A beam system and method of erecting a supporting arch enables large roofed structures to be erected quickly and economically. The method includes aligning a plurality of structural elements longitudinally; connecting upper corners of the structural elements to upper corners of adjacent structural elements, wherein adjacent lower corners of the structural elements remain unconnected; elevating first and second structural elements in a middle of the supporting arch; connecting lower corners of the first and second structural elements together; elevating third and fourth structural elements adjacent the first and second structural elements, respectively; and connecting lower corners of the third and fourth structural elements to lower corners of the first and second structural elements, respectively.

The invention is a structural connector used as a component to construct an arch consisting of a plurality of closely adjacent, polygonal rows of stringer beams. The multiple row polygonal arch is a low-cost, general purpose support structure for bridges, shelters and arbors applicable to many cost-, time- or environmentally-sensitive situations. The invention is a Y-shaped connector, typically made of sheet metal, with three brackets, two upper brackets and a lower bracket, which collectively enable a union of three beams forming one node of the multiple row polygonal arch. Using these Y-shaped connectors to join the beams at each node creates the arch structure, and additionally provides the features of cantilevering, modularity, generic component shape, reusability and safety. The invention is applicable to a variety of structures such as: pedestrian and vehicular bridges, shelters, arbors, as well as jewelry, furniture and toys.

DE 86 22 844 01 discloses a tent having a carrying framework and a tarpaulin arranged thereon, wherein the carrying framework is formed by a scissor type system of rods having the tarpaulin arranged thereon.

An apparatus for transferring force to a frame of a solar mirror array. The frame has at least one structural element. The apparatus includes a torque plate. The apparatus includes at least one node attached to and in contact with the plate which connects with the structural element. An apparatus for attaching a primary solar mirror frame array with a secondary mirror frame array. A solar trough frame for holding solar mirrors.

An alternative design for a cabin or a house which utilizes an arched shape to provide a significantly stronger overall structure. The design includes a first roofing structure, a second roofing structure, a planar base, and a ridge beam. The planar base makes up the flooring for the cabin. The ridge beam is positioned parallel to and offset to the planar base to join and support the first roofing structure and the second roofing structure. The first roofing structure and the second roofing structure are positioned opposite to each other across the bridge beam and each includes a plurality of arched beams and a plurality of roofing boards. The arched beams are distributed along the bridge beam and are connected in between the bridge beam and the planar base. The roofing boards are distributed across and mounted to the arched beams to make up the roof of the cabin.

An alternative design for a cabin or a house which utilizes an arched shape to provide a significantly stronger overall structure. The design includes a first roofing structure, a second roofing structure, a planar base, and a ridge beam. The planar base makes up the flooring for the cabin. The ridge beam is positioned parallel to and offset to the planar base to join and support the first roofing structure and the second roofing structure. The first roofing structure and the second roofing structure are positioned opposite to each other across the bridge beam and each includes a plurality of arched beams and a plurality of roofing boards. The arched beams are distributed along the bridge beam and are connected in between the bridge beam and the planar base. The roofing boards are distributed across and mounted to the arched beams to make up the roof of the cabin.

A node for connecting together at least a first support element, a second support element and a third support element of a support frame such as a solar frame which supports solar reflectors. A method for connecting together at least a first support element, a second support element and a third support element of a solar frame which supports solar reflectors. A system for supporting solar reflectors includes a first support frame upon which the solar reflectors are disposed. A method for forming a support frame for solar reflectors. A system for constructing a support frame from parts, including chords, for solar reflectors. A method for constructing a support frame for solar reflectors. A support frame for solar reflectors.

An alternative design for a cabin or a house which utilizes an arched shape to provide a significantly stronger overall structure. The design includes a first roofing structure, a second roofing structure, a planar base, and a ridge beam. The planar base makes up the flooring for the cabin. The ridge beam is positioned parallel to and offset to the planar base to join and support the first roofing structure and the second roofing structure. The first roofing structure and the second roofing structure are positioned opposite to each other across the bridge beam and each includes a plurality of arched beams and a plurality of roofing boards. The arched beams are distributed along the bridge beam and are connected in between the bridge beam and the planar base. The roofing boards are distributed across and mounted to the arched beams to make up the roof of the cabin.

An alternative design for a cabin or a house which utilizes an arched shape to provide a significantly stronger overall structure. The design includes a first roofing structure, a second roofing structure, a planar base, and a ridge beam. The planar base makes up the flooring for the cabin. The ridge beam is positioned parallel to and offset to the planar base to join and support the first roofing structure and the second roofing structure. The first roofing structure and the second roofing structure are positioned opposite to each other across the bridge beam and each includes a plurality of arched beams and a plurality of roofing boards. The arched beams are distributed along the bridge beam and are connected in between the bridge beam and the planar base. The roofing boards are distributed across and mounted to the arched beams to make up the roof of the cabin.

A connector is described herein. In an embodiment, a connector may comprises an upper wall, a lower wall, one or more outer circular walls and one or more inner circular walls; wherein one of the one or more outer circular walls is an extended part of the upper wall or the lower wall; wherein one of the one or more outer circular walls and one of the one or more inner circular walls are configured to form a circular slot between the outer circular wall and the inner circular wall; wherein the connector is configured to accommodate a plurality of ends of a plurality of planar panels in the circular slot to connect the plurality of planar panels. The connect further comprises a top connector piece and a bottom connector piece; wherein the top connector piece comprises the upper wall and one of the one or more inner circular walls; wherein the bottom connector piece comprises the lower wall and one of the one or more inner circular walls; wherein the top connector piece and the bottom connector piece are configured to be joined. In an embodiment, the connector is configured to facilitate the assembly of a dome structure.