Patent application number | Description | Published |
20090007863 | Motorcycle provided with valve-operating mechanism - The present invention provides a motorcycle having a valve-operating mechanism for actuating a valve which opens and closes a combustion chamber of an internal combustion engine. The valve-operating mechanism includes a biasing means for biasing the valve toward a valve closing direction and a drive means for driving the valve toward the valve opening direction against the biasing means, the biasing means is a gas spring formed by filling a gas spring chamber with compressible gas, and a compressed-gas container for supplying the compressible gas is connected to the gas spring chamber, and the compressed-gas container is disposed in an outermost line of body components of the motorcycle except for the compressed-gas container when the motorcycle is viewed from above. | 01-08-2009 |
20090064965 | Leisure Vehicle - A leisure vehicle equipped with an internal combustion engine as a power unit to drive the leisure vehicle, including a drive wheel, a slip sensor unit configured to detect a slip of the drive wheel, a throttle device mounted to the internal combustion engine, a throttle valve position changing device configured to change a position of a throttle valve of the throttle device, a throttle close operation sensor unit configured to detect that a rider has performed a throttle close operation to close a throttle of the throttle device, and a controller configured to control an operation of the throttle valve position changing device. | 03-12-2009 |
20090139791 | Engine For Leisure Vehicle - An engine for a leisure vehicle including a crank chamber in which a crankshaft is disposed, a transmission chamber in which a transmission unit of the vehicle is disposed, the transmission unit having an input shaft that is coupled to the crankshaft and configured to be driven by the crankshaft, a cylinder extending from the crank chamber, and a cylinder head attached to the cylinder. The crank chamber is located above the transmission chamber, and the cylinder is disposed in such a manner that an axial direction thereof is oriented in a substantially longitudinal direction of a vehicle body of the leisure vehicle. | 06-04-2009 |
20090260942 | Back Torque Reducing Device of a Friction Clutch and Motorcycle Comprising the Same - A friction clutch includes a clutch cam which is movable with respect to a clutch hub in a center axis direction of a transmission shaft. The clutch cam has a release rod which penetrates through the clutch hub and is extended toward the pressure plate. An adjustment bolt which is provided at the pressure plate and is configured to restrict a moving range of a clutch cam in the center axis direction is disposed to face an end portion of the release rod which is closer to the pressure plate. | 10-22-2009 |
20110155100 | Traction Control System and Method of Suppressing Driving Power - A traction control system comprises a detector configured to detect a monitored spin value corresponding to a spin amount of a drive wheel in a vehicle; a condition determiner configured to determine whether or not the monitored spin value detected by the detector meets a driving power suppressing condition; and a controller configured to execute a traction control for reducing a driving power of the drive wheel based on the determination; the condition determiner being configured to set the driving power suppressing condition variably based on at least one of a variable parameter relating to a rotation number difference which is variable according to a change rate of a rotation number difference between the drive wheel and a driven wheel, and a variable parameter relating to rotation of a drive system which is variable according to a rotation change rate of the drive system for driving the drive wheel. | 06-30-2011 |
20110160973 | Control System in Vehicle, Wheelie Determining Method, and Driving Power Suppressing Method - A control system in a vehicle including a front wheel which is a driven wheel and a rear wheel which is a drive wheel, the control system including: a control unit configured to control a driving power generated in a driving source according to a driving state of the vehicle; and a front wheel speed sensor configured to detect a rotational speed of the front wheel; the control unit including: a wheelie determiner configured to determine whether or not a predetermined wheelie starting condition is met, based on a value detected by the front wheel speed sensor; and a driving power controller configured to suppress the driving power if the wheelie determiner determines that the predetermined wheelie starting condition is met. | 06-30-2011 |
