An actuator for opening and closing a decklid or other closure on a motor vehicle is described and shown. The actuator can include a motor, a rod coupled to and driven by the motor, a first sleeve coupled to and driven by the rod, and a second sleeve coupled to and driven by the first sleeve. The first and second sleeves can be slidably coupled to one another, and/or can be rotatably locked relative to one another.

Disclosed is a hinge assembly for rotatably mounting a trunk lid to a vehicle body. The hinge assembly for a trunk lid of a vehicle, includes a hinge arm configured to be coupled to the trunk lid, a hinge bracket configured to be coupled to a vehicle body and having a hinge shaft, the hinge arm being rotatably coupled to the hinge bracket, a torsion bar configured to be coupled to the hinge arm and to provide an elastic force to the hinge arm in an opening direction, and a cushion assembly provided at one end of the hinge arm adjacent to the hinge shaft and configured to adjust a rotation speed of the hinge arm in response to the elastic force of the torsion bar.

The invention relates to a door assistance system (1) for a vehicle (F) for preventing damage to vehicle doors (T1-T4) and/or vehicle opening panels (T5) caused by external objects when vehicle doors (T1-T4) and/or vehicle opening panels (T5) are opened. Said system comprises: a calculation unit (7), which evaluates an environmental data model, detected by sensors, of the surroundings of the vehicle (F), in order to determine a space around the vehicle (F) that is free of external objects (H1, H2, O), and which calculates maximum possible open positions of the various vehicle doors (T1-T4) and/or vehicle opening panels (T5) of the vehicle (F) within the free space that has been determined; and a locking unit (8), which locks a vehicle door (T1-T4) and/or vehicle opening panel (T5) of the vehicle (F) when same is opened to the correspondingly calculated maximum permissible open position of the respective vehicle door (T1-T4) and/or vehicle opening panel (T5) in order to prevent contact with an external object and/or to provide entry or exit assistance.

An integrally formed cover part for a vehicle comprises a basic component and a soft component. The basic component is at least sectionally flat and made of a thermoplastic material. The soft component is firmly connected to the basic component and made of a thermoplastic elastomer. The basic component comprises a front side and a back side. The soft component forms at least one buffer that is an impact buffer, which is configured as a double buffer including a front buffer arranged on the front side and a rear buffer arranged on the back side. The basic component has an elevated support profile extending on the back side. The soft component forms a support surface on the front side, which is part of the front buffer. The soft component extends along the support profile towards the back side. The soft component forms a contact surface on the back side, which is part of the rear buffer.

A control apparatus includes: a submersion signal acquisition unit that acquires a submersion signal representing a situation of submersion switch; a power supply unit that supplies power to a drive unit that drives an opening and closing unit such that the opening and closing unit is opened and closed using the supplied power; an operation detection unit that detects an operation instructing the drive unit to perform driving such that the opening and closing unit is opened; and a control unit that controls the supplying of power to the power supply unit performed by the power supply unit on a basis of the submersion signal and the operation.

A computing device determines that one or more users have departed a vehicle. The computing device determines whether a vehicle door is ajar. A power door subsystem is actuated to close the vehicle door when the vehicle door is ajar and the vehicle has no users. A fare is determined when the vehicle door is in a latched position. A message is sent to the at least one of the one or more users indicating the fare.

A drive assembly for a flap of a motor vehicle includes at least one motor drive and at least one gas pressure element having a cylinder and a piston. The piston divides the cylinder interior into two partial spaces and has a passage arrangement, through which a balancing flow between the two partial spaces arises when the piston moves. The gas pressure element has a first drive connection point connected to the cylinder and a second drive connection point connected to the piston. A switchable valve assembly is associated with the piston and can be brought into a closed state, in which the valve assembly at least partially closes the passage arrangement, and it has an open state, in which the valve assembly opens the passage arrangement. The passage arrangement automatically switches into the closed state in the event of a balancing flow that exceeds a predefined switching flow.

In a design method of torsion bars used for a trunk lid, free shapes of the torsion bars unhitched from the trunk lid are designed. A center line model of the initial free shape is geometrically and statically created on the basis of a design specification. The center line model of an open shape is created from the free shape model and is deformed into a center line model of a closed modified shape. The center line models of the analyzed closed shape and the target closed shape is compared with each other to obtain a difference torque and a difference vector occurring between corresponding nodes on the center lines. The center line model is so changed as to decrease the difference torque and the difference vector.

An electromechanical strut is provided for moving a pivotal closure member between an open position and a closed position relative to a motor vehicle body. The electromechanical strut includes a drive mechanism having a motor-gearbox assembly that is operable to drive a rotatable power screw. The drive mechanism converts rotary motion of the power screw into linear motion of an extensible member to move the extensible member between a retracted position corresponding to the closed position of the closure member and an extended position corresponding to the open position of the closure member. The motor-gearbox assembly includes a gearbox unit equipped with a dual-stage planetary geartrain that is operably disposed between a motor output and the power screw. The dual-stage planetary geartrain includes a first stage gearset and a second stage gearset sharing a common ring gear.

An actuating apparatus for a vehicle part contains an actuating motor for generating an actuating force under the action of which the vehicle part can be adjusted between a closed state and an open state along an actuating path. The actuating apparatus also contains a control unit which is configured to carry out an actuating method in which, according to the method, a position measure is continuously ascertained when the vehicle part is adjusted, the position measure being characteristic of the current actuating position of the vehicle part along the actuating path. Furthermore, the position measure is set to a prespecified reference value when the vehicle part is in the closed state and when a further condition is additionally met, the further condition being linked in a reproducible manner with a specific actuating position.