Milling Type Orbital Cut Off
For manufacturers producing medium and large sized tube and pipe, the requirements to the quality of cutting surface and accuracy of joint surface are highly critical. The milling type orbital cold saw cut off machine comes to the role to meet the manufacturers’ highest requirements.
SRET Equipment has developed a state of the art solution for milling type orbital cold saw cut off that is able to cut heavy section tube, either round or shaped, in various grade of steel, by quick and effective cold saw process. Two tungsten carbide-tipped (TCT) blades are applied to ensure a clean cutting of the end without the need for any end facing even in a hollow section. The orbital trajectory is obtained by combining two independent axes for each blade, like in CNC milling machine, which is simple and reliable. The cutting process of SRET Equipment’s milling type orbital flying cutoff machine can be either in rectangular coordinate where the profiling curve generated in X and Y movement, or in polar coordinate where the orbital curve generated in ϕ and r dimensions. The machine is totally numerically controlled and very user friendly. Once programmed they can operate without requiring the constant presences of operator at the control station.
The movement of the traveling carriage is controlled by a rack and pinion accelerator that provides the necessary thrust force to perform the cutting cycle in accordance with the established performance parameters.
SRET Equipment is the first company in China who developed the milling type orbital cold saw cut off, has the widest success reference installations, and now is the most trusted supplier of it in China.
Value Highlights
- Proved for heavy application for cutting tube, pipe, sections and rails
- Orbital milling type cutoff for a beautiful cutting face and long lasting blades
- Computerized length control
- Suited well to various grade of material
- HMI provide with real time status of operation
- Ensure a minimum downtime and smooth production
- Remote monitoring function enabling the on-site operation status being assessed at remote locations
- Full automation without need for constant operator presence at control desk
Technical Data Sheet
Model No. | Tube Size (mm) | Thickness (mm) | Length (m) | Tolerance (mm) | Speed (m/min) |
XFJ130 | Ø 60 – 130
□ 47 – 102 |
2.5 – 8.0 | 5.0 – 18.0 | ≤ ±2 | Max. 45 |
XFJ165 | Ø 89 – 165
□ 70 – 130 |
2.5 – 10.0 | 5.0 – 18.0 | ≤ ±2 | Max. 45 |
XFJ219 | Ø 114 – 219
□ 90 – 170 |
3.5 – 12.0 | 5.0 – 18.0 | ≤ ±2 | Max. 40 |
XFJ273 | Ø 165 – 273
□ 130 – 215 |
4.0 – 12.7 | 5.0 – 18.0 | ≤ ±2 | Max. 38 |
XFJ325 | Ø 165 – 325
□ 130 – 255 |
5.0 – 14.0 | 5.0 – 18.0 | ≤ ±2 | Max. 35 |
XFJ406 | Ø 219 – 406
□ 170 – 319 |
6.0 – 16.0 | 5.0 – 18.0 | ≤ ±2 | Max. 35 |
XFJ508 | Ø 219 – 508
□ 170 – 400 |
6.0 – 18.0 | 5.0 – 18.0 | ≤ ±2 | Max. 30 |
XFJ630 | Ø 219 – 630
□ 170 – 495 |
6.0 – 20.0 | 5.0 – 18.0 | ≤ ±2 | Max. 30 |
XFJ660 | Ø 325 – 660
□ 255 – 520 |
6.0 – 22.0 | 5.0 – 18.0 | ≤ ±2 | Max. 30 |
XFJ711 | Ø 325 – 711
□ 255 – 560 |
8.0 – 22.0 | 5.0 – 18.0 | ≤±2 | Max. 25 |
XFJ762 | Ø 325 – 762
□ 255 – 600 |
8.0 – 25.0 | 5.0 – 18.0 | ≤±2 | Max. 25 |