The reaction force output device includes a drive source configured to output power to an operation portion in a direction opposite to an operating direction thereof; and a clutch mechanism interposed between the operation portion and the drive source and configured to connect and disconnect transmission of the power to the operation portion, wherein the clutch mechanism includes a first rotating body connected to the drive source side and to which the power of the drive source is transmitted, a second rotating body connected to the operation portion side, disposed coaxially with the first rotating body and configured to be relatively rotatable with respect to the first rotating body, a clutch lever rotatably supported by the first rotating body, and a plurality of engagement portions disposed at the second rotating body in a circumferential direction thereof and engaged with the clutch lever.

Provided is a resin pedal arm of which strength is further improved. A resin pedal arm 10 includes a hollow arm body 20. The arm body 20 includes a front wall portion 30, a rear wall portion 32 facing the front wall portion 30, a left wall portion 34 formed between left edges 30A, 32A of the front wall portion 30 and the rear wall portion 32 and having multiple first flat plate portions 38 arranged to bridge between the left edges 30A, 32A, and a right wall portion 36 formed between right edges 30B, 32B of the front wall portion 30 and the rear wall portion 32, having multiple second flat plate portions 40 arranged to bridge between the right edges 30B, 32B, and facing the left wall portion 34. The multiple second flat plate portions 40 are each present in multiple left opening areas S1 each provided between adjacent ones of the multiple first flat plate portions 38, as viewed in a direction in which the left wall portion 34 and the right wall portion 36 face each other.

A vehicle component (1, 17, 31, 46, 55, 62) for a motor vehicle, with a structural component (7, 16, 30) and with a casing (2, 18, 32, 38, 56, 57, 79). The structural component (7, 16, 30) is at least partially or completely overmolded and/or embedded by casting in order to form the casing (2, 18, 32, 38, 56, 57, 79). To avoid any interruption of the casing (2, 18, 32, 38, 56, 57, 79) and/or interruption of corrosion protection in the area of the holding point (8), a holding point covering (12, 15, 39, 36, 45, 54, 61) is arranged at a holding point (8) for holding the structural component (7, 16, 30) in an injection-molding die and/or a casting mold.

A pedal assembly comprises a pedal arm; a pedal plate; a vehicle mounting bracket; a pivot pin receiving member; and a pivot pin. A first end of the pedal arm is operatively connected to the pivot pin receiving member to provide pivotal movement to the pivot pin receiving member during movement of the pedal arm between first and second arm positions. The pivot pin is at least partially and axially received by the pivot pin receiving member. The pivot pin receiving member and the pivot pin are mechanically coupled to one another via an interlock connection therebetween to simultaneously pivot together about the pivot axis as a unit during movement of the pedal arm between the first and second arm positions. At least a portion of the pivot pin receiving member or the pivot pin is deformed to form the interlock connection therebetween.

Provided is a resin pedal arm of which strength is further improved. A resin pedal arm 10 includes a hollow arm body 20. The arm body 20 includes a front wall portion 30, a rear wall portion 32 facing the front wall portion 30, a left wall portion 34 formed between left edges 30A, 32A of the front wall portion 30 and the rear wall portion 32 and having multiple first flat plate portions 38 arranged to bridge between the left edges 30A, 32A, and a right wall portion 36 formed between right edges 30B, 32B of the front wall portion 30 and the rear wall portion 32, having multiple second flat plate portions 40 arranged to bridge between the right edges 30B, 32B, and facing the left wall portion 34. The multiple second flat plate portions 40 are each present in multiple left opening areas S1 each provided between adjacent ones of the multiple first flat plate portions 38, as viewed in a direction in which the left wall portion 34 and the right wall portion 36 face each other.

A vehicle pedal apparatus includes a pedal member installed to be fixed to a dashboard; and a pedal arm rotatably connected to pedal member, elongated in a vertical direction, and including a lower portion that is bent sideways with respect to a front-and-rear direction of a vehicle body, to extend in a first lateral direction and an upper portion that has a first side indented in a second lateral direction opposite to the first lateral direction.

A pedal assembly comprises a pedal arm; a pedal plate; a vehicle mounting bracket; a pivot pin receiving member; and a pivot pin. A first end of the pedal arm is operatively connected to the pivot pin receiving member to provide pivotal movement to the pivot pin receiving member during movement of the pedal arm between first and second arm positions. The pivot pin is at least partially and axially received by the pivot pin receiving member. The pivot pin receiving member and the pivot pin are mechanically coupled to one another via an interlock connection therebetween to simultaneously pivot together about the pivot axis as a unit during movement of the pedal arm between the first and second arm positions. At least a portion of the pivot pin receiving member or the pivot pin is deformed to form the interlock connection therebetween.

A vehicle pedal assembly comprising a pedal housing. A rotatable pedal includes a drum extending into the pedal housing. The drum includes a friction contact surface. A pedal friction pad extends in the pedal housing and includes a pedal friction surface in contact with the friction contact surface on the drum. The pedal friction surface is shaped and positioned to provide for a line frictional contact between the pedal friction surface and the drum. In one embodiment, the pedal friction surface in contact with the drum is arc-shaped. In one embodiment, the pedal friction surface includes a first curved converging segment, the arc-shaped surface segment defines the second surface segment and extends between the first and a third straight converging segment.

A pedal assembly comprises a pedal arm; a pedal plate; a vehicle mounting bracket; a pivot pin receiving member; and a pivot pin. A first end of the pedal arm is operatively connected to the pivot pin receiving member to provide pivotal movement to the pivot pin receiving member during movement of the pedal arm between first and second arm positions. The pivot pin is at least partially and axially received by the pivot pin receiving member. The pivot pin receiving member and the pivot pin are mechanically coupled to one another via an interlock connection therebetween to simultaneously pivot together about the pivot axis as a unit during movement of the pedal arm between the first and second arm positions. At least a portion of the pivot pin receiving member or the pivot pin is deformed to form the interlock connection therebetween.

A method and a system for verifying installation of a pedal assembly in a vehicle is provided. The method includes coupling a testing device against the pedal assembly being tested, verifying a position of the testing device relative to the pedal assembly; and positioning a first portion of the testing device against a first side of a pin installed in the pedal assembly. The method also includes verifying the installation of the pin, positioning a second portion of the testing device against a second side of the pin, and verifying the proper installation of the pin.