The present application is directed toward fire-rated wall construction components and wall systems for use in building construction. Embodiments can include tracks for holding studs which incorporate various geometries capable of receiving fire-retardant material, flat straps for use between tracks and fluted wall components, fire sponges for use in fluted wall components, and tracks with protruding grooves or other structures which prevent unwanted air movement between a wallboard component and the track.

The present application is directed toward fire-rated wall construction components and wall systems for use in building construction. Embodiments can include tracks for holding studs which incorporate various geometries capable of receiving fire-retardant material, flat straps for use between tracks and fluted wall components, fire sponges for use in fluted wall components, and tracks with protruding grooves or other structures which prevent unwanted air movement between a wallboard component and the track.

A strut and method using same is provided. The strut comprises a body member having a longitudinal axis, a first end and a second end. A first gripping member is connected to the first end of the body member. The first gripping member comprises a first plate for engaging a first structural engagement member. A second gripping member is connected to the second end of the body member. The second gripping member comprises a second plate for engaging a second structural member. The body member of the strut extends in a direction to intercept each of the first and second plates.

A strut and method using same is provided. The strut comprises a body member having a longitudinal axis, a first end and a second end. A first gripping member is connected to the first end of the body member. The first gripping member comprises a first plate for engaging a first structural engagement member. A second gripping member is connected to the second end of the body member. The second gripping member comprises a second plate for engaging a second structural member. The body member of the strut extends in a direction to intercept each of the first and second plates.

A wall assembly includes tracks structured to be coupled to supports and wall studs coupled to the tracks. The wall studs include a first sidewall, a first web coupled to the first sidewall and a second sidewall coupled to the first web to define a first channel. The wall studs further include a second web coupled to the second sidewall and a third sidewall coupled to the second web to define a second channel as well as a third web coupled to the third sidewall and a fourth sidewall coupled to the third web to define a third channel. The second web is offset from the first web and the third web to isolate each of the channels and attenuate sound waves. Further, the studs may include one or more openings for further isolation and to reduce the amount of steel in the studs, which reduces cost.

A wall assembly includes tracks structured to be coupled to supports and wall studs coupled to the tracks. The wall studs include a first sidewall, a first web coupled to the first sidewall and a second sidewall coupled to the first web to define a first channel. The wall studs further include a second web coupled to the second sidewall and a third sidewall coupled to the second web to define a second channel as well as a third web coupled to the third sidewall and a fourth sidewall coupled to the third web to define a third channel. The second web is offset from the first web and the third web to isolate each of the channels and attenuate sound waves. Further, the studs may include one or more openings for further isolation and to reduce the amount of steel in the studs, which reduces cost.

Exemplary embodiments relate to a quick-assemble construction system that includes various components that can be positioned and interconnected quickly and later adjusted and tightened. The quick-assemble construction system was envisioned specifically for freestanding seating systems that can be quickly installed and removed if needed, although the quick-assemble construction system can be used in a wider range of applications and is not limited to seating systems.

Exemplary embodiments relate to a quick-assemble construction system that includes various components that can be positioned and interconnected quickly and later adjusted and tightened. The quick-assemble construction system was envisioned specifically for freestanding seating systems that can be quickly installed and removed if needed, although the quick-assemble construction system can be used in a wider range of applications and is not limited to seating systems.

A glass beam element, for constructing a loadbearing structure, comprises at least one elongate structural reinforcement section extending along a longitudinal direction, and at least one glass segment bonded to said at least one elongate structural reinforcement section. The at least one elongate structural reinforcement section comprises a weldable material, and the at least one glass segment has a length along the longitudinal direction that is shorter than the elongate structural reinforcement section such as to allow welding of an end region of the at least one elongate structural reinforcement section without thereby damaging the at least one glass segment.

A composite wall assembly has an auxiliary wall and an inner wall. The auxiliary wall has a hollow space and a first supporting pillar having multiple first through holes. The inner wall is attached to the auxiliary wall and forms a depositing space. The inner wall has a first wall member, a second wall member, and a second supporting pillar having multiple second through holes. The depositing space is formed between the first wall member and the second wall member. The auxiliary wall provides a cushion effect and is not damaged easily in the earthquake for protecting the pipelines in the hollow space. The interior ambient temperature of the building is lowered by the hollow space of the auxiliary wall.