an external device, and a controller configured to control communication with the external device. The connection terminal and the controller are mounted inside the front cowl so as to be spaced apart from each other.
A support structure for a turn signal lamp provided on a straddle-type vehicle includes: a first side cowling having a cutout formed in a part of the first side cowling; and a second side cowling configured to cover the cutout from an inner side. The second side cowling is configured to support the turn signal lamp extending outward through the cutout. An outer side surface of the second side cowling is attached to an inner side surface of the first side cowling so as to be detachable in a vehicle width direction.
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
A ship steering control device for controlling steering of a ship. The ship includes a ship propulsion device configured to generate a propulsion force of the ship and a manual operation unit for manually operating the ship propulsion device. The ship steering control device includes a manual steering controller, an automatic steering controller, an abnormality detection unit, and a steering mode switching unit. The manual steering controller is configured to control. The steering mode switching unit includes an automatic steering cancellation unit, a propulsion force gradual reduction controller, an operation position determination unit, and a manual steering start unit.
B63H 25/42 - Gouverne ou ancrage dynamique à l'aide d'éléments propulsifsGouverne ou ancrage dynamique à l'aide d'hélices uniquement utilisées à cet effetGouverne ou ancrage dynamique à l'aide de gouvernails portant des hélices
B63H 21/21 - Moyens de commande du moteur ou de la transmission spécialement adaptés à l'utilisation à bord d'un navire
A marine vessel propulsion control system includes a simulated ship speed calculator which calculates a simulated ship speed by multiplying an engine rotational speed when the ship travels forward in a propeller co-rotating state and the power transmission mechanism continues the forward connection state by a scale conversion coefficient corresponding to a ship length, and which decreases the simulated ship speed based together with elapse of time. A shift controller, in a case where the simulated ship speed is not equal to or less than a predetermined simulated ship speed threshold when the operation part is changed from the forward position to the neutral position and is subsequently changed to the reverse position, switch the state of the power transmission mechanism from the disconnection state to the reverse connection state after waiting for the simulated ship speed to become equal to or less than the simulated ship speed threshold.
B63B 79/40 - Surveillance des caractéristiques ou des paramètres de fonctionnement des navires en opération pour le suivi des operations des navires, p. ex. le suivi de leur vitesse, de leur itinéraire ou de leur calendrier d’entretien
B63B 79/20 - Surveillance des caractéristiques ou des paramètres de fonctionnement des navires en opération utilisant des modèles ou la simulation, p. ex. des modèles statistiques ou des modèles stochastiques
B63H 20/14 - Transmission entre l'unité de propulsion et l'élément de propulsion
B63H 21/21 - Moyens de commande du moteur ou de la transmission spécialement adaptés à l'utilisation à bord d'un navire
F02D 9/08 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits
National University Corporation Yokohama National University (Japon)
Inventeur(s)
Negishi, Daisuke
Horita, Hidenori
Okajima, Katsunori
Onuki, Shumpei
Abrégé
A virtual space image generation device generates a virtual space image including a visibility change region in which a visibility changes based on movement of a viewpoint of a user. The virtual space image generation device includes an image generation unit that generates the virtual space image in which a transition completion time period required for transition of a visibility of the visibility change region between a first state and a second state different from the first state changes based on a predetermined condition, when the viewpoint of the user moves. Accordingly, the virtual space image that achieves visibility close to that of the appearance of a real space can be generated when the viewpoint of the user moves.
An under cowl includes a right wall portion, a left wall portion, and a front wall portion. The front wall portion includes a first wind receiving plate and a second wind receiving plate. Each of the first and second wind receiving plates include a wind receiving surface that extends in front-rear and left-right directions, that is inclined such that a front edge portion is lower than a rear edge portion, and that receives a traveling wind that flows from an upper front side to a lower rear side of the front wall portion. The second wind receiving plate is disposed such that a front end portion thereof is on an upper side and a rear side with respect to a front end portion of the first wind receiving plate. A gap is provided between the first wind receiving plate and the second wind receiving plate.
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
35 - Publicité; Affaires commerciales
Produits et services
Automobiles, motorcycles, all terrain vehicles, and the parts and fittings thereof. Retail services or wholesale services for automobiles, and the parts and fittings thereof; retail services or wholesale services for two-wheeled motor vehicles, and the parts and fittings thereof; retail services or wholesale services for outboard motors, and the parts and fittings thereof.
A front cowl covers a front portion of a vehicle provided with a headlight. The front cowl including: an intake port that takes in traveling wind from a front side of the vehicle; and a wind guide passage that allows the traveling wind to flow from the intake port toward a rear side of the vehicle. A bottom surface of the wind guide passage is inclined to be higher from the intake port toward the rear side of the vehicle, and the traveling wind is guided outward in a vehicle width direction from the intake port toward the rear side of the vehicle.
B62J 17/10 - Dispositifs de ventilation ou de guidage d’air faisant partie des carénages
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
An engine includes a cylinder and a cylinder head stacked on an upper portion of a crankcase, an electronically controlled throttle interposed in an intake passage behind the cylinder head, and an exhaust pipe extending rearward from the cylinder head through a side of the cylinder. The electronically controlled throttle includes a throttle valve provided in the intake passage and an actuator that opens and closes the throttle valve. The actuator is disposed on an opposite side of the exhaust pipe with respect to a vehicle center line extending in a vehicle front-rear direction.
F02M 35/16 - Épurateurs d'air comburant, tubulures d'admission de l'air, silencieux d'admission ou bien systèmes d'introduction spécialement adaptés pour moteurs à combustion interne ou aménagés pour ces moteurs caractérisés par leur utilisation sur véhicules
F01N 13/10 - Autres aménagements ou adaptations des tubulures d'échappement des collecteurs d'échappement
A single-cylinder engine includes a cylinder and a cylinder head stacked on an upper portion of a crankcase, and an electronically controlled throttle interposed in an intake passage behind the cylinder head. The vehicle body frame includes a pair of main frames extending rearward from a head pipe, and rear portions of the pair of main frames form a pair of body frames bent downward behind the cylinder head. The electronically controlled throttle includes a throttle valve provided in the intake passage and an actuator that opens and closes the throttle valve. In a side view, an upper edge of the actuator is along a lower edge of the suspension bracket, and a rear edge of the actuator is along front edges of the body frames.
A vehicle control system includes a damping device configured to damp a vibration of a vehicle, a setting change unit configured to be able to change a setting of at least one of a damping force of the damping device and a height of the vehicle by a user selection signal indicating selection by a user, and a notification unit configured to use at least one selected from the group consisting of a sound, a vibration, and an appearance of the vehicle to notify that the setting is changed in accordance with the user selection signal from the setting change unit.
B60G 17/016 - Suspensions élastiques permettant d'ajuster les caractéristiques des ressorts ou des amortisseurs de vibrations, de réguler la distance entre la surface porteuse et la partie suspendue du véhicule ou de bloquer la suspension pendant l'utilisation pour s'adapter aux conditions variables du véhicule ou du terrain, p. ex. en fonction de la vitesse ou de la charge les moyens de régulation comportant des éléments électriques ou électroniques caractérisés par leur réponse à un mouvement ou une condition donnés ou à l'action du conducteur, lors du déplacement du véhicule
B60G 17/015 - Suspensions élastiques permettant d'ajuster les caractéristiques des ressorts ou des amortisseurs de vibrations, de réguler la distance entre la surface porteuse et la partie suspendue du véhicule ou de bloquer la suspension pendant l'utilisation pour s'adapter aux conditions variables du véhicule ou du terrain, p. ex. en fonction de la vitesse ou de la charge les moyens de régulation comportant des éléments électriques ou électroniques
25.
