On request
imported
HA-1400 Series
HA-1400 is a heavy-duty flat-bed turning center built for oversized diameters and long parts. It supports Ø1,400 mm swing, Ø1,100 mm max turning diameter, and turning lengths up to 10,000 mm. A 3-step gearbox spindle (37/45 kW) and four box ways provide stable heavy cutting.
- Ø1,400 swing and up to 10,000 mm turning length options
- 3-step gearbox spindle (37/45 kW) for heavy-duty torque
- Four box ways and wide flat bed for stable long-cycle cutting
Brand:
- GOODWAY
Overview
HA-1400 Series Heavy Duty Flat-bed Turning Center
HA-1400 is designed for super large workpieces and demanding cutting applications, combining a flat-bed layout with a heavy-duty structure for stable accuracy over long cycles.
The platform uses a wide flat bed with four box ways to support rigidity and damping when cutting at scale. This construction approach is intended to hold geometry and surface quality during heavy engagement.
At the core is a 3-step gearbox spindle engineered for strong torque at low speed. Motor output is listed at 37/45 kW (continuous/30 min), with spindle speed and through-bore depending on spindle configuration.
For production practicality on large parts, the HA series includes a twin chip conveyor concept with a separated large coolant tank design (series feature). Optional equipment includes live tooling turret and a Cf-axis spindle package to extend capability beyond pure turning.
Key Features – HA-1400 Series
Four Box Ways Flat Bed
Wide flat bed with four box ways supports heavy cuts and stability.
3-Step Gearbox Spindle
Gearbox drive delivers torque at low speed for heavy-duty turning.
Oversized Work Envelope
Ø1,400 mm swing, Ø1,100 mm turning dia, up to 10,000 mm length.
Production-Ready Chip Handling
Twin chip conveyor system with separated large coolant tank design.
Specifications HA-1400
|
Category |
Item |
Unit |
Value |
|---|---|---|---|
|
CAPACITY |
Max swing diameter |
mm |
Ø1,400 |
|
CAPACITY |
Swing over saddle |
mm |
Ø1,000 |
|
CAPACITY |
Max turning diameter |
mm |
Ø1,100 |
|
CAPACITY |
Max turning length (options) |
mm |
2,000 to 10,000 |
|
CAPACITY |
Max table load (with steady rest support) |
kg |
10,000 to 15,000 |
|
BED |
Flat bed width |
mm |
1,350 |
|
BED |
Flat bed height |
mm |
815 |
|
BED |
Slide way type |
— |
Four Box Ways |
|
SPINDLE |
Spindle drive system |
— |
3-step gearbox |
|
SPINDLE |
Motor output (cont. / 30 min.) |
kW |
37 / 45 |
|
SPINDLE |
Spindle speed range (option-dependent) |
rpm |
Up to 800 (range 250 to 800) |
|
SPINDLE |
Hole through spindle (option-dependent) |
mm |
205 to 520 |
|
AXES |
Max X travel |
mm |
595 |
|
AXES |
Max Z travel (by length option) |
mm |
2,150 to 10,150 |
|
AXES |
X / Z rapid traverse |
m/min |
10 / 8 |
|
TURRET |
Turret stations |
count |
12 (8/4 optional noted) |
|
CONTROL |
CNC control |
— |
FANUC Oi-TF |
|
LIVE TOOLING (OPT.) |
Live tooling RPM range |
rpm |
4,000 |
|
Cf-AXIS (OPT.) |
Cf-axis torque output (cont.) |
N-m |
1,524 |
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.