A vehicle auxiliary control apparatus includes: an auxiliary steering assembly, including: a frame; an auxiliary steering shaft mounted for rotation in the frame; an auxiliary steering wheel mounted to the auxiliary steering shaft; first and second cable spool assemblies mounted to the auxiliary steering shaft; and first and second cable assemblies coupled to the first and second cable spool assemblies, respectively; and coupling means for coupling the first and second cable assemblies to a stock steering shaft of a motor vehicle, such that rotation of the auxiliary steering shaft causes rotation of the motor vehicle steering shaft.

A vehicle auxiliary control apparatus includes: an auxiliary steering assembly, including: a frame; an auxiliary steering shaft mounted for rotation in the frame; an auxiliary steering wheel mounted to the auxiliary steering shaft; first and second cable spool assemblies mounted to the auxiliary steering shaft; and first and second cable assemblies coupled to the first and second cable spool assemblies, respectively; and coupling means for coupling the first and second cable assemblies to a stock steering shaft of a motor vehicle, such that rotation of the auxiliary steering shaft causes rotation of the motor vehicle steering shaft.

A method for production of an interior unit for a motor vehicle includes production of a support by injection molding, featuring an enclosed front side, wherein at a backside of the support a screw boss is formed whose drill hole is sealed by a support section in the direction of the front side of the support, which support section features a reduced wall thickness in comparison to the remainder of the support, and production of a foam layer on the enclosed front side of the support. Furthermore, the present disclosure relates to an interior unit for a motor vehicle.

A vehicle assembly method includes assembling a chassis platform, mounting a floor pan to the platform, mounting a modular interior to the floor pan, assembling a body top-hat separate from the platform and the floor pan, and mounting the body top-hat to the platform and the floor pan after mounting the modular interior to the floor pan.

A vehicle assembly method includes assembling a chassis platform, mounting a floor pan to the platform, mounting a modular interior to the floor pan, assembling a body top-hat separate from the platform and the floor pan, and mounting the body top-hat to the platform and the floor pan after mounting the modular interior to the floor pan.

A vehicular camera system includes an attaching structure configured to attach at an in-cabin side of a vehicle windshield. A camera module accommodates a circuit board and an imager and the camera module includes a lens aligned with the imager. The attaching structure includes a camera module receiving portion having an opening at a lower portion of the camera module receiving portion. With the attaching structure attached at the in-cabin side of the vehicle windshield, the camera module is inserted upward through the opening and is at least partially received in the camera module receiving portion to attach the camera module at the camera module receiving portion. With the attaching structure attached at the in-cabin side of the vehicle windshield and with the camera module at least partially received in the camera module receiving portion, the imager views through the vehicle windshield and forward of the vehicle.

A vehicular camera system includes an attaching structure configured to attach at an in-cabin side of a vehicle windshield. A camera module accommodates a circuit board and an imager and the camera module includes a lens aligned with the imager. The attaching structure includes a camera module receiving portion having an opening at a lower portion of the camera module receiving portion. With the attaching structure attached at the in-cabin side of the vehicle windshield, the camera module is inserted upward through the opening and is at least partially received in the camera module receiving portion to attach the camera module at the camera module receiving portion. With the attaching structure attached at the in-cabin side of the vehicle windshield and with the camera module at least partially received in the camera module receiving portion, the imager views through the vehicle windshield and forward of the vehicle.

A protective shield assembly for use on a bus is disclosed. The assembly includes a first fastener affixed to the luggage rack of the bus, a second fastener affixed to a rear surface of the backrest of the seats of a row of the bus, and a body extending between the luggage rack and the seats to form a barrier between adjacent rows. The body includes an upper end having a third fastener and a lower end having a lower edge, a cut-out, a fourth fastener, and a furled portion. The third fastener is attached to the first fastener and the fourth fastener is attached to the second fastener fixing the body in position. The cut-out divides the furled portion into a left portion and a right portion that selectively and independently uncurl as the body is pulled toward a planar configuration when one of the seats is reclined.

A protective shield assembly for use on a bus is disclosed. The assembly includes a first fastener affixed to the luggage rack of the bus, a second fastener affixed to a rear surface of the backrest of the seats of a row of the bus, and a body extending between the luggage rack and the seats to form a barrier between adjacent rows. The body includes an upper end having a third fastener and a lower end having a lower edge, a cut-out, a fourth fastener, and a furled portion. The third fastener is attached to the first fastener and the fourth fastener is attached to the second fastener fixing the body in position. The cut-out divides the furled portion into a left portion and a right portion that selectively and independently uncurl as the body is pulled toward a planar configuration when one of the seats is reclined.

Processes for producing an electric vehicle include manufacture of a lower body skateboard platform including at least energy storage/conversion (batteries within a ladder frame), propulsion, suspension and wheels, steering, crash protection, and braking, and manufacture of a top hat upper portion including at least the vehicle cabin housing various interior components such as passenger seats, frame covers, and a roof headliner, together with steering and acceleration controls. The upper body portion and the lower body platform are manufactured separately in parallel and then merged, which allows for ease of manufacture and a more compact design.