A power optimizer system for power closure panels includes a closure panel power actuator system comprising at least a motor operatively connected to a lift-assist member and a closure panel counterbalancing member. A controller is configured at least to determine an optimal electrical current draw for the power actuator system according to one or more inputs relating at least to a vehicle ambient temperature and grade. One or more sensors are provided for providing the one or more inputs. The controller may also further be configured to receive a vehicle battery voltage condition input for calculating the optimum electrical current draw consistent with the environmental conditions to efficiently control the power actuator system motor. Methods of modeling/optimizing the appropriate electrical current draw for power closure systems operating in varying voltage, temperature and grade conditions relative to a vehicle, or other similar mechanisms are also described.

A power optimizer system for power closure panels includes a closure panel power actuator system comprising at least a motor operatively connected to a lift-assist member and a closure panel counterbalancing member. A controller is configured at least to determine an optimal electrical current draw for the power actuator system according to one or more inputs relating at least to a vehicle ambient temperature and grade. One or more sensors are provided for providing the one or more inputs. The controller may also further be configured to receive a vehicle battery voltage condition input for calculating the optimum electrical current draw consistent with the environmental conditions to efficiently control the power actuator system motor. Methods of modeling/optimizing the appropriate electrical current draw for power closure systems operating in varying voltage, temperature and grade conditions relative to a vehicle, or other similar mechanisms are also described.

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.

An assembly for adjusting an adjustment element relative to a stationary portion of a vehicle, in particular a vehicle door relative to a vehicle body, comprises a drive motor for electromotively adjusting the adjustment element and a transmission element. In a coupling, first condition an electrically actuatable coupling device couples the drive motor with the transmission element, in order to exert an adjustment force for adjusting the adjustment element on the transmission element, and in a decoupling, second condition decouples the drive motor from the transmission element. An electrically actuatable locking device serves for locking the adjustment element with the stationary portion of the vehicle in a closed position. A control device controls the drive motor, the coupling device and the locking device.

An automatic system for actuating a door of an electrical domestic appliance comprising a frame and a door, the system comprising a first hinge body which can be fixed to the frame, a second hinge body, fixable to the door and connected to the first body to move in a tilting fashion between a first closed position, wherein the door is abutted to the frame, and a second open position, wherein the door is spaced from the frame, allowing access to a compartment of the electrical domestic appliance, means for moving the second body relative to the first body comprising an electric actuator and means for transmitting the motion from the actuator to the second body.

A vehicle door hinge system may include an actuator configured to pivot a vehicle door and a door hinge. The actuator may include a door strut. The door hinge may include a body strap, a door strap, and a strut strap having a strap end and a strut end. The strap end may be attached to the body strap, and the strut end of the strut strap and the door strut may be pivotally coupled to one another, such that the door of the vehicle is opened when the door strut is extended and closed when the door strut is retracted.

A vehicle door hinge system may include an actuator configured to pivot a vehicle door and a door hinge. The actuator may include a door strut. The door hinge may include a body strap, a door strap, and a strut strap having a strap end and a strut end. The strap end may be attached to the body strap, and the strut end of the strut strap and the door strut may be pivotally coupled to one another, such that the door of the vehicle is opened when the door strut is extended and closed when the door strut is retracted.

A bidirectional door opening module includes a vehicle body panel located between a first door configured to be rotated to open one end of a vehicle and a second door configured to be rotated to open a remaining end of the vehicle, and a drive unit coupled to the vehicle body panel and configured to apply opening force to the first door and the second door, wherein the drive unit includes a driver configured to apply driving force so as to open the first door or the second door, rail units configured to receive the driving force of the driver and then to apply opening force to the first door or the second door, and hinge units coupled to the rail units and configured to perform rotary opening of the first door or the second door.

A bidirectional door opening module includes a vehicle body panel located between a first door configured to be rotated to open one end of a vehicle and a second door configured to be rotated to open a remaining end of the vehicle, and a drive unit coupled to the vehicle body panel and configured to apply opening force to the first door and the second door, wherein the drive unit includes a driver configured to apply driving force so as to open the first door or the second door, rail units configured to receive the driving force of the driver and then to apply opening force to the first door or the second door, and hinge units coupled to the rail units and configured to perform rotary opening of the first door or the second door.

A display includes at least one revolving door panel hinged to a box frame by means of a hinging means actuated by an actuation means The display has a movement component that can be coupled with the door panel to move the door panel, as well as a fast coupling/uncoupling means for the fast coupling of the movement component with the door panel to actuate the door panel by means of the actuation means, and permit the fast uncoupling of the movement component from the door panel to move the door panel manually, independently from the actuation means.