Offer
- stock-no.:
- 0300250
- type of machine:
- Heavy Duty Lathe
- make:
- MEXPOL
- model:
- TUB 1030
- year of manufacture:
- 2006/2024 Retrofit
- type of control:
- CNC
- country of origin:
- Poland
- freight basis:
- EXW, free on truck unpacked
- storage location:
- Leipzig 5
- delivery time:
- 3 months after order
- price:
- on request
technical details
- turning diameter over bed:
- 1040 mm
- turning diameter over support:
- 720 mm
- centre distance:
- 5400 mm
- center height over bed:
- 540 mm
- control:
- Siemens 828D CNC mit shop turn
- turning dia. in gap:
- 1300 mm
- length of gap:
- 640 mm
- spindle bore:
- 152 mm
- revolution per minute:
- 3,5...1000/ 4 steps U/min
- feed::
- x-Achse: 37,24 (m/min) m/min
- feed::
- z-Achse: 21,91 (m/min) m/min
- force of feed longitudinal:
- x-Achse: 6,44 (KN) N
- feed force Z - max.:
- 17,2 (KN) N
- tailstock taper MT:
- MK 6
- tailstock quill stroke:
- 300 mm
- total power requirement:
- ca. 30 kW
- weight of the machine ca.:
- 14,1 t
- space requirement approx.::
- L:7,7xB:1,7xH:2,0 m
additional information
CNC Lathe with shop turn
Geometric overhaul is in procedure.
Equipment:
- headstock Morse 6, travel of spindle sleeve 300mm
- thread cutting possible (metric thread, inch threads, module threads)
- multi quick steel holder swiveable 360°
- 3-jaw lathe chuck Ø=630mm
- chuck protection
- 2 steady rests (Lynettes) (1x fixed + 1x fixed open)
- 4 pcs tips for tailstocks
- 5 x multi quick change steel holder for chisel
- 1 x drill chuck 16mm + 2x drills with MK-cone sleeves 68,5mm & 24,75mm
- 1 lot self constructed clamping means
Accessories:
- face chuck Ø=800mm (adaptation necessary)
- CNC turning with shop turn - your benefits at first glance:
- flexible programing via graphic interactive (without DIN/ISO knowledge) or text programming with contour definition and cycle support
- user friendly operation through practical set up -and measuring operations, clearly arranged tool managment and 3D-Simulation
- increase of productivity via supporting PC-Software for work preparation without machine assignment