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.

The invention relates to a foot pedal control unit for an ophthalmic surgery system. The unit has a base and a treadle that is configured for pivotal pitch movement and for pivotal yaw movement relative to the base for generating control signals to an ophthalmic surgery system. The unit further comprises an inlay cover that is removably placed on the treadle. Optionally, the unit comprises a locking element that is movable between a lock position wherein the treadle is locked against pivotal yaw movement and a release position wherein the treadle is enabled to perform pivotal yaw movement.

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 apparatus for providing control signals to a remotely piloted unmanned aerial vehicle (UAV) which includes a pedal input mechanically connected to a base enclosure using a linkage system which allows for the angular movement of the pedal input. The apparatus further includes a potentiometer which provides a first control signal to a central controller indicating a detected angular position of the pedal. The central controller includes circuitry to translate the received first signal into a control signal which the central controller may transmit to one or more UAVs via a transceiver and antenna.

An apparatus for providing control signals to a remotely piloted unmanned aerial vehicle (UAV) which includes a pedal input mechanically connected to a base enclosure using a linkage system which allows for the angular movement of the pedal input. The apparatus further includes a potentiometer which provides a first control signal to a central controller indicating a detected angular position of the pedal. The central controller includes circuitry to translate the received first signal into a control signal which the central controller may transmit to one or more UAVs via a transceiver and antenna.

An accelerator device having an organ structure includes a pad, a case, an inside movable mechanism, an arm, and a cover. The pad is pressed by a driver. The case is attachable to a vehicle body and includes a front wall, a rear wall, and an opened side. The inside movable mechanism is housed in the case and includes a shaft, a pedal, and a bias member. The arm penetrates an opening of the case so as to connect the pad to the pedal. The cover covers the opened side. The case on the vehicle body includes a drain passage positioned below a lowest position of a root of the pedal in a movement track while the pedal is moved from an accelerator idle state to an accelerator full-throttle state.

An accelerator device having an organ structure includes a pad, a case, an inside movable mechanism, an arm, and a cover. The pad is pressed by a driver. The case is attachable to a vehicle body and includes a front wall, a rear wall, and an opened side. The inside movable mechanism is housed in the case and includes a shaft, a pedal, and a bias member. The arm penetrates an opening of the case so as to connect the pad to the pedal. The cover covers the opened side. The case on the vehicle body includes a drain passage positioned below a lowest position of a root of the pedal in a movement track while the pedal is moved from an accelerator idle state to an accelerator full-throttle state.

A pedal apparatus for a vehicle is provided. The pedal apparatus includes a pedal arm coupled to a pedal housing such that the pedal arm is rotated with respect to a first axis by an actuating force applied to a pedal pad disposed on a distal end of the pedal arm, a pressing member for applying a force to a proximal end of the pedal arm in response to the pedal arm being rotated, a pedal reaction force generating unit disposed between the pedal arm and the pressing member to generate a pedal reaction force corresponding to the actuating force, a first friction member disposed at the pressing member to contact the proximal end of the pedal arm, and a second friction member disposed at the proximal end of the pedal arm to contact an inner surface of the pedal housing.