Description
The SWL8H slant-bed CNC lathe combines rugged construction. Its inclined bed design promotes efficient chip removal and coolant flow, keeping operations clean and reliable. Engineered for exceptional rigidity and minimal vibration, the SWL8H delivers consistent surface finish and repeatable accuracy across long production runs. An intuitive interface simplifies setup and program changes, reducing downtime and training requirements. Ergonomic access to key components streamlines maintenance, while integrated safety features protect both operator and machine. Ideal for everything from prototype work to continuous batch production, the SWL8H adapts easily to evolving shop needs and integrates seamlessly into automated manufacturing cells.
Specification of SWL8H
Specification | Unit | SWL8H | ||
Capacity | Chuck size | inch | 8″,*10″ | |
Max. swing dia. over bed | mm | Ø600 | ||
Max. length of workpiece | mm | 750 | ||
Max. swing dia. over slide | mm | Ø360 | ||
Spindle | Spindle bore | mm | Ø62 | *Ø75 |
Max. dia. of through-hole | mm | Ø52 | *Ø65 | |
Spindle nose | type | A2-6 | *A2-8 | |
Spindle speed | rpm | 4000 | *1600 | |
*2000 | *3500 | |||
Main motor power | kW | 7.5/11,*11/15 | ||
Axis | X axis travel | mm | 250 | |
Z axis travel | mm | 750 | ||
X/Z rapid traverse | m/min | 20/20 | ||
Turret | Center height | mm | 80mm,*100mm | |
No. of tool stations | nos | 8,*12 | ||
Tool shank size | mm | 25X25 | ||
Tailstock | Type of tailstock | SST,*SPT | ||
Taper of tailstock quill | MT3 | |||
Travel of tailstock quill | mm | 150 | ||
Travel of tailstock | mm | 100-750,*1100 | ||
Structure | Slant bed degree | 35 | ||
Guideway type | LM | |||
Others | Power capacity | kVA | 16,*18 | |
Overall dimension (LxWxH) | mm | 2960x1950x2200 | ||
Weight (about) | kg | 5200 | ||
Main Features
It extremely minimizes the impact of thermal expansion to precision. 35-degree slant bed is more convenient for scrap iron.
It realizes an optimized combination of high-precision, high bearing capacity, good running speed and it is more durable.
Better water-resistant and scrap-iron-resistant.
Better dynamics and higher precisions.
Increasing the versatility and automation of the lathe.