CONTROL METHOD FOR VISIBILITY INFORMATION ACQUISITION DEVICE AND VISIBILITY INFORMATION ACQUISITION DEVICE
National University Corporation Yokohama National University (Japon)
Inventeur(s)
Negishi, Daisuke
Horita, Hidenori
Okajima, Katsunori
Onuki, Shumpei
Abrégé
In a visibility information acquisition device, a display control unit displays a first identifier at a first position ahead of a subject and subsequently displays a second identifier at a second position spaced in the front-back direction from the first position, and moves the viewpoint of the subject from the first position to the second position. The display control unit then controls the display state of the second identifier according to the transition condition, and causes the visibility of the second identifier to transition from a reference state to an intended state different from the reference state. The visibility information on the second identifier during transition is acquired by an information acquisition unit. Accordingly, information required to allow generation of a virtual space image that achieves visibility close to that of the appearance of a real space can be acquired at high accuracy when the viewpoint is moved.
G09G 3/00 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques
G06F 3/01 - Dispositions d'entrée ou dispositions d'entrée et de sortie combinées pour l'interaction entre l'utilisateur et le calculateur
A cowling structure for a straddle-type vehicle. The cowling structure includes a front cowling covering a vehicle front portion from a front side, and a pair of side cowlings covering the vehicle front portion from lateral sides. The pair of side cowlings each include an outer cowling forming an outer surface of the side cowling, and an inner cowling forming an inner surface of the side cowling. The inner cowling is formed with a ventilation hole through which traveling wind passing below the front cowling blows toward a rear side.
B62J 40/10 - Agencements d’épurateurs d’air spécialement adaptés aux cycles caractérisés par les dispositions du conduit d’air
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
B62J 17/10 - Dispositifs de ventilation ou de guidage d’air faisant partie des carénages
A cowling structure for a straddle-type vehicle. The cowling structure includes a front cowling covering a vehicle front portion from a front side, and a pair of side cowlings covering the vehicle front portion from lateral sides. The pair of side cowlings each includes an outer cowling forming an outer surface of the side cowling, and an inner cowling forming an inner surface of the side cowling. The outer cowling at least includes a first outer cowling facing a first region of the inner cowling, a second outer cowling facing a second region of the inner cowling, and a third outer cowling covering, from an outer side in a vehicle width direction, a joint between the first outer cowling and the second outer cowling.
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
A cowling structure includes a front cowling covering a vehicle front portion from a front side, and a pair of side cowlings covering the vehicle front portion from lateral sides. The front cowling is fixed to the pair of side cowlings, and is supported by a vehicle body frame via a cowling brace. The pair of side cowlings each include: an outer cowling forming an outer surface of the side cowling, and an inner cowling forming an inner surface of the side cowling. The inner cowling is formed with a front fixing portion fixed to a front side of the vehicle front portion, and a rear fixing portion fixed to a rear side of the vehicle front portion.
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
A front cowling includes a cowling panel that covers a front portion of a vehicle from the front and sides, and a wing that protrudes laterally from the cowling panel. The rear edge of the wing is located higher than a front edge of the wing. An air guide path is formed that takes in a traveling wind from the front of the vehicle and discharges the traveling wind as an airflow into a space below the wing.
A cowling structure for a straddle-type vehicle. The cowling structure includes a front cowling covering a vehicle front portion from a front side. A lamp unit is installed inside the front cowling. A lower surface of the front cowling is inclined obliquely downward to a rear side. The lower surface is formed with a first ventilation hole through which traveling wind blows. The lamp unit includes a lamp configured to illuminate a front of a vehicle, and an optical axis adjustment portion configured to adjust an optical axis of the lamp. The optical axis adjustment portion is configured to receive an operation with a tool, through the first ventilation hole.
A cowling structure for a straddle-type vehicle. The cowling structure includes a cowling covering a lamp unit. A front surface of the cowling has an opening through which a lens surface of the lamp unit is exposed to a front side. A lower surface of the cowling has an opening area through which a lower surface of the lamp unit is exposed to a lower side.
B62J 17/02 - Dispositifs de protection pour les cyclistes contre les intempériesCarénages ou parties profilées non prévus ailleurs protégeant le cycliste uniquement par devant
Retail and wholesale services related to vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor and their parts; advertising services featuring vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor; marketing and social media marketing feauturing vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor; Direct mail advertising feauturing vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor; online advertising on a computer network feauturing vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor; Commercial trading and consumer information services feauturing vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor; organizing exhibitions and events in the field of virtual reality, mixed reality, augmented reality, blockchain and cryptocurrency industries for commercial or advertising purposes feauturing vehicles, apparatus for locomotion by land, automobiles, suvs, motorcycles, outboard motor.
An image display system includes an image capture device that captures an image of an area behind a motorcycle; a display device that is disposed in front of a rider and displays an image based on image data obtained by the image capture device; and a control device which, when the motorcycle is travelling, controls the display device so as to display a first screen that displays a first image comprising a first area extracted from an imaging range of the image captured by the image capture device and, thereafter, transition from the first screen to a second screen that displays a second image comprising a second area, wider than the first area, extracted from the imaging range.
B60R 1/26 - Dispositions de visualisation en temps réel pour les conducteurs ou les passagers utilisant des systèmes de capture d'images optiques, p. ex. des caméras ou des systèmes vidéo spécialement adaptés pour être utilisés dans ou sur des véhicules pour visualiser une zone extérieure au véhicule, p. ex. l’extérieur du véhicule avec un champ de vision prédéterminé vers l’arrière du véhicule
B60R 1/04 - Dispositions pour les rétroviseurs montés à l'intérieur du véhicule
B60R 11/04 - Montage des caméras pour fonctionner pendant la marcheDisposition de leur commande par rapport au véhicule
An image display system includes: rearview optical mirrors of a motorcycle; an image capture device that captures image of the area behind the motorcycle; a display device that is disposed in front of a rider and displays image based on image data obtained by the image capture device; and a control device which, when the motorcycle, as a vehicle, is driving, controls the display device to display a first screen that displays a first image corresponding to a first area of an imaging range of the image captured by the image capture device and thereafter transition a screen displayed on the display device from the first screen to a second screen that displays a second image corresponding to a second area different from the first area, wherein each of the first area and the second area includes a blind spot area that cannot be seen by the rider in the optical mirrors.
