A joint connection structure of a building framework includes a column assembly including a column and a pair of gusset plates connected to the column on opposite sides of the column and extending laterally outward from the column. A beam assembly includes a beam having upper and lower flanges and an end portion received between the gusset plates. The beam assembly is bolted to the column assembly. A channel is attached to one of the column and beam to facilitate connection of the beam assembly to the column assembly. The channel defines an elongate slot for attaching the channel to said one of the column and beam.

A deck framing system includes a ledger that has a joist support wall, a web wall extending perpendicularly from the joist support wall, and an overhang wall extending perpendicularly from the web wall and disposed parallel to the joist support wall. Each of a plurality of joist support brackets is configured to be coupled to the web wall of the ledger and includes at least one ledger attachment wing and a joist support portion that includes a pair of opposed lateral walls and a bracket web wall. Each of a plurality of joists includes at least one lateral wall and a deck support wall that extend from the at least one lateral wall. The at least one lateral wall is configured to be secured to one of the opposed lateral walls of the joist support portion.

A balcony includes a balcony assembly and a structural post and outrigger system. The structural posts provide structural support for buildings and include the outriggers that extend substantially perpendicularly from the structural posts to a location where the balcony assembly will be installed. The outriggers include a tube or beam and an end plate on an end of the beam distal from the structural post. The balcony assembly includes at least one long beam, a platform, and a locking mechanism on an end of the long beam. The locking mechanism includes a channel for receiving and securing the end plate of the outrigger. The balcony assembly is secured to the outrigger using fasteners.

Embodiments disclosed herein relate to a beam-to-column connection systems for a moment-resisting frame as well as moment-resisting frames that include such connection systems.

Pyramidal housing autonomous and suitable for different environmental conditions. Its pyramidal structure (1) is made up of metal profiles (10) that include corner pillars (10a), side pillars (10b), beams or cross structures of mezzanine (17)(19) and rafters that form the openings (4), being the pillars anchored to the foundation beam (13); over this structure, the outer covers (15) that form the pyramidal walls (15a) are mounted; in the blind sections of the outer cover (15) of the upper floor there are mounting supports (32) for arrangements of solar panels (30), while at the apex (12) there is a wind energy generator; other blind sectors allow the mounting of a solar heater (50).

Embodiments of the present disclosure include a deck framing system formed of light gauge steel. The thickness of the light gauge steel components may be different among particular components depending on the load carried by the particular component and depending on the forming method for fabrication of the particular component. The deck framing system includes a ledger in which bracket slots are formed. The bracket slots are spaced apart from each other along a length of the ledger. Each bracket slot receives a joist support bracket. Each of the joist support brackets are received within an end of a joist. According to certain embodiments, the joists are generally in a closed box-like shape. The deck surface is laid on top of and supported by the joists.

A bracket is disclosed. The bracket is coupled to a joist by rotating the bracket relative to the joist until the longitudinal axis of the bracket is aligned in parallel orientation with the longitudinal axis of the joist to achieve a snap-in engagement. The bracket includes a first bracket section having a first lateral wing and an opposite second lateral wing extending outwardly from a base of the first bracket section and a second bracket section that is aligned in perpendicular orientation relative to the first bracket section. The first lateral wing is configured to flex relative to the base, and the second lateral wing is configured to flex relative to the base during engagement of the bracket to a joist.

A framing assembly is disclosed. The framing assembly includes a bracket defining a first bracket section and a second bracket section aligned in perpendicular relation relative to the first bracket section along a bracket bend. The bracket includes a first slit and a second slit formed along the second bracket section. The first slit and the second slit define a tapered or triangular shape. The first bracket section includes a plurality of linear sides and corners defined along the linear sides. The first bracket section may be coupled to a joist by disposing the first bracket section within an interior portion of a joist defined by a web, flanges, and returns of the joist. The linear sides and the corners of the bracket facilitate the bracket to snap in place within the interior portion of the joist and the first slit and the second slit receive the returns of the joist.

Methods for constructing and a building kit for use thereof are disclosed. The building kit includes a plurality of posts configured for embedding within square apertures of a foundation, wherein the posts have a cross-shaped cross-sectional shape, a plurality of cross-shaped cross-sectional shaped elongated members, a plurality of roof panels, wherein the roof panels include solar cells, and a plurality of wall panels having conforming shape to the cross-shaped cross-sectional shaped elongated members.

A bracket is disclosed. The bracket is coupled to a joist by rotating the bracket relative to the joist until the longitudinal axis of the bracket is aligned in parallel orientation with the longitudinal axis of the joist to achieve a snap-in engagement. The bracket includes a first bracket section having a first lateral wing and an opposite second lateral wing extending outwardly from a base of the first bracket section and a second bracket section that is aligned in perpendicular orientation relative to the first bracket section. The first lateral wing is configured to flex relative to the base, and the second lateral wing is configured to flex relative to the base during engagement of the bracket to a joist.