HVRL 3000-4000-5000
The new HVRL lathes were introduced by Pentamac specifically for the processing of rollers and cylinders of rubber, polyethylene, metal or other materials; built in a solid cast iron structure, they are of the new multitasking generation since they allow TURNING, GRINDING and MILLING of rollers-cylinders, in a single solution, without re-positioning or restarting the piece on other machinery.
The HVRL lathe are available with distances between centers of 3,000 – 4,000 – 5,000 mm, the maximum turning/grinding diameter (on the carriage) is 500 mm (swing on the bench 800 mm), the spindle is controlled both in speed and position allowing interpolations between the spindle and the longitudinal axis, a pneumatic disc braking system allows the spindle to be locked in position.
The standard chuck is self-centering 15 inch and has manual closing (hydraulic optional).
The CNC can “mix” turning, grinding and milling processes in a single program so as to be able to start from the raw piece and arrive at the finishing in a single process.
HVRL 3000-4000-5000
The new HVRL lathes were introduced by Pentamac specifically for the processing of rollers and cylinders of rubber, polyethylene, metal or other materials; built in a solid cast iron structure, they are of the new multitasking generation since they allow TURNING, GRINDING and MILLING of rollers-cylinders, in a single solution, without re-positioning or restarting the piece on other machinery.
The HVRL lathe are available with distances between centers of 3,000 – 4,000 – 5,000 mm, the maximum turning/grinding diameter (on the carriage) is 500 mm (swing on the bench 800 mm), the spindle is controlled both in speed and position allowing interpolations between the spindle and the longitudinal axis, a pneumatic disc braking system allows the spindle to be locked in position.
The standard chuck is self-centering 15 inch and has manual closing (hydraulic optional).
The CNC can “mix” turning, grinding and milling processes in a single program so as to be able to start from the raw piece and arrive at the finishing in a single process.
FAETURES | MOD. DL 3116 - 4116 |
Centre height | 400 mm |
Maximum swing over bad | 500 mm |
Max turning diameter on the saddle | 800 mm |
Cross slide travel | 500 mm |
Centers distance | 3.000 - 4.000 - 5.000 mm |
Maximum swing lenght (Z) | 2.780 - 3.780 - 4.780 mm |
Bed width | 400 mm |
Spindle chuck diameter | 400 mm |
Spindle bore (manual spindle) | 105 mm |
ATTACK | CAM LOCK 11 Inch |
Main motor power | 11 Kw Brushless |
Max spindle speed | 1.000 RPM |
Tailstock quill travel | 230 mm |
Tailstock quill diameter | 100 mm |
Quill morse tapper | MT 06 |
BARUFFALDI Turret mod. TBMA 200 VDI 50 for motorised tools | |
CNC model | VISEL VSC 1021 D-T |
Max axis velocity | 7-10 m/min |
Motorization | Brushless 2-3 Kw |
Max coolant liquid capacity | 240 L |
Total power supply | 30 Kw |
Weight | 7.000 Kg |
Dimensions (in mm) | 5.200 x 1.850 (chip conv. excluded) H 1.850mm |
Electronic extensible manual hand wheel EKV + LAN socket
Chip conveyor
3-jaw self-centering chuck with hydraulic opening-closing (pedal)
Tailstock with hydraulic exit-reentry (pedal)
Self centering 3+3 chuck 20 inch
Kit industry 4.0
USER FRIENDLY CNC maximum simplicity with high performance. From the raw piece to the final product in two simple steps.
Versatile, simple and practical, VISEL CNCs have been designed using criteria of extreme simplicity of use with a practical and intuitive “USER FRIENDLY” operator interface. Extremely complete, they can be programmed at various levels: in standard ISO (G code), for the compilation of pre-defined cycles (MACRO), through direct creation, drawing a profile directly on the machine or importing it from a CAD file in .DXF format with consequent processing.
USER FRIENDLY CNC maximum simplicity with high performance. From the raw piece to the final product in two simple steps.
Versatile, simple and practical, VISEL CNCs have been designed using criteria of extreme simplicity of use with a practical and intuitive “USER FRIENDLY” operator interface. Extremely complete, they can be programmed at various levels: in standard ISO (G code), for the compilation of pre-defined cycles (MACRO), through direct creation, drawing a profile directly on the machine or importing it from a CAD file in .DXF format with consequent processing.