Rotary transfer machine

Rotary Transfer Machine

A rotary transfer machine is a machine tool, typically for metal working by machining, comprising a large indexing table with machining stations surrounding the table. Such rotary transfer machines are used for producing a large number of parts in fairly short cycle times.[1][2][3]

Operation

In rotary transfer machines, the workpieces are located and clamped in pallet type fixtures that are indexed in a circular path. During one cycle, sequential machining operations are performed simultaneously on the workpieces. The indexed table turns vertically or horizontally, and its movement could be continuous or intermittent. As the indexing table turns, the subsequent machining operation is repeated on the workpiece which was just machined by the previous station. This design combines automated part feed with simultaneous operations, enabling rapid completion of parts.

Applications

Rotary transfer machines are commonly used for the mass-production of metal parts in the automotive industry and for pneumatic and hydraulic fittings. The parts can range from simple to complex, depending on the layout of the machining tool, which is often custom-designed for the manufacturing of a single part or family of parts. Rotary arrangement presents a compact arrangement that saves floor space. The annual production capacity of one rotary transfer machine can range from 100'000 units to tens of millions of units.

Rotary transfer machines can generally cope with all standard machining operations like turning, milling, drilling, reaming, threading, recessing, marking, deburring, etc... for sizes ranging more or less from a fingernail up to a backpack.

References

  1. ^ Dolgui, A (2008). "Graph approach for optimal design of transfer machine with rotary table". International Journal of Production Research. 47 (2): 321–341. doi:10.1080/00207540802425880.
  2. ^ Yan, Ruqiang (2020). "Knowledge Transfer for Rotary Machine Fault Diagnosis". IEEE Sensors Journal. 20 (15): 8374–8393. doi:10.1109/JSEN.2019.2949057.
  3. ^ Olga, Battaïa (2023). "MIP-based heuristics for combinatorial design of reconfigurable rotary transfer machines for production of multiple parts". International Journal of Production Economics. 262 (108904). doi:10.1016/j.ijpe.2023.108904 – via Science Direct.