The present invention relates to a building construction using a fire protection shield connector within a wall cavity formed by fire protection boards connected to metal framing members together using the fire shield connector as a shield between the fire protection boards and the metal framing members with the fire shield connector ends securing adjacent metal framing members together by interlocking the fire shield connector ends to adjacent fire shield connectors ends and where the fire shield connector end has an extension cover securing the hole opening in the metal framing member and securing the opposing connector end by overlapping the adjacent fire protection shield connector forming a tight fit within the wall cavity.

Described is a construction and parts of the construction for effectively thermally and acoustically insulating and sealing of a safing slot between a floor of a building and an exterior wall construction wherein the exterior wall construction comprises a curtain wall configuration utilizing an interior panel module design. In particular, the thermal insulating and sealing system comprises a first element comprising a cavity having an interior wall surface and an opening, positioned substantially in the height of the floor, wherein the cavity is located in the spandrel area of the interior wall surface, and a second element comprised of a thermally resistant and/or air tight material for insulating, positioned at least partially in the cavity of the first element, wherein the second element includes an inner end surface positionable in abutment with respect to the outer edge of the floor for sealing there adjacent, outer end surface positionable in abutment with respect the interior wall surface of the cavity, a lower facing surface extending between the inner end surface and the outer end surface and facing downwardly therebetween, and an upper facing surface extending between the inner end surface and the outer end surface and facing upwardly therebetween.

This application relates to I-joists which are configured to resist fire damage. Specifically, the present application relates to reinforcing I-joists with reinforcing members configured to provide structural support and/or to provide a physical barrier to fire. This may help the I-joists to maintain structural integrity during a fire and so help improve safety during evacuation of a building and during fire-fighting operations.

A portable facility and corresponding methods and systems for servicing autonomous vehicles, the facility having at least a first enclosure containing a fuel tank and defining a service space between a wall of the enclosure and a second enclosure containing a fuel tank, a roof positioned between the enclosures, a floor positioned between the enclosures, and large automatic doors positioned on opposite ends of the facility to accommodate entry/exit of autonomous vehicles which are guided to and/or by the facility for servicing.

The present is a containment enclosure made from refractory material. The enclosure contains a plurality of panels and a plurality of columns made from refractory material. The enclosure has an interior portion and an exterior portion, and wherein the enclosure contains the effects of extreme fire as well as contains the effects of explosions.

A hanger for connecting a structural component to a wall having sheathing mounted thereon after the hanger is connected to the wall. The hanger includes a channel-shaped portion configured to receive a structural component. An extension portion extends from the channel-shaped portion and is configured to extend through the sheathing. A connection portion extends from the extension portion and is configured for attachment to the wall. The connection portion includes connector flanges configured to attach to a stud of the wall. The extension portion minimally disrupts the continuity of the sheathing to maintain the fire resistive rating of the sheathing.

Premanufactured structures for constructing buildings comprise a construction system for an energy efficient multi-story building with standard single or mixed units. The multi-story building is constructed using premanufactured structures: non-weight bearing walls with finished exterior including all electrical, insulating, plumbing and communications components that are premanufactured at a site distant from a building site, and the non-weight bearings walls are attached to a floor and ceiling slabs, interfacing with each other to enclose units of the building; interior components that are premanufactured at a remote site to connect to inside portions of the non-weight bearing walls; and exterior components that are premanufactured at the remote site to attach to exterior surfaces of the building. Non-weight bearing walls, interior components, and exterior components are installed and connected together to provide the energy efficient multi-story building with units with different floor plans, and optionally, a retail level with underground parking.

A combined wooden frame support and ceiling system is provided, each support including upper and lower wooden chords and a wooden structure connecting the lower chord to the upper chord for weight bearing purposes. A gypsum wallboard batten strip is attached to the lower chord, and defining a ledge extending from each side of the lower chord. A single thickness of gypsum wallboard panels is used to create a ceiling attached to the support, each panel used to create the ceiling is made from a slurry composition including less than 5% by weight of Grade 4 vermiculite. Upon the support being assembled in the ceiling system, with a plurality of the supports, and having lengths of insulation supported by the ledges of the adjacent supports, the ceiling system resists charring by fire for at least one hour.

A module for realizing modular building structures comprises a bearing block having pairs of flat faces with complementary shaped joints for coupling with further similar modules arranged in side by side position, means for anchoring the bearing block to bearing blocks of side-by-side modules for realizing the building structure. The anchoring means comprise one pair of passages mutually perpendicular and staggered along a first transverse direction, the passages extending in the block from respective flat faces. The anchoring means also comprise reinforcing bars adapted to be inserted in a pair of consecutive passages belonging to two mutually side-by-side modules to define a reinforcement meshed armor. Each bar has ends associated with male and female connecting elements for coupling with facing ends of contiguous bars belonging to a side-by-side module.

Embodiments of the present invention are directed towards fire blocking apparatuses. A fire blocking apparatus for a solar panel is mounted to an underlying mounting surface. The fire blocking apparatus includes a panel support structure sized and shaped to be mounted between a solar panel and the mounting surface thereby supporting and creating a gap between at least a portion of the solar panel and the mounting surface, where at least a portion of the panel support structure comprises a heat or fire sensitive material configured to melt, deform, or warp at a predetermined temperature such that when the structure is mounted between the solar panel and the mounting surface and heated at or above the predetermined temperature, the panel support structure collapses to reduce the gap between the at least a portion of the solar panel and the mounting surface.