B60R 1/26 - Dispositions de visualisation en temps réel pour les conducteurs ou les passagers utilisant des systèmes de capture d'images optiques, p. ex. des caméras ou des systèmes vidéo spécialement adaptés pour être utilisés dans ou sur des véhicules pour visualiser une zone extérieure au véhicule, p. ex. l’extérieur du véhicule avec un champ de vision prédéterminé vers l’arrière du véhicule
B62J 29/00 - Adaptations ou aménagements des rétroviseurs pour utilisation sur les cycles
B62J 45/20 - Calculateurs pour cycles en tant qu’accessoires de cycle
B62J 50/22 - Dispositifs fournissant des informations ayant pour objet de fournir des informations au conducteur ou au passager électroniques, p. ex. écrans
A power unit in which a gear case is provided on one side, in a vehicle width direction, of a motor case. An opening of the gear case is covered with a gear case cover from an outside in the vehicle width direction. The power unit includes a motor shaft protruding toward the gear case from a motor case side, a drive shaft protruding outward in the vehicle width direction from the gear case cover, and a power transmission mechanism configured to transmit, to the drive shaft, power from the motor shaft. An output gear is fixed to the motor shaft, inside the gear case cover. A drive sprocket is fixed to the drive shaft, outside the gear case cover. The drive sprocket is positioned inward, in the vehicle width direction, of the output gear.
A decompression device is attached to an exhaust camshaft, and the exhaust camshaft is supported by a cylinder head. The decompression device includes a decompression camshaft formed with a decompression cam that can protrude and be immersed with respect to a base circle of an exhaust cam of the exhaust camshaft, a decompression arm that moves in an opening direction due to centrifugal force accompanying rotation of the exhaust camshaft to protrude the decompression cam, and a spring that moves the decompression arm in a closing direction by spring force resisting the centrifugal force to immerse the decompression cam. In the decompression device, the opening direction of the decompression arm can be changed in a same direction or in an opposite direction to a rotation direction of the exhaust camshaft for each cylinder.
A support structure for a communication device mounted on a straddle-type vehicle. The support structure includes a headlamp unit configured to illuminate front of the vehicle, and a communication device support portion configured to support the communication device. The communication device support portion is located below the headlamp unit.
B62J 50/21 - Dispositifs fournissant des informations ayant pour objet de fournir des informations au conducteur ou au passager
B62J 50/22 - Dispositifs fournissant des informations ayant pour objet de fournir des informations au conducteur ou au passager électroniques, p. ex. écrans
An operation pedal system that is installed in a straddle-type vehicle includes an operation pedal having an arm portion and a pedal portion, and a tread surface forming member that is attached to the pedal portion to form a first tread surface above the pedal portion that receives a stepping force when a stepping operation is performed on the operation pedal. In the operation pedal system, the tread surface forming member is separate from the operation pedal, and the tread surface forming member has a body portion having a tread surface forming surface forming the first tread surface on an upper surface, and an attachment mechanism provided on the body portion for detachably attaching the tread surface forming member to the pedal portion.
A fixing structure includes a first attachment portion provided in the first member, a second attachment portion provided in the second member, and a clip configured to fix the first attachment portion and the second attachment portion to each other. The first attachment portion is formed with an attachment hole into which a tip end side of the clip is inserted. The second attachment portion is formed with an attachment and detachment hole through which the clip is configured to pass, and a holding hole through which a base end side of the clip is configured not to pass. The attachment and detachment hole and the holding hole are formed to be continuous with each other. The clip is configured to be moved from the attachment and detachment hole to the holding hole. The second member is formed with a design portion covering the second attachment portion.
A lamp unit for illuminating a front through an outer lens includes a first light source disposed on a back side of the outer lens, a second light source disposed on the back side of the outer lens, a first light guide body configured to guide light from the first light source to the outer lens, and a second light guide body configured to guide light from the second light source to the outer lens. The second light guide body overlaps the first light guide body from a front side in a front view. The first light guide body protrudes outward from the second light guide body. A part of light from the first light guide body is transmitted through the second light guide body and guided to the outer lens.
B62J 6/026 - Phares spécialement adaptés aux motocyclettes ou similaires caractérisés par la structure, p. ex. boîtiers
B60Q 1/00 - Agencement des dispositifs de signalisation optique ou d'éclairage, leur montage, leur support ou les circuits à cet effet
B60Q 1/26 - Agencement des dispositifs de signalisation optique ou d'éclairage, leur montage, leur support ou les circuits à cet effet les dispositifs ayant principalement pour objet d'indiquer le contour du véhicule ou de certaines de ses parties, ou pour engendrer des signaux au bénéfice d'autres véhicules
B62J 6/00 - Agencements des dispositifs de signalisation optique ou d'éclairage sur les cyclesLeur montage ou leur supportCircuits à cet effet
F21S 43/237 - Guides de lumière caractérisés par la forme du guide de lumière en forme de tige
F21S 43/245 - Guides de lumière caractérisés par la région d’émission émettant la lumière depuis une ou plusieurs de ses surfaces principales
F21S 43/247 - Guides de lumière ayant une seule source lumineuse couplée au guide de lumière
F21S 43/40 - Dispositifs de signalisation spécialement adaptés à l’extérieur des véhicules, p. ex. feux de freinage, feux clignotants indicateurs de direction ou feux de recul caractérisés par la combinaison de réflecteurs et de réfracteurs
F21V 8/00 - Utilisation de guides de lumière, p. ex. dispositifs à fibres optiques, dans les dispositifs ou systèmes d'éclairage
A side cover structure includes a main frame extending rearward from a head pipe, a seat rail positioned behind the main frame, a side cover fixed to the seat rail from an inner side in a vehicle width direction. Below a driver seating surface of a seat on the seat rail, the side cover is exposed, to an outer side in the vehicle width direction, from an opening formed by rail members included in the seat rail.
A variable valve device includes a pair of cam housings separated in a predetermined direction, a rocker shaft supported by the pair of cam housings, rocker arms supported by the rocker shaft, a connecting pin disposed in a pin hole of one of the rocker arms, a return pin disposed in a pin hole of another of the rocker arms, a pressing member that causes the connecting pin to push the return pin to the other side, a repulsive member that causes the return pin to push back the connecting pin to one side, and an upper housing supported at both ends by upper surfaces of the pair of cam housings. In the variable valve device, the upper housing is formed with a first accommodation hole in which the pressing member is disposed and a second accommodation hole in which the repulsive member is disposed.
F01L 1/24 - Réglage ou compensation des jeux automatique au moyen d'un fluide, p. ex. hydrauliquement
F01L 1/26 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par plusieurs soupapes commandées simultanément par le même organe de transmissionSystèmes de distribution à soupapes, p. ex. à soupapes de levage particuliers aux "machines" ou machines motrices ayant plus de deux soupapes de levage par cylindre
F01L 1/34 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
F01L 13/00 - Modifications du système de distribution pour permettre l'inversion du sens de marche, le freinage, le démarrage, le changement de taux de compression ou autre opération déterminée
A variable valve device can change valve operations of a cylinder head in which a cam chain is disposed at a center in a predetermined direction where cylinders are arranged and spark plugs are arranged by recessing outer walls on both sides in the direction in a concave shape. The device includes, for each cylinder, a rocker shaft extending along the direction, rocker arms supported by the rocker shaft, a connecting pin disposed in a pin hole of one of the rocker arms, a return pin disposed in a pin hole of the other of the rocker arms, a pressing member that causes the connecting pin to push the return pin, and a repulsive member that causes the return pin to push back the connecting pin, and the pins and the members are separated from the plug in a direction orthogonal to the direction in a plan view.
