The disclosure relates to a sliding door operator system (1) for opening and closing an opening (2), comprising: a track (3) configured to be mounted at an upper part (21) of the opening (2), one or more sliding door(s) 10 slidably connected to the track (3) and comprising a door leaf (4) configured to be moved along the track (3) between an open (o) and closed (c) position, and a drive unit (5) mounted on the door leaf (4), moveably connected to the track (3) and arranged to move the door leaf (4) between the closed position (c) and the open position (o). The disclosure further relates to a drive unit (5) for moving a sliding door leaf (4) between an open and a closed position (O, C) and a control system (11) for regulating one or more sliding door (10).

A vehicle door assembly comprising includes a vehicle door panel, a vehicle door handle operably connected to the door panel so as to enable operation of a door latch by the door handle, and at least one sanitizer dispensing mechanism having at least a first nozzle coupled to the vehicle door panel and structured to discharge a sanitizing material onto an exterior surface of the door handle.

Disclosed is a refrigerator, more particularly a refrigerator including dual doors that are convenient to use. The refrigerator includes a main body having a storage space therein, a first door hinged to the main body for opening and closing the storage space, a door frame provided at the first door, a second door hinged to the first door, the second door having a side wall, at least a portion of which is inserted into the door frame, and a catching part provided in the side wall, and a locking device for selectively allowing the second door to be turned with respect to the first door, wherein the locking device includes a moving member, the displacement of which is changed depending on the open or closed state of the first door, and a catching member, the displacement of which is changed depending on the displacement of the moving member, whereby the protruding length of the catching member from the door frame is changed, the catching member being selectively caught in the catching part.

An exemplary closure system includes, among other things, a striker assembly, a latch assembly, and a hooked structure. In response to the striker assembly and the latch assembly being laterally displaced from each other, the hooked structure engages one of the striker assembly or the latch assembly to block separation of the striker assembly from the latch assembly. An exemplary latching method includes, among other things, engaging a hooked structure in response to a striker assembly being laterally displaced relative to a latch assembly. The engaging blocks the striker assembly from separating relative to the latch assembly.

A retraction device for two end positions has two driving elements which are connected to one another by a spring energy accumulator. Each driving element is displaceably mounted in a respective guide housing. A sliding door has such a retraction device, and a sliding door arrangement has such a sliding door. Each driving element is coupled or can be coupled to a cylinder-piston unit mounted in the respective guide housing. Both guide housings are adjustable relative to one another in the longitudinal direction of the retraction device by means of at least one sliding joint. This provides a retraction device for two end positions, which can be used for a range of door widths without design modifications.

A slim-profile safe has a safe body that defines an interior space, and a safe door that is moveable between a closed position for securing the interior space and an open position for accessing the interior space. The safe door includes a fore portion and a recess portion that is offset from the fore portion by a recess angle. The fore portion defines a maximum depth of the safe, and the recess portion provides a reduced depth portion of the safe for the presentation of external hardware for operating a lock that releasably locks the safe door in the closed position, the recess portion being sufficiently offset from the fore portion such that the external hardware is positioned entirely sub-flush to a plane that extends parallel to the fore portion.

A retrofit module configured for use with a door closer having a pinion. The retrofit module generally includes a case, an output shaft, a motor, and a control assembly. The output shaft is rotatably mounted in the case, and is configured for rotational coupling with the pinion. The motor is mounted to the case, and is operable to rotate the output shaft in a door-opening direction. The control assembly is mounted to the case, and is configured to operate the motor to drive the output shaft in the door-opening direction in response to an actuating signal.

The invention is an an anchor for attaching an automated window mechanism to a sliding panel of a window. The sliding panel has a border with an outer face generally perpendicular to the window. The anchor includes a base configured to be secured to the outer face. The base and mechanism mount has a first tongue-and-groove component protruding from the base away from the outer face. The anchor also includes a mechanism mount configured to be secured to the automated window mechanism, the mechanism mount having a second tongue-and-groove component protruding therefrom. The first tongue-and-groove component and the second tongue-and-groove components are shaped and aligned to permit the mechanism mount to slide relative to the base in a direction generally perpendicular to the window, and to thereafter hold the mechanism in proper alignment relative to the sliding panel of the window.

An example door closer includes a casing and a pinion rotatably mounted to the casing. The pinion is operable to rotate through a plurality of movement zones, and the door closer is configured to exert forces on the pinion as the pinion moves through the plurality of movement zones. The door closer further includes a plurality of adjustment mechanisms, each operable to adjust the force exerted on the pinion as the pinion travels through a corresponding movement zone. The casing is provided with indicia that correlate each of the adjustment mechanisms to the corresponding movement zone.

To create a system for a furniture item that is electrically powered and functionally more flexible, with improved energy consumption, and independent from the mains voltage, an energy management method is proposed with the the steps of (i) generating electrical energy from the displacement of a component (C; 30) of a furniture item movable by a user, (ii) storing electrical energy thus generated in an electric accumulator (B), preferably placed onboard the furniture item.