ROTARY JOINT, FRAMEWORK CONSTRUCTION KIT AND METHOD FOR MANUFACTURING A ROTARY JOINT
First Claim
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1. A rotary joint, comprising:
- a socket rod having a socket rod flange with an at least partly spheroid concave bearing surface at a first end;
a housing nut encircling the socket rod and having a threaded wrenching head; and
a ball rod having an at least partly spheroid convex bearing surface and threaded side walls around the bearing surface,wherein a diameter of the threaded side walls of the ball rod corresponds to a diameter of the threaded wrenching head of the housing nut.
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Abstract
A rotary joint includes a socket rod having a socket rod flange with an at least partly spheroid concave bearing surface at a first end, a housing nut encircling the socket rod and having a threaded wrenching head, and a ball rod having an at least partly spheroid convex bearing surface and threaded side walls around the bearing surface. The diameter of the threaded side walls of the ball rod corresponds to a diameter of the threaded wrenching head of the housing nut.
10 Citations
14 Claims
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1. A rotary joint, comprising:
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a socket rod having a socket rod flange with an at least partly spheroid concave bearing surface at a first end; a housing nut encircling the socket rod and having a threaded wrenching head; and a ball rod having an at least partly spheroid convex bearing surface and threaded side walls around the bearing surface, wherein a diameter of the threaded side walls of the ball rod corresponds to a diameter of the threaded wrenching head of the housing nut. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A framework construction kit, comprising:
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at least one rotary joint comprising; a socket rod having a socket rod flange with an at least partly spheroid concave bearing surface at a first end; a housing nut encircling the socket rod and having a threaded wrenching head; and a ball rod having an at least partly spheroid convex bearing surface and threaded side walls around the bearing surface, a diameter of the threaded side walls of the ball rod corresponding to a diameter of the threaded wrenching head of the housing nut; and at least one interconnection strut connected to a second end of the socket rod of the at least one rotary joint or connected to the ball rod. - View Dependent Claims (8, 9, 10, 11)
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12. A framework, comprising:
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a plurality of rotary joints attached to a plurality of bearing structures, each of the plurality of rotary joints comprising; a socket rod having a socket rod flange with an at least partly spheroid concave bearing surface at a first end; a housing nut encircling the socket rod and having a threaded wrenching head; and a ball rod having an at least partly spheroid convex bearing surface and threaded side walls around the bearing surface, a diameter of the threaded side walls of the ball rod corresponding to a diameter of the threaded wrenching head of the housing nut; and a plurality of interconnection struts, each connected to the socket rods or the ball rods of the plurality of rotary joints.
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13. A method for manufacturing a rotary joint, the method comprising:
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integrally forming a socket rod having a socket rod flange with an at least partly spheroid concave bearing surface at a first end together with a housing nut, the housing nut encircling the socket rod and having a threaded wrenching head, using a 3D printing or additive manufacturing (AM) technique; forming a ball rod having an at least partly spheroid convex bearing surface and threaded side walls around the bearing surface using a 3D printing or AM technique; and threadingly engaging the threaded wrenching head of the housing nut with the threaded side walls of the ball rod, thereby housing the socket rod flange between the housing nut and the ball rod. - View Dependent Claims (14)
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Specification