20110160976 | Vehicle and Engine Controlling Method - A vehicle comprises an acceleration command input device operated by a driver to input an acceleration command; a braking command input device operated by the driver to input a braking command; and an engine controller for controlling a plurality of engine control components to change an engine driving power in response to the acceleration command and executing a deceleration control for reducing the engine driving power when a predetermined deceleration condition is met; the engine controller executing driving power increasing preparation for changing a controlled amount of at least one of the engine control components to increase the engine driving power while maintaining the deceleration control state when inputting of the braking command stops during the deceleration control, and changing a controlled amount of at least one of the engine control components to increase the engine driving power when the acceleration command is input thereafter. | 06-30-2011 |
20110160977 | Control System in Vehicle and Method of Controlling Vehicle - A control system in a vehicle configured to rotate a drive wheel by a driving power generated in a driving power source mounted in the vehicle; comprises a slip value measuring unit configured to measure a slip value indicating a degree to which the drive wheel spins; a change rate calculator configured to calculate a change rate of the slip value measured by the slip value measuring unit; and a road surface condition determiner configured to determine a road surface condition according to the change rate of the slip value calculated by the change rate calculator. | 06-30-2011 |
20120017871 | Control System in Vehicle - A control system for controlling a driving power source in a vehicle, includes a driving state detector for detecting a driving state of the vehicle; a first determiner for determining whether or not the driving state detected by the driving state detector is a first state; a second determiner for determining whether or not the driving state detected by the driving state detector is a second state; a rotational speed limiter for executing rotational speed limiting control for limiting a driving power source rotational speed to a predetermined upper limit value or less when the first determiner determines that the driving state is the first state, during an operation of the driving power source; and a rotational speed limiting termination unit for terminating the rotational speed limiting control, when the second determiner determines that the driving state is the second state, during the operation of the driving power source. | 01-26-2012 |
20120022750 | Deceleration Control System in a Vehicle, Vehicle Including a Deceleration Control System, and Deceleration Control Method - A deceleration control system in a vehicle comprises; a deceleration start detector; a memory for storing a normal state rule and a deceleration state rule to control a driving power, and a controller for controlling the driving power; wherein in the deceleration state rule, the driving power is changed based on the detection by a driving state detector, and a driving power decided in accordance with the deceleration state rule is greater than a driving power decided in accordance with the normal state rule according to the same driving state: and wherein the controller switches the normal state rule to the deceleration state rule and controls the driving power in accordance with the deceleration state rule, based on the detection by the driving state detector, when the deceleration start detector detects that the deceleration has started. | 01-26-2012 |
20120022751 | Control System in a Vehicle - A control system in a vehicle in which at least one pair of driving power transmission members are engaged with each other with a slack on a driving power transmission path, comprises an input shaft rotational speed detector for detecting a rotational speed of an input shaft located upstream of engaged portions of the driving power transmission members in a direction in which the driving power is transmitted, a determiner for determining whether or not the driving power transmission members are in a non-contact state at the engaged portions for a period of time based on a change rate of the detected input shaft rotational speed, and a controller for controlling the vehicle to reduce a rotational speed difference between the input shaft and an output shaft located downstream of the engaged portions, when the determiner determines that the driving power transmission members are in the non-contact state. | 01-26-2012 |
20120022761 | Traction Control System in a Vehicle, Vehicle Including Traction Control System, and Traction Control Method - A traction control system in vehicle comprises a detector for detecting a monitored value which changes according to a degree of a drive wheel slip; a condition determiner for determining whether or not the monitored value meets a control start condition and whether or not the monitored value meets a control termination condition; and a controller for executing traction control to reduce a driving power of the drive wheel during a period of time from when the condition determiner determines that the monitored value meets the control start condition until the condition determiner determines that the monitored value meets the control termination condition; the condition determiner being configured to set at least the control start condition variably based on a slip determination factor which changes according to a vehicle state and such that the control start condition changes more greatly according to the vehicle state than the control termination condition. | 01-26-2012 |
