Abstract: The monolithic door of the present invention includes a single panel door having a top edge and a front and back side. The door is hinged at the top edge, within a door opening, to a structure (in one embodiment, a door frame header). A winding mechanism is secured towards the top of a first vertical member of the door frame and a second winding mechanism is secured towards the top of a second vertical member of the door frame, opposite the first vertical member. A compression strut on each side of the door is secured to tension straps or cables which are in turn attached to a corresponding winding mechanism secured to the structure. An actuator operatively connected to the winding mechanisms rotates the drums to either force the door open or allow the door to close.

Abstract: The monolithic door of the present invention includes a single panel door having a top edge and a front and back side. The door is hinged at the top edge, within a door opening, to a building structure (in one embodiment, a door frame header). A first cam style winding mechanism is secured towards the top of a first vertical member of the door frame and a second winding mechanism is secured towards the top of a second vertical member of the door frame, opposite the first vertical member. A compression strut on each side of the door is secured to tension straps or cables which are in turn attached to a corresponding winding mechanism secured to the building structure. An actuator operatively connected to the winding mechanisms rotates the drums to either to force the door open or allow the door to close.

Abstract: An exterior cladding panel assembly for covering an outside surface of a framed building is provided by the invention. A unique rib and batten system with overlapping raised female and male edge ribs on the adjacent installed panels, and raised interior ribs allow through fastening of the panels on the order of 32 inches or wider to the building's underlying framing structure with complete concealment of the fasteners, and without the need for special fastener clips. The ribs have an inverted U-shaped end profile that creates an open cavity between the rib top wall and the underlying framing member. The fastener can be driven through the rib top walls into the framing member without the need for a solid filler cleating strip.