K'MX 632
Characteristics :
The kinematics and the arrangement of the tools on the MANURHIN K’MX 632 make drilling with a large drilling depth a solvable task. An additional X-axis allows machining on the back to take place during non-productive time. The productive machining of parts with bar material is designed up to a diameter of 32 mm (36 mm).
The two electrospindles rotate at a maximum speed of 8,000 rpm. The guide bush is driven synchronously with the main spindle by toothed belts. The driven tools have a torque of 32 Nm.
Advantages :
- Max. bar capacity Ø 32 or Ø 36 mm
- Power of the driven tools 2.3 kW
- Torque of the driven tools 32 Nm
Excellent for long bores
Technical specifications
Technical specifications | K'MX 626 | K'MX 632 | |
---|---|---|---|
Number of linear axes | 6 | 6 | |
Main spindle | Max. bar capacity | Ø 26 mm | Ø 32 mm |
Spindle bore | Ø 37 mm | Ø 37 mm | |
Spindle power (100/40%) | 5.5 / 7.5 kW | 5.5 / 7.5 kW | |
Max RPM | 8.000 U/min | 8.000 U/min | |
Headstock stroke | 410 mm | 365 mm | |
Pickup spindle | Max. bar capacity | Ø 26 mm | Ø 32 mm |
Max RPM | 8.000 U/min | 8.000 U/min | |
Spindle power (100/40%) | 3,7/5,5 kW | 3,7/5,5 kW | |
Max RPM | 8.000 U/min | 8.000 U/min | |
Clamping depth | 150 mm | 150 mm | |
Max. part length with workpiece remover | 200 mm | 200 mm | |
Tool carrier | Number of sleds | 1 | 1 |
Commute (X) | 80 mm | 80 mm | |
Commute (Y) | 191 mm | 191 mm | |
Tool stations | 2 x 5 | 2 x 5 | |
Cross section turning tools | 16 x 16 mm | 16 x 16 mm | |
Coolant supply | Coolant tank capacity | 300 l | 300 l |
Flow rate | 50 l/min | 50 l/min | |
Druck | 9 bar | 9 bar | |
Dimensions of the machine | Length | 3.000 mm | 3.000 mm |
(Excluding loader and chip conveyor) | Broad | 1.400 mm | 1.400 mm |
Height | 2.200 mm | 2.200 mm | |
Weight | 4.900 kg | 4.900 kg |
Numerical control FANUC
Options : C-axis on main and counter spindle / CO2 extinguishing system / Oil mist extraction / Powered tools / Chip conveyor / High-pressure system / Pneumatic guide bush system / Removal of long parts through the sub-spindle