20120303234 | BRAKE CONTROL SYSTEM IN VEHICLE - A brake control system in a vehicle which executes anti-lock brake control for controlling a braking force applied to a wheel to prevent the wheel from being locked during braking of the vehicle is provided. The brake control system includes an initiation determiner section for determining whether or not an initiation condition used to initiate the anti-lock brake control is met the initiation condition including a condition in which a decrease rate of a wheel speed which is a rotational speed of the wheel is not less than a predetermined threshold; and a brake control section for initiating control of the braking force applied to the wheel in the anti-lock brake control, if the initiation determiner section determines that the initiation condition is met. | 11-29-2012 |
20130024069 | DISCHARGE ABILITY ESTIMATING SYSTEM, CONTROL SYSTEM IN VEHICLE INCORPORATING DISCHARGE ABILITY ESTIMATING SYSTEM, AND DISCHARGE ABILITY ESTIMATING METHOD - There is provided a discharge ability estimating system for estimating a discharge ability of a battery for supplying electric power to an electric motor which rotates a crankshaft of an engine to start the engine, the system being configured to estimate the discharge ability of a battery based on an angular acceleration state of the crankshaft in a rotation starting period of the crankshaft. | 01-24-2013 |
20130030649 | SYSTEM AND METHOD FOR CONTROLLING STRADDLE-TYPE VEHICLE - A control system in a straddle-type vehicle is provided. The control system includes front and rear wheels, comprises a load distribution changing section which changes a ground load distribution between the front and rear wheels during driving of the vehicle; a slip suppressing condition determiner section which determines whether or not a suppressing condition used to suppress a slip of one of the front and rear wheels is met, during driving of the vehicle; and a load distribution control section which controls the load distribution changing section to make the ground load of the one of the front and rear wheels greater when the slip suppressing condition determiner section determines that the suppressing condition is met, than when the slip suppressing condition determiner section determines that the suppressing condition is not met. | 01-31-2013 |
20130076034 | LEISURE VEHICLE - The present invention is to provide a leisure vehicle in which a load applied to an engine is controlled and a driving property and an output are improved. The leisure vehicle has a generator | 03-28-2013 |
20130220721 | Saddle-Type Electric Vehicle - In a saddle-type electric vehicle like an electric two-wheeled vehicle, a shaft center of a motor shaft of a traveling motor in a power plant installed between a front wheel and a rear wheel is installed lower than a shaft center of a rearward output shaft, and the whole power plant is installed as low as possible in a state where a front part is at a lower position. Batteries are installed diagonally forward from above the power plant, a gravity center of the batteries and a gravity center of the power plant are arranged to correspond to a roll axis line having the front part which is high. Thus, while the height of the gravity centers approximate the roll axis line of the vehicle body, a composite gravity center of the both is properly set, and balance of handling and motion performance can be improved. | 08-29-2013 |
20130229072 | Cooling Structure for Cooling Electric Motor for Vehicle - In an electric motor for a vehicle ( | 09-05-2013 |
20130233633 | Electric Motorcycle - An electric motorcycle according to the present invention includes a body frame having a head pipe supporting a steering shaft and a frame portion extending substantially rearward from the head pipe, an electric motor generating traveling power to be transmitted to a driving wheel, and an electric motor case housing the electric motor, wherein the electric motor case forms a part of the frame portion. | 09-12-2013 |
20130233634 | Electric Motorcycle - An electric motorcycle according to the present invention includes an electric motor generating traveling power to be transmitted to a driving wheel, a battery supplying electric power to the electric motor, a battery case accommodating the battery, and a body frame having a head pipe supporting a steering shaft, and a frame portion extending substantially rearward from the head pipe. The battery case has a first connecting portion to be coupled to a first member forming the body frame, and a second connecting portion arranged away from the first connecting portion in the up and down direction or the forward and rearward direction and coupled to a second member forming the body frame, so as to form a part of the frame portion. | 09-12-2013 |
