An installation apparatus for mounting a garnish on a vehicle can include a jig, a tool and a controller. The jig can be placed on a predetermined portion of the flange and in a predetermined orientation relative to the flange. The jig can orient the tool in a predetermined orientation relative to the garnish when the jig is placed on the vehicle and the garnish is positioned adjacent to the vehicle. The controller can be configured to indicate an install complete condition based on force data and tool proximity data, where the force data is indicative of a force applied by the tool onto the garnish while the tool installs the garnish onto the first portion, and the tool proximity data is indicative of a proximity of the tool relative to a portion of the vehicle after the tool mounts the garnish onto the vehicle.

Disclosed are a vehicle headliner assembly system and a vehicle headliner assembly method wherein position correction based on image capture and full process automation resolve nonuniformity of assembly quality which may occur if operators manually mount and assembly vehicle headliners individually with regard to various vehicle types, and manpower required for processes is reduced, thereby improving productivity.

The present disclosure relates to a system for assembling an inside mirror for a vehicle, the system including a plurality of robots each having at least one of a vision measurement unit, a fastening unit, and a gripper configured to grip an inside mirror for a vehicle, and a control unit configured to control the plurality of robots to measure a first mounting surface of a windshield glass and a second mounting surface of the inside mirror, move the inside mirror so that the first and second mounting surfaces are attached to each other while overlapping each other, and fasten the inside mirror and the windshield glass in a state in which the first and second mounting surfaces are attached to each other.

The present disclosure relates to a system for assembling an inside mirror for a vehicle, the system including a plurality of robots each having at least one of a vision measurement unit, a fastening unit, and a gripper configured to grip an inside mirror for a vehicle, and a control unit configured to control the plurality of robots to measure a first mounting surface of a windshield glass and a second mounting surface of the inside mirror, move the inside mirror so that the first and second mounting surfaces are attached to each other while overlapping each other, and fasten the inside mirror and the windshield glass in a state in which the first and second mounting surfaces are attached to each other.

A console assembly having a hood and a shroud. The hood has one or more base mounting points configured for installation to a vehicle body structure, and one or more accessory mounting points spaced from and rigidly connected to the one or more base mounting points. The shroud defines an enclosed volume, and is configured to install over the hood, with the one or more base mounting points contained within the enclosed volume, and the one or more accessory mounting points located outside the enclosed volume. When the hood is attached to the vehicle body structure and the shroud is installed over the hood, the hood is configured to convey respective loads applied to the one or more accessory mounting points to the one or more base mounting points independently of the shroud. A hood assembly and a method for installing a console assembly are also provided.

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.

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.

A headliner and pillar trim assembly of a vehicle comprises a headliner portion including the headliner cover layer and a headliner backing layer; and a plurality of pillar portions each including a pillar trim and a pillar cover layers. The headliner cover layer and a plurality of the pillar cover layers are formed as a one-piece cover layer, and the headliner backing layer and a plurality of the pillar trims are attached to the headliner cover layer and the plurality of pillar cover layers, respectively.

A headliner and pillar trim assembly of a vehicle comprises a headliner portion including the headliner cover layer and a headliner backing layer; and a plurality of pillar portions each including a pillar trim and a pillar cover layers. The headliner cover layer and a plurality of the pillar cover layers are formed as a one-piece cover layer, and the headliner backing layer and a plurality of the pillar trims are attached to the headliner cover layer and the plurality of pillar cover layers, respectively.

The present invention is directed to systems for providing a pathway for at least one electrical conductor to supply current from a vehicle or marine craft power source to a steering wheel comprising at least one working element for heating or controls. The present invention utilizes a clock spring assembly inside a channel created by a housing mount and a housing base and encased in a housing cover for infinite rotation of the steering wheel while still maintaining a path for current to travel through the clock spring to the wheel.