F01L 1/26 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par plusieurs soupapes commandées simultanément par le même organe de transmissionSystèmes de distribution à soupapes, p. ex. à soupapes de levage particuliers aux "machines" ou machines motrices ayant plus de deux soupapes de levage par cylindre
F01L 13/00 - Modifications du système de distribution pour permettre l'inversion du sens de marche, le freinage, le démarrage, le changement de taux de compression ou autre opération déterminée
F02D 13/02 - Réglage de la puissance du moteur par variation des caractéristiques de fonctionnement de la soupape d'admission ou de la soupape d'échappement, p. ex. réglage de la durée d'admission ou d'échappement pendant la marche du moteur
A shift device that causes a transmission device to shift in response to a shift operation of a shift pedal includes a shift shaft configured to rotate in response to the shift operation of the shift pedal, a shift cam configured to rotate in a manner of being capable of changing a coupling state of a shift gear of the transmission device, a drive plate configured to move the shift cam in response to the rotation of the shift shaft, and a lost motion mechanism interposed between the shift shaft and the drive plate. The lost motion mechanism is attached to one end portion of the shift shaft and absorbs the rotation of the shift shaft to delay power transmission to the drive plate.
F16H 63/18 - Mécanismes finals de sortie à cet effetMoyens de manœuvre pour les mécanismes finals de sortie plusieurs mécanismes finals de sortie étant mus par un seul mécanisme final de manœuvre commun les mécanismes finals de sortie étant actionnés successivement par le mouvement progressif du mécanisme final de manœuvre le mécanisme final de manœuvre comprenant des cames
F16H 61/04 - Adoucissement du changement du rapport
F16H 63/30 - Caractéristiques de structure des mécanismes finals de sortie
F16H 59/14 - Entrées de commande vers des transmissions transmettant un mouvement rotatif pour changements de vitesse ou pour mécanismes d'inversion les entrées étant fonction du couple ou du couple demandé
52.
STEERING SYSTEM FOR SHIP AND CONTROL PARAMETER SETTING METHOD
A steering system (1) is employed in a ship to which left and right propulsors (2L, 2R) are attached. The steering system (1) includes a first input device (11) configured to receive an input of any one of a forward thrust parameter and a reverse thrust parameter of the propulsors, a second input device (15) configured to receive an input of the other of the forward thrust parameter and the reverse thrust parameter of the propulsors, and a controller (17) configured to reflect the forward thrust parameter and the reverse thrust parameter to the propulsors in real time. In the steering system, the first input device and the second input device receive the inputs in parallel when a steering pattern for a ship is set.
B63H 25/04 - Moyens amorçant la gouverne à fonctionnement automatique, p. ex. asservis au compas
B63H 25/42 - Gouverne ou ancrage dynamique à l'aide d'éléments propulsifsGouverne ou ancrage dynamique à l'aide d'hélices uniquement utilisées à cet effetGouverne ou ancrage dynamique à l'aide de gouvernails portant des hélices
G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
Electrically-powered motor scooters, and structural parts and structural fittings thereof; Motor scooters, and structural parts and structural fittings thereof; Motorcycles, and structural parts and structural fittings thereof.
A travel control device for controlling traveling of a straddle-type vehicle includes a control device, a vehicle speed detector configured to detect a traveling speed of the vehicle, and a vibration detector configured to detect a detection target vibration which is a vibration in a yaw direction or roll direction of the vehicle and has a frequency within a reference frequency range. The control device includes a deceleration device configured to perform a deceleration control to decelerate the traveling speed if the traveling speed exceeds a control start reference speed and an amplitude of the detection target vibration exceeds a control start reference amplitude and a deceleration stop device configured to stop the deceleration control if the traveling speed becomes equal to or less than a target limited speed after the deceleration control is started by the deceleration device.
B60K 31/00 - Accessoires agissant sur un seul sous-ensemble pour la commande automatique de la vitesse des véhicules, c.-à-d. empêchant la vitesse de dépasser une valeur déterminée de façon arbitraire ou maintenant une vitesse donnée choisie par le conducteur du véhicule
There is provided an installation structure for an oil control valve configured to control a hydraulic pressure to a variable valve device, in an engine in which a cylinder head cover is provided on a cylinder head, and the variable valve device that is configured to change an opening and closing timing of a valve by a hydraulic pressure is mounted. The installation structure includes: a first slope that slopes upward and rearward from a front end on an upper surface of the cylinder head cover; and a second slope that slopes downward and rearward from a rear end of the first slope on the upper surface of the cylinder head cover. A radiator is installed in front of the cylinder head cover, and the oil control valve is installed on the second slope.
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
B62J 41/00 - Agencements des radiateurs, tuyaux ou conduits de refroidissement sur les cycles
F01N 3/30 - Aménagements pour l'alimentation en air additionnel
A mounting structure of a shift lever on a body frame which swingably supports a swing arm includes the shift lever configured to receive a shift operation from a driver, a rear cushion configured to extend and contract according to swinging of the swing arm, a cushion lever connecting the rear cushion and the swing arm, and a cushion rod connecting the cushion lever and the body frame. A mounting portion of the shift lever is disposed on an outer side of the body frame in a vehicle width direction. A mounting portion of the cushion rod is disposed on an inner side of the body frame in the vehicle width direction. An opening portion is formed on the body frame. The mounting portion of the shift lever and the mounting portion of the cushion rod overlap the opening portion in a side view.
B62M 25/06 - Commandes pour mécanismes de changement de vitesses spécialement adaptées aux cycles avec systèmes de transmission mécanique, p. ex. par câbles, leviers actionnés au pied
This vehicle body side part structure 1 comprises a side sill 3 extending in a vehicle length direction, and a battery pack 5 disposed more on a vehicle inner side in the vehicle width direction than the side sill 3, wherein: the vehicle body side part structure has an impact energy absorption member 11 that is provided on the outer peripheral side of the battery pack 5 in the vehicle width direction and has a shape protruding toward the vehicle outer side in the vehicle width direction, and that is formed of a steel plate having a tensile strength of 270-340 MPa and a plate thickness of 1.0-1.4 mm; and during a side impact in which an impact load is input to the side sill 3 from the vehicle outer side in the vehicle width direction, the side sill 3, having deformed due to the inputted impact load, contacts the impact energy absorption member 11, and thereafter the impact energy absorption member 11 deforms to absorb the impact energy and decrease the load transmitted to the battery pack 5.
B62D 21/15 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée comportant des moyens amortisseurs de chocs, p. ex. châssis conçus pour changer de forme ou de dimensions d'une façon définitive ou temporaire à la suite d'une collision avec un autre corps
A vehicle body lateral section structure 1 according to the present invention comprises: a side sill 3 formed by joining a side sill inner 3a and a side sill outer 3b; a battery pack 5 which is disposed on the interior side of the side sill 3 in the vehicle width direction; and a floor cross member 7 extending in the vehicle width direction. The floor cross member 7, which is made of a metal plate having a tensile strength on the order of 1180 MPa or more, has an end portion 7a disposed to cover an upper surface 3a2 of the side sill inner 3a without abutting on a side surface 3a1 thereof, and extends to, and abuts on, a joint surface portion 3d at an upper end portion 3c of the side sill inner 3a and the side sill outer 3b. In the event of a side collision, after the side sill outer 3b is deformed and crushed, the load input to the side sill 3 is transmitted to the floor cross member 7 so as to reduce the load transmitted to the battery pack 5.
