An access door may include a core, first and second stiles defined along opposites sides of the core such that the core between the first and second stiles defines a recessed pocket with each of the first and second stiles defining a channel therein extending longitudinally along an inwardly-facing edge thereof, bottom and top elongated panels each defining tongue members at opposite sides thereof and configured to be received transversely in the recessed pocket with the tongue members received within the channels defined along the inwardly-facing edges of the first and second stiles, wherein, with the top and bottom elongated panels received in the recessed pocket, exterior faces of the first and second stiles, exterior faces of the top and bottom elongated panels, and an exposed surface of the recessed pocket between the top and bottom elongated panels define an exterior surface of one side of the door.

A hands-free door unlatching and opening system is provided for an access door operatively mounted to a jamb assembly of a building, the door including a handle set having a latch normally received, with the door in a closed position, within a latch pocket of a jamb of the jamb assembly to latch the door to the jamb. The system may include a plunger axially aligned with the latch pocket opposite to the latch, an actuator operatively coupled to the plunger and responsive to actuation to advance the plunger into the latch pocket to force the latch out of the latch pocket to unlatch the door from the jamb, and means for automatically opening the door following unlatching of the door from the jamb.

An access door may include a core, stiles on opposites sides of the core, an elongated panel extending transversely between the stiles, wherein a major face of the door between the stiles defines one or more recessed pockets along a top edge of the elongated panel between and the stiles and the elongated panel, and a notch formed into the top edge of the elongated panel and extending along at least one of the recessed pockets, the notch extending downwardly into the top edge of the elongated panel so as to form a lip in the top edge of the elongated panel with the notch positioned between the lip and the one or more recessed pockets, the lip and the notch of the elongated panel together forming an accessory rail, wherein the accessory rail is configured to receive and support a complementarily configured hanger base of an accessory hanger.

A hinge structure including a plurality of pivots, a driving part, two positioning gear sets, and a plurality of fixing parts is provided. The pivots are parallel to each other. The driving part is disposed at a central portion of the pivots and is perpendicular to the pivots. These two positioning gear sets are respectively sleeved around two ends of each of the pivots. The fixing parts are respectively disposed outside these two positioning gear sets. When the plurality of fixing parts is under the action of an external force, the two gear sets are moved relative to each other, and the driving part is adapted to be bent and drives the pivots to rotate synchronously with respect to a central axis.

A lid stay for furniture includes a setting arm pivotably attached on a base element around a first setting axis between an open position and a closed position, and an energy accumulator coupled to the setting arm. The setting arm is acted upon by a force along at least a part of the pivot path of the setting arm between the open position and/or closed position and the energy accumulator includes a flat spring which is made from a plate-like flat material and the flat spring is elastically supported against the base element and the setting arm in a plate plane of the flat material.

In one embodiment, a system, comprising: a damper assembly, the damper assembly comprising: a structural member; at least one door pivotably coupled to the structural member; a clip connected to the damper assembly and comprising plural spring end constraining segments; a spring comprising a first end and a second end, wherein at least the first end comprises a hook, the spring coupled at the first end to one of the plural spring end constraining segments and at the second end fixably coupled to the damper assembly, the clip configured to accept a hookable connection to the spring at any one of the plural spring end constraining segments, each of the plural spring end constraining segments constraining movement of the hook, when connected thereto, during opening and closing of the at least one door, wherein the spring is at a first tension when hooked to the one of the plural spring end constraining segments and at a second tension when hooked to another of the plural spring end constraining segments.

A flap fitting includes a setting arm attached to a base element so as to be pivotable about a setting axis between an open position and a closed position, a toggle lever mechanism having a first lever and a second lever connected to each other pivotably about a pivot axis, and an energy accumulator. The energy accumulator acts on the first lever at a first link point spaced from the pivot axis and on the second lever at a second link point spaced from the pivot axis. Also, the first link point and the second link point are acted upon by the energy accumulator with force towards one another. A setting contour arrangement with a setting contour and a guide element is arranged between the first lever and the setting arm and the guide element is movable along the setting contour. The setting arm is forcedly loaded in the direction of rotation about the setting axis at least in a partial section along the setting contour by the first lever via the setting contour arrangement.

A counterbalance dampener disposed between a printer chassis and the automatic duplexer unit includes a pair of support links pivotably connected at distal ends to the chassis and the automatic duplexer unit. A pinion disposed at the distal end of the support link connected to the automatic duplexer unit rotates when the automatic duplexer unit descends into an open configuration. The pinion is in communication with a rack that translates linearly to compress a spring which provides a countering force to slow the descent of the automatic duplexer unit.

A counterbalance dampener disposed between a printer chassis and the automatic duplexer unit includes a pair of support links pivotably connected at distal ends to the chassis and the automatic duplexer unit. A pinion disposed at the distal end of the support link connected to the automatic duplexer unit rotates when the automatic duplexer unit descends into an open configuration. The pinion is in communication with a rack that translates linearly to compress a spring which provides a countering force to slow the descent of the automatic duplexer unit.

A window vent assist mechanism for use with a vent window operable in a closed position and in a vented position can include a first support configured to connect to a header of a window frame and a second support configured to connect to an upper rail of a window vent disposed in the window frame. The window vent assist mechanism also includes a biasing member disposed between the header of the window frame and the upper rail of the window vent and nearer to an inner side of the vent window and a center of gravity of the window vent. The biasing member is configured to exert a force to urge the window vent to move relative to the window frame to reduce an operating force required to move the window vent to the vented position.