An accelerator pedal device for use in a vehicle has: a housing fixed to a vehicle body; an accelerator arm that has a drum at one end and a pedal at the other end; a friction pad that has a pad shaft; and a spring that is interposed between the accelerator arm and the friction pad. The drum has an arm pivoting shaft that pivotally supports the accelerator arm and a recess that is recessed from a periphery of the drum toward the arm pivoting shaft, the friction pad has a friction part that is pressed against the recess by a spring force of the spring, the friction part has a side surface member having a side surface in an arched cross section to face the recess, and the side surface member has a contact part that is brought into point-contact with the recess of the drum.

An electronic throttle control pedal assembly includes a housing having a friction generating surface, a pedal arm, a spring carrier, and at least one spring. The pedal arm includes a hub portion and a friction generating member. The friction generating member has a lobe connected to a cross member and is positioned on a side surface of the hub portion. The cross member extends within the hub portion. The spring carrier has a friction generating portion. As the pedal arm is depressed, a portion of the spring carrier engages the friction generating portion against the cross member positioned within the hub aperture and pivotally engages a portion of the lobe of the friction generating member against the friction generating surface of the housing thereby creating at least two independent friction generating surfaces to create a hysteresis proportional to the depression of the pedal arm.

A pedal system for a vehicle, where the vehicle is configured for operating in a first vehicle mode for flight operational use and a second vehicle mode for road operational use. The pedal system includes a first pedal arrangement having a first lower pedal part and a first upper pedal part arranged in connection to each other. In the first vehicle mode the first lower pedal part is configured for activating a rudder function of the vehicle, and in the first vehicle mode the first upper pedal part is configured for activating a braking function of the vehicle. In the second vehicle mode the first lower pedal part and the first upper pedal part are configured for cooperating with each other to activate a throttle function of the vehicle.

A pedal system for a vehicle, where the vehicle is configured for operating in a first vehicle mode for flight operational use and a second vehicle mode for road operational use. The pedal system includes a first pedal arrangement having a first lower pedal part and a first upper pedal part arranged in connection to each other. In the first vehicle mode the first lower pedal part is configured for activating a rudder function of the vehicle, and in the first vehicle mode the first upper pedal part is configured for activating a braking function of the vehicle. In the second vehicle mode the first lower pedal part and the first upper pedal part are configured for cooperating with each other to activate a throttle function of the vehicle.

A one-pedal control method and system for an autonomous vehicle, are capable of accelerating or decelerating a vehicle by use of a foldable brake pedal system when a foldable accelerator pedal system is broken down when a driver manually drives the vehicle or the mode is switched from an autonomous driving mode to a manual driving mode, and capable of implementing a fail-safe function by use of an integrated safety function of software.

A one-pedal control method and system for an autonomous vehicle, are capable of accelerating or decelerating a vehicle by use of a foldable brake pedal system when a foldable accelerator pedal system is broken down when a driver manually drives the vehicle or the mode is switched from an autonomous driving mode to a manual driving mode, and capable of implementing a fail-safe function by use of an integrated safety function of software.

To provide a vehicle operating pedal apparatus configured in such a manner that a magnet mounted on an operating pedal to detect the angle of rotation of the operating pedal resists being detached from the operating pedal. A vehicle operating pedal apparatus 10A includes: an operating pedal 12A pivotably supported by a support member; a magnet 58A used to detect the angle of rotation of the operating pedal 12A; a magnet holder 54A housing the magnet 58A in an engaged state; a first snap-fit portion 74A and a first mounting hole 78A configured to fix the magnet holder 54A to the operating pedal 12A with a pressing force in a Y direction; and a second snap-fit portion 76A and a second mounting hole 80A configured to fix the magnet holder 54A to the operating pedal 12A with a pressing force in a Z direction different from the Y direction.

To provide a vehicle operating pedal apparatus configured in such a manner that a magnet mounted on an operating pedal to detect the angle of rotation of the operating pedal resists being detached from the operating pedal. A vehicle operating pedal apparatus 10A includes: an operating pedal 12A pivotably supported by a support member; a magnet 58A used to detect the angle of rotation of the operating pedal 12A; a magnet holder 54A housing the magnet 58A in an engaged state; a first snap-fit portion 74A and a first mounting hole 78A configured to fix the magnet holder 54A to the operating pedal 12A with a pressing force in a Y direction; and a second snap-fit portion 76A and a second mounting hole 80A configured to fix the magnet holder 54A to the operating pedal 12A with a pressing force in a Z direction different from the Y direction.

An accelerator device includes a pedal lever, a reaction force adjuster and a controller. The pedal lever operates according to a stepping operation. The reaction force adjuster is driven by an actuator, and is capable of adjusting a reaction force that is a force in a direction of pushing back the pedal lever. The controller includes a target operation amount setting unit and a drive control unit. The target operation amount setting unit sets a target operation amount, which is an operation amount of the pedal lever according to a vehicle speed. The drive control unit controls a drive of the actuator. The controller controls the reaction force according to the target operation amount so that the operation amount of the pedal lever is within a target range when switching from an automatic drive to a manual drive.

An accelerator device includes a pedal lever, a reaction force adjuster and a controller. The pedal lever operates according to a stepping operation. The reaction force adjuster is driven by an actuator, and is capable of adjusting a reaction force that is a force in a direction of pushing back the pedal lever. The controller includes a target operation amount setting unit and a drive control unit. The target operation amount setting unit sets a target operation amount, which is an operation amount of the pedal lever according to a vehicle speed. The drive control unit controls a drive of the actuator. The controller controls the reaction force according to the target operation amount so that the operation amount of the pedal lever is within a target range when switching from an automatic drive to a manual drive.