B60K 1/04 - Agencement ou montage des ensembles de propulsion électriques des dispositifs d'emmagasinage de l'énergie électrique pour la propulsion
B62D 21/15 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée comportant des moyens amortisseurs de chocs, p. ex. châssis conçus pour changer de forme ou de dimensions d'une façon définitive ou temporaire à la suite d'une collision avec un autre corps
A vehicle body lateral section structure 1 according to the present invention comprises a collision energy absorption member 11 provided in a shape protruding toward the outside of the vehicle in the vehicle width direction on the outer peripheral side of a battery pack 5 in the vehicle width direction, and a recessed part 13 formed in a recessed shape in a side sill 3 so as to ensure a space between the collision energy absorption member 11 and the side sill 3. When a collision load is inputted to a side surface of the side sill 3, the timing of contact between the side sill 3 and the collision energy absorption member 11 is delayed, the collision energy inputted to the side sill 3 is transmitted to a floor cross member 7 until the side sill 3 comes into contact with the collision energy absorption member 11, and the collision energy is absorbed in the collision energy absorption member 11 after the side sill 3 and the collision energy absorption member 11 have come into contact, thereby reducing the load transmitted to the battery pack 5.
B60K 1/04 - Agencement ou montage des ensembles de propulsion électriques des dispositifs d'emmagasinage de l'énergie électrique pour la propulsion
B62D 21/15 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée comportant des moyens amortisseurs de chocs, p. ex. châssis conçus pour changer de forme ou de dimensions d'une façon définitive ou temporaire à la suite d'une collision avec un autre corps
60.
Image processing device for coordinate mapping of an omnidirectional image
An image processing device includes a modeler that creates a spherical model having a reference point of a 3D virtual space as a center, and a horizontal plane model having a distance to the center of the spherical model set based on ground distance information; and a drawing part associating coordinate values of respective vertexes on the spherical model and coordinate values of respective vertexes on the horizontal plane model with coordinate values of the omnidirectional image, replaces the coordinate values of the omnidirectional image corresponding to the coordinate values of the respective vertexes on the horizontal plane model with coordinate values of the omnidirectional image that are set to respective intersections between respective direction vectors directed from the center of the spherical model to the respective vertexes, and the spherical model, and maps the omnidirectional image on the spherical model and the horizontal plane model to form a background image Imap for the 3D virtual space.
There is provided a straddle-type vehicle. An exhaust pipe includes a first portion extending downward from an exhaust port through a region in front of an engine and on one lateral side of a down frame in the left-right direction, a second portion extending upward through a region in front of the engine and on the other lateral side of the down frame in the left-right direction after extending from a downstream side end portion of the first portion to the other lateral side of the down frame in the left-right direction through a region in front of or to the lower front of the down frame. The catalyst device is disposed in a portion of the second portion of the exhaust pipe that is located in front of the engine and on the other lateral side of the down frame in the left-right direction.
There is provided a variable valve device provided in a cylinder head and capable of changing a valve lift amount, including: a camshaft on which a plurality of cams with different valve lift amounts are formed; a switching mechanism configured to switch a cam for moving a valve among the plurality of cams; and an oil control valve configured to control an oil pressure for the switching mechanism. Oil starts to be supplied from the oil control valve to the switching mechanism at an end timing of a valve lift or in a zero range in which no valve lift occurs.
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
An electric apparatus installed in an electric vehicle, the electric apparatus includes a plurality of electrical devices including an electrical drive system, and an accommodation case accommodating the plurality of electrical devices. An intake port and a discharge port for cooling air are formed at an upper surface of the accommodation case, and a cooling fan is provided at the intake port or the discharge port.
A display device for a vehicle includes a plurality of displays mounted in a vehicle; an electronic control unit that controls, in an integrated manner, information displayed on the plurality of displays; and a telltale display that displays a telltale of the vehicle. The electronic control unit includes a first microcomputer that controls a display state of each of the plurality of displays, and a second microcomputer that operates with lower power consumption than the first microcomputer and controls a display state of the telltale display.
B60K 35/28 - Dispositions de sortie, c.-à-d. du véhicule à l'utilisateur, associées aux fonctions du véhicule ou spécialement adaptées à celles-ci caractérisées par le type d’informations de sortie, p. ex. divertissement vidéo ou informations sur la dynamique du véhiculeDispositions de sortie, c.-à-d. du véhicule à l'utilisateur, associées aux fonctions du véhicule ou spécialement adaptées à celles-ci caractérisées par la finalité des informations de sortie, p. ex. pour attirer l'attention du conducteur
B60K 35/81 - Dispositions pour la commande des instruments pour la commande des affichages
A vehicle rear suspension structure includes a torsion beam and a pair of arm units. Each of the arm units includes a trailing arm formed in a tubular shape extending in the vehicle front-rear direction, an end plate occluding a rear side opening of the trailing arm, an upper reinforcing member, and a lower reinforcing member. A shaft insertion hole is formed in an inner side portion of a rear arm of the trailing arm, the upper reinforcing member is joined to the rear arm to fit an upper side edge portion of a peripheral edge portion of the shaft insertion hole, and the lower reinforcing member is joined to the rear arm to fit a lower side edge portion of the peripheral edge portion of the shaft insertion hole.
B60G 21/05 - Systèmes d'interconnexion à plusieurs roues conjuguées suspendues élastiquement, p. ex. pour stabiliser la caisse du véhicule eu égard aux forces d'accélération, de décélération ou aux forces centrifuges conjuguées en permanence mécaniquement entre roues appartenant au même essieu, mais n'étant pas disposées du même côté du véhicule, c.-à-d. la suspension de la roue gauche étant reliée à celle de la roue droite
There is provided an installation structure for an oil pressure sensor, including: a crankcase in which a main gallery that extends in one direction is formed; and the oil pressure sensor detachably installed on an outer surface of the crankcase. The oil pressure sensor is configured to detect an oil pressure of a branch passage branching from one end of the main gallery. In a bottom view of a vehicle, a connector of the oil pressure sensor is oriented to an outside of the vehicle, and the connector of the oil pressure sensor overlaps with the crankcase.
G01L 19/00 - Détails ou accessoires des appareils pour la mesure de la pression permanente ou quasi permanente d'un milieu fluent dans la mesure où ces détails ou accessoires ne sont pas particuliers à des types particuliers de manomètres
F01M 11/10 - Dispositifs indicateursAutres dispositifs de sécurité
F01M 11/03 - Montage ou raccordement des moyens d'épuration du lubrifiant se rapportant à la "machine" ou machine motriceÉléments constitutifs des moyens d'épuration du lubrifiant
G01L 19/06 - Moyens pour empêcher la surcharge ou l'influence délétère du milieu à mesurer sur le dispositif de mesure ou vice versa
F01M 11/02 - Aménagements des conduits de lubrification
There is provided a variable valve timing system, including: a camshaft rotatably supported by a support wall of an engine; a variable valve device configured to advance or retard the camshaft by a hydraulic pressure; and an oil control valve. A thrust stopper is formed on an outer peripheral surface of the camshaft. A bearing surface of the support wall is formed with an advance groove through which oil for advancing the camshaft is to pass, a retard groove through which oil for retarding the camshaft is to pass, and an accommodation groove configured to accommodate the thrust stopper. At the bearing surface, the retard groove is positioned on one wall surface side of the support wall, the accommodation groove is positioned on the other wall surface side of the support wall, and the advance groove is positioned between the retard groove and the accommodation groove.
