A hinge assembly is designed to reduce the number of details in the hinge assembly and to simplify the construction of the hinge assembly. The hinge assembly includes an arm having a length with a pivot post on a first end of the arm and an arm lock on an opposite second end of the arm. An internally screw threaded hole extends through the arm block. The plate is attached to the second end of the arm. The plate has a plate surface configured for attachment to a ceiling panel and an opposite adjustment surface. A ridge extends across the adjustment surface and a slot extends through the ridge. The arm block is positioned adjacent the ridge with the internally screw threaded hole of the arm block aligned with the slot through the ridge. An externally screw threaded rod extends through the slot and is screw threaded into the internally screw threaded hole through the arm block. The externally screw threaded rod is turned in opposite directions to alternatively lock the arm to the plate, and release the arm from the plate for adjustable positioning of the plate relative to the arm.

Mounting strategies for locating and securing roof hinge covers to vehicle roofs. An exemplary roof hinge cover may be mounted relative to a roof component (e.g., roof panel, body side panel, bracket, etc.). A locator may be received through the roof hinge cover and into a locating hole of the roof component. One or more clips that are connected to the roof hinge cover may be received within locating openings of a bracket. The bracket supports at least a portion of the roof hinge cover.

A utility vehicle includes a vehicle body frame, a hinge base attached to the vehicle body frame, a door provided to be openable and closable in a vehicle width direction with respect to the vehicle body frame, a hinge bracket attached to the door, and an intermediate bracket that is pivotably attached to the hinge base and to which the hinge bracket is attached. The hinge bracket is configured so that a position thereof with respect to the intermediate bracket can be adjusted, and thereby the door is configured to be adjustable in a vertical position.

A hinge of a motor-vehicle mobile part includes a first and a second hinge element mounted articulated with respect to each other about a hinge axis. The second hinge element is articulated to the first hinge element by an articulation portion having two pins defining the hinge axis, and projecting in opposite directions from two sides of the second hinge element. The first hinge element and the second hinge element are obtained by an additive manufacturing technique in an already reciprocally articulated condition, with the pins mounted with clearance within respective articulation seats formed on two flanges of the first hinge element adjacent to the sides of the second hinge element. The hinge also includes two bushing-shaped members, each interposed between one of said two pins and the respective articulation seat.

This disclosure details mounting strategies for locating and securing roof hinge covers to vehicle roofs. An exemplary roof hinge cover may be mounted relative to a roof component (e.g., roof panel, body side panel, bracket, etc.). A locator may be received through the roof hinge cover and into a locating hole of the roof component. One or more clips that are connected to the roof hinge cover may be received within locating openings of a bracket. The bracket supports at least a portion of the roof hinge cover.

This disclosure is directed to hinge assemblies for securing closure members to a vehicle body. Exemplary hinge assemblies may include icebreaker features for breaking through ice formations that can form on the closure members. The icebreaker features are configured to break through the ice formations as the closure members are moved.

A vehicle door hinge that has a desorption function while enabling weight reduction and increasing production efficiency. The vehicle door hinge comprises a base member (2U) fixed to the door-side of the vehicle, a base member (3U) fixed to the vehicle body side; a hinge shaft (4U) rotatably connects the base members (2U, 3U) to each other; a screwed body (5U) that is detachably screwed in the axial direction to the hinge shaft (4U) so that the base member (3U) and the hinge shaft (4U) rotate integrally; bushes (6U, 7U) fitted into a shaft holes (22U) of the base member (2U) so that the base member (2U) and the hinge shaft can rotate relative to each other; and a retaining portion (8U) for preventing the hinge shaft (4U) from coming off from the shaft hole (22U) of the base member. The base members (2U, 3U) are cast from aluminum alloy.

A motor-integrated power trunk opening system applied to a vehicle may include a hinge arm which is divided into a power side portion and an interlocking side portion to support left and right end portions of a trunk lid covering a trunk compartment, and an actuator which is mounted to the power side hinge arm and moves the hinge arm upwards using generated power so that the trunk lid opens

An automotive hinge assembly adapted to facilitate motion of a closure panel relative to a fixed body structure comprises a door component constructed from two press formed angle brackets structurally connected via a pivot pin and adapted to be mounted to a vehicle closure panel, a body component constructed from two press formed angle brackets structurally connected via a simple formed feature and the pivot pin and adapted to be mounted to a vehicle body structure, such that the pivot pin structurally assembles the two hinge components, facilitates relative rotary motion between them and structurally connects the multiple press formed angle brackets so that the resulting assembly achieves a much higher material efficiency than the prior art with an associated significant cost reduction.

A flapper door assembly for a vehicle is provided. The assembly includes a base comprising attachment features and a flapper door connected to the base via the attachment features and a first pivot axis to allow the door to rotate between open and closed positions, wherein the flapper door further comprises at least one cantilever spring integrally formed with the flapper door, wherein the cantilever spring comprises a beam and a second pivot axis offset from the first rod to bias the flapper door to the closed position.