A deceleration mechanism for a door system. In particular, a door system that is adapted to control an opening of a door module that separates compartments of an aircraft, the door module comprising a door panel that performs a rotational movement above a floor structure of the aircraft during an opening of the door module, comprises a deceleration mechanism that comprises a bolt, a bolt moving mechanism that is attached to the bolt, a latch mechanism that is removably connected to the bolt moving mechanism an activation mechanism that is attached to the latch mechanism, and a brake element that is rigidly attached to the bolt.

A dual platform bumper system for a vehicle includes a bumper configured to couple to one of the door or another vehicle component, the bumper having first and second points of contact, and a platform configured to couple to the other of the door and the other vehicle component. The platform includes an upper contact platform and a lower contact platform. The upper contact platform is configured to contact the first point of contact when the door is moved to a closed position, and the lower contact platform is configured to contact the second point of contact when the door is moved to the closed position to facilitate preventing over-travel relative movement of the at least one door.

A method of installing a vehicle component to a vehicle panel is provided. The method includes aligning a rib receiving channel of the vehicle component with an alignment rib that is formed integrally with the vehicle panel while also aligning a fastening opening of the vehicle component with a fastening opening through the vehicle panel. The alignment rib is inserted into the rib receiving channel. A fastener is inserted through the fastening openings of the vehicle component and the vehicle panel. The fastener is tightened while the alignment rib and rib receiving channel inhibit rotation of the vehicle component.

A method of installing a vehicle component to a vehicle panel is provided. The method includes aligning a fastening opening of the vehicle component with a fastening opening through the vehicle panel. The vehicle component abuts against an alignment rib that is formed integrally with the vehicle panel. A fastener is inserted through the fastening openings of the vehicle component and the vehicle panel. The fastener is tightened while the alignment rib inhibits rotation of the vehicle component.

A motor vehicle lock for a movable vehicle part, in particular for a door, flap, tailgate, or bonnet, said lock having a lock housing and a rotary latch that is movably provided on the lock housing, and the rotary latch being movable into an open position and at least one engaged position. In addition, at least on buffer unit is provided on the lock housing and at least on braking element is located on the buffer unit, such that at least some portions of the braking element can be brought into contact with the rotary latch, at least while the rotary latch is moving into the open position.

An adjustable stopper device (1) for a vehicle door or hood, includes a base part (100), and adjustment part (200), a stopper part (300) and a fastening structure (400). The adjustment part is connected to the base part via threads (120, 220) and thereby rotatable around a device axis (210) with respect to the base part (100). The stopper part is configured to contact the vehicle door and to provide an abutment surface (310) for the vehicle door when the vehicle door is closed, wherein the stopper part is connected to the adjustment part and wherein the axial position of the abutment surface is adjustable by turning the adjustment part with respect to the base part around the device axis. The fastening structure fastens the base part to the car body (2). A vehicle with, use of and method for manufacturing such a device are also described.

A motor-less counterbalance strut for selectively braking pivotal movement of a closure member includes a housing connected to one of closure member and a motor vehicle body and an extensible member slideably moveable relative to housing connected to the other of closure member and motor vehicle body. The extensible member has a rotary drive member configured to drive a driven member and cause movement of extensible member between retracted and extended positions. A gearbox unit has an input operably driven by a rotary output of the rotary drive member and an output operably driven in response to the movement of the input. The output is fixed to a friction plate configured for operable communication with a brake rotor. An electro-mechanical actuator is operable to move brake rotor into and out of braking engagement with friction plate to establish a braking and non-braking condition of extensible member.

A spacer assembly includes a housing that is configured to couple to a component. The housing includes a central bore. A bumper is coupled to the housing. The bumper includes a bumper support including a shaft that extends within the central bore, and a bumper head coupled to the bumper support.

Disclosed is an arresting system for arresting a swivel motion between two swivel-mounted elements, including a brake rod connected to the first element, an arresting device on the second element with a housing, through which the brake rod extends, in which case the arresting device has a drive and at least one brake-shoe element that can be moved via the drive relative to the brake rod. The brake-shoe element is inside the housing and engageable with the brake rod upon exertion of a braking force. Included are a sensor, and an electronic device controlling braking force exerted by the brake-shoe element on the brake rod depending on the signals from the sensor. The drive is an electric motor driving in rotation an actuation element that, to produce the relative motion between the brake-shoe element and the brake rod, has an actuation cam acting on the brake-shoe element.

A car door opening mechanism includes a connection structure that is selectively mounted to a car-door opening/closing side, a car-door bottom side, a car-body opening/closing side, or a car-body bottom side and a first coupling member correspondingly mounted to a car-body opening/closing side, a car-body bottom side, a car-door opening/closing side, or a car-door bottom side. When a car door is at a closed position relative to a car body, the first coupling member and the connection structure are coupled to each other and in opening the car door, the car door is constrained at a non-fully opened position due to the connection structure and the first coupling member being coupled to each other. When the first coupling member and the connection structure are detached from each other, the car door is allowed to open from the non-fully opened position to a fully opened position.