20130234505 | Power Device of Electric Vehicle - A power device of an electric vehicle according to the present invention includes an electricity storage device which stores electricity of direct current, an inverter device which generates alternating current from the direct current stored in the electricity storage device, multiple electric motors which receive supply of electricity of the alternating current generated by the inverter device and generate a traveling driving force, and a driving force transmission mechanism which transmits rotation of each output shaft portion of the multiple electric motors to a driving wheel. The driving force transmission mechanism is configured such that rotation of each output shaft portion is transmitted to the driving wheel with an equal speed change ratio, and the multiple electric motors are connected to a single inverter device, and configured to receive electricity supply of the alternating current generated by the single inverter device. | 09-12-2013 |
20130256049 | Saddle-Type Electric Vehicle - An electric two-wheeled vehicle includes a motor generating traveling power transmitted to a rear wheel, and a motor case accommodating the motor, wherein the motor case has a traveling wind inflow port allowing traveling wind to flow in the motor case, and a traveling wind outflow port allowing traveling wind flowing in the motor case to flow out, and a space surrounded by the motor case is communicated with a space where a coil of the motor is arranged. | 10-03-2013 |
20130264134 | Mounting Structure of Electricity Storage Device in Electric Vehicle - An installing structure of an electric storage device in an electric car which includes an electric motor for traveling and a plurality of the electric storage devices configured to store power supplied to the electric motor, wherein a traveling wind passage extending in forward and rearward direction, through which a traveling wind, generated with traveling of the electric car, passes, is formed in an electric storage device group including the plurality of the electric storage devices, and connection terminals of the electric storage devices and a power cable that connects the connection terminals to each other are disposed in a manner of facing the traveling wind passage. | 10-10-2013 |
20130270022 | Electric Motorcycle - An electric motorcycle of the present invention, which drives a drive wheel by driving power generated by an electric motor, comprises a charging port which is provided in a vehicle body and to which an outside charging connector connected to an outside electric power supply is removably attached; and a battery configured to be charged with electric power supplied from the outside electric power supply in a state in which the outside charging connector is connected to the charging port, and to discharge the electric power stored therein to supply the electric power to the electric motor; wherein the charging port is oriented in one direction in a vehicle width direction. | 10-17-2013 |
20130270023 | STRADDLE-TYPE ELECTRIC VEHICLE, AND MOUNTING STRUCTURE OF ELECTRIC POWER CONTROLLER IN ELECTRIC VEHICLE - A straddle-type electric vehicle (e.g., electric motorcycle | 10-17-2013 |
20130270024 | Saddle-Type Electric Vehicle - In a saddle-type electric vehicle (e.g., electric motorcycle) including a driving motor and an electric power control unit for controlling electric power supply to the motor, a substrate of a power module to which a semiconductor element such as an IGBT is mounted is accommodated into a case of an electric power control unit such that the substrate is positioned in close proximity to a wall portion of the case, and a cooling jacket is provided such that the coolant contacts the wall portion. A cooler may be mounted such that it closes an opening provided in the case. A desired cooling capability is attained while reducing a size of the cooler to a required size and an amount of the coolant to a required amount and suppressing a weight increase and a cost increase. | 10-17-2013 |
20130270025 | Electric Motorcycle - An electric motorcycle of the present invention comprises: a battery for storing electric power; an inverter for generating an AC current by the electric power supplied from the battery to the inverter; a motor for generating driving power by the AC current generated by the inverter and supplied to the motor; a wiring member for electrically connecting the inverter to the motor and flowing a current to drive the motor; a battery case for accommodating the battery; an inverter case for accommodating the inverter; and a motor unit case for accommodating the motor, wherein the wiring member is placed in a space defined by the battery case, the inverter case and the motor unit case. | 10-17-2013 |
