Embodiments of an article comprising a cold-formed glass substrate in a curved shape, a plurality of separate mechanical retainers, and a frame are disclosed. The cold-formed glass substrate has a first major surface, and a second major surface opposing the first major surface. In one more embodiments, the plurality of separate mechanical retainers are attached to the second major surface of the cold-formed glass substrate. The mechanical retainers may be attached to the frame to define a position for each of the plurality of mechanical retainers, such that the mechanical retainers define the curved shape. Embodiments of processes to form such articles are also provided. Such processes can include attaching a plurality of separate mechanical retainers to a flexible glass substrate such that the glass substrate maintains its flexibility, and attaching the mechanical retainers to a frame, such that the mechanical retainers attached to the frame define a cold-formed curved shape for the flexible glass substrate.

In one aspect, window inserts are described herein, which can modulate transmission of electromagnetic radiation through a window and can be self-powered. In some embodiments, a window insert comprises a photovoltaic device, the photovoltaic device including a photosensitive layer having peak absorption between 250 nm and 450 nm and an average transmittance of at least 50 percent in the visible region of the electromagnetic spectrum.

A fenestration system includes a frame defining a sealing slot; a pane assembly assembled with the frame, the pane assembly defining an edge; a gap defined between the frame and the edge; and a fin seal defining a connector portion and a fin portion extending from the connector portion, the connector portion engaging the sealing slot, the fin portion extending across the gap and abutting the edge, the fin portion tapering in thickness between the connector portion and the edge.

A door includes a door frame, first and second door skins having rectangular outer peripheries and inner openings, and a frameless glazed unit received at the openings. The door skins include exterior surfaces facing away from the door frame and opposite interior surfaces facing and secured to opposite sides of the door frame. The exterior and interior surfaces of the first and second door skins establish integral lips and grooves of the first and second door skins. Opposite sides of the frameless glazed unit directly contact and are sealed by the integral lips and sealant and/or adhesive contained in the grooves of the first and second door skins.

A door includes a door frame, first and second door skins having rectangular outer peripheries and inner openings, and a frameless glazed unit received at the openings. The door skins include exterior surfaces facing away from the door frame and opposite interior surfaces facing and secured to opposite sides of the door frame. The exterior and interior surfaces of the first and second door skins establish integral lips and grooves of the first and second door skins. Opposite sides of the frameless glazed unit directly contact and are sealed by the integral lips and sealant and/or adhesive contained in the grooves of the first and second door skins.

An assembled door frame is provided, including multiple of side frames spliced together, where every adjacent two of the side frames spliced at right angle are connected via a corner connector assembly. The corner connector assembly is arranged inside the every adjacent two of the side frames spliced at right angle. The corner connector assembly includes a corner connector and fixing bolts, and one of the every adjacent two of side frames spliced at right angle is fixed on the corner connector by the fixing bolts. In the embodiments, the side frames are spliced directly together through the respective corner connector assemblies each including the corner connector and the fixing bolts. On one hand, the corner connector and the fixing bolts are each disposed within the corresponding side frame, such that the original external structure of the side frames will not be changed after the side frames are spliced together, thereby reducing assembly errors of the door frame caused by using the connecting structure. On the other hand, the direct splicing of the side frames is achieved merely by two types of members that are the corner connector and the fixing bolts. So compared with the prior art, a welding process of the side frames is not required, the structure thereof is simple, and the mounting thereof is convenient.

A door include a first skin, a second skin, and a glazing unit. The first skin includes a first skin body portion, and a first flange portion extending inward from the first skin body portion. The first skin body portion has a first tip. A second skin includes a second skin body portion, and a second flange portion extending inward from the second skin body portion. The second skin body portion has a second tip. A glazing unit has an edge disposed adjacent to and between the first tip and the second tip. The first flange portion and the second flange portion provide an interlocking structure.

A panel frame (10) is provided, comprising a first profile (100) having a first structure (102) to support a first side (52) of an associated panel (50), and a second structure (104) to support an edge (56) of the same panel (50), and a second profile (200) being configured to connect to the first profile (100) and comprising a first structure (202) to support a second side (54) of the panel (50). The first profile (100) comprises at least one magnetic portion (120), such that a magnetic member (300) can be attached to the magnetic portion (120) in order to temporary clamp the panel (50) between the magnetic member (300) and the first structure (102) of the first profile (100).

A glazing includes a frame made of a metallic first frame element, a metallic second frame element, and a polymeric third frame element connecting the frame elements at least in some sections, a glazing unit arranged in the frame, and a RFID transponder having a dipole antenna or a slot antenna and an operating frequency f, wherein the frame surrounds the end faces of the glazing unit and, at the same time, covers the RFID transponder in the viewing direction through the glazing unit, a distance D between the center of the dipole antenna or the center of the slot antenna and the nearest adjacent corner of the glazing unit is from 40% to 100% of a vacuum wavelength lambda corresponding to the operating frequency f, and the RFID transponder is arranged on an interior-side surface of the frame.

A wing profile has a glass package including several glass plates, wherein the wing profile has a reinforcement element made of plastic, which substantially is mounted on the wing profile below the entire support surface of the glass package. Between the reinforcement element and the glass package, a cohesive connection is provided by a plurality of adhesive elements.