A structural wall panel system for use in light gauge construction to form a wall with door or window openings. The system includes a structural frame defining a wall opening sized and configured to receive a wall panel. A non-structural wall panel is removably fixed within the wall opening of the structural frame. The wall panel may include at least one opening for a door or window. The wall panel is mounted within the wall opening using a plurality of catch clips. The catch clips are mounted to the structural frame and they precisely position and retain the wall panel within the wall opening of the frame.

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.

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.

There is disclosed an elongate structural element (10). The element (10) includes an inner plate (12) having first and second opposing planar surfaces (14, 16). The element (10) further includes first and second outer sections (18, 18). Each of the outer sections (18, 18) comprises a central wall (20) having a pair of longitudinal grooves (32, 34). Each of the outer sections (18, 18) further comprises a pair of side walls (22, 24) extending from the central wall (20) to define a generally U-shaped channel (30). The longitudinal grooves (32, 34) depress into the U-shaped channel (30). Each of the outer sections (18, 18) further comprises a pair of flanges (26, 28) respectively extending outwardly from the pair of side walls (22, 24). The flanges (26, 28) of the first outer section (18) are attached to the first planar surface (14) of the plate (12) and the flanges (26, 28) of the second outer section (18) are attached to the second planar surface (16) of the plate (12) such that the U-shaped channels (30) are substantially closed by the inner plate (12) and opposed to each other.

There is disclosed an elongate structural element (10). The element (10) includes an inner plate (12) having first and second opposing planar surfaces (14, 16). The element (10) further includes first and second outer sections (18, 18). Each of the outer sections (18, 18) comprises a central wall (20) having a pair of longitudinal grooves (32, 34). Each of the outer sections (18, 18) further comprises a pair of side walls (22, 24) extending from the central wall (20) to define a generally U-shaped channel (30). The longitudinal grooves (32, 34) depress into the U-shaped channel (30). Each of the outer sections (18, 18) further comprises a pair of flanges (26, 28) respectively extending outwardly from the pair of side walls (22, 24). The flanges (26, 28) of the first outer section (18) are attached to the first planar surface (14) of the plate (12) and the flanges (26, 28) of the second outer section (18) are attached to the second planar surface (16) of the plate (12) such that the U-shaped channels (30) are substantially closed by the inner plate (12) and opposed to each other.

A building construction element for the efficient erection of a building is disclosed. The construction element is attached to other construction elements to form a structure or positioned around a structure to provide protection behind the series of construction elements. The construction element includes a plurality of interlocking supports, a first coupling bracket, a second coupling bracket, an interior-wall sheet, and an exterior-wall sheet. Each of the interlocking supports engage at least one other interlocking support to form a wall. The first coupling bracket and the second coupling bracket secure the plurality of interlocking supports together. The interior-wall sheet and the exterior-wall enclose the plurality of interlocking supports, the first coupling bracket, and the second coupling bracket in order to reduce heat and sound transfer through the construction element.

A plurality of metalogs form a freestanding wall or fence, or structure comprising walls, upper floors whenever applicable and/or roof of a building. Each metalog has an axis. A stiffener extends through a set of aligned holes in the metalogs at right angles to the axes. One or more additional stiffeners may similarly extend through one or more additional sets of aligned holes in the same metalogs. The stiffeners function to resist forces acting in a direction parallel to the axes of the metalogs and therefore enhance the stability of the structure and obviate otherwise required X-bracing.

A plurality of metalogs form a freestanding wall or fence, or structure comprising walls, upper floors whenever applicable and/or roof of a building. Each metalog has an axis. A stiffener extends through a set of aligned holes in the metalogs at right angles to the axes. One or more additional stiffeners may similarly extend through one or more additional sets of aligned holes in the same metalogs. The stiffeners function to resist forces acting in a direction parallel to the axes of the metalogs and therefore enhance the stability of the structure and obviate otherwise required X-bracing.

A wall construction includes a number of spaced apart, upright channel-shaped studs having open upper ends, and a number of panels forming an exterior wall. The panels have tie members that extend into the studs. An elongate support member is attached to the studs adjacent to the upper ends of the studs. The support member does not block access to the upper ends of the studs so that the studs can be filled with concrete with the support member remaining in place attached to the studs.

A light-weight metal framing member includes a metal stud and reinforcement plate(s), and method to produce a light-weight metal framing member may include forming a pair of channel members each having a respective major face having a respective first edge, and reinforcing such with one or more reinforcement plates, preferably at opposed ends thereof. Each member includes first and second flanges extending along the respective major face. A wire matrix includes a pair of wires each having apexes alternatively physically attached to the pair of channel members. The wire matrix forms longitudinal passages to support utility lines and position the lines away from the pair of channel members. The apexes are secured to flanges of the pair of channel members to strengthen the stud and reduce weight.