On request
imported
SUPER GV Series
SUPER GV is a super-size CNC vertical turning center platform for large, asymmetric workpieces. It covers turning diameters up to Ø9,000 mm and turning heights 1,700–3,800 mm, with high-rigidity Meehanite castings and options for dual-ram or live tooling + C-axis.
- Up to Ø9,000 mm turning capacity for super-size heavy parts
- Symmetric Meehanite casting for rigidity and thermal balance
- Optional dual-ram and live tooling + C-axis for multitasking
Brand:
- GOODWAY
Overview
Super Size CNC Vertical Turning Centers
The SUPER GV series is built for super-size vertical turning where rigidity, load capacity, and long-term accuracy are critical. It targets large, often asymmetric workpieces and demanding production environments.
A reinforced structural concept and symmetric casting design help maintain geometric stability and thermal balance, supporting consistent accuracy even at very large table sizes.
High-torque drive concepts support heavy-duty cutting, including long hours at low speed and high torque. This makes the platform suitable for aggressive roughing as well as controlled finishing on large diameters.
For complex parts, the series can be configured with options such as dual ram or a live tooling spindle with C-axis functionality—enabling multi-process machining on one setup and improving overall productivity.
Key Features – SUPER GV Series
Super Large Turning Range
Max turning Ø2,300–Ø9,000 mm; height 1,700–3,800 mm for oversized workpieces.
High Rigidity Structure
Meehanite symmetric bed/column/bridge supports thermal balance and rigidity.
Powerful High-Torque Drives
2-speed gearbox motors deliver torque for heavy cuts and stable low-speed work.
Multi-Tasking Capability
Optional live tooling spindle and C-axis enable turning plus milling and drilling.
Promo Video – GOODWAY GV-2500M
Specifications GVH-2500
|
Category |
Item |
Unit |
Value |
|---|---|---|---|
|
WORK ENVELOPE |
|||
|
Table diameter |
mm |
Ø 2500 |
|
|
Max. swing diameter |
mm |
Ø 3000 |
|
|
Max. turning diameter |
mm |
Ø 2800 |
|
|
Max. turning height |
mm |
1700 / 2100 |
|
|
Max. table load |
kg |
15000 |
|
|
SPINDLE (MAIN) |
|||
|
Spindle bearing diameter |
mm |
Ø 1180 |
|
|
Motor output (cont. / 30 min.) |
kW |
60 / 75 |
|
|
Spindle drive system |
— |
2-step gear box |
|
|
Spindle speed range |
rpm |
1 ~ 130 |
|
|
Max. spindle torque |
N·m |
74140 |
|
|
TOOLING SPINDLE (OPTIONAL) |
|||
|
Motor output (cont. / 30 min.) |
kW |
11 / 15 |
|
|
Spindle speed range |
rpm |
1 ~ 2400 |
|
|
CF-AXIS (OPTIONAL) |
|||
|
Servo motor output |
kW |
5.5 |
|
|
Speed range |
rpm |
6 |
|
|
Torque output |
N·m |
16200 |
|
|
AXES (X / Z) |
|||
|
X-axis travel |
mm |
3080 (+1000 ~ -2800) |
|
|
Z-axis travel |
mm |
1200 / 1500 |
|
|
X / Z axes rapids |
m/min |
10 / 10 |
|
|
X / Z axes motor output |
kW |
6 / 9 |
|
|
AXIS (W) |
|||
|
W-axis travel |
mm |
1200 / 1600 |
|
|
W-axis rapids |
mm/min |
200 |
|
|
ATC |
|||
|
Tool magazine capacity |
— |
16T |
|
|
Spindle taper |
— |
BT50 |
|
|
Max. tool size (W × T × L) |
mm |
280 × 150 × 400 |
|
|
Max. tool weight |
kg |
50 |
|
|
Max. magazine load |
kg |
360 |
|
|
ACCURACY |
|||
|
Positioning accuracy |
— |
± 0.007 / 500 mm |
|
|
Repeatability |
mm |
± 0.005 |
|
|
CONTROL |
|||
|
Standard CNC control |
— |
FANUC 0i-TF |
|
|
UTILITIES |
|||
|
Hydraulic capacity |
L |
130 |
|
|
Coolant tank capacity |
L |
1600 |
|
|
MACHINE |
|||
|
Machine weight |
kg |
55000 |
|
|
Dimensions (L × W × H) |
mm |
7540 × 4610 × 6895 |
|
|
POWER |
|||
|
Voltage requirement |
— |
AC400/440 (+10% to -15%), 3 phase |
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.
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.
Wind energy
Drivetrain and auxiliary components including hubs, seats, flanges, and structural parts; rigid setups and stable processes sustain accuracy, finish, and tool life across long runs.
Railway
Frames, brackets, axlebox housings, and brake components; rigid machining and effective chip evacuation keep geometry and flatness consistent on large parts.
Defense
Housings, carriers, and structural parts in high-strength alloys; stable machining conditions and verified datums deliver repeatable accuracy under heavy cuts.