A lathe includes a lathe-side chuck that holds a workpiece with the workpiece directed toward or facing a front side, a main spindle that rotates around an axis, and a tool that machines the workpiece. A machining center includes a rotary tool that rotates around an axis in the horizontal direction and an MC-side chuck that holds the workpiece and is able to turn between at least a workpiece pass/receive position in which the workpiece is directed toward or facing the front side and a machining position in which the workpiece is directed toward or facing the rotary tool. A loader includes a guide rail extending above the lathe-side chucks, and MC-side chuck along the horizontal direction and a loader head that holds the workpiece and carries the workpiece between at least the lathe-side chucks, and MC-side chuck by moving along the guide rail.

A manufacturing system includes a base and multiple work machine modules that are attachable and detachable to and from the base arranged in the arrangement direction on the base or on the side of the base, in which the plurality of work machine modules include one or more processing work modules that perform machine processing work on a workpiece using a tool, and one or more supplementary work modules that perform supplementary work that is work supplementarily performed to the machine processing work. Since it is possible to easily increase and decrease the number of processing work modules and supplementary work modules or sort the modules, it is possible to easily recombine the modules with respect to modification of the manufacturing process.

A workpiece processing system is provided that includes a first carousel rotary conveyor associated with a first plurality of stations through which workpieces are successively rotationally conveyed, a second carousel rotary conveyor associated with a second plurality of stations through which the workpieces are successively rotationally conveyed, and an inter-carousel transport configured to selectively operate in a first mode and a second mode. In the first mode, the inter-carousel transport is operable to successively transfer the workpieces from the first carousel rotary conveyor to the second carousel rotary conveyor. In the second mode, the inter-carousel transport is operable to successively reorient the workpieces of a selected one of the first carousel rotary conveyor or the second carousel rotary conveyor by approximately 180 degrees of rotation for further successive rotational conveyance of the workpieces through the stations associated with the selected first or second carousel rotary conveyor.

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.

The invention relates to a device, system and method of automated manufacture comprising: delivering a workpiece with a delivery device; receiving the workpiece with a receiving device, the delivering of the workpiece and the receiving of the workpiece being electronically synchronized; processing the workpiece with a processing tool while the workpiece is on the receiving device; transferring the workpiece to a completion device, the ejection of the workpiece and the transferring of the workpiece being electronically synchronized. In particular the workpiece may comprise: a platform with mounts supporting a first component in a selected orientation; and a locating surface, the method comprising: engaging and disengaging the locating surface of the workpiece with releasable connectors on the delivery device, on the receiving device and on the completion device.

The invention relates to a device, system and method of automated manufacture comprising: delivering a workpiece with a delivery device; receiving the workpiece with a receiving device, the delivering of the workpiece and the receiving of the workpiece being electronically synchronized; processing the workpiece with a processing tool while the workpiece is on the receiving device; transferring the workpiece to a completion device, the ejection of the workpiece and the transferring of the workpiece being electronically synchronized. In particular the workpiece may comprise: a platform with mounts supporting a first component in a selected orientation; and a locating surface, the method comprising: engaging and disengaging the locating surface of the workpiece with releasable connectors on the delivery device, on the receiving device and on the completion device.

A machining center including a machine main body, an upper section of which supports a head moving device and a head raising and lowering device, configured such that tool magazine 120 is stored inside the machine main body, and with a magazine moving device configured to move tool magazine 120 such that, during tool exchange, tool magazine 120 is advanced to protrude from a side of the machine main body, so that, from the multiple tool holders, the tool holder used for exchange is positioned inside the movement range of the main shaft by the head moving device, and wherein the entire tool magazine 120 is able to be moved beyond the movement range of the tool magazine by the magazine moving device to a position outside of the machine main body and detached from the machine main body.

A technique appropriately controls transfer order of a pallet. A pallet transfer system includes a transfer device, a pallet storage, a work station, a machine tool, and a control device. The control device transfers a second pallet from the work station to the pallet storage when the machining of the workpiece attached to a first pallet is completed in a state where the first pallet is in the machine tool and the second pallet is in the work station, and the control device transfers the first pallet from the machine tool to the work station after completion of the transfer of the second pallet from the work station to the pallet storage, or in parallel with the transfer of the second pallet from the work station to the pallet storage.

It is possible to improve workpiece machining efficiency by efficiently receiving and delivering a workpiece from/to each workpiece holder and shortening a time required for workpiece conveyance. A workpiece conveyance system is a workpiece conveyance system that receives and delivers workpieces W to be machined to n spindles (workpiece holders, where n is an integer satisfying n≥2) that hold and rotate the workpieces W, and includes a main loader including n+m main loader chucks (where m is an integer satisfying m≥1) that receive and deliver workpieces from/to the n spindles or n relay loaders disposed corresponding to the n respective spindles to receive and deliver the workpieces W from/to the main shafts.

It is possible to improve workpiece machining efficiency by efficiently receiving and delivering a workpiece from/to each workpiece holder and shortening a time required for workpiece conveyance. A workpiece conveyance system is a workpiece conveyance system that receives and delivers workpieces W to be machined to n spindles (workpiece holders, where n is an integer satisfying n≥2) that hold and rotate the workpieces W, and includes a main loader including n+m main loader chucks (where m is an integer satisfying m≥1) that receive and deliver workpieces from/to the n spindles or n relay loaders disposed corresponding to the n respective spindles to receive and deliver the workpieces W from/to the main shafts.