Patent ID: 11904465
Assignee: WEN-DER TRUI
Field: Handling (Mechanical engineering)
Classification: CPC B | IPC B

Claim 7:
8. A mechanism geometrically constituted with twelve axes configured to be manipulated for spherical coordinate kinematics, comprising:
a base frame set comprising a base frame including a plurality of brackets and four base rotating modules installed into the base frame, the base frame configured with four vertexes which can be used to constitute a base geometrical tetrahedron, each axis of the base rotating module configured to be individually coincide with a vertex-to-center line of the base geometrical tetrahedron, and these four vertex-to-center lines coincide with the center of the base frame, wherein the angle between any two vertex-to-center lines of the base geometrical tetrahedron is greater than 75° and less than 150°, each base rotating module comprising an outer hollow shaft and an inner hollow shaft, the outer hollow shaft having both an active end and a passive end, the inner hollow shaft having both an active end and a passive end, wherein the outer hollow shaft is configured to be pivotally rotated with the inner hollow shaft;
two terminal frame sets, each terminal frame set comprising a terminal frame and two terminal rotating modules installed into the terminal frame, the terminal frame configured to be geometrically defined by two vertexes which constitute a terminal geometrical arc, each axis of terminal rotating module configured to individually coincide with a vertex-to-center line of the terminal geometrical arc, and these two vertex-to-center lines configured to be coincide with the center of the base frame for concentrically rotating the terminal frame along a specified geometric orbit, wherein an angle between the two vertex-to-center lines of the terminal geometrical arc is greater than 75° and less than 150°;
four arc-link sets, each arc-link set comprising a base arc-link, a terminal arc-link, an arc-link rotating module, a base timing pulley, a terminal timing pulley, a timing belt and at least one pair of idler pulleys, the base arc-link having both a base end and a terminal end, the terminal arc-link having both a base end and a terminal end, the base end of the base arc-link is configured to be pivotally rotated with the base end of the terminal arc-link via the arc-link rotating module, the base end of the base arc-link is configured to be pivotally fastened onto the passive end of the inner hollow shaft, the terminal end of the terminal arc-link is configured to be pivotally rotated along an axis of the terminal rotating module, each axis of the arc-link rotating modules configured to be is normally directed into the center of the base frame for concentrically rotating each arc-link set along a specified geometric orbit between the base frame and the terminal frames, wherein sum of arc-lengths of any two of the base arc-links is greater than or equal to an angle between their corresponding vertex-to-center lines of the base geometrical tetrahedron; wherein sum of arc-lengths of any two of the terminal arc-links is greater than or equal to an angle between their corresponding vertex-to-center lines of the terminal geometrical arc, the base timing pulley is configured to be pivotally fastened onto the active end of outer hollow shaft, the terminal timing pulley is configured to be pivotally fastened onto the base end of the terminal arc-link, the at least one pair of idler pulleys is configured to be installed onto both sides of the base arc-link individually, wherein all flanges of the at least one pair of idler pulleys are configured to be unable to exceed the outer flange of the base arc-link, both ends of the timing belt are configured to be separately meshed and rotated with the base timing pulley and the terminal timing pulley, wherein direction and tension of the timing belt are configured to be functionally adjusted by the at least one pair of idler pulleys, wherein the terminal timing pulley is configured to be synchronously rotated via the timing belt by the base timing pulley;
at least one base driver sets, each base driver set comprising a base driving module, a base active gear and a base passive gear, the base active gear is configured to be fastened onto the output shaft of the base driving module 1m, the base passive gear is configured to be pivotally fastened onto the passive end of the outer hollow shaft, a distance between the shaft bores of the base active gear and the base passive gear equal to sum of reference radii of the base active gear and the base passive gear, wherein the base passive gear meshed with the base active gear are configured to be synchronously rotated by the base driving module; and
at least one terminal driver sets, each terminal driver set comprising a terminal driving module, a terminal active gear and a terminal passive gear, the terminal active gear is configured to be fastened onto the output shaft of the terminal driving module, the terminal passive gear is configured to be pivotally fastened onto the passive end of the inner hollow shaft, a distance between the shaft bores of the terminal active gear and the terminal passive gear is equal to a sum of reference radii of the terminal active gear and the terminal passive gear, wherein the terminal passive gear meshed with the terminal active gear is configured to be synchronously rotated by the terminal driving module.