A composite wall panel having a front surface, a rear surface, and side surfaces extending therebetween is provided. The panel includes a cured composition of pieces of cellulose and/or chaff and at least one binder. A wall assembly is also provided. The assembly includes: a frame including a plurality of linearly arranged elongated studs having a top end, a bottom end, and a first longitudinal side and a second longitudinal side extending between the respective ends; a plurality of interconnected wall panels mounted to the first side of the elongated studs of the frame to form a first wall portion; a plurality of interconnected panels mounted to the second side of the elongated studs to form a second wall portion; and an insulating layer inserted within a cavity between the first wall portion and the second wall portion.

A framing member forming a frame of a factory building is provided with a slit for attaching a holder on one side face of the framing member, the slit extending in a longitudinal direction of the framing member, the slit is provided with a detachment prevention mechanism configured to exert an action of preventing an insertion piece of the holder from being detached and to fix the holder to the framing member, along with an insertion of the insertion piece into the slit, and the holder is provided with a pinching piece configured to pinch an end edge portion of a wall panel between the pinching piece and the framing member to fix the wall panel to the framing member, along with the insertion of the insertion piece into the slit.

A framing member forming a frame of a factory building is provided with a slit for attaching a holder on one side face of the framing member, the slit extending in a longitudinal direction of the framing member, the slit is provided with a detachment prevention mechanism configured to exert an action of preventing an insertion piece of the holder from being detached and to fix the holder to the framing member, along with an insertion of the insertion piece into the slit, and the holder is provided with a pinching piece configured to pinch an end edge portion of a wall panel between the pinching piece and the framing member to fix the wall panel to the framing member, along with the insertion of the insertion piece into the slit.

A hybrid operating room with support structure. The hybrid operating room includes an interior for use in the imaging of and performance of surgery on a patient, the interior including a ceiling. The hybrid operating room also includes a support assembly positioned above the unit for supporting equipment used in conjunction with such imaging and surgery so that the equipment extends downwardly from the ceiling into the interior. The support assembly is designed to support a load of at least 3,500 pounds, and more in certain implementations.

An interior building structure is provided and comprises a plurality of side walls, each comprising an exterior surface, an interior surface, a bottom end, and a top end opposite the bottom end, the bottom end being connected to a lower base building slab of the base building and the top end being free. A lateral support structure is further provided that extends from a first wall to a second wall of the plurality of side walls. Airspace portions are formed from gaps between the side walls and the base building structure, decoupling the walls of the interior building structure from the base building structure.

An interior building structure is provided and comprises a plurality of side walls, each comprising an exterior surface, an interior surface, a bottom end, and a top end opposite the bottom end, the bottom end being connected to a lower base building slab of the base building and the top end being free. A lateral support structure is further provided that extends from a first wall to a second wall of the plurality of side walls. Airspace portions are formed from gaps between the side walls and the base building structure, decoupling the walls of the interior building structure from the base building structure.

A frame includes a first frame assembly, where the first frame assembly includes an arm member having a first and second end, a leg member having a first and second end, a first fitting connecting the first end of the arm and leg members at an angle, and a flexible panel fastened to the arm and leg members. A method of building a frame includes assembling a first frame assembly by connecting a first end of an arm member having a first and second end with a first end of a leg member having a first and second end, at an angle using a first fitting, and fastening a first flexible panel to the arm and leg members.

A frame includes a first frame assembly, where the first frame assembly includes an arm member having a first and second end, a leg member having a first and second end, a first fitting connecting the first end of the arm and leg members at an angle, and a flexible panel fastened to the arm and leg members. A method of building a frame includes assembling a first frame assembly by connecting a first end of an arm member having a first and second end with a first end of a leg member having a first and second end, at an angle using a first fitting, and fastening a first flexible panel to the arm and leg members.

A three-dimensional load bearing structure may include a plurality of load bearing members, or force members, that are joined at a plurality of nodes to define a load bearing structure. The structure may include a plurality of longitudinal members extending in parallel along a longitudinal length of the truss structure, and a plurality of transverse members, joined to the plurality of longitudinal members at nodes, and extending between the plurality of longitudinal members. The plurality of transverse members may provide buckling support to the plurality of longitudinal members, so that an axial load, or compressive load, or buckling load, may be effectively carried by the truss structure.

Modular building methods and systems using lightweight modular panels, and specially configured transition panels for transitioning from wall to floor, or from wall to roof. Identically configured standard panels are used for constructing the walls, floor, and roof, with transitions from one structure to the next (e.g., wall to floor, or wall to roof). Each of the variously configured panel types includes channels (e.g., 2 pair of channels) formed through the length of the foam body, where the channels are configured to receive splines (e.g., flanges of an I-beam) therein. In the standard panel, the channels may include pairs of top and bottom channels, with the channels offset towards the respective panel major faces. In the transition panels, the channels may be similarly configured, but positioned differently to make the appropriate transition. The splines are connected to a frame, which acts as a template and transfers loads to a foundation.