An automated workpiece conveying vehicle included in a conveyance system that conveys a workpiece to each of a plurality of processing apparatuses is provided. The automated workpiece conveying vehicle includes: a workpiece support part that supports the workpiece; a traveling mechanism provided on the workpiece support part; a vibration detection unit that detects vibration of the workpiece support part and records the vibration as vibration data; and a receiver that receives a control signal transmitted from a control unit included in the conveyance system, the control signal instructing conveyance of the workpiece to the processing apparatus.

A system comprising: an additive manufacturing apparatus configured to perform an additive manufacturing process using a feedstock supplied thereto, thereby to produce an article; a feedstock storage module configured to supply feedstock to the additive manufacturing apparatus; a machining apparatus configured to perform a machining process; a controller configured to control operation of the additive manufacturing apparatus and the machining apparatus; and are cycling module configured to receive a waste material and to produce the feedstock therefrom, and to transfer the produced feedstock to the feedstock storage module. The additive manufacturing apparatus and the machining apparatus comprise a common heat source, the additive manufacturing apparatus configured to use the common heat source to perform the additive manufacturing process, and the machining apparatus configured to use the common heat source to perform the machining process.

A system comprising: an additive manufacturing apparatus configured to perform an additive manufacturing process using a feedstock supplied thereto, thereby to produce an article; a feedstock storage module configured to supply feedstock to the additive manufacturing apparatus; a machining apparatus configured to perform a machining process; a controller configured to control operation of the additive manufacturing apparatus and the machining apparatus; and are cycling module configured to receive a waste material and to produce the feedstock therefrom, and to transfer the produced feedstock to the feedstock storage module. The additive manufacturing apparatus and the machining apparatus comprise a common heat source, the additive manufacturing apparatus configured to use the common heat source to perform the additive manufacturing process, and the machining apparatus configured to use the common heat source to perform the machining process.

A system comprising: an additive manufacturing apparatus configured to perform an additive manufacturing process using a feedstock supplied thereto, thereby to produce an article; a feedstock storage module configured to supply feedstock to the additive manufacturing apparatus; a machining apparatus configured to perform a machining process; a controller configured to control operation of the additive manufacturing apparatus and the machining apparatus; and are cycling module configured to receive a waste material and to produce the feedstock therefrom, and to transfer the produced feedstock to the feedstock storage module. The additive manufacturing apparatus and the machining apparatus comprise a common heat source, the additive manufacturing apparatus configured to use the common heat source to perform the additive manufacturing process, and the machining apparatus configured to use the common heat source to perform the machining process.

A system comprising: an additive manufacturing apparatus configured to perform an additive manufacturing process using a feedstock supplied thereto, thereby to produce an article; a feedstock storage module configured to supply feedstock to the additive manufacturing apparatus; a machining apparatus configured to perform a machining process; a controller configured to control operation of the additive manufacturing apparatus and the machining apparatus; and are cycling module configured to receive a waste material and to produce the feedstock therefrom, and to transfer the produced feedstock to the feedstock storage module. The additive manufacturing apparatus and the machining apparatus comprise a common heat source, the additive manufacturing apparatus configured to use the common heat source to perform the additive manufacturing process, and the machining apparatus configured to use the common heat source to perform the machining process.

In a self-detecting apparatus for workpiece-origin, a mobile machine tool having the self-detecting apparatus, a method for self-detecting the workpiece-origin, the self-detecting apparatus is equipped to the mobile machine tool and includes a vision sensor and a transmitting unit. The vision sensor obtains a point image marked to the workpiece, and detects a position of a workpiece-origin based on coincidence of focuses of the points. The transmitting unit provides an information obtained by the vision sensor to the mobile machine tool. The mobile machine tool is moved to the workpiece-origin, so as to coincide the focuses of the points, based on the provided point image obtained by the vision sensor.

In a self-detecting apparatus for workpiece-origin, a mobile machine tool having the self-detecting apparatus, a method for self-detecting the workpiece-origin, the self-detecting apparatus is equipped to the mobile machine tool and includes a vision sensor and a transmitting unit. The vision sensor obtains a point image marked to the workpiece, and detects a position of a workpiece-origin based on coincidence of focuses of the points. The transmitting unit provides an information obtained by the vision sensor to the mobile machine tool. The mobile machine tool is moved to the workpiece-origin, so as to coincide the focuses of the points, based on the provided point image obtained by the vision sensor.

A precision machine tool includes: a tool support for supporting a tool; a tool table serving as a moving mechanism capable of moving the tool support; and one or multiple imaging devices fixed to the tool support, the imaging devices each having an imaging unit configured to capture the image of a machining point on a workpiece machined by the tool.

A precision machine tool includes: a tool support for supporting a tool; a tool table serving as a moving mechanism capable of moving the tool support; and one or multiple imaging devices fixed to the tool support, the imaging devices each having an imaging unit configured to capture the image of a machining point on a workpiece machined by the tool.

A folding device for a milling machine includes a base having a workbench formed on top thereof, and two support parts are respectively located on two sides of the workbench so as to be connected to two support boards respectively. A pivot and a fixing bolt extend through the contact face and are fixed to the support part. A driving unit includes a transverse rail and a transverse shaft respectively connected between the two support boards. A slide is slidably connected with the transverse rail and the transverse shaft. A milling machine is connected to the slide which is movable between the two support boards. When the fixing bolts are removed, the milling machine is foldable toward the workbench about the two respective pivots to save transportation space and storage space required.