Why two heads are better than one
Never has it been more important than in today’s cost-conscious climate for manufacturers to extract maximum productivity from their CNCs. Twin-head machining is a logical strategy for boosting the processing efficiency of nesting operations in two ways; the second head can either be run in ‘mirror mode’, whereby the two heads perform an identical cutting pattern simultaneously, or it can be used to carry out tool changes and secondary operations in ‘hidden’ time. The second head could be a dedicated drill head or a five-axis spindle, for example.
As well as increasing productivity, twin-head arrangements reduce capital outlay and save space. Whilst each head has its own electrical components and drive, the two heads work in a shared space. A twin-head machine costs slightly more than its single-head counterpart but far less than two standard machines.
Twice the headache?
Whilst a twin-head configuration makes complete sense on paper, in practice, not every CNC chassis is designed to support dual-headed machining. The strength of the flat bed table itself becomes a limiting factor on how fast a twin-head machine can run and even the sturdiest of machines start to vibrate when they hit 50m/minute, which can affect machining quality.
Cue Biesse’s Rover B FT High Dynamics (HD)…
Pushing boundaries
Biesse’s new Rover B FT HD doesn’t look like a conventional machining centre. And that’s because it isn’t. By rewriting the rules of chassis design, Biesse has pushed out the boundaries of CNC performance to deliver a 30% faster cycle time.
No covers, no constraints
Biesse’s engineers have removed all the covers from the machine itself, instead housing the flat table in a self-contained enclosure with sliding doors for access. This provides a safe environment for operators whilst allowing machining speed to be ramped up without the risk of covers vibrating and bolts coming loose. The machine’s motors, rails, racks & pinions have also been upgraded to cope with the extra inertia.