20130270026 | Electric Motorcycle - An electric motorcycle is provided. The motorcycle includes: a charging connector to which is removably attached an outside charging connector connected to an outside electric power supply; a battery that charges with electric power supplied from the outside electric power supply when the outside charging connector is connected to the charging connector, and discharges the electric power to the motor; a rear frame connected to a front frame of a vehicle body; and a seat on which a driver or passenger is seated and a cowling for covering the vehicle body, the seat and cowling being mounted to the rear frame, wherein the seat or cowling is pivotally or removably attached to the rear frame, and the charging connector is placed in a space in the vicinity of the rear frame, the space being opened and closed by the seat or cowling. | 10-17-2013 |
20130270938 | Cooling Structure for Electric Vehicle - Provided is an electric motorcycle including a traveling motor, and a power supply circuit of an inverter and the like, in which a non-conducting cooling oil is supplied to be brought into direct contact with at least one of an electromagnetic coil of the traveling motor and a circuit board of the inverter. A radiator is disposed outside cases of a power plant and a power control controller so as to allow a traveling wind to pass by. Cooling oil is circulated between the radiator and a case of at least one of the power plant and power control controller. A cooling structure for an electric motor and the like that can obtain a higher cooling efficiency than a conventional art while having a simple structure which hardly causes increases in size, weight, cost, and the like can be provided. | 10-17-2013 |
20130270940 | Saddle-Type Vehicle - An electric two-wheeled vehicle includes a case, an electric component accommodated in the case and having an electric part producing heat during operation, and a traveling wind guide body for cooling the electric component by traveling wind, and the traveling wind guide body has a traveling wind inlet taking in traveling wind from front, a traveling wind path through which the traveling wind taken in by the traveling wind inlet flows, and a traveling wind outlet ejecting the traveling wind flowing through the traveling wind path toward a radiation fin of the case. | 10-17-2013 |
20130274983 | Acceleration Control System in Electric Vehicle - A control system includes an electric motor, an electric storage device, a throttle grip, a brake lever, a controller, and an acceleration/deceleration adjustment lever. The controller supplies electric power from the electric storage device to the electric motor in response to an acceleration command input by the throttle grip and causes the electric motor to drive the rear wheel. The controller adjusts the electric power generated by rotational power applied by the rear wheel in response to an acceleration/deceleration command from the acceleration/deceleration adjustment lever. The acceleration/deceleration adjustment lever is provided separately from throttle grip. | 10-17-2013 |
20130277133 | Saddle-Type Electric Vehicle - In a case where a motor shaft of a driving electric motor extends in a rightward and leftward direction, and one end portion in the rightward and leftward direction is coupled to a transmission, in a saddle-type electric vehicle such as an electric motorcycle, a transmission accommodating section of a motor unit case is fastened at right and left sides to a vehicle body frame, and a motor accommodating section is coupled to the transmission accommodating section at one end portion in the rightward and leftward direction. Thus, misalignment of bearings of the motor shaft due to deflection of the motor unit case can be suppressed while reducing a weight of the motor unit case. | 10-24-2013 |
20130282218 | Electric Vehicle - A control system includes an electric motor, an electric storage device, a throttle grip, a brake lever, a controller, and an acceleration/deceleration adjustment lever. The controller supplies electric power from the electric storage device to the electric motor in response to an acceleration command input by the throttle grip when the acceleration/deceleration adjustment lever is placed in a location closer to a driver than a cut-off position to cause the electric motor to activate the rear wheel, and cuts off electric power supplied to the electric motor irrespective of an operation of the throttle grip in a state in which the acceleration/deceleration adjustment lever has been operated and placed in the cut-off position. | 10-24-2013 |
20130282219 | Regeneration Control System in Electric Vehicle - A control system includes an electric motor, an electric storage device, an accelerator grip, a brake lever, a controller, and an adjustment lever. The controller supplies electric power from the electric storage device to the electric motor in response to an acceleration command input by the accelerator grip and causes the electric motor to drive the rear wheel. The controller adjusts the electric power generated by rotational power applied by the rear wheel in response to an acceleration/deceleration command from the adjustment lever. The acceleration/deceleration adjustment lever is provided separately from the brake lever and the accelerator grip. The brake lever is able to activate a brake mechanism for mechanically braking the rear wheel to decelerate a vehicle. | 10-24-2013 |