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
There is provided a variable valve timing system including: a variable valve device; an oil control valve configured to control a hydraulic pressure with respect to the variable valve device; an external pipe connecting a main gallery and the oil control valve; and a hydraulic pressure sensor configured to detect a hydraulic pressure in an oil path formed at the crankcase. The oil control valve is disposed on one side surface of the engine in the vehicle width direction. One end portion of the external pipe is connected to one side of the main gallery in the vehicle width direction. In a bottom view of a vehicle, the one end portion of the external pipe overlaps with the crankcase, and the hydraulic pressure sensor overlaps with the crankcase on one side of the one end portion of the external pipe in the vehicle width direction.
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
F01L 13/00 - Modifications du système de distribution pour permettre l'inversion du sens de marche, le freinage, le démarrage, le changement de taux de compression ou autre opération déterminée
There is provided a variable valve timing system for an engine in which a cylinder head is fixed on a cylinder, and the cylinder head is suspended on a vehicle body frame, the variable valve timing system including: a variable valve device configured to change an opening and closing timing of a valve according to a hydraulic pressure; and an oil control valve. The vehicle body frame includes a main frame configured to laterally cover a rear side of the cylinder head and a down frame configured to laterally cover a front side of the cylinder head. In a side view of a vehicle, the oil control valve is detachably disposed on an outer surface of the engine below an area surrounded by the main frame, the down frame, and a lower surface of the cylinder head.
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
B62K 11/04 - Cadres caractérisés par le moteur entre roues avant et arrière
B62J 41/00 - Agencements des radiateurs, tuyaux ou conduits de refroidissement sur les cycles
F01M 11/02 - Aménagements des conduits de lubrification
There is provided a variable valve timing system including: an intake side camshaft and an exhaust side camshaft disposed on a cylinder head; and a variable valve device attached to one end portion of the intake side camshaft. The accommodating wall on an exhaust side of the cylinder head is positioned more inward in a vehicle width direction than the accommodating wall on an intake side of the cylinder head. A first bolt for fixing the intake side of the cylinder head to a cylinder is disposed more inward in the vehicle width direction than the accommodating wall on the intake side. A second bolt for fixing the exhaust side of the cylinder head to the cylinder is disposed more outward in the vehicle width direction than the accommodating wall on the exhaust side.
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
There is provided a variable valve timing system for an engine in which a cam chain chamber is formed in a cylinder and a cylinder head, the variable valve timing system including: a variable valve device configured to change an opening and closing timing of a valve; an oil control valve configured to control a hydraulic pressure with respect to the variable valve device. The oil control valve is disposed on an outer surface of the cylinder, which is an outer wall of the cam chain chamber. An oil path enters the outer wall of the cam chain chamber from the oil control valve, and after extending toward a side of the cylinder head from a side of the cylinder, the oil path extends toward the variable valve device through an inner wall of the cam chain chamber through an oil pipe.
F01N 1/00 - Silencieux caractérisés par leur principe de fonctionnement
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
There is provided a variable valve timing system for an engine in which a cam chain chamber is formed in a cylinder and a cylinder head, the variable valve timing system including: a variable valve device configured to change an opening and closing timing of a valve; and an oil control valve configured to control a hydraulic pressure with respect to the variable valve device. The oil control valve is disposed on an outer surface of the cylinder, which is an outer wall of the cam chain chamber. An oil path for hydraulic pressure control enters the outer wall of the cam chain chamber from the oil control valve, extends from a side of the cylinder to a side of the cylinder head, and crosses the cam chain chamber to the variable valve device through an inner wall of the cam chain chamber.
F01L 1/34 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture
F01L 1/344 - Systèmes de distribution à soupapes, p. ex. à soupapes de levage caractérisés par des moyens de changer la période d'une soupape sans changer la durée de l'ouverture en modifiant la position angulaire relative entre le vilebrequin et l'arbre à came, p. ex. à l'aide d'un engrenage hélicoïdal
A cooling device for a ship propulsion machine includes a drain passage and a collector. The collector includes a collector main body, a case, an upper connection pipe, and a lower connection pipe having flexibility. A first bent portion is provided between an upper end portion and a lower end portion of the lower connection pipe. A second bent portion is provided between the first bent portion and the lower end portion of the lower connection pipe. The lower connection pipe extends downward from the upper end portion thereof along an axis of the case, bends at the first bent portion, extends downward while being inclined with respect to the axis so as to be separated from the axis, bends at the second bent portion, and extends downward while being inclined with respect to the axis so as to be close to the axis.
A cooling device includes a drain passage, a collection passage and a bypass passage each connecting an upstream portion and a downstream portion of the drain passage, a branched portion branched into the collection passage and the bypass passage, and a confluence portion joined the collection passage and the bypass passage. A difference between flowing directions from the upstream portion into the branched portion and from the branched portion into the collection passage is smaller than a difference between flowing directions from the upstream portion into the branched portion and from the branched portion into the bypass passage. A difference between flowing directions from the bypass passage into the confluence portion and from the confluence portion into the downstream portion is smaller than a difference between flowing directions from the collection passage into the confluence portion and from the confluence portion into the downstream portion.
An outboard motor includes a power source, a drive shaft, a propeller shaft, a propeller attached to the propeller shaft, a case covering the power source, the drive shaft, and the propeller shaft, a water intake passage provided in the case, through which water is taken into the case from an outside of the outboard motor, a first pump configured to be driven by rotation of the drive shaft and to supply the water taken in from the water intake passage to the power source as cooling water, and a second pump configured to be driven by rotation of the drive shaft and to supply the water taken in from the water intake passage to the power source as the cooling water. The first pump and the second pump are arranged in a distributed manner in the outboard motor.
An outboard motor includes a power source disposed, a propeller shaft, a drive shaft, a gear mechanism, a lower case having an internal space in which gear oil is stored, a gear oil gauge configured to check a level or a state of the gear oil stored in the internal space, a gauge mounting hole provided configured to removably mount the gear oil gauge to the lower case such that one end side of the gear oil gauge is immersed in the gear oil stored in the internal space, a gauge insertion portion configured to insert the gear oil gauge into the gauge mounting hole, an oil supply and discharge passage provided in the lower case, and a pump connecting portion configured to connect a pump. The gauge insertion portion and the pump connecting portion are arranged side by side.
An outboard motor includes a case having a gear chamber, a drive shaft arrangement hole, and a propeller shaft arrangement hole, a drive shaft, a propeller shaft, a drive gear, a driven gear, a gear position setting member provided in front of the driven gear in the case and configured to set a position of the driven gear in a front-rear direction, and a screw mechanism configured to move the gear position setting member in the front-rear direction when the gear position setting member is rotated about an axis of the gear position setting member. The screw mechanism includes a first screw provided in the case and a second screw provided on the gear position setting member and configured to be screwed with the first screw.
