A rack guide for a rack and pinion steering device, a rack and pinion steering device, and a manufacturing method for a rack guide for a rack and pinion steering device have a simple configuration with a close contact property being kept between a rack guide and a rack guide base member to ensure quietness. A rack guide for a rack and pinion steering device includes: a casing; a pinion to be slidably supported by the casing; a rack bar having a rack tooth meshed with the pinion; a rack guide including an abutment portion to which the rack bar is to be slidably abutted and a recessed portion, which is continued to the abutment portion, to be spaced from the rack bar; a rack guide base member for receiving the rack guide; and an urging unit to urge the rack guide against the rack bar through the rack guide base member.

A frame device for a vehicle, including a subframe which can be attached to a structure of the vehicle and which has two side members spaced apart from one another in the transverse direction of the subframe and at least one cross member via which the side members are interconnected. The frame device also includes at least one support element, which is formed separately from the subframe and has at least one attachment element by which at least one component of the vehicle can be attached to the support element, and a steering gear which is formed separately from the subframe and separately from the support element for a steering system of the vehicle. Both the steering gear and the support element are attached to the subframe by one and the same fastening element.

A frame device for a vehicle, including a subframe which can be attached to a structure of the vehicle and which has two side members spaced apart from one another in the transverse direction of the subframe and at least one cross member via which the side members are interconnected. The frame device also includes at least one support element, which is formed separately from the subframe and has at least one attachment element by which at least one component of the vehicle can be attached to the support element, and a steering gear which is formed separately from the subframe and separately from the support element for a steering system of the vehicle. Both the steering gear and the support element are attached to the subframe by one and the same fastening element.

The present invention relates to all terrain vehicles having at least a pair of laterally spaced apart seating surfaces.

The present invention relates to all terrain vehicles having at least a pair of laterally spaced apart seating surfaces.

An apparatus and methods are provided for a modular front drivetrain comprising a single assembly that may be installed onto and removed from a vehicle. The modular front drivetrain comprises a modular chassis supporting a transaxle, a front differential, and a steering gear for operating front wheels of the vehicle. The transaxle, the front differential and drive axles convey torque from an engine onboard the vehicle to the front wheels. A spindle assembly is coupled with each front wheel of the vehicle and pivotally joined with the modular chassis by way of a front suspension system. Steering rods coupled with the spindle assemblies horizontally rotate the front wheels according to operation of a steering wheel onboard the vehicle. The modular front drivetrain advantageously facilitates replacing an entire drivetrain and suspension assembly quickly and easily in the event of a part failure during racing applications.

An apparatus and methods are provided for a modular front drivetrain comprising a single assembly that may be installed onto and removed from a vehicle. The modular front drivetrain comprises a modular chassis supporting a transaxle, a front differential, and a steering gear for operating front wheels of the vehicle. The transaxle, the front differential and drive axles convey torque from an engine onboard the vehicle to the front wheels. A spindle assembly is coupled with each front wheel of the vehicle and pivotally joined with the modular chassis by way of a front suspension system. Steering rods coupled with the spindle assemblies horizontally rotate the front wheels according to operation of a steering wheel onboard the vehicle. The modular front drivetrain advantageously facilitates replacing an entire drivetrain and suspension assembly quickly and easily in the event of a part failure during racing applications.

A subframe for a rear axle of a motor vehicle includes a transverse structure and a steering device for wheels of the motor vehicle which are fastened to the rear axle. In the installed state of the subframe in the motor vehicle, the transverse structure extends in the transverse direction of the motor vehicle. The transverse structure includes an upper transverse structure element and a lower transverse structure element. The steering device is arranged between the upper transverse structure element and the lower transverse structure element.

A friction assembly for mounted components includes a first component having a first interface surface. The friction assembly also includes a second component having a second interface surface, wherein the first interface surface and the second interface surface are in contact in an assembled condition. One of the first interface surface and the second interface surface are textured to form a friction surface.

A friction assembly for mounted components includes a first component having a first interface surface. The friction assembly also includes a second component having a second interface surface, wherein the first interface surface and the second interface surface are in contact in an assembled condition. One of the first interface surface and the second interface surface are textured to form a friction surface.