20130292198 | Electric Motorcycle - An electric motorcycle for driving a rear wheel by driving power generated by an electric motor, comprises a vehicle body frame; a swing arm which extends substantially in a forward and rearward direction, is coupled at a front end portion thereof to the vehicle body frame such that the swing arm is pivotable around the front end portion, and supports the rear wheel at a rear end portion thereof such that the rear wheel is rotatable; a rear suspension coupled to the swing arm and to the vehicle body frame such that the rear suspension is positioned between the swing arm and the vehicle body frame; wherein the rear suspension is placed below a pivot at the front end portion of the swing arm. | 11-07-2013 |
20130300236 | Starting Assist Method and Starting Assist System of Electric Vehicle - An electric motorcycle includes an electric driving unit including an electric motor and a power transmission mechanism, and is configured to halt supplying of electric power to the electric motor for at least a period in the stopped state. A starting assist method is executed in the electric motorcycle. The starting assist method comprises the steps of activating the electric motor and rotating a rotor by itself to store rotation energy in the rotor, keeping the rotation energy stored in the rotor in the step of storing the rotation energy, in a stopped state of the electric motorcycle, and transmitting the rotation energy of the rotor kept in the step of keeping the rotation energy to the rear wheel as starting assist power. | 11-14-2013 |
20130319782 | Saddle-Type Electric Vehicle - A saddle-type electric vehicle includes a body frame having a head pipe supporting a steering shaft and a main frame portion extending rearward from the head pipe, a battery case provided on the main frame portion behind the head pipe, a battery stored in the battery case and supplying electric power to an electric motor generating traveling power, and a traveling wind path including an inner space of the battery case, wherein a traveling wind inflow port allowing traveling wind to flow in the battery case from front is formed on an upper side of a front portion of the battery case, and a traveling wind outflow port allowing the traveling wind flowing in the battery case to flow out rearward is formed on an upper side of a rear portion of the battery case. | 12-05-2013 |
20140058609 | Electric Motorcycle, Vehicle Controller and Vehicle Control Method - An electric motorcycle includes a driving command detecting device, a state value detecting device, an electric motor driving a drive wheel, a control unit for executing a non-normal mode causing output of the electric motor in a non-normal mode to differ from the output of the electric motor in a normal mode, the control unit configured to shift the electric motorcycle from one of the normal or non-normal modes to the other normal or non-normal mode, when the state value satisfies a predetermined shift condition, in one of the normal and non-normal modes, and a cornering determiner unit for determining cornering status, wherein the control unit causes a change in the output of the electric motor to be less, when the electric motorcycle is cornering and the shift condition is satisfied than when the cornering determiner unit determines the electric motorcycle is not cornering and the shift condition is satisfied. | 02-27-2014 |
20140262568 | Straddle Electric Vehicle - A straddle electric vehicle comprises a battery case for storing a battery unit; an inverter for converting DC power stored in the battery unit into AC power; a plurality of electric components connected to the battery unit and the inverter; and an electric motor for generating driving power for rotating a drive wheel, by the AC power generated by conversion in the inverter; wherein the plurality of electric components are stored in the battery case such that the electric components are placed above the battery unit. | 09-18-2014 |
20140262569 | Straddle Electric Vehicle - A straddle electric vehicle comprises a seat on which a rider is seated in a straddle state; right and left foot steps on which the rider puts feet, an electric motor for generating driving power for moving the straddle electric vehicle; a battery unit which is an electric power supply for activating the electric motor; and a battery case for storing the battery unit. The battery case is placed between the steering shaft and the seat in a forward or rearward direction and includes a seat vicinity portion which faces the seat in the forward or rearward direction. The seat vicinity portion is smaller in dimension in a rightward or leftward direction than a portion of the battery case which is other than the seat vicinity portion. | 09-18-2014 |
