A frame assembly, for use in window and door applications configured to retain a panel, comprising a frame with a cover assembly and a support assembly having a track assembly, and a sill assembly and a header assembly both interconnected to a securing surface. The cover assembly is interconnected to the support assembly. The sill assembly comprises a roller member disposed in supporting relation to the track assembly, and the header assembly is disposed in supporting relation to the support assembly so that the frame is movable relative to both the header assembly and the sill assembly. At least a portion of the frame comprises a predetermined thickness and a predetermined width. The predetermined thickness is substantially less than the predetermined width so that both cooperatively and concurrently enhance viewing through the panel and the frame's stability.

A bead for releasably securing a glazing unit to a frame member, comprising a body having a first end and a second end, and a resiliently deformable member secured to the body and having a first finger extending from the body to a first end, and a second finger extending from the first finger to a second end. The first end of the body and the first end of the first finger are configured to engage with respective first and second ends of a frame member so as to secure the bead to the frame member. The second end of the body is configured to releasably secure a gasket in a first position so as to secure a glazing unit against an opposed end of the frame member. In use, application of an external force to the gasket moves the gasket to a second position and deflects the second finger from a first position to a second position, and the first finger is configured to separate from the second end of the frame member upon deflection of the second finger to the second position, so as to release the bead from the frame member.

A window assembly for installing in a window framing (also referred to as a “window casing”) of a wall of a building. The window assembly is configured to have a frameless appearance when installed with the finish surround installed around the interior and/or exterior of the window. The window assembly also allows the glass panel to be removed with a minimum of removal of the finish surround, such as without removing any of the finish surround, or only removing the finish surround around several sides of the only one of the interior or exterior of the window. For example, in most cases, only the interior finish surround around the right side and left side of the installed window frame needs to be removed to remove and replace the glass panel. Furthermore, the window assembly includes an integrated drain for draining moisture which leaks into the window assembly.

An impact-resistant window may include features that reduce the forces exerted on the edges of related panes, thereby preventing breakage due to impacts. In a described embodiment, the in pact-resistant window comprises at least one pane made of a transparent material and a frame including a first frame portion, a second frame portion, and a third frame portion. In this embodiment, the connection between the first frame portion and the third frame portion may be configured to allow movement between the first frame portion and the third frame portion.

A polymer window assembly includes a polymer window frame with a pair of jambs and a sill, and a glass unit carried by the window frame. A pair of brackets are attached to the jambs proximate corners between the jambs and the sill. Each bracket has an upright member, a horizontal member orthogonal to the upright member and a hook attached to a rear surface of the upright member. The brackets attach to the jambs so that the hook extends through a hole in the jamb, the upright member is adjacent a surface of the jamb and the horizontal member is disposed above (e.g., spaced above) the sill. The brackets support and transfer the weight of the glass unit to the jambs to inhibit (e.g., prevent) the sill from bearing the load of the glass unit, thereby inhibiting (e.g., preventing) the crushing or bowing of the sill by the glass unit and thereby inhibiting (e.g., preventing) the formation of gaps in the window assembly that allow for air and/or water infiltration through the window assembly.

A fenestration hinge assembly includes a first leaf rotatably coupled with a second leaf. The first and second leaves each include one or more leaf knuckles. The first and second leaf knuckles are at least partially received within a hinge cavity of a recessed escutcheon, the recessed escutcheon configured for recessed installation within a panel or frame of a fenestration assembly. The fenestration hinge assembly includes a lateral adjustment plate movably coupled with a remainder of the second leaf. The lateral adjustment plate is configured to position at least a portion of the second leaf laterally relative to one of the frame or the panel. The fenestration hinge assembly includes an adjustable hinge configured for elevation adjustment. The adjustable hinge includes an elevation adjustment pin interconnecting the first and second leaf knuckles. The elevation adjustment pin is configured to position the second leaf vertically relative to the first leaf.

A window frame assembly includes a pair of identical half-frames that can be reversed to mate with each other, with glazing trapped between them. The half-frames are unitary plastic moldings. They include respective arrays of securement fittings that include both male and female fittings. The half-frames have a primary mold opening and closing direction. The securement fittings are formed with transversely moving mold inserts that form the interlocking barbed one-way engagement profiles of the securement fittings. The frames include externally facing surfaces that are free of external fastening hardware. The molded half-frames have abutment stops the prevent over-engagement. They also have window bezels that for a flange relative to the external fascia profile. There is a separate internal peripheral wall stem, to which the male and female fittings abut.

A façade glazing with a metal frame and an insulating glazing unit inserted into the frame, which unit has at least two glass panes and a spacer and sealing profile extending circumferentially therebetween close to their edges, wherein at least one RFID transponder is attached to the insulating glazing unit as an identification element and wherein the frame engages around the edges of the insulating glazing unit and, at the same time, covers the at least one RFID transponder in the through-vision direction (arrow A) through the glass panes, wherein at least one separate metal coupling element is inserted into the frame adjacent the transponder for coupling out and coupling in HF radiation transmitted via the transponder to the outside of the façade glazing and received from the outside.

A smart window including a motorized shade is provided, particularly where the smart window includes a frame portion having a first subframe and a second subframe for mounting the smart window and routing the motor wirings. In a described embodiment, the smart window comprises: a frame portion including a wiring chase positioned internal to the frame portion and a glass portion. The glass portion may comprise a motorized shade, the motorized shade including a motor, a motor wiring, and a shade roll; a first pane of glass attached to the frame portion on an exterior side of the smart window; and a second pane of glass attached to the frame portion on an interior side of the smart window; wherein the frame portion surrounds the glass portion, wherein the motorized shade is attached to the frame portion between the first pane of glass and the second pane of glass by a hanging system, and wherein the motor wiring is positioned internal to the frame portion and the wiring chase.

There is provided a sash apparatus for securing in a window or a door, and a methods making same. The sash apparatus comprises a frame with multiple segments securable to the window or door, where each of the segments has an internal passage therein. The multiple segments are arranged and coupled together at non-straight angles to form the frame, with the internal passages within the segments in fluid communication with one another. The sash apparatus also includes a bonding fill at least partially filling the internal passages within the frame to hold the multiple segments together.