INCT GmbH
1. Difficult to achieve complex processes: Bevel cutting and intersecting-line paths are complex, and multi-axis coordination errors are common.
2. Unstable cutting quality: Traditional systems tend to generate burrs and vibration marks, affecting welding quality.
3. Overshoot during high-speed motion: Unstable start–stop behavior with slight creeping reduces cutting speed and accuracy.
4. Large inertia of heavy pipes: The drive system requires higher responsiveness and stable control performance.
This project adopts INCT high-performance servo motors + dedicated drivers, building a high-precision, high-dynamic tube-cutting motion unit.
INCT servo motors provide high response speed and strong overload capacity, maintaining precise trajectory tracking even during multi-axis linkage.
Bevel cutting, intersecting-line cutting, and other complex paths can be executed stably with no deviation or lost steps.
The servo delivers smooth output with minimal pulsation, ensuring stable cutting speed and angle.
Cut edges are smooth and burr-free, significantly reducing post-processing and improving production cycle time by over 20%.
INCT’s optimized servo control algorithm ensures stable, vibration-free acceleration and deceleration at high speeds. It completely eliminates overshoot and creeping issues found in traditional systems, improving cutting consistency.
For large-diameter, thick-wall pipes with high inertia, INCT servo motors offer higher torque density and rigidity, maintaining top-level speed and positioning performance even under heavy-duty conditions.
1. Difficult to achieve complex processes: Bevel cutting and intersecting-line paths are complex, and multi-axis coordination errors are common.
2. Unstable cutting quality: Traditional systems tend to generate burrs and vibration marks, affecting welding quality.
3. Overshoot during high-speed motion: Unstable start–stop behavior with slight creeping reduces cutting speed and accuracy.
4. Large inertia of heavy pipes: The drive system requires higher responsiveness and stable control performance.
This project adopts INCT high-performance servo motors + dedicated drivers, building a high-precision, high-dynamic tube-cutting motion unit.
INCT servo motors provide high response speed and strong overload capacity, maintaining precise trajectory tracking even during multi-axis linkage.
Bevel cutting, intersecting-line cutting, and other complex paths can be executed stably with no deviation or lost steps.
The servo delivers smooth output with minimal pulsation, ensuring stable cutting speed and angle.
Cut edges are smooth and burr-free, significantly reducing post-processing and improving production cycle time by over 20%.
INCT’s optimized servo control algorithm ensures stable, vibration-free acceleration and deceleration at high speeds. It completely eliminates overshoot and creeping issues found in traditional systems, improving cutting consistency.
For large-diameter, thick-wall pipes with high inertia, INCT servo motors offer higher torque density and rigidity, maintaining top-level speed and positioning performance even under heavy-duty conditions.