A building component includes a first glass pane connected to a second glass pane to form an insulated glass unit. The first glass pane and the second glass pane define a pocket therebetween. The insulated glass unit is positioned in a frame. The building component includes an insulating material in the middle portion of the frame. The insulating material defines a continuous frame thermal break extending through the frame. The frame thermal break is aligned with the pocket. The frame thermal break has a width of at least 1 inch. The pocket has a width that is less than the width of the frame thermal break.

A building component includes a first glass pane connected to a second glass pane to form an insulated glass unit. The first glass pane and the second glass pane define a pocket therebetween. The insulated glass unit is positioned in a frame. The building component includes an insulating material in the middle portion of the frame. The insulating material defines a continuous frame thermal break extending through the frame. The frame thermal break is aligned with the pocket. The frame thermal break has a width of at least 1 inch. The pocket has a width that is less than the width of the frame thermal break.

A building aperture cover frame, such as a window frame, having at least one frame profile for framing an insulated glass unit, where the frame profile includes an insulating core of insulating polyurethane foam core material enclosed by a core surface of the insulating core, where the insulating polyurethane foam core material having at least 85% by weight polyurethane, and where the insulating polyurethane foam core material is of a material density of less than 60 kg/m.sup.3, such as less than 50 kg/m.sup.3, preferably less than 40 kg/m.sup.3, a profile shell encapsulating the insulating core and having an inner shell surface facing the core surface, where the profile shell is made of at least 90% by weight polyurethane, and where the profile shell is of a material density of at least 600 kg/m.sup.3, such as at least 750 kg/m.sup.3, preferably at least 850 kg/m.sup.3, and one or more metal reinforcement element(s) located between opposing parts of the inner shell surface and the core surface.

A building aperture cover frame, such as a window frame, having at least one frame profile for framing an insulated glass unit, where the frame profile includes an insulating core of insulating polyurethane foam core material enclosed by a core surface of the insulating core, where the insulating polyurethane foam core material having at least 85% by weight polyurethane, and where the insulating polyurethane foam core material is of a material density of less than 60 kg/m.sup.3, such as less than 50 kg/m.sup.3, preferably less than 40 kg/m.sup.3, a profile shell encapsulating the insulating core and having an inner shell surface facing the core surface, where the profile shell is made of at least 90% by weight polyurethane, and where the profile shell is of a material density of at least 600 kg/m.sup.3, such as at least 750 kg/m.sup.3, preferably at least 850 kg/m.sup.3, and one or more metal reinforcement element(s) located between opposing parts of the inner shell surface and the core surface.

Systems and methods are described herein to provide a frame assembly adjustable to fit different sized walls. The frame assembly can comprise one or more portions for receiving wall coverings when the frame assembly is coupled to an end of a wall. In various embodiments, the frame assembly can be a door frame assembly or a window frame assembly. Other embodiments are disclosed herein.

Systems and methods are described herein to provide a frame assembly adjustable to fit different sized walls. The frame assembly can comprise one or more portions for receiving wall coverings when the frame assembly is coupled to an end of a wall. In various embodiments, the frame assembly can be a door frame assembly or a window frame assembly. Other embodiments are disclosed herein.

Disclosed is a door leaf including a frame and a door panel with a front leaf, a back leaf and a filler plate. The frame includes conventional profiles with a lip oriented inwards to form a groove. The front leaf is affixed against the front of the frame, and at least partially covers the front of the frame. The door panel is fastened to the back of the frame by panel slats. The front leaf is provided with clamp that enable the front leaf to be pulled against the front of the frame, whereby these clamps are formed by one or more clamps along the periphery of the frame with a basic element that is fastened on the front leaf and a clamping slat affixed thereon that hooks behind an aforementioned lip and can be tightened on the basic element towards the front leaf.

Disclosed is a door leaf including a frame and a door panel with a front leaf, a back leaf and a filler plate. The frame includes conventional profiles with a lip oriented inwards to form a groove. The front leaf is affixed against the front of the frame, and at least partially covers the front of the frame. The door panel is fastened to the back of the frame by panel slats. The front leaf is provided with clamp that enable the front leaf to be pulled against the front of the frame, whereby these clamps are formed by one or more clamps along the periphery of the frame with a basic element that is fastened on the front leaf and a clamping slat affixed thereon that hooks behind an aforementioned lip and can be tightened on the basic element towards the front leaf.

Examples of the present disclosure provide an overhead door panel. The overhead door panel includes a pair of parallel glass panes, a metal frame with parallel lateral stiles oriented perpendicular to the pair of parallel glass panes, a first seal system located at a first lateral stile, and a second seal system located at a second lateral stile, wherein the first seal system and the second seal system engage with at least one glass pane of the pair of parallel glass panes and a lateral stile of the parallel lateral stiles of the metal frame such that the first seal system and the second seal system are between the at least one glass pane and the lateral stile.

Examples of the present disclosure provide an overhead door panel. The overhead door panel includes a pair of parallel glass panes, a metal frame with parallel lateral stiles oriented perpendicular to the pair of parallel glass panes, a first seal system located at a first lateral stile, and a second seal system located at a second lateral stile, wherein the first seal system and the second seal system engage with at least one glass pane of the pair of parallel glass panes and a lateral stile of the parallel lateral stiles of the metal frame such that the first seal system and the second seal system are between the at least one glass pane and the lateral stile.