Connectors for a framing system, wherein each of the connectors includes pairs of flanges that extend in parallel away from a base.

A full-moment column collar is disclosed, including four collar flange components and four collar corner components. Each collar flange component includes an upper transverse element and a lower transverse element, connected by a bridging member. Each collar corner component includes first and second expanses defining a corner and a standoff portion extending from the corner, the standoff portion having a distal T-shaped structure. Each collar corner component is configured to connect two adjacent collar flange components, and each collar corner component has a multi-axis alignment structure extending from a bottom end portion for vertically positioning a lower transverse element of a respective collar flange component.

A full-moment column collar is disclosed, including four collar flange components and four collar corner components. Each collar flange component includes an upper transverse element and a lower transverse element, connected by a bridging member. Each collar corner component includes first and second expanses defining a corner and a standoff portion extending from the corner, the standoff portion having a distal T-shaped structure. Each collar corner component is configured to connect two adjacent collar flange components, and each collar corner component has a multi-axis alignment structure extending from a bottom end portion for vertically positioning a lower transverse element of a respective collar flange component.

A full-moment column collar is disclosed, including four collar flange components and four collar corner components. Each collar flange component includes an upper transverse element and a lower transverse element, connected by a bridging member. Each collar corner component includes first and second expanses defining a corner and a standoff portion extending from the corner, the standoff portion having a distal T-shaped structure. Each collar corner component is configured to connect two adjacent collar flange components, and each collar corner component has a multi-axis alignment structure extending from a bottom end portion for vertically positioning a lower transverse element of a respective collar flange component.

A modular connection device is provided. The modular connection device includes a base and a plurality of connection members. The base includes a plurality of connection surfaces, wherein each of the connection surfaces is connected with each other. Each of the connection members is detachably connected on each of the connection surfaces.

A modular building structure with relative integrated plants, as obtained by assembling a plurality of module frames to obtain a complex frame, allows associating ducts of one or more plants to the module frame. The module frames have a parallelepiped-like shape and are identified by beams joining in respective angles, including a plurality of connecting knots joining module frames adjacent to the angles; the adjacent beams of side-by-side module frames are spaced apart by the knots and the panels and are connected to the beams of the module frame thereto, so as to create an air gap. The integrated plants have a plurality of ducts arranged in the air gaps and in the through channels, which include, at edges or angles of the module frame, quick connections for connecting the ducts related to a module frame to those of another module frame placed side-by-side thereto.

Provided herein is an assembly for carrying or supporting a load. The assembly comprises a plurality of members connectable in an assembled arrangement for carrying or supporting the load. Each member comprises a first end and a second end, at least one of the first end and the second end has a pair of connecting members comprising two lugs that each has defined therein two holes. The lugs are configured for alignment with a corresponding pair of lugs formed on another member in the assembly. Fasteners extend through the holes formed in the lugs when the holes are aligned. Further provided are members for use in the assembly and connector elements for attaching two or more members in the assembly.

A connector element for installation between a building fixture component and a building, including an insulating body for creating a thermal insulation between the building fixture component and the building. The insulating body has a first edge region on the building side and a second edge region on the side of the building fixture component, and includes a force absorption element with a first extension portion arranged on the building side, and a second extension portion arranged on the side of the building fixture component. The force absorption element exerts a resistance force counter to a force emanating from the building fixture component and has a force-path characteristic which defines the resistance force in dependence on a relative movement of the building fixture component relative to the building.

A full-moment column collar is disclosed, including four collar flange components and four collar corner components. Each collar flange component includes an upper transverse element and a lower transverse element, connected by a bridging member. Each collar corner component includes first and second expanses defining a corner and a standoff portion extending from the corner, the standoff portion having a distal T-shaped structure. Each collar corner component is configured to connect two adjacent collar flange components, and each collar corner component has a multi-axis alignment structure extending from a bottom end portion for vertically positioning a lower transverse element of a respective collar flange component.

A modular building structure with relative integrated plants, as obtained by assembling a plurality of module frames to obtain a complex frame, allows associating ducts of one or more plants to the module frame. The module frames have a parallelepiped-like shape and are identified by beams joining in respective angles, including a plurality of connecting knots joining module frames adjacent to the angles; the adjacent beams of side-by-side module frames are spaced apart by the knots and the panels and are connected to the beams of the module frame thereto, so as to create an air gap. The integrated plants have a plurality of ducts arranged in the air gaps and in the through channels, which include, at edges or angles of the module frame, quick connections for connecting the ducts related to a module frame to those of another module frame placed side-by-side thereto.