A mounting hardware assembly is provided herein that includes a bracket having first and second sections. The first and second sections are coupled to one another by a weakened portion. A jamb flange and a wall flange are each defined by the first section. The wall flange is perpendicularly offset from the jamb flange at a common edge. First and second flange apertures are defined by the jamb flange. An elongated body is defined by the second section. A support flange extends at least partially along the elongated body. The support flange is offset from the elongated body. A plurality of openings are defined by the elongated body. The plurality openings includes at least first and second openings. The first opening and the first flange aperture at least partially align when the second opening and the second flange aperture are at least partially aligned.

A refrigerator including: a main body forming a storage compartment and a door provided to open and close the storage compartment, wherein the door includes a door frame, a cover arranged in front of the door frame and including a cover fixer, and a door panel arranged in front of the cover, the door panel including a first fixer and a second fixer on a rear surface of the door panel. When the door panel is coupled to a front side of the cover, the first fixer is coupled to the door frame and the second fixer is coupled to the cover.

A door or window assembly includes an opening bounded by a frame including a hinge jamb (12). A panel (18) is hung relative to the hinge jamb via a hinge arrangement (20) so as to swing between an open position and a closed position. An engagement configuration includes a ledge (22) located in fixed relation to the hinge jamb, and a flange (24) rigidly associated with the panel. The engagement configuration allows me panel to swing freely between open and closed positions. In the closed position, the flange (24) is brought into facing relation with the ledge (22) such that force directed to displace the panel (18) within the plane of closure away from the hinge jamb (12) acts to bring the flange into engagement with the ledge.

A window system for dissipating impact forces happening upon a window includes first and second window panes spatially separated and surround by a window frame; and tubing positioned between the first and second window panes around a perimeter of the window. A waveform energy having a fundamental frequency is received by one of the first and second window panes and is partially transferred to the tubing. The tubing attenuates the impact of the energy on the window.

A window system for dissipating impact forces happening upon a window includes first and second window panes spatially separated and surround by a window frame; and tubing positioned between the first and second window panes around a perimeter of the window. A waveform energy having a fundamental frequency is received by one of the first and second window panes and is partially transferred to the tubing. The tubing attenuates the impact of the energy on the window.

The system includes a series of operable louvers mounted on a four-sided frame and connected on each side to the operating mechanism that allows for easy opening and closing of the louvers. Every part of the system that is exposing to the exterior of the building is separated from the interior part of the system by a low heat conductivity material as a thermal barrier. Each operable louver is composing of a four-sided main frame, two panes of glass (inner and outer) and a coupling mechanism on each side that connects to the operating mechanism. The main frame acts as the thermal break as well as a system that absorbs the energy created when an outside object impacts the window from the outside. The system incorporates sealing devices between all moving parts to eliminate water and air infiltration. The operating system allows for easy opening and closing of the window by rotating each louver with the crank mechanism assisted by springs.

The system includes a series of operable louvers mounted on a four-sided frame and connected on each side to the operating mechanism that allows for easy opening and closing of the louvers. Every part of the system that is exposing to the exterior of the building is separated from the interior part of the system by a low heat conductivity material as a thermal barrier. Each operable louver is composing of a four-sided main frame, two panes of glass (inner and outer) and a coupling mechanism on each side that connects to the operating mechanism. The main frame acts as the thermal break as well as a system that absorbs the energy created when an outside object impacts the window from the outside. The system incorporates sealing devices between all moving parts to eliminate water and air infiltration. The operating system allows for easy opening and closing of the window by rotating each louver with the crank mechanism assisted by springs.

A fire-blast resistant door assembly comprises a door frame and a door leaf. The front part of the door leaf comprises a front panel and a front stiffener that delimits a cavity from the inside of the front panel, wherein a sheet refractory material is installed in said cavity. The rear part of the door leaf comprises a rear panel and a rear stiffener that delimits a cavity from the inside of the rear panel. A support structure made of metal is installed in said cavity. The front and the rear parts of the door leaf are mutually connected through the layer of the refractory material, forming the thermal break therebetween, so that said support structure abuts against said sheet refractory material. The door frame, in its turn, comprises a front part and a rear part mutually connected through a layer of the refractory material forming a thermal break.

A fire-blast resistant door assembly comprises a door frame and a door leaf. The front part of the door leaf comprises a front panel and a front stiffener that delimits a cavity from the inside of the front panel, wherein a sheet refractory material is installed in said cavity. The rear part of the door leaf comprises a rear panel and a rear stiffener that delimits a cavity from the inside of the rear panel. A support structure made of metal is installed in said cavity. The front and the rear parts of the door leaf are mutually connected through the layer of the refractory material, forming the thermal break therebetween, so that said support structure abuts against said sheet refractory material. The door frame, in its turn, comprises a front part and a rear part mutually connected through a layer of the refractory material forming a thermal break.

An anti-ballistic door having a keyed joint assembly substantially defining an inner perimeter of the door, and a bullet persistent panel secured internal to the door using the keyed joint assembly. The anti-ballistic door has up to a UL 752-Level 8 protection rating having a lower weight relative to conventional anti-ballistic doors and is sized to fit within conventionally sized door frames. An anti-ballistic panel is additionally provided having a keyed joint assembly substantially defining an inner perimeter of the panel, and a bullet persistent panel secured internal to the panel using the keyed joint assembly. The anti-ballistic panel has up to a UL 752-Level 8 protection rating.