A mechanism (A) that is used in moveable facades and shutter systems, garage doors and access systems is provided, allowing opening and closing of panels (P) positioned between rail profile (10) and lower rail (R).

A powered actuator for moving a motor vehicle closure panel from a closed position to an open position and method of construction thereof. Powered actuator includes an electric motor configured to rotate a driven shaft and a gearbox coupled to the driven shaft. An extensible member extends through the gearbox to a proximal end on one side of the gearbox for attachment to one of a vehicle body or the closure member and to a distal end on an opposite side of the gearbox. Extensible member is configured to move between retracted and extended positions in response to rotation of the driven shaft. A contamination cover enshrouds the extensible member between the gearbox and the distal end of the extensible member. Contamination cover moves between an axially extended state and an axially retracted state while the extensible member moves between the respective retracted position and the extended position.

A vehicle door presenter actuator, including: an extension bar that is driven outward from the door presenter actuator by a nut that threadingly engages a power screw operatively secured to a motor of the vehicle door presenter actuator; and a barrel cam that is pivoted into contact with a switch as a pin of the nut slides within a cam path of the barrel cam as the nut drives the extension bar outward from the vehicle door presenter actuator.

A refrigerator, comprising an automatic door-opening/closing apparatus mounted on a refrigerator body for driving the opening and closing of a door. When opening the door, if a first obstacle detecting apparatus detects the presence of an obstacle in front of the door, then the automatic door opening/closing apparatus stops the opening of the door; when closing the door, if a second obstacle detection apparatus detects the presence of an obstacle behind the door, then the automatic door-opening/closing apparatus stops the closing of the door. This stops the movement of the door upon the discovery of an obstacle while opening or closing the door, thus preventing the door from being damaged by collision, and when the obstacle is a person, preventing physical injuries from being caused.

Universal rotary actuators (URAs) and door assemblies having the URAs are disclosed. In some embodiments, the URA includes a motor, a worm gear driven by the motor, a worm wheel having teeth that mesh with threads of the worm gear, a pinion gear attached to the worm wheel, drive gear rotatably connected to the pinion gear, an output shaft attached to the drive gear, and a controller assembly disposed between the drive gear and the motor, the controller selectively controlling direction and speed of the motor. In some embodiments, the URA additionally includes a quick release assembly that moves the pinion gear between an engaged position in which the pinion gear is rotatably connected to the drive gear and a disengaged position in which the pinion gear is not rotatably connected to the drive gear.

An automated window mechanism is disclosed, including a motor secured to a window, the window being in a frame and wherein the motor causes the window to move relative to the frame in two directions: an open direction being defined as a direction toward which movement of the window relative to the frame causes the window to be more closed, and a closed direction defined as a direction opposite the open direction. The mechanism also includes a transmission component that transfers power from the motor to movement of the window relative to the frame, the transmission component having a backup defined as a distance the transmission component can move from a first point at which further movement in the open direction will cause the window to begin moving in the open direction, and a second point at which further movement in the closed direction will cause the window to begin moving in the closed direction. The mechanism also includes a processor and memory storing one or more computer-readable instructions executable by the processor to perform acts. The acts include instructing the motor to move the window relative to the frame, and upon the window reaching a desired position relative to the frame, reversing the transmission component into a neutral range within the backup to release energy stored in the transmission component.

A tailgate latch assembly for restraining a striker of a tailgate, which is opened or closed rearward of a vehicle, or for releasing restraint of the striker includes: a pawl configured to be rotated by a drive motor, the pawl being supported resiliently in a direction opposite to a direction of being rotated by the drive motor in a housing; a claw supported resiliently in a direction in which restraint of the striker is released in the housing, the claw being configured to be rotated in a direction opposite to the direction of being supported resiliently when the striker is restrained in the claw; and a memory lever having a first end for supporting a side face of the pawl when the pawl is rotated beyond a predetermined angle by the drive motor and a second end fixed to the housing.

A retractable outside door handle assembly may include a handle unit including a pushing portion and an outside door handle mounted selectively protruded outwardly to a handle housing, an actuator including a drive motor, a worm connected to the drive motor, a worm wheel engaging with the worm, and an operation rod that moves according to rotation of the worm wheel to push the pushing portion, and a door latch lever that is rotatably mounted on the handle housing and rotates during operation of the outside door handle protruded by operation of the actuator.

A transmission structure of a rotary shaft of an electronic lock contains: a drive unit which includes a holding plate, a motor, a worm, and a driven wheel. The holding plate includes an externally threaded portion and a fixing orifice. The driven wheel includes an internally threaded orifice, two protrusions, two flat zones, two arcuate fringes, and a tooth section. The transmission unit includes a guide element, a movable element, a resilient element, a retainer, and an acting element. The guiding element has a central orifice, the movable element has a guiding orifice, and the acting element has a slidable post. The frame includes a defining orifice and is welded with the holding plate. The connection seat is received in the defining orifice and includes a retaining portion. After the connection seat is received in the defining orifice, the retaining portion is engaged with a fastening ring.

An idling switch structure of a shaft of an electronic lock contains: a holding plate, a shell, an electric drive unit, a switching unit, and a manual rotation unit. The holding plate includes a peripheral fringe, multiple positioning posts, a fixing seat, two locating portions, a column, a receiving area, a limiting rib, an extension, and a bolt seat. The shell includes a covering space, multiple recesses, and a locking orifice. The electric drive unit includes a drive wheel, a motor body, and a transmission wheel having a central orifice and two rotation protrusions. The drive wheel has a central orifice, a tooth portion, and an actuation gear. The motor body has two stands and a worm. The switching unit includes a driven sheet, a slider, a first spring, a second spring, and a driving element. The manual rotation unit includes a lock bolt and a key.