An insulated fenestration system includes a frame, a pane assembly assembled with the frame, the pane assembly including a first pane, and a muntin bar attached to the first pane. The muntin bar defines an angled end abutting and matching an angle of the sloped front surface. The frame extends around a perimeter of the first pane so as to include a top portion, a bottom portion, a left portion, and a right portion. A vertical muntin bar can extend between and to the top portion and the bottom portion and is spaced apart from the left portion and the right portion. A horizontal muntin bar can extend between and to the left portion and the right portion and is spaced apart from the top portion and the bottom portion. The muntin bar subdivides the first pane into a plurality of simulated lites.

An insulated fenestration system includes a frame, a pane assembly assembled with the frame, the pane assembly including a first pane, and a muntin bar attached to the first pane. The muntin bar defines an angled end abutting and matching an angle of the sloped front surface. The frame extends around a perimeter of the first pane so as to include a top portion, a bottom portion, a left portion, and a right portion. A vertical muntin bar can extend between and to the top portion and the bottom portion and is spaced apart from the left portion and the right portion. A horizontal muntin bar can extend between and to the left portion and the right portion and is spaced apart from the top portion and the bottom portion. The muntin bar subdivides the first pane into a plurality of simulated lites.

A door frame component is provided. The door frame includes: a front wall, a rear wall, an outer wall and an inner wall; a length of the front wall being substantially the same as a distance between the inner wall and the outer wall; an internal cavity at least partially defined by space between the inner wall and outer wall; and opposing first and second gripping sections defined in the internal cavity at least partially by first and second internal flanges in the internal cavity. The frame has sufficient structural integrity such that when the frame is cut height wise between the first and second internal flanges into front and rear sections, the front section can support a door on its own without the rear section.

A door frame component is provided. The door frame includes: a front wall, a rear wall, an outer wall and an inner wall; a length of the front wall being substantially the same as a distance between the inner wall and the outer wall; an internal cavity at least partially defined by space between the inner wall and outer wall; and opposing first and second gripping sections defined in the internal cavity at least partially by first and second internal flanges in the internal cavity. The frame has sufficient structural integrity such that when the frame is cut height wise between the first and second internal flanges into front and rear sections, the front section can support a door on its own without the rear section.

The invention relates to a fire and blast resistant window assembly, comprising a frame adapted to be built into a window aperture, a glazing system and a front insulating glass unit. The assembly is characterized in that the front insulating glass unit is mounted on the frame such that a thermal break is formed therebetween, the frame contains a metal framework, which delimits a mounting aperture for the glazing system, wherein separator plates are welded to the framework, along the perimeter thereof, with spaces between the separator plates, and the glazing system comprises a first and a second glazing unit. Each of the glazing units comprises a support profile and a glazing sheet, which is inserted in the support profile and clamped thereto from the inside by glazing beads, wherein a thermal break is formed therebetween.

A door/window frame structure for making door/window casing such as doors and/or windows intended to be anchored to a supporting wall, said structure comprising at least one metal end element (2) suited to define the external surface (3) of the door/window frame and a substantially straight insulating element (4) suited to promote thermal insulation between the environments respectively located inside and outside with respect to the door/window frame structure. At least one pair of straight metal profile (13) is provided, which have a first end (16) intended to be directly coupled with the insulating element (4); at least one of the profiles of said pair has a second end (19) suited to be directly anchored to the metal end element (2).

A door/window frame structure for making door/window casing such as doors and/or windows intended to be anchored to a supporting wall, said structure comprising at least one metal end element (2) suited to define the external surface (3) of the door/window frame and a substantially straight insulating element (4) suited to promote thermal insulation between the environments respectively located inside and outside with respect to the door/window frame structure. At least one pair of straight metal profile (13) is provided, which have a first end (16) intended to be directly coupled with the insulating element (4); at least one of the profiles of said pair has a second end (19) suited to be directly anchored to the metal end element (2).

A metal profile (1) for door/window frame structure (S, S) provided with a metal frame (A), an insulating element (C) and/or a linear gasket (G) arranged inside said frame (A). The profile (1) comprises an elongated body (6) that extends along a longitudinal extension direction (L), a first end portion (8) and a second end portion (9) of the elongated body (6). The first end portion (8) of the body (6) is suited to interact with the frame (A) and/or the linear gasket (G) of the door/window frame structure (S, S) and the second end portion (9) of the body (6) is suited to be coupled with the insulating body (C) of the door/window frame structure (S, S) to promote its holding with respect to a substantially transverse direction (T) and form a unitary assembly with it. A method for making a metal profile (1) for door/window frame structure (S, S).

A metal profile (1) for door/window frame structure (S, S) provided with a metal frame (A), an insulating element (C) and/or a linear gasket (G) arranged inside said frame (A). The profile (1) comprises an elongated body (6) that extends along a longitudinal extension direction (L), a first end portion (8) and a second end portion (9) of the elongated body (6). The first end portion (8) of the body (6) is suited to interact with the frame (A) and/or the linear gasket (G) of the door/window frame structure (S, S) and the second end portion (9) of the body (6) is suited to be coupled with the insulating body (C) of the door/window frame structure (S, S) to promote its holding with respect to a substantially transverse direction (T) and form a unitary assembly with it. A method for making a metal profile (1) for door/window frame structure (S, S).

A trimless frame assembly for retaining a panel includes a plurality of trimless frame segments and a panel having a plurality of sides. Each of the plurality of trimless frame segments includes an elongate front wall, an elongate back wall substantially parallel to the elongate front wall, and a gripping assembly in between the elongate front wall and elongate back wall. The gripping assembly includes a gripping channel including a plurality of spaced-apart internal surfaces and a plurality of clip-shaped abutments, each on a respective one of the plurality of spaced-apart internal surfaces such that a side of a panel can be received and gripped by the plurality of clip-shaped abutments. Each of the plurality of sides of the panel is within a respective gripping channel of a respective one of the plurality of trimless frame segments.