An outboard motor includes an outer propeller shaft extending in a front-rear direction, an inner propeller shaft extending in the front-rear direction and disposed at an inner peripheral side of the outer propeller shaft, a rear driven gear disposed at a rear side of a drive gear, a front driven gear disposed at a front side of the drive gear, and a case covering front portions of the outer propeller shaft and the inner propeller shaft, the drive gear, the rear driven gear, and the front driven gear. A first bearing rotatably supporting the outer propeller shaft on the case and configured to receive an axial load acting on the outer propeller shaft in a front direction is provided at an outer peripheral side of the front portion of the outer propeller shaft.
There is provided a straddle-type vehicle including: a head pipe; a steering stem rotatably supported in the head pipe; a front fork; an upper bracket connecting an upper end portion of the front fork to the steering stem; a lower bracket located below the upper bracket and connecting an upper portion of the front fork to the steering stem; a front wheel supported by a lower end portion of the front fork; a front fender covering the front wheel from above; a front cowl covering an upper front portion of the straddle-type vehicle; a shroud located above the front fender and covering a lower portion of the front cowl; and a lower bracket cover located above the front fender and covering the lower bracket from below. The shroud has an opening through which the front fork passes. The lower bracket cover is provided below the opening.
A rear wheel suspension device includes: a swing arm swingably supported with respect to a vehicle body frame, the swing arm rotatably supporting a rear wheel; a rear cushion configured to be extended and contracted in accordance with swing of the swing arm; a cushion lever coupled to a lower end portion of the rear cushion; a cushion rod coupling the cushion lever and the swing arm; and an accumulator storing a working fluid that extends and contracts the cushion rod. A vehicle height is adjusted by displacement of the swing arm in accordance with extension and contraction of the cushion rod. The accumulator is positioned on a lower side of a swing shaft of the swing arm.
B62K 25/26 - Suspensions des moyeux de roues pour montage élastique des moyeux sur le cadre ou la fourche avec bras basculant pivotant sur chaque jambe de fourche avec plus d'un bras sur chaque jambe de fourche pour roue arrière
A rear wheel suspension device includes: a swing arm swingably supported with respect to a vehicle body frame, the swing arm being configured to rotatably support a rear wheel; a rear cushion configured to be extended and contracted in accordance with swing of the swing arm; a cushion lever coupled to a lower end portion of the rear cushion; a cushion rod coupling the cushion lever and the swing arm; an accumulator storing a working fluid that extends and contracts the cushion rod; and an accumulator bracket supporting the accumulator. A vehicle height is adjusted by displacement of the swing arm in accordance with extension and contraction of the cushion rod. A muffler pipe extends rearward from an engine through a side of the accumulator. The accumulator bracket is configured to separate the accumulator and the muffler pipe.
B62K 25/20 - Suspensions des moyeux de roues pour montage élastique des moyeux sur le cadre ou la fourche avec bras basculant pivotant sur chaque jambe de fourche avec bras unique sur chaque jambe de fourche pour roue arrière
B62K 11/04 - Cadres caractérisés par le moteur entre roues avant et arrière
There is provided an air cleaner configured to be disposed inside a vehicle body frame, the air cleaner including: an air cleaner case in which an intake chamber is formed; an air filter disposed in the intake chamber; an inlet tube configured to take in air to the intake chamber; and an outlet tube configured to send out the air from the intake chamber. The inlet tube extends in a front-rear direction. The inlet tube has a bottom wall curved downward in a side view to form a concave curved portion below a discharge port of the inlet tube. The concave curved portion is formed with a drain hole.
F02M 35/08 - Épurateurs d'air avec des moyens pour dépoussiérer l'épurateurÉpurateurs d'air avec des moyens indicateurs d'obstructionÉpurateurs d'air avec des moyens de dérivation
F02M 35/16 - Épurateurs d'air comburant, tubulures d'admission de l'air, silencieux d'admission ou bien systèmes d'introduction spécialement adaptés pour moteurs à combustion interne ou aménagés pour ces moteurs caractérisés par leur utilisation sur véhicules
There is provided an air cleaner configured to be disposed inside a vehicle body frame, the air cleaner including: an air cleaner case in which an intake chamber is formed; an intake air temperature sensor configured to detect an intake air temperature in the intake chamber; an inlet tube configured to take in air to the intake chamber; and an outlet tube configured to send out air from the intake chamber. The outlet tube has an upstream portion protruding into the intake chamber, and the upstream portion of the outlet tube has a peripheral wall formed with a through hole.
There is provided a sensor attachment structure for a straddle-type vehicle including: a sensor unit including a sensor configured to detect a state of a tire; and a fender formed along an outer surface shape of an upper portion of the tire. The sensor unit is attached to a rear portion of the fender and faces the tire.
There is provided a vehicle control device including: an inverter that is configured to drive an electric motor; a DC/DC converter that is configured to step down a voltage output from a high voltage battery; a pre-charge circuit including a pre-charge switch; a voltage detector that is configured to detect an input voltage input to the inverter and the DC/DC converter; and a controller. When the input voltage is lower than the input voltage at the time when pre-charge of the inverter is completed, the controller is configured to determine that power supplied from a power supply of the DC/DC converter to the DC/DC converter is not normally stopped.
B60L 58/12 - Procédés ou agencements de circuits pour surveiller ou commander des batteries ou des piles à combustible, spécialement adaptés pour des véhicules électriques pour la surveillance et la commande des batteries en fonction de l'état de charge [SoC]
NATIONAL UNIVERSITY CORPORATION YOKOHAMA NATIONAL UNIVERSITY (Japon)
Inventeur(s)
Negishi, Daisuke
Horita, Hidenori
Okajima, Katsunori
Onuki, Shumpei
Abrégé
A virtual space image generation device 2 generates a virtual space image including a visibility change region in which the visibility changes on the basis of movement of a viewpoint of a user U. The virtual space image generation device 2 comprises an image generation unit 14 that generates, when the viewpoint of the user U moves, a virtual space image in which a transition completion time required for transition of the visibility in the visibility change region between a first state and a second state different from the first state is changed on the basis of a predetermined condition. Accordingly, it is possible to generate a virtual space image that achieves the visibility similar in appearance to a real space, when the viewpoint of the user moves.
NATIONAL UNIVERSITY CORPORATION YOKOHAMA NATIONAL UNIVERSITY (Japon)
Inventeur(s)
Negishi, Daisuke
Horita, Hidenori
Okajima, Katsunori
Onuki, Shumpei
Abrégé
A virtual space image generation device 2 generates a virtual space image including a visibility change region in which the visibility changes on the basis of movement of a viewpoint of a user U. The virtual space image generation device 2 comprises an image generation unit 14 that generates, when the viewpoint of the user U moves, a virtual space image in which the change degree of visibility in the visibility change region changes in accordance with the elapse of time. The virtual space image generation device 2 can generate a virtual space image that achieves the visibility similar in appearance to a real space, when the viewpoint of the user moves.
