On request
imported
GS-200 Series
GS-200 Series is a 30° true slant-bed turning platform built for high power, speed, and long-term accuracy. GS-200/GS-200L run an 8″ chuck with Ø51 mm bar capacity and up to Ø420 mm max turning diameter, with 20/24 m/min rapids and options for C-axis, live tooling, Y-axis, and sub-spindle.
- 30° slant-bed rigidity for stable heavy-duty turning
- 20/24 m/min rapids to reduce non-cut time in cycles
- Options: C-axis, live tooling, Y-axis and sub-spindle
Brand:
- GOODWAY
Overview
Ultra Performance CNC Turning Centers
GS-200 Series is positioned as an “Ultra Performance” horizontal turning platform, combining high rigidity with fast motion for demanding production work. Its 30° true slant-bed design supports smooth chip disposal and easier operator access while keeping the structure stiff under load.
For the GS-200 / GS-200L configurations, the platform targets general-purpose production turning with an 8″ chuck, Ø51 mm bar capacity, and up to Ø420 mm maximum turning diameter, with two bed lengths to cover short parts and longer shafts.
To maintain accuracy over time, the design emphasizes hardened/ground box ways and precision motion components. Rapid traverse is specified at 20 m/min on X and 24 m/min on Z, which helps compress positioning time without compromising stability.
For multitasking and “done-in-one” workflows, the series supports live tooling, C-axis, Y-axis capability (±55 mm), and a sub-spindle option—enabling drilling/milling features and front/back-end machining with fewer setups.
Key Features – GS-200 Series
30° True Slant-Bed Platform
Rigid foundation with smooth chip evacuation and easier operator access.
Hardened & Ground Box Ways
Wide, rigid box ways for heavy cuts and long-term accuracy retention.
High-Speed Positioning
Up to 20/24 m/min rapids on X/Z to cut non-cut time across cycles.
Multitasking Options
Add C-axis, live tooling, Y-axis (±55 mm) and sub-spindle when needed.
Promo Video – GOODWAY GS Series
Specifications
|
Category |
Item |
Unit |
Value |
|---|---|---|---|
|
PLATFORM |
|||
|
Bed design |
— |
30° true slant-bed |
|
|
CAPACITY |
|||
|
Max. swing diameter |
mm |
Ø 650 |
|
|
Swing over saddle |
mm |
Ø 500 |
|
|
Max. turning diameter |
mm |
Ø 420 |
|
|
Standard turning diameter |
mm |
Ø 205 |
|
|
Max. turning length (GS-200 / GS-200L) |
mm |
591 / 1191 |
|
|
Chuck size |
in |
8″ |
|
|
Bar capacity |
mm |
Ø 51 |
|
|
SPINDLE (MAIN) |
|||
|
Hole through draw tube |
mm |
Ø 52 |
|
|
Hole through spindle |
mm |
Ø 66 |
|
|
Spindle bearing diameter |
mm |
Ø 100 |
|
|
Spindle nose |
— |
A2-6 |
|
|
Motor output (cont. / 30 min.) |
kW |
11 / 15 |
|
|
Spindle drive system |
— |
Direct belt drive |
|
|
Spindle speed range |
rpm |
48 ~ 4800 |
|
|
AXES (X/Z) |
|||
|
Rapids (X / Z) |
m/min |
20 / 24 |
|
|
Slide way type |
— |
Hardened & ground box ways |
|
|
TURRET |
|||
|
Stations |
— |
12 |
|
|
Indexing speed |
s |
0.2 adjacent / 0.5 (180° single step) |
|
|
LIVE TOOLING (OPTIONAL) |
|||
|
Live tooling RPM range |
rpm |
10 ~ 4000 |
|
|
Drive motor |
kW |
4.5 |
|
|
Y-AXIS (OPTIONAL) |
|||
|
Y travel |
mm |
110 (±55) |
|
|
SUB-SPINDLE (OPTIONAL) |
|||
|
Chuck size / Spindle nose |
— |
6″ / A2-5 |
|
|
Motor output (cont. / 30 min.) |
kW |
5.5 / 7.5 |
|
|
Max spindle speed |
rpm |
6000 |
Applications
General machining
Mixed prototype and production work across sizes; flexible envelopes and quick changeovers speed setups, reduce handling, and keep output consistent day to day.
Capital goods
Industrial equipment components from plates and frames to precision shafts and housings; scalable platforms and stable processes preserve accuracy over long runs.
Automotive
Tooling and production parts across the supply chain, from fixtures and dies to turned and milled components; repeatable referencing supports surface quality and tight tolerances.
Energy
Pump and valve components, compressor parts, and auxiliary housings; controlled cutting and chip/coolant management help protect tolerances, surface finish, and tool life.
Oil & Gas
Valve bodies, manifolds, housings, and high-integrity flanges; robust machining strategies and chip/coolant control help maintain tolerances in demanding alloys.
Railway
Frames, brackets, axlebox housings, and brake components; rigid machining and effective chip evacuation keep geometry and flatness consistent on large parts.