A support-framework (1) supports a surface (2), or supported elements, at a designed variable spacing from a support surface (3), using elongate supports (4) of rod-from or tubular-form that act as ties or struts. Each support (4) is anchored at one of its ends to the supported surface (2) or element and, at the other end, to the support surface (3). The anchoring at each end is via a node N that involves an individual domed-member (5) which is secured to the relevant surface (2, 3) or supported element, and which has a part-spherical surface (6) to which the elongate supports (4) are anchored to extend radially by a coupling (12). The domed-members (5) are metallic or plastics, and may each be hemispherical having an outwardly directed equatorial flange (7) by which they are secured to the relevant surface (2, 3) or supported element.

A system is disclosed comprising a plurality of connected cuboctahedrons forming a column for a building, cuboctahedron comprising a plurality of legs connected by connectors, the first ends of two short sections of a leg are screwed into two separate first and second connector balls, and wherein the first ends of two separate coupling nuts are screwed fully onto the first and second ends of a longer separate section of leg, and wherein the first and second ends of each such longer section of leg, with said coupling nuts screwed fully thereon, are fitted end to end with the second ends of the two short sections of leg already fitted into the corresponding first and second connector balls, first above mentioned, and wherein the first ends of each such coupling nuts are screwed from the first and second ends of the longer section of leg onto the second ends of the short sections of leg first above mentioned which had been screwed into said first and second connector balls.

A node for interconnecting frame members of a frame, the node including a single piece node body. A plurality of cup-shaped node connectors are disposed on the node body. Each of the plurality of node connectors include a closed end attached to the node body and an open end opposite the closed end and extending away from the node body. A sidewall extends between and connects the closed end to the open end. A tenon is formed on the open end. The tenon is shaped and sized to fit within a frame member. A transition is formed between the sidewall and the tenon defining a peripheral, radially outwardly facing groove in cooperation with the frame member, the groove shaped and sized to receive a weld.

A spatial structure that enables the assembly and disassembly of architectural elements quickly and easily, ensuring the necessary structural robustness and which basically comprises a node (1) with a plurality of sockets (2), a bar (3) intended for insertion at either of the two ends thereof in said sockets (2), a perforated screw (5) whose inner surface (6) allows the insertion of the end of the bar (3) and whose outer surface is coupled to the sockets (2), and a portion of flexible washer (8) suitable for insertion into the socket (2) of the node (1) and closing by compression as a result of the thrust exerted by the perforated screw (5) to adopt the shape of a substantially closed washer such that said bar (3) is locked inside the perforated screw (5), preventing the disassembly of the structure but not the rotation of the bar (3) inside the socket (2).

A node for interconnecting frame members of a frame, the node including a single piece node body. A plurality of cup-shaped node connectors are disposed on the node body. Each of the plurality of node connectors include a closed end attached to the node body and an open end opposite the closed end and extending away from the node body. A sidewall extends between and connects the closed end to the open end. A tenon is formed on the open end. The tenon is shaped and sized to fit within a frame member. A transition is formed between the sidewall and the tenon defining a peripheral, radially outwardly facing groove in cooperation with the frame member, the groove shaped and sized to receive a weld.

A building technique uses standard shipping containers as buttresses to support a truss system that may extend between the shipping containers to provide a roof. A sliding connector system attaches the trusses to the shipping containers to accommodate variations in separation of the shipping containers presenting a versatile framing system that is insensitive to site-related variations.

A rotary joint includes a socket rod having a socket rod flange with a basically spheroid con-cave bearing surface at a first end, a housing nut encircling the socket rod and having a threaded wrenching head, a ball rod having a basically spheroid convex bearing surface and threaded side walls around the convex bearing surface, and a joint actuator configured to actuate relative movement of the socket rod flange and the ball rod. A diameter of the threaded side walls of the ball rod corresponds to a diameter of the threaded wrenching head of the housing nut.

A connector includes at least two cavities or receptacles extending from a base to receive adjacent tubes of a wall or panel. The receptacles are closed at one end. At least two walls extend from the base in the same direction as the receptacles. The walls are positioned on the base and outside the receptacles such that the panels are secured to a specific angular orientation with respect to each other. A top connector and a bottom connector are used to secure rods or tubes of adjacent panels. A series of top and bottom connectors can be used to secure multiple panels to form an enclosure, such as a kennel or gazebo.

A spatial structure that enables the assembly and disassembly of architectural elements quickly and easily, ensuring the necessary structural robustness and which basically comprises a node (1) with a plurality of sockets (2), a bar (3) intended for insertion at either of the two ends thereof in said sockets (2), a perforated screw (5) whose inner surface (6) allows the insertion of the end of the bar (3) and whose outer surface is coupled to the sockets (2), and a portion of flexible washer (8) suitable for insertion into the socket (2) of the node (1) and closing by compression as a result of the thrust exerted by the perforated screw (5) to adopt the shape of a substantially closed washer such that said bar (3) is locked inside the perforated screw (5), preventing the disassembly of the structure but not the rotation of the bar (3) inside the socket (2).

A modular building system includes a joint for interconnecting a network of struts in a tetrahedral arrangement for forming a structural component supporting a floor, ceiling or post. The interconnected struts have a uniform length and join together with other struts at a predetermined angle defined by the joint. Once connected, the struts and joints form a tensioned network of a load bearing surface or post, where the members are in a tensioned arrangement at an equilibrium. External forces, such as moving loads, winds, and rain tend to spread the loads across the network of tensioned members, temporarily resulting in compression along some of the rigid struts. Panels join the strut network or lattice by load caps secured to the joints for receiving triangular panels matching the joint spacing.