A dual linear delta assembly includes a frame, a first linear delta system, and a second linear delta system concentric with the first linear delta system. Each of the first linear delta system and the second linear delta system may include rails mounted to the frame, linear actuators, each linear actuator coupled to a respective rail of the rails and configured to translate along a longitudinal length of the respective rail, pairs of parallel rods each operably coupled to a respective linear actuator of the linear actuators, and a platform coupled to a longitudinal end of each of the pairs of parallel rods opposite the respective linear actuator of the linear actuators.

A machine tool includes with a tool head frame, a tool head, and an axis unit fixed to the tool head frame which fixes the tool head in a predefinable position. A movement device for moving the tool head frame includes a machine frame and a multipod drive which has at least three drive elements. The movement device is arranged in the flux of force between the machine frame and the machine tool frame, and has at least two supporting elements which can be brought into a locked state. The multipod drive is mechanically overdetermined by the supporting elements and the drive elements.

A fabrication apparatus and system for facilitating three dimensional motion of an object within the system. The apparatus and system utilizing a delta style manipulation system having a plurality of guide rails and corresponding gliders. The guide rails having an extended axial body having rigid side wall with a hollow interior cavity. The guide rail further including a key or slot extending through the side wall, the key or slot being parallel to a main central axis of each guide rail. A corresponding glider is provided for each guide rail, each glider having an exterior portion and an interior portion, wherein the exterior portion substantially encompasses the guide rail about an outer surface, and the interior portion being coupled to a driving mechanism which facilitates axial motion of the glider about the guide rail.

A robotic arm according to various implementations includes: a tool driver configured to hold a surgical tool; a first section comprising a first end coupled to a base, a second end distal from first end; a first link that includes a motor configured to rotate at least a portion of the first section around a pitch axis; a second link coupled to the first link, the second link including a motor configured to rotate at least a portion of the first section around a roll axis; and a second section comprising: a first end coupled to the second end of the first section, a second end distal from the first end, a first link that includes a motor configured to rotate at least a portion of the second section around a roll axis, a second link coupled to the first link.

A kinematic mounting key engageable with a kinematic mounting receiver is provided. The kinematic mounting key comprises a base kinematic element, a first protrusion, and a second protrusion. Each of the first protrusion and the second protrusion defines a clearance channel and comprises a kinematic element. The clearance channels and the kinematic elements are configured so that the kinematic mounting key is engageable with the kinematic mounting receiver in a first arrangement at six points of contact and in a second arrangement at six points of contact that are at least partially different from the six points of contact of the first arrangement.

A parallel link device whose height can be reduced particularly when a movable-side member is brought closer to a fixed-side member, and in which an amount of stroke of the movable-side member can be increased. Specifically, the parallel link device includes a fixed-side member, a movable-side member, six links, and slide mechanisms. Each of the six links has one end connected to the movable-side member with at least two rotational degrees of freedom, and the other end connected to the fixed-side member with at least two rotational degrees of freedom. A connection point of the other end and the fixed-side member is movable with respect to the fixed-side member. Each of the six links has five rotational degrees of freedom and a predetermined length. Each of the slide mechanisms is provided on the fixed-side member and holds the other end of the link movable within a predetermined range.

A robotic arm according to various implementations includes: a tool driver configured to hold a surgical tool; a first section comprising a first end coupled to a base, a second end distal from first end; a first link that includes a motor configured to rotate at least a portion of the first section around a pitch axis; a second link coupled to the first link, the second link including a motor configured to rotate at least a portion of the first section around a roll axis; and a second section comprising: a first end coupled to the second end of the first section, a second end distal from the first end, a first link that includes a motor configured to rotate at least a portion of the second section around a roll axis, a second link coupled to the first link.

A fabrication apparatus and system for facilitating three dimensional motion of an object within the system. The apparatus and system utilizing a delta style manipulation system having a plurality of guide rails and corresponding gliders. The guide rails having an extended axial body having rigid side wall with a hollow interior cavity. The guide rail further including a key or slot extending through the side wall, the key or slot being parallel to a main central axis of each guide rail. A corresponding glider is provided for each guide rail, each glider having an exterior portion and an interior portion, wherein the exterior portion substantially encompasses the guide rail about an outer surface, and the interior portion being coupled to a driving mechanism which facilitates axial motion of the glider about the guide rail.

A robotic arm according to various implementations includes: a tool driver configured to hold a surgical tool; a first section comprising a first end coupled to a base, a second end distal from first end; a first link that includes a motor configured to rotate at least a portion of the first section around a pitch axis; a second link coupled to the first link, the second link including a motor configured to rotate at least a portion of the first section around a roll axis; and a second section comprising: a first end coupled to the second end of the first section, a second end distal from the first end, a first link that includes a motor configured to rotate at least a portion of the second section around a roll axis, a second link coupled to the first link.

Robotic arms and surgical robotic systems incorporating such arms are described. A robotic arm includes a roll joint connected to a prismatic link by a pitch joint and a tool drive connected to the prismatic link by another pitch joint. The prismatic link includes several prismatic sublinks that are connected by a prismatic joint. A surgical tool supported by the tool drive can insert into a patient along an insertion axis through a remote center of motion of the robotic arm. Movement of the robotic arm can be controlled to telescopically move the prismatic sublinks relative to each other by the prismatic joint while maintaining the remote center of motion fixed. Other embodiments are also described and claimed.