A method of assembling a building component includes connecting a first glass pane 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 method also includes positioning the insulated glass unit in a frame including a first material. The method further includes connecting cladding including a second material to the frame. The frame defines a cavity that extends between a first side and a second side and is configured to inhibit moisture from the first side contacting the second material. The method also includes aligning a thermal break defined by the frame and the pocket such that the central plane extends through a middle portion of the thermal break. The thermal break and the pocket define a continuous thermal break extending through the building component.

A building component includes a frame including a first material and cladding connected to the frame. The building component also includes a thermal break defined by the frame intermediate a first side and a second side of the building component and an insulating material within the thermal break. The building component further includes an insulated glass unit including a first glass pane and a second glass pane spaced from the first glass pane. The first glass pane and the second glass pane define a pocket therebetween. The thermal break and the pocket define a continuous thermal break when the building component is in a closed position.

A method of assembling a window includes positioning an insulating material in a frame thermal break defined by a middle portion of a frame intermediate a first side and a second side of the window. The method also includes connecting a cladding to the frame. The frame includes a first material visible on the first side of the window. The cladding includes a second material visible on the second side of the window. The method also includes connecting a first glass pane to a second glass pane to form an insulated glass unit and positioning the insulated glass unit in the frame. The method further includes aligning the frame thermal break and a pocket of the insulated glass unit such that a central plane of the pocket extends through a middle portion of the frame thermal break. The frame thermal break and the pocket define a continuous thermal break extending through the window.

A building component includes a frame including a first material and cladding connected to the frame. The building component also includes a thermal break defined by the frame intermediate a first side and a second side of the building component and an insulating material within the thermal break. The building component further includes an insulated glass unit including a first glass pane and a second glass pane spaced from the first glass pane. The first glass pane and the second glass pane define a pocket therebetween. The thermal break and the pocket define a continuous thermal break when the building component is in a closed position.

A method of assembling a window includes positioning an insulating material in a frame thermal break defined by a middle portion of a frame intermediate a first side and a second side of the window. The method also includes connecting a cladding to the frame. The frame includes a first material visible on the first side of the window. The cladding includes a second material visible on the second side of the window. The method also includes connecting a first glass pane to a second glass pane to form an insulated glass unit and positioning the insulated glass unit in the frame. The method further includes aligning the frame thermal break and a pocket of the insulated glass unit such that a central plane of the pocket extends through a middle portion of the frame thermal break. The frame thermal break and the pocket define a continuous thermal break extending through the window.

A window includes an insulated glass unit and a frame supporting the insulated glass unit. The insulated glass unit includes a first glass pane and a second glass pane spaced from the first glass pane. A central plane extends through a pocket defined between the first glass pane and the second glass pane. The frame includes a first material visible on a first side of the window. The window also includes cladding connected to the frame. The cladding includes a second material visible on a second side of the window. The frame defines a cavity that extends between the first side and the second side and inhibits moisture from the first side contacting the second material. The window includes a thermal cavity defined by the frame and aligned with the pocket.

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 an insulated glass unit including a first glass pane and a second glass pane defining a pocket therebetween, and a frame supporting the insulated glass unit. A central plane extends through the pocket and is spaced equal distances from the first glass pane and the second glass pane. The building component further includes an insulating material in the middle portion of the frame. The insulating material defines a continuous frame thermal break circumscribing the insulated glass unit and extending through the frame. The central plane extends through a center of the frame thermal break and forms a common central plane of the building component with substantially equal portions of the frame thermal break extending on each side of the common central plane when the building component is in a closed position.

The present invention concerns a profile (1) for wooden coverings to be applied to large aluminum frames, said large aluminum frames comprise fixed frames (5) in buildings (8), and sashes (6) with perimeter frames (7). The present invention covers the perimeter frames (7) of the sashes (6), and/or the fixed frames (5), as it comprises two flat faces (4a) (4b) perpendicular to each other, in the shape of an L, each of the flat faces (4a) (4b) comprising a longitudinal cavity (2) along its entire length to be filled by an adherent element. The profile (1) is made of modified wood, increasing its stability for application in frames.