A universal machining system capable of accommodating multiple small-batch or one-off machining jobs, involving workpieces of different diameter and composition, comprises a rotating chuck having multiple jaws that may be adjusted positionally inward or outward towards the longitudinal centerline of the workpiece or removed entirely, and a tool turret capable of holding a variety of socketed tools. System also comprises a measurement sensor, which may be separate or comprise one of the socketed tools. A control program collects machining instructions for a series of workpieces, and directs the chuck, the tool turret, the measurement sensor, and at least one robot to load/unload workpieces and tools from the chuck and turret, respectively, measure workpieces and tools for quality control, and track available storage, overriding or skipping individual machining instructions as dictated by safety parameters and the availability of raw materials and tools.

A CNC unloader includes an unloader pusher/tube for unloading a part from a CNC machine. A collet couples with the unloader pusher/tube for gripping the part. A debris remover is coupled with the unloader pusher/tube. The debris remover exits fluid from the collet, to remove metal chips or the like from the part and sub spindle, to enable a clean gripping with the part.

Provided a full-automatic wheel hub feeding-blanking system for intelligent production line of automotive wheel hubs, comprising: an intelligent material rack and a robot; the intelligent material rack comprises a bracket assembly, a turntable assembly and a bearing seat assembly; the turntable assembly being rotatable is mounted on the bearing seat assembly; the bracket assembly mounted on the turntable assembly comprises a base provided with at least one group of lifting devices, and each the group comprises three the lifting devices, and each of which an automotive wheel hub supporting plate assembly is provided on, central axis of the three automotive wheel hub supporting plate assemblies forming the angle of 120 degrees; the robot being mounted on one side of the intelligent material rack and comprises a robotic arm, and a manipulator is mounted on the robotic arm, and the manipulator is used for clamping the automotive wheel hub.

A workpiece replacing apparatus delivers a pre-machined workpiece into an intra-machine space inside a machine tool from an extra-machine space outside the machine tool, and delivers a workpiece machined by the machine tool to the extra-machine space from the intra-machine space. The workpiece replacing apparatus includes a secured cover, an arm device, and a movable cover. The secured cover is secured to a securing member of the machine tool. The secured cover defines a partition between the intra-machine space and the extra-machine space. The secured cover is provided with an opening. The arm device delivers the workpieces between the intra-machine space and the extra-machine space through the opening. The movable cover is integral with the arm device or in engagement with the arm device such that the movable cover is operable in conjunction with operation of the arm device. The movable cover closes the opening, with the arm device located in the extra-machine space.

A machine tool includes a headstock that holds a workpiece, a tool post that is movable in a first axis direction parallel to a workpiece rotation axis and in a second axis direction orthogonal to the first axis and holds a tool, an in-machine robot, an opening for communicating the inside and the outside of a working chamber, and a door that opens and closes the opening. The robot includes a root joint fixed in the working chamber and a link unit positioned on a distal end side of the root joint. The root joint is a linear-motion joint extendable in a direction orthogonal to the workpiece rotation axis, and is a linear-motion joint extendable between the length for causing the entire link unit to be positioned inside the working chamber and the length for causing the entire link unit to be positioned outside the working chamber.

A machine tool includes a workpiece spindle that retains a workpiece or a tool, a spindle motor that rotates the workpiece spindle, an in-machine robot that is provided inside the machine tool and that is an articulated robot having one or more joints, and a plurality of gears that connect or disconnect a root joint which is placed, among the one or more joints, closest to a base end, and the spindle motor to or from each other.

A disclosed system enables easy installation and removal of an in-machine robot for use in a machine tool and further enables easy replacement of a robot with another robot to suit an intended purpose. A machine tool system includes a machine tool with a cover that covers a machining space, and a robot unit on which an articulated robot is mounted. A portion of the cover of the machine tool has an opening to allow insertion of the articulated robot of the robot unit into the machining space through the opening. The articulated robot of the robot unit is inserted through the opening, and the opening is closed by a lid of the robot unit.

The present invention provides an automatic loading and unloading system and method for double spindle CNC machines. The system makes use of cross slide component of the CNC machine itself and its sliding movements to perform loading and unloading a finished job from the machine, and eliminating need of external robots/gantry. The system comprises two sets of twin grippers placed at the two cross slides across the two spindles. Each set of grippers perform pickup, unload, load and ejection of jobs. A transfer arm travels between the two spindles to transfer semi-finished jobs between the spindles, in order to finish the jobs and collect them in an out-feed bin. The present system provides simpler and faster way of loading and unloading jobs automatically.

The automatic loading and unloading system for CNC machines of the present invention makes use of cross slide component of the CNC machine itself and its sliding movements to perform loading and unloading a finished job from machine, and eliminating need of external robots/gantry. The system comprises a set of twin grippers placed at the cross slide, first gripper and second gripper. The twin grippers perform the load, unload and eject operations in two actions: firstly, the first gripper picks up new job from pickup zone, while the second gripper unloads finished job from chuck simultaneously; and secondly, the first gripper loads the new job into chuck, while the second gripper drops the finished job into an ejector chute from where the finished job comes out of the machine simultaneously.

A machine tool with work transferring mechanism provided with a work transferring mechanism which transfers a work and receives/delivers the work from/to a main spindle. In the front-rear direction, the space inside the machine tool is divided via a shutter into a machining space in which the main spindle is arranged and a transferring space in which the work transferring mechanism transfers the work. The work transferring mechanism is equipped with a work retainer retaining the work and a moving mechanism moving the work retainer. While the work attached to the main spindle is machined, the work retainer is preliminarily moved by the moving mechanism to a vicinity of the main spindle via the shutter.