NATIONAL UNIVERSITY CORPORATION YOKOHAMA NATIONAL UNIVERSITY (Japon)
Inventeur(s)
Negishi, Daisuke
Horita, Hidenori
Okajima, Katsunori
Onuki, Shumpei
Abrégé
In a visibility information acquisition device (1), a display control unit (32) displays a first identifier at a first position in front of a subject (S), and then displays a second identifier at a second position, which is spaced from the first position in the front-rear direction, to move the viewpoint of the subject (S) from the first position to the second position. Then, the display control unit (32) controls a display state of the second identifier in accordance with a transition condition to transition the visibility of the second identifier from a reference state to a target state which differs from the reference state, so that visibility information pertaining to the second identifier during the transition is acquired from the subject S by an information acquisition unit (34). Thus, it is possible, when the viewpoint moves, to obtain with high accuracy necessary information for enabling generation of a virtual space image which achieves visibility close to the appearance of a real space.
G09G 5/00 - Dispositions ou circuits de commande de l'affichage communs à l'affichage utilisant des tubes à rayons cathodiques et à l'affichage utilisant d'autres moyens de visualisation
G06T 19/00 - Transformation de modèles ou d'images tridimensionnels [3D] pour infographie
G06F 3/04815 - Interaction s’effectuant dans un environnement basé sur des métaphores ou des objets avec un affichage tridimensionnel, p. ex. modification du point de vue de l’utilisateur par rapport à l’environnement ou l’objet
A spoke wheel for a straddle-type vehicle includes a rim having an outer peripheral surface on which a tire is mounted and an annular shape, a hub supported by an axle on an inner side of the rim and having a tubular shape, and a plurality of wire spokes connecting the rim to the hub. The rim is formed with a plurality of spoke holes through which the plurality of wire spokes pass and support surfaces receiving head portions of the plurality of wire spokes on one end sides of the plurality of spoke holes. Each of the support surfaces has a groove shape extending in a wheel rotation direction.
A side case attachment structure detachably attaching a side case to a vehicle body of a saddle-type vehicle includes a first attachment portion protruding of the side case, a second attachment portion of the side case, and a holding portion of a side portion of a rear portion of the vehicle body, the holding portion including a first hooking portion hooking the first attachment portion from above and a second hooking portion hooking the second attachment portion from above. A movement restricting portion of the holding portion restricts forward movement of the side case by coming into contact with the first attachment portion when a grip portion of the side case is gripped and the side case is pulled forward and upward with respect to the vehicle body so as to detach the first attachment portion from the first hooking portion.
B62J 7/04 - Porte-bagages caractérisés par leur disposition sur les cycles montés au-dessus ou derrière la roue arrière
B62J 9/27 - Contenants spécialement adaptés aux cycles, p. ex. paniers ou sacoches fixés au cycle en tant qu’accessoires caractérisés par des agencements de montage, p. ex. des agencements à libération rapide
A hybrid ship propulsion machine includes an internal-combustion-drive propulsion part and an electric propulsion part. The electric propulsion part is attached to a first housing part of the internal-combustion-drive propulsion part, and is disposed at a position higher than an anti-cavitation plate of the internal-combustion-drive propulsion part such that a second propeller of the electric propulsion part sinks below a water surface during low-speed movement, which is not a planing state of a ship, and the second propeller comes out of the water surface during planing of the ship.
B63H 21/20 - Aménagements de l'appareil moteur de propulsion ou de certains de ses éléments pour utilisation à bord des navires le navire étant propulsé par une combinaison d'éléments moteurs de types différents
A hybrid ship propulsion machine includes an internal-combustion-drive propulsion part and an electric propulsion part. The electric propulsion part is attached to a first housing part of the internal-combustion-drive propulsion part, and is disposed at a position higher than an anti-cavitation plate of the internal-combustion-drive propulsion part such that a suction port of the electric propulsion part sinks below a water surface during low-speed movement, which is not a planing state of a ship, and the suction port comes out of the water surface during planing of the ship.
B63H 21/20 - Aménagements de l'appareil moteur de propulsion ou de certains de ses éléments pour utilisation à bord des navires le navire étant propulsé par une combinaison d'éléments moteurs de types différents
A hybrid ship propulsion machine includes an internal-combustion-drive propulsion part, a fixing bracket configured to fix the internal-combustion-drive propulsion part to a ship, an electric propulsion part, an elevating device configured to elevate and lower the electric propulsion part; and an attachment bracket attaching the electric propulsion part and the elevating device to the fixing bracket. The elevating device is configured to elevate and lower the electric propulsion part between a position where a second propeller of the electric propulsion part sinks below a water surface and a position where the second propeller comes out of the water surface.
B63H 21/20 - Aménagements de l'appareil moteur de propulsion ou de certains de ses éléments pour utilisation à bord des navires le navire étant propulsé par une combinaison d'éléments moteurs de types différents
B63H 20/00 - Unités de propulsion hors-bord, p. ex. moteurs hors-bord ou transmissions en ZLeur agencement sur les navires
B63H 20/10 - Moyens permettant la modification de l'assiette longitudinale, de la gîte ou le relevage de l'élément propulseur en cas de contact avec un obstacleCommande de l'assiette longitudinale ou de la gîte
97.
SHIP PROPULSION MACHINE AND SHIP PROPULSION MACHINE SET
A ship propulsion machine includes a ship propulsion machine main body and a propulsion module. The ship propulsion machine main body includes a power source, a tank storing cooling liquid, a heat sink cooling the cooling liquid, a cooling liquid passage connecting the power source and the heat sink, a pump causing the cooling liquid to flow in the cooling liquid passage, a first housing part housing the heat sink. The propulsion module includes a drive shaft rotated by the power source and a propulsion device converting rotation of the drive shaft into the propulsion force. A connection mechanism separably connecting an output shaft of the power source and the drive shaft is provided on the power source and on the drive shaft. The first housing part and the propulsion device are provided with an attachment mechanism detachably attaching the propulsion module.
B63H 11/08 - Propulsion marine par hydrojets le fluide propulsif étant constitué par l'eau ambiante au moyen de pompes du type rotatif
B63H 5/125 - Aménagements à bord des navires des éléments propulsifs agissant directement sur l'eau des hélices montées de façon à être mobiles par rapport à la coque, p. ex. réglables en direction
A front fender attached to a front fork of a straddle-type vehicle, the front fender includes a fender body covering an upper side of a front wheel supported by the front fork, a pair of fender bases extending from two side edges of the fender body to an axle, and a pair of fender covers attached to the pair offender bases. A pair of leg portions having hollow cross sections are constituted by the pair of fender bases and the pair of fender covers, and the fender body is supported by the pair of leg portions attached to the front fork.
A holding structure for an optional component, the optional component configured to be added to a saddle-type vehicle, the holding structure includes a brace extending forward from a head pipe of a vehicle front portion, a plate supported from below by the brace, and a holder for the optional component provided on the plate. A periphery of a meter configured to display vehicle information is covered with a meter cover. The meter is supported by the plate so as to be exposed from the meter cover, and the optional component is held inside the meter cover by the holder.
A front fender attached to a front fork of a straddle-type vehicle, the front fender includes a fender body covering an upper side of a front wheel supported by the front fork, and a pair of fender side surfaces extending from two side edges of the fender body to an axle. The front fork is provided with brake caliper that brakes the front wheel. A lower edge of each of the fender side surfaces extends in a front-rear direction above the brake caliper, and includes a folded portion formed such that the lower edge of each of the fender side surfaces is directed inward in an axle direction
