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.

A foldable pedal apparatus of an autonomous vehicle and a method for controlling an operation thereof, includes an accelerator pedal assembly generating an acceleration-related signal and a brake pedal assembly generating a brake-related signal during a driver's operation, in which in an autonomous driving mode, an accelerator pedal assembly and a brake pedal assembly move forward and are fixed to a position as they are combined with a front inclined surface of a footrest panel, and in a manual driving mode, they move and are fixed to a position where a driver can comfortably operate them, so that in case of switchover from the autonomous driving mode to the manual driving mode, the switchover to the manual driving mode becomes possible only in a state where all safety conditions for directivity of a driver's seat and positions of an accelerator pedal assembly and a brake pedal assembly are satisfied.

Embodiments herein are directed to an emulator assembly. The assembly includes a housing with a cavity, a pedal arm, an elongated member, a carrier, an end plate and a compressible member. The pedal arm is at least partially received in the cavity and has a pedal pad on one end. The elongated member extends and couples to the pedal arm on one end and couples to a carrier on an opposite other end. The end plate is spaced apart from the carrier. The compressible member is positioned in the space between the carrier and the end plate. When the pedal pad is depressed, the elongated member moves the carrier in a direction towards the end plate which drives the carrier into the compressible member such that the compressible material compresses to generate a force feedback onto a foot positioned on the pedal pad.

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 method of controlling a foldable pedal device includes an operation of the foldable pedal device, in which both a foldable accelerator pedal and a foldable brake pedal are hidden in an autonomous driving mode, both the foldable accelerator pedal and the foldable brake pedal basically pop up in a manual driving mode, and a one-pedal mode may be implemented such that only one of the foldable accelerator pedal and the foldable brake pedal pops up in the manual driving mode according to a driver's selection.

To provide a vehicle operating pedal apparatus with a compact space for mounting an angle sensor that detects the angle of rotation of an operating pedal. A vehicle operating pedal apparatus (10) includes: a left support member (20) and a right support member (22) that face each other; an operating pedal (12) that is provided at the upper end with a boss (18), and supported between the left support member (20) and the right support member (22) in such a manner as to be pivotable via a pivot bolt (26) and a collar (29) that are inserted into the boss (18); and an angle sensor (50) configured to detect the angle of rotation of the operating pedal (12). The angle sensor (50) includes: an IC (56) provided on an inner side between the left support member (20) and the right support member (22); and a magnet (58) provided at the upper end of the operating pedal (12), facing the IC (56), to be detected by the IC (56).

To provide a vehicle operating pedal apparatus with a compact space for mounting an angle sensor that detects the angle of rotation of an operating pedal. A vehicle operating pedal apparatus (10) includes: a left support member (20) and a right support member (22) that face each other; an operating pedal (12) that is provided at the upper end with a boss (18), and supported between the left support member (20) and the right support member (22) in such a manner as to be pivotable via a pivot bolt (26) and a collar (29) that are inserted into the boss (18); and an angle sensor (50) configured to detect the angle of rotation of the operating pedal (12). The angle sensor (50) includes: an IC (56) provided on an inner side between the left support member (20) and the right support member (22); and a magnet (58) provided at the upper end of the operating pedal (12), facing the IC (56), to be detected by the IC (56).

The present disclosure relates to a foldable pedal apparatus for a vehicle, and is configured so that in an autonomous traveling situation, an accelerator pedal apparatus and a brake pedal apparatus are slid and moved to the left and the right of a dash panel and hidden, respectively, and therefore, in hidden states of being inoperable by a driver, and in a manual driving mode, the accelerator pedal apparatus and the brake pedal apparatus are slid and moved to be gathered to the center of the dash panel and exposed, respectively, and therefore, in popped-up states of being operable by the driver.

Aspects hereof relate to a stand-on terrain working vehicle having a foot-operated parking brake system. The parking brake system includes a pedal assembly having a first pedal and a second pedal, an actuator coupled to the pedal assembly, a brake configured to be actuated between a set/engaged state and a released/disengaged state, and an over-center linkage. When the first pedal of the pedal assembly is depressed, the brake is actuated to the set/engaged state, and when the second pedal of the pedal assembly is depressed, the brake is actuated to the released/disengaged state. The over-center linkage is configured to bias the brake towards one of the set/engaged state and the released/disengaged state.

A motorcycle brake pedal lever includes a rod connected to a motorcycle and a base is connected to the rod. The base includes a bore. A pivotal member includes a first pivot and a second pivot extending toward different directions. The first pivot is pivotably connected to the bore of the base so that the pivotal member is pivotable about the first pivot. A peg includes a space formed therein, and the second pivot of the pivotal member is pivotably engaged with the space by a pin so that the peg is pivotable about pin and the second pivot. Multiple torsion springs are respectively mounted to the first and second. The torsion springs respectively contact the pivotal member, the base and the peg. The peg is returned relative to the pivotal member, and the pivotal member is returned relative to the base by the torsion springs.