The present invention relates an exercising system. The exercising system is a geodesic dome structure coupled with an exercise device such as a flywheel. The geodesic dome is made up of multiple struts coupled to each other at multiple hubs. The exercise device is engaged with the hub to allow a user to exercise through the flywheel.

A geodesic dome accessory having an accessory frame that utilizes a base frame and an upper frame. The base frame is attached to the frame of the geodesic dome on interior to the frame. The upper frame attaches to the base frame and secures the membrane of the geodesic dome between the upper frame and the base frame, providing a weather resistant or tight seal. The base frame forms an opening to access from the exterior of the dome to the interior. The upper frame can be in a variety of configurations, including a window, door, vent passage, or stove pipe passage. The structural framing of the dome can remain with the base frame in the shape of the opening between frame elements, such as a window, or the framing can be removed with the accessory base frame forming the structural support replacing the standard framing, such as a door.

The invention relates to a modular building structure (10) comprising: a framework (12) including a plurality of rods (14) and connectors (16) to interconnect the plurality of rods (14) together, the framework (12) comprising empty spaces bordered by corresponding rods (14) of said plurality of rods; a plurality of panels (20), wherein one panel (20) is mounted inside each empty space and connected to the framework (12) in order to create an interior (40), an air chamber layer (44) inside which air may circulate, said air chamber layer (44) forming at least a portion of an outer surface of said interior (40), at least one upper valve system (46a) mounted in the upper portion of the structure (10), and at least one lower valve system (46b) mounted in the lower portion of the structure (10). The at least one upper and lower valve systems (46a, 46b) are selectively operable to regulate the thermal conditions inside the interior (40) as a function of the meteorological conditions outside the modular building structure (10) and a desired temperature inside the interior (40). The invention also relates to a method for operating the at least one upper and lower valve systems (46a, 46b) of the modular building structure (10).

An arch grid bolted sphere node rotating and fixing device and an arch grid mounting system. The device includes a base, a fixing part, and a rotating part. The fixing part includes a groove body, a first vertical plate, and a second vertical plate. The groove body, the first vertical plate, and the second vertical plate are respectively connected to the base. A notch of the groove body is obliquely upward. The first vertical plate and the second vertical plate are respectively located on opposite sides of the groove body. The first vertical plate is provided with a first through hole. The second vertical plate is provided with a second through hole. The first through hole and the second through hole are formed oppositely. The rotating part includes a first rod piece, a rotating sphere, and a second rod piece that are connected in sequence.

A spherical tent frame includes a plurality of support rods and a plurality of connecting members, each of the connecting members is provided with at least two connectors and each of the connectors is axially embedded with a socket; wherein an annular groove is provided in a position of the inner wall of the socket close to the bottom, and a plurality of elastic pieces pointing to the center of the bottom of the socket are arranged along the upper edge of the annular groove; both ends of each of the support rods are inserted to the socket to form a hemispherical frame put up with triangles as a unit and the connecting member as a vertex.

A strut connector is described. In particular, a strut connector for connecting at least two struts, the strut connector defining a periphery and comprising at least one first connecting means adjacent the periphery thereof configured to connect one or more of the struts for securing the struts to the strut connector at any point about the periphery. This provides increased flexibility to allow complex geodesic shapes to be constructed.

The present utility model provides a spherical tent frame, comprising a plurality of support rods and a plurality of connecting members, each of the connecting members is provided with at least two connectors and each of the connectors is axially embedded with a socket; wherein an annular groove is provided in a position of the inner wall of the socket close to the bottom, and a plurality of elastic pieces pointing to the center of the bottom of the socket are arranged along the upper edge of the annular groove; both ends of each of the support rods are inserted to the socket to form a hemispherical frame put up with triangles as a unit and the connecting member as a vertex. For the technical solution of this utility model, according to the principle of stability of the triangle, the support rods are set up to a hemispherical frame in a unit of triangle by various multi-head connecting members, with aesthetic appearance, and the frame structure is firm and not easily deformed, and with the elastic pieces in the socket, the support rod is not easily fallen off or loosen from the connecting member after stressed, which assists in enhancing the overall stability of the tent frame and is convenient and quick to install.

The present disclosure relates to a self-forming weaving structure system by elastic rod for construction of spatial curved surface and a construction method thereof, the structural system includes a gridshell structure of a spatial curved surface, the gridshell structure includes a group of elastic rods, the elastic rods form a self-forming gridshell structure by bending the rods, and connecting each designated connection point on the rods to form a hinged joint or a rigid joint.

The disclosure is directed to an elongated geodesic dome with an arched-tunnel section. In some embodiments including: a first adjustable angle hub connector, the first adjustable angle hub connector being a connector of a first plurality of tubular struts, the first plurality of tubular struts being inserted into the first adjustable angle hub connector; a second adjustable angle hub connector, the second adjustable angle hub connector being a connector of a second plurality of tubular struts, the second plurality of tubular struts being inserted into the second adjustable angle hub connector; a third adjustable angle hub connector, the third adjustable angle hub connector being a connector of a third plurality of tubular struts, the third plurality of tubular struts being inserted into the third adjustable angle hub connector. The adjustable angle hub connectors may be removable for adjusting a length of the arched-tunnel section of the elongated geodesic dome.

A construction structure of a geodesic dome-shaped house and a connection structure body thereof comprises: a plurality of triangular unit modules constituting a unit structure and a connection structure body of a geodesic dome-shaped house; a pair of inner beams which are disposed on both opposing sides of the triangular unit module; a connector which is disposed in a corner area between the pair of inner beams and connected to the pair of inner beams by a first coupling member; and a pair of outer beams which are disposed on outer surfaces of the pair of inner beams, respectively and connected to the connector and the inner beams by a second coupling member.