Description
High-performance cnc horizontal lathe machine SWL12 is designed to provide setup flexibility, superb rigidity, and excellent thermal stability. This machine offers a high cost performance. SWL12 cnc horizontal slant lathe has a heavy-duty cast base with a “true align” slant bed design. The machine bed, headstock, turret, and tailstock are aligned on the same plane. This unique design feature reduces heat built-up and resulting in thermal expansion. The net result is a higher precision machine tool. Additional resulting efficiencies from the “true align” designs is greater rigidity and smoother operation which provides a variety of benefits. You can expect to produce highly accurate parts with extremely fine surface finishes.
Specification
Specification
|
Unit
|
SWL12
|
|
Capacity
|
Chuck size
|
inch
|
12″,*15″
|
Max. swing dia. over bed
|
mm
|
Ø530
|
|
Max. length of workpiece
|
mm
|
750
|
|
Max. swing dia. over slide
|
mm
|
Ø280
|
|
Spindle
|
Spindle bore
|
mm
|
Ø105
|
Max. dia. of through-hole
|
mm
|
Ø91
|
|
Spindle nose
|
type
|
A2-8
|
|
Spindle speed
|
rpm
|
1800
|
|
Main motor power
|
kW
|
11/15,*15/18.5
|
|
Axis
|
X axis travel
|
mm
|
280
|
Z axis travel
|
mm
|
750, *1000, *1600
|
|
X/Z rapid traverse
|
m/min
|
15/20
|
|
Turret
|
Center height
|
mm
|
100
|
No. of tool stations
|
nos
|
8, *12
|
|
Tool shank size
|
mm
|
25X25
|
|
Tailstock
|
Type of tailstock
|
Hydraulic,*HPT,*SST
|
|
Taper of tailstock quill
|
MT5
|
||
Travel of tailstock quill
|
mm
|
150
|
|
Travel of tailstock
|
mm
|
100-750/*1000mm, *1600mm,*100~1800
|
|
Structure
|
Slant bed degree
|
35
|
|
Guideway type
|
LM
|
||
Others
|
Power capacity
|
kVA
|
20
|
Overall dimension (LxWxH)
|
mm
|
3350X2000X2350
|
|
Weight (about)
|
kg
|
5900
|
Main Features
-
Slant bed, Tailstock, Linear guideway.
-
True slant bed minimizes the impact of thermal expansion to precision. 35 degree bed slant 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 precision.
-
Increasing the versatility and automation of the lathe.