A multi-motion-platform parallel robot, comprising an original parallel mechanism; and a plurality of N.sub.1 derivative parallel mechanisms, wherein: each of the parallel mechanisms possesses N.sub.2 degrees-of-freedom (DOFs) and shares an identical set of DOF properties; N.sub.1 is an integer greater than 1; N.sub.2 is one of 2, 3, 4, 5 and 6; the original parallel mechanism includes an original base platform, an original movable platform and a plurality of N.sub.2 original chains; the plurality of original chains connect the original base platform and the original movable platform; each of the original chains includes a plurality of generalized kinematic pairs interconnected in series; the derivative parallel mechanism includes a derivative base platform, a derivative movable platform and a plurality of (N.sub.2N.sub.1) derivative chains; and the plurality of derivative chains connect the derivative base platform and the derivative movable platform.

A work apparatus includes a parallel link mechanism, a position control actuator, a linear motion mechanism, and a rotating mechanism. The parallel link mechanism includes three or more link mechanisms that couple a distal end side link hub to a proximal end side link hub such that a position of the distal end side link hub can be changed relative to the proximal end side link hub. The position control actuator operates the parallel link mechanism. The linear motion mechanism moves a working body in an axial direction orthogonal to a central axis of the proximal end side link hub. The rotating mechanism is mounted on the distal end side link hub and rotates a work object about a rotation center axis parallel to a movement direction of the linear motion mechanism when the central axis and a central axis are on the same line.

A multi-motion-platform parallel robot, comprising an original parallel mechanism; and a plurality of N.sub.1 derivative parallel mechanisms, wherein: each of the parallel mechanisms possesses N.sub.2 degrees-of-freedom (DOFs) and shares an identical set of DOF properties; N.sub.1 is an integer greater than 1; N.sub.2 is one of 2, 3, 4, 5 and 6; the original parallel mechanism includes an original base platform, an original movable platform and a plurality of N.sub.2 original chains; the plurality of original chains connect the original base platform and the original movable platform; each of the original chains includes a plurality of generalized kinematic pairs interconnected in series; the derivative parallel mechanism includes a derivative base platform, a derivative movable platform and a plurality of (N.sub.2N.sub.1) derivative chains; and the plurality of derivative chains connect the derivative base platform and the derivative movable platform.

The present application provides a multi-motion-platform parallel robot and a method of constructing the same. The parallel robot comprises a symmetrical basic parallel mechanism and one or more symmetrical branch parallel mechanism. The basic parallel mechanism comprises a symmetrical basic foundation platform, a symmetrical basic motion platform, and symmetrical main branched-chains. The branch parallel mechanism comprises a symmetrical branch foundation platform, a symmetrical branch motion platform, and symmetrical branch branched-chains. The basic parallel mechanism and the branch parallel mechanism are connected by means of a multiple-output motion pair having symmetrical output ends, and share one set of driving pairs and drive and control devices. The multi-motion-platform parallel robot and it's method of construction can be used for various industrial robots, three-dimensional profile modeling and scaling robots and walking robots, and have the advantages of having a simple structure, being easy to standardize, having a high production efficiency, and the like.

A work apparatus includes a parallel link mechanism, a position control actuator, a linear motion mechanism, and a rotating mechanism. The parallel link mechanism includes three or more link mechanisms that couple a distal end side link hub to a proximal end side link hub such that a position of the distal end side link hub can be changed relative to the proximal end side link hub. The position control actuator operates the parallel link mechanism. The linear motion mechanism moves a working body in an axial direction orthogonal to a central axis of the proximal end side link hub. The rotating mechanism is mounted on the distal end side link hub and rotates a work object about a rotation center axis parallel to a movement direction of the linear motion mechanism when the central axis and a central axis are on the same line.

The present application provides a multi-motion-platform parallel robot and a method of constructing the same. The parallel robot comprises a symmetrical basic parallel mechanism and one or more symmetrical branch parallel mechanism. The basic parallel mechanism comprises a symmetrical basic foundation platform, a symmetrical basic motion platform, and symmetrical main branched-chains. The branch parallel mechanism comprises a symmetrical branch foundation platform, a symmetrical branch motion platform, and symmetrical branch branched-chains. The basic parallel mechanism and the branch parallel mechanism are connected by means of a multiple-output motion pair having symmetrical output ends, and share one set of driving pairs and drive and control devices. The multi-motion-platform parallel robot and it's method of construction can be used for various industrial robots, three-dimensional profile modeling and scaling robots and walking robots, and have the advantages of having a simple structure, being easy to standardize, having a high production efficiency, and the like.