The disclosure relates to a pivot bar for a tiltable sash window where the pivot bar is designed for mounting along an exterior surface of a sash frame. The pivot bar includes a first leg positioned within a channel formed on the stile of the sash frame and a second leg positioned within a channel formed on the bottom rail of the sash frame. In a coupled configuration, the pivot bar wraps around the exterior surface of the corner of the sash frame where the stiles and bottom rail meet.

A folding door structure is provided. The folding door structure includes an upright column, upper sliding bracket and a lower sliding bracket. The upright column is hinged to the door leaves. The folding door structure further includes a first lock component. The first lock component includes a first latch mounted inside the upright column, and both ends of which are extended out from the top and bottom of the upright column to insert into the upper slide and/or the lower slide. By providing a first lock component and an upright column, a first latch can lock the position of the upright column relative to a door frame in a direction of wind pressure. Accordingly, the stress environment of the upper sliding bracket and the lower sliding bracket is improved, and the reliability and the resistance to high wind pressure of the connection mounting structure between adjacent door leaves are improved.

Doors on a vehicle may be controlled by a door positioning system that moves the doors freely and fluidly relative to the body of the vehicle. The doors may include front and rear doors on each side of the vehicle. The door positioning system may control the movement and positioning of each door using a door mechanism coupled between the door and the body of the vehicle. The door positioning system may determine a position or path of motion for each door based on sensor data and user input. The door positioning system may issue corresponding control signals to actuators in the door mechanism to position the door accordingly. For example, the front door may slide open at an angle to accommodate an angled tire. Front and rear doors may open in opposite directions to create a large, unobstructed space for passengers to enter and exit the vehicle.

Passenger seating comprises rows of seats with a door assembly at the end of each row for improving a seat occupant's privacy. The door assembly includes a door that slides into and out of a base in a primary mode of operation, and which supports a secondary mode of opening. The secondary mode may involve pivoting on hinges. A latch is provided to prevent the door from being opened routinely in the secondary mode. The door assembly is also capable of retracting with respect to the adjacent seat to improve access.

A lavatory is provided which includes a plurality of walls including a first wall having a doorway, and an expandable door. The expandable door includes a main panel having dimensions that conform to the doorway and a main hinge connecting the main panel to the first wall. The lavatory further includes a latch. The main panel is configured to, in a deployed state, increase in at least one dimension to form a privacy barrier around an expansion zone located outside of the plurality of walls. The latch is configured to lock the expandable door in place in the deployed state.

A main tilting door for the closure of an access opening of a room comprises two fixed uprights and one fixed crosspiece associable with each other to define a fixed frame. The fixed uprights comprise vertical sliding guides; two movable uprights and two movable crosspieces associable with each other to define a movable frame; tilting movement means comprising: two lateral supporting arms each having a first end which can be hinged to an intermediate area of the movable uprights and a second end which can be hinged to a top of the fixed uprights; two sliding supports movable along the vertical sliding guides; a plurality of panels associable with the movable frame; wherein at least one of said movable uprights and said movable crosspieces comprises a sliding track and a plurality of cursors movable along the sliding track, the panels being associable with the cursors.

A fenestration unit such as a door operable in a sliding mode and a bi-fold folding mode. Examples include a frame, a first panel, a second panel, and one or more fold hinges releasably pivotally connecting a second side portion of the first panel to a first side portion of the second panel and defining a folding axis. In the sliding mode (1) the fold hinges are configured to disconnect the first and second panels, (2) the first panel is in a closed position with respect to the frame, and (3) the second panel is configured to slide along a path generally parallel to the first panel between a closed position and a sliding open position. In the folding mode (1) the fold hinges are configured to pivotally connect the second side portion of the first panel and the first side portion of the second panel, and (2) the first panel and second panel fold with respect to one another about the folding axis with the first panel pivoting with respect to the frame and the second panel sliding and pivoting with respect to the frame as the first and second panels move between the closed positions and folding open positions.

The disclosure relates to a pivot bar for a tiltable sash window where the pivot bar is designed for mounting along an exterior surface of a sash frame. The pivot bar includes a first leg positioned within a channel formed on the stile of the sash frame and a second leg positioned within a channel formed on the bottom rail of the sash frame. In a coupled configuration, the pivot bar wraps around the exterior surface of the corner of the sash frame where the stiles and bottom rail meet.

In example implementations, an end cap is provided. The end cap includes a body portion comprising a top end, a bottom end, a front side, a back side, an inner side, and an outer side, a plurality of openings aligned between the inner side and the outer side to receive a mechanical fastener to connect to an end of the panel, a cam lever coupled to the top end, wherein the cam lever is to rotate around an axis to generate a lift force to lift and separate an adjacent panel, and a plurality of wheels coupled to the inner side, wherein the panel moves along a horizontal track via the plurality of wheels aligned with the horizontal track.

In example implementations, an end cap is provided. The end cap includes a body portion comprising a top end, a bottom end, a front side, a back side, an inner side, and an outer side, a plurality of openings aligned between the inner side and the outer side to receive a mechanical fastener to connect to an end of the panel, a cam lever coupled to the top end, wherein the cam lever is to rotate around an axis to generate a lift force to lift and separate an adjacent panel, and a plurality of wheels coupled to the inner side, wherein the panel moves along a horizontal track via the plurality of wheels aligned with the horizontal track.