20140292075 | Straddle Electric Vehicle - A straddle electric vehicle comprises an electric motor which is a driving power source for activating the vehicle; a high-voltage battery for storing electric power supplied to the electric motor; a low-voltage battery for storing the electric power supplied to an auxiliary machine mounted in the vehicle; a converter for converting a voltage of the electric power supplied from the high-voltage battery to the low-voltage battery into a voltage to be charged into the low-voltage battery; and a case having an insulativity, for storing the high-voltage battery; wherein the low-voltage battery is placed outside the case, and the converter is stored in the case. | 10-02-2014 |
20140297086 | Electric Vehicle - An electric vehicle comprises a motor controller for controlling an electric motor to execute a control routine to perform torque control when the driving power transmission path is detected to be in the driving power transmission state, and executes a control routine to perform rotational speed control, when the driving power transmission path is detected to be in the driving power cut-off state; wherein in the rotational speed control, an angular velocity of an upstream rotary member gets close to an angular velocity of a downstream rotary member; wherein when shifting from the driving power cut-off state to the driving power transmission state, the motor controller switches the rotational speed control to the torque control after performing predetermined transit control; and wherein a change rate of the torque output is made less in the transit control than in the torque control. | 10-02-2014 |
20140299393 | Straddle Electric Vehicle - A straddle electric vehicle which rotates a drive wheel by driving power generated in an electric motor, comprises a battery unit which is an electric power supply; and a battery case for storing the battery unit; wherein the battery case includes a pair of first case member and second case member which are joined together such that the first case member and the second case member are horizontally separable from each other, and a parting line of the first case member and the second case member extends above a bottom wall of the battery case; and wherein the first case member and the second case member include a first flange section and a second flange section, respectively, which define the parting line, and are separably joined to each other in a state in which the first flange section and the second flange section are engaged with each other. | 10-09-2014 |
20140336858 | Electric Vehicle - An electric vehicle comprises an electric motor; a manual transmission which selects one driving power transmission path and shifts a present driving power transmission path to the selected driving transmission path, in response to a rider changing a speed of the electric motor; a shifting state detecting device for detecting whether the manual transmission is in a driving power transmission state or in a driving power cut-off state; and a motor controller for executing a first control routine to control the electric motor; wherein in the first routine, torque control of the electric motor is performed when the manual transmission is detected to be in the driving power transmission state, and mitigation control of the electric motor is performed to mitigate an impact caused by shifting, when the manual transmission is detected to be in the driving power cut-off state, the mitigation control being different from the torque control. | 11-13-2014 |
20140339008 | Straddle Electric Vehicle - A straddle electric vehicle includes a battery unit which is an electric power supply for an electric motor; a vehicle body frame including a main frame unitarily joined to a head pipe; and a sub-frame extending rearward from an upper portion of the main frame. The main frame includes a down frame member extending downward from the head pipe and a lower frame member extending rearward from a lower end of the down frame member, and the sub-frame is detachably joined to the vehicle body frame. A bottom portion of the battery unit is supported on the lower frame member of the main frame, and a side portion of the battery unit is covered with the sub-frame. | 11-20-2014 |
20140345827 | Straddle Electric Vehicle - A straddle electric vehicle comprises a battery case accommodating a Battery which is an electric power supply for an electric motor; an inverter which converts DC power stored in the battery into AC power and supplies the AC power to the electric motor; an air passage through which ram air is guided to an interior of a battery case and discharges air from the battery case; and a radiator for cooling a coolant used to cool the inverter using water or oil, wherein the radiator is placed forward relative to an air inlet of the air passage or within the air passage. | 11-27-2014 |
