The present invention discloses an efficient brake disc processing device, which relates to the technical field of brake disc processing, comprising a lathe bed, an upright vertical lathe and a first power tool holder installed on a top end of the lathe bed, and an inverted vertical lathe and a second power tool holder installed on a rear side of the top end of the lathe bed, wherein the upright vertical lathe is cooperated with the second power tool holder to process an upper brake surface of a brake disc, and the inverted vertical lathe is cooperated with the first power tool holder to process a lower brake surface of the brake disc.

A machine tool includes a spindle capable of holding a workpiece and rotatable on a spindle axis and a tool post on which a tool is attachable to machine the workpiece held by the spindle. The tool post includes a first turnable holder turnable on a first turning axis perpendicular to the spindle axis. The first turnable holder has a first tool unit mounting part where a rotary tool is attachable. The tool post further includes a second turnable holder turnable on a second turning axis perpendicular to the spindle axis and different from the first turning axis. The second turnable holder has a second whirling tool mounting part where a thread whirling tool is attachable.

A processing machine includes: a tool spindle provided swingably centered on a predetermined axis in parallel with a horizontal direction; an additive manufacturing head that can be attached to and detached from tool spindle, and performs work on the workpiece; a first connection part that is provided for tool spindle and additive manufacturing head, and connects tool spindle and additive manufacturing head to each other; and a second connection part that is provided for tool spindle and additive manufacturing head, is disposed at a position apart from first connection part, and connects tool spindle and additive manufacturing head to each other. First connection part is disposed on one side with respect to a virtual plane that includes a gravity center position of additive manufacturing head and predetermined axis, and second connection part is disposed on the other side with respect to virtual plane.

Material removal processes of a structure are disclosed. These processes can define several features. For example, metal structure can include an interior recess surrounded by a sidewall. The structure can further include a base portion integrally formed with the sidewall. The sidewall can include an opening extending through the sidewall and into the interior recess. The sidewall can undergo a material removal process to include multiple curved regions. The sidewall, the first curved region, and the second curved region can be polished to include a reflectivity different than a reflectivity of an exterior region of the base portion. A single multi-axes lathe having multiple spindles performs several material removal processes under a continuous machine cutting process. The spindles may include clamping features that allow a first spindle to perform a first operation then pass the metal structure to a second spindle. Additional processes include lapping, polishing, and linear brushing.

A processing machine includes: a cover body that forms a machining area, and a storage area separated from machining area; an additive manufacturing head; and a head stocker. The additive manufacturing head performs additive manufacturing on a workpiece in machining area. Head stocker stores additive manufacturing head in storage area. Head stocker includes: a head holding part that holds the additive manufacturing head; and a swing mechanism part that swings head holding part centered on a predetermined axis.

The present invention relates to a machine tool 100 for machining a workpiece 12 by means of a tool 22, which comprises a clamping means 11 for clamping the workpiece 12 and a support means 21 for receiving the tool 22, wherein the clamping means 11 is mounted on a spindle head of a clamping means-carrying work spindle 10 and the support means 21 is mounted on a spindle head of a support means-carrying work spindle 20, and the machine tool 100 is designed to position the two work spindles 10, 20 by means of numerically controllable axes in relation to one another in such a way that the workpiece 12, which is clamped in the clamping means 11, can be processed by the tool 22, which is received in the support means 21.

The invention relates to a machine tool for the machining of a workpiece by means of a tool, wherein the machine tool is designed to clamp the tool for the machine-controlled machining within a machining program on the work spindle and to clamp the tool on the machine bench of the machine tool, characterized by a tool magazine which can be secured on the machine bench, on which a tool or a plurality of tools may be clamped individually in a replaceable manner.

The present application relates to a machine tool, in particular a lathe or a turn mill machine, having at least one work spindle provided to receive a workpiece, and a first and second milling unit being configured to jointly machine the workpiece received by the at least one work spindle. Two or more or preferably each tool carrier assembly accommodated by the upper and lower tool carrier support portions and each preferably having a milling unit, is configured to independently move a tool carried thereon in one or more linear directions.

An operational control method is provided for a machine tool that includes a plurality of tool holders with a cutting-tool. The machine tool relatively moves the tool holders with respect to a workpiece to process the workpiece. The operational control method includes determining whether an abnormality has occurred in the cutting-tool during a processing or not, determining whether a simultaneous processing in which at least two or more of the tool holders perform the processings to an identical workpiece is being performed or not and whether the cutting-tool having the detected abnormality is the cutting-tool that is performing the simultaneous processing or not when the abnormality is detected, and causing the tool holder with the cutting-tool having the detected abnormality to take an abnormality avoidance operation and another of the tool holders to take a response operation based on a determination result at the determining of the simultaneous processing.

A manufacturing system including a base and multiple work machine modules that are arranged in an arrangement direction on base to be attachable to and detachable from base, in which one wheel of a pair provided on work machine module is engaged with one rail of a pair provided on base in a state in which positional deviation in the arrangement direction is prohibited, and the other wheel of the pair is engaged with the other rail of the pair in a state in which positional deviation is permitted in the arrangement direction, thereby the position of work machine modules on the base in the arrangement direction is specified, and work machine modules are fixed at a setting position on the base to be restricted so as to be drawn toward the base by a module fixing mechanism that is provided on the base.