Movable partitions may include leading end assemblies comprising an articulated leading member. The articulated leading member may be coupled to a support trolley, and at least one coupling between the articulated leading member and the trolley enables the articulated leading member to move relative to the support trolley. Methods of operating a movable partition include displacing a portion of a leading end assembly to align a majority of at least one surface of the leading end assembly with a portion of an adjacent structure.

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.

A sectional folding overhead door assembly that includes a pair of opposite, vertically disposed side supports and guides defining a door opening between them, each of the supports and guides including a first channel and a second channel disposed side-by-side, a door component having a first, second, third and fourth rectangular panel adapted for folding vertical movement along the supports and guides, a folding movement controlling member, each folding movement controlling member having a folding movement controlling member upper end hingeably connected to a respective side edge of the first and third panels, respectively, and a folding movement controlling member lower end hingeably connected to the respective guide plate lower end around a folding movement controlling member hinge axis, and a folding movement guiding channel into which a respective side plate guiding pin of a side plate attached to the second panel extends.

A movable wall system includes a plurality of movable wall panels including a first movable wall panel and a second moveable wall panel rotatably coupled together through at least one hinge. The movable wall system further includes a biasing system which biases the first movable wall panel and the second movable wall panel into an arrangement wherein a panel face of the first movable wall panel and a panel face of the second moveable wall panel are generally parallel.

A hinge assembly for a folding closure includes a plurality of elongated, planar panels, each of which has a pair of parallel sides, and flanges on each side with the flanges on one side extending in one direction perpendicular to a plane of the panel and the flanges on the other side extending in a second direction opposite to the one direction; and a hinge for pivotally connecting panels in side by side relationship to each other, the hinge including an elongated body having a generally triangular cross section, generally C-shaped grooves extending the length of the body proximate two adjacent corners of the body, the grooves opening in opposite directions for receiving the flanges of adjacent panels and permitting rotation of the panels about a longitudinal axis of the hinge between closure open and closed position, and opposed stops at the open outer ends of the grooves for limiting rotation of the panels between the open and closed position.

A movable wall system includes a plurality of movable wall panels including a first movable wall panel and a second moveable wall panel rotatably coupled together through at least one hinge. The movable wall system further includes a biasing system which biases the first movable wall panel and the second movable wall panel into an arrangement wherein a panel face of the first movable wall panel and a panel face of the second moveable wall panel are generally parallel.

A movable wall system includes a plurality of movable wall panels including a first movable wall panel and a second moveable wall panel rotatably coupled together through at least one hinge. The movable wall system further includes a biasing system which biases the first movable wall panel and the second movable wall panel into an arrangement wherein a panel face of the first movable wall panel and a panel face of the second moveable wall panel are generally parallel.

A hinge assembly for a folding closure includes a plurality of elongated, planar panels, each of which has a pair of parallel sides, and flanges on each side with the flanges on one side extending in one direction perpendicular to a plane of the panel and the flanges on the other side extending in a second direction opposite to the one direction; and a hinge for pivotally connecting panels in side by side relationship to each other, the hinge including an elongated body having a generally triangular cross section, generally C-shaped grooves extending the length of the body proximate two adjacent corners of the body, the grooves opening in opposite directions for receiving the flanges of adjacent panels and permitting rotation of the panels about a longitudinal axis of the hinge between closure open and closed position, and opposed stops at the open outer ends of the grooves for limiting rotation of the panels between the open and closed position.

A sectional folding overhead door assembly comprising a pair of opposite, vertically disposed side support and guide means defining a door opening between them, each guide means including a first channel and a second channel disposed side-by-side, a door component comprising a first, second, third and fourth rectangular panel adapted for folding vertical movement along said support and guide means, the door component further comprises at each side of the first and second panel a folding movement controlling member, each folding movement controlling member having an folding movement controlling member upper end hingeably connected to a respective side edge of the first and third panel, respectively, and a folding movement controlling member lower end hingeably connected to the respective guide plate lower end around a folding movement controlling member hinge axis, each folding movement controlling member further including a folding movement guiding channel into which folding movement guiding channel a respective side plate guiding pin of a side plate attached to the second panel extends.

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.