Norme: Non normalisé
Mandrin de perçage CNC
Compact design, allowing both CW or CCW spindle rotation.
Clamping is made through a side access screw and gear mechanism.
Tool shanks
Cylindrical DIN 1835-1 Form A/ DIN 6535 Form HA.
Run-out
Maximum run-out when measured at a gauge projection of 2,5 x DCONWS in relation to the external taper is 40 µm for diameters from 2 mm.
No run-out precision guarantee for diameters lower than 2 mm.
Hex-wrench or hex bit for torque wrench to clamp the drill by pinion
0,5 - 8 = SW 4
0,5 - 13 = SW 6
2,5 - 16 = SW 6
Transmittable torque (at a tightening torque)
0,5 - 8 = 30 Nm (10 Nm)
1,0 - 13 = 40 Nm (15 Nm)
2,5 - 16 = 45 Nm (15 Nm)
Max. perm. tightening torque
0,5 - 8 = 10 Nm
1,0 - 13 = 15 Nm
2,5 - 16 = 15 Nm
Min. clamping depth
To stop
Maximum coolant pressure
80 bar
Norme: Non normalisé Mandrin de perçage CNC Compact design, allowing both CW or CCW spindle rotation. Clamping is made through a side access screw and gear mechanism. Tool shanks...
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Norme: Non normalisé
Mandrin de perçage CNC
Compact design, allowing both CW or CCW spindle rotation.
Clamping is made through a side access screw and gear mechanism.
Tool shanks
Cylindrical DIN 1835-1 Form A/ DIN 6535 Form HA.
Run-out
Maximum run-out when measured at a gauge projection of 2,5 x DCONWS in relation to the external taper is 40 µm for diameters from 2 mm.
No run-out precision guarantee for diameters lower than 2 mm.
Hex-wrench or hex bit for torque wrench to clamp the drill by pinion
0,5 - 8 = SW 4
0,5 - 13 = SW 6
2,5 - 16 = SW 6
Transmittable torque (at a tightening torque)
0,5 - 8 = 30 Nm (10 Nm)
1,0 - 13 = 40 Nm (15 Nm)
2,5 - 16 = 45 Nm (15 Nm)
Max. perm. tightening torque
0,5 - 8 = 10 Nm
1,0 - 13 = 15 Nm
2,5 - 16 = 15 Nm
Min. clamping depth
To stop
Maximum coolant pressure
80 bar