20140367183 | Straddle Electric Vehicle - A straddle electric vehicle which rotates a drive wheel by driving power generated in an electric motor, comprises a battery unit which is an electric power supply for the electric motor; a vehicle body frame including a support frame for supporting the battery unit; and a battery case storing the battery unit; the battery case includes a support member which is placed below the battery unit and is vertically directly or indirectly in contact with the battery unit; and wherein the support frame supports the battery case and the battery unit in such a manner that the support frame is placed below the battery case to be vertically directly or indirectly in contact with the battery case. | 12-18-2014 |
20140367184 | Electric Motorcycle - An electric motorcycle comprises a motor case which is provided at a rear portion of a vehicle body frame; a swing arm which is pivotably coupled at its front end portion to the rear portion of the vehicle body frame; and a rear suspension coupled to the vehicle body frame and the swing arm. The lower end portion of the rear suspension is located below the swing arm, and the rear suspension extends vertically in a location close to a pivot around which the swing arm is pivotable. | 12-18-2014 |
20140368211 | Ground Leakage Detector, and Method of Detecting Ground Leakage in Electric Vehicle - A ground leakage detector for detecting a ground leakage in an electric vehicle including a battery, and a charging connector which is electrically connectable to a terminal member formed at one end of an outside electric wire through which electric power is supplied from outside to the battery, includes a connector connection section electrically connectable to the charging connector; a contactor configured to contact a vehicle body ground location in the electric vehicle; and a detecting circuit for detecting whether or not there is a ground leakage from the battery to the vehicle body ground location, based on a current flowing between the connector connection section and the contactor. | 12-18-2014 |
20140379209 | Method and System for Diagnosing Electric Vehicle - A method of diagnosing an electric vehicle incorporating an electric component, comprises detecting a physical load applied to a vehicle body, which is other than an electric characteristic of the electric component; and changing a diagnostic operation for the electric component based on the electric characteristic of the electric component such that the diagnostic operation is performed based on the detected physical load applied to the vehicle body. | 12-25-2014 |
20150008053 | Straddle Electric Vehicle - A straddle electric vehicle comprises a battery case accommodating a battery which is an electric power supply for an electric motor; and an air box attached to an upper portion of the battery case, and the air box includes a ram air inlet through which ram air flows into the air box, and a ram air supply port through which the air is supplied from inside the air box to the battery case. | 01-08-2015 |
20150008061 | Straddle Electric Vehicle - A straddle electric vehicle includes a battery case which accommodates a battery as an electric power supply for an electric motor, and is placed between a front wheel and a rear wheel; and a swing arm pivotably coupled at its front end portion to a vehicle body frame such that the swing arm supports the rear wheel by its rear end portion; wherein the electric motor is placed rearward relative to the battery case and forward relative to the rear wheel. | 01-08-2015 |
20150021985 | Electric Vehicle and Operation Method of Control Device in Electric Vehicle - An electric vehicle comprises an electric motor for generating driving power for moving a vehicle body of the electric vehicle; a battery unit for supplying electric power to the electric motor; a charging connector connected to an outside electric power supply for supplying the electric power to be charged; a main controller for controlling switching between a first connection state in which the battery unit is connected to the electric motor and a second connection state in which the battery unit is connected to the charging connector; and a relay for opening and closing a power supply path from the low-voltage battery to the main controller; wherein a relay opens the power supply path to cut off electric power supply to the main controller for a specified time, when the relay switches one of the first connection state and the second connection state to the other connection state. | 01-22-2015 |
20150042160 | Electric Vehicle and Operation Method of Control Device in Electric Vehicle - An electric vehicle comprises a cylinder lock including an operation key which is movable by a user's operation between a driving position and a charging position provided at a position different from the driving position and an output unit for outputting information indicative of a position of the operation key; and a main controller permits driving control and inhibits charging control when the operation key is moved to the driving position; and the main controller permits the charging control and inhibits the driving control when the operation key is moved to the charging position. | 02-12-2015 |