The YF-CNC-5-140 is designed for manufacturers producing large wire components with high structural strength and
controlled multi-angle geometries.
The machine provides a practical balance between forming force and CNC flexibility for automotive seating,
commercial transport, agricultural machinery and industrial structures. It is appropriate for components with long straight
sections, reinforced bends and several controlled angles, without unnecessary full 3D motion.
Steel, stainless steel, copper and aluminum materials have different springback and forming characteristics.
Machine suitability must therefore be evaluated using the actual material grade, cross-section and minimum bend radius.
| Model | YF-CNC-5-140 |
| Wire diameter | Φ5.0-14.0mm |
| Axles number | 5 axles |
| Wire feed length | Infinite |
| Wire feed speed | 100Meter/Mln |
| Wire Feed instruction value | ±0.01 - ± 9999.99 |
| Input voltage | 380V±10%V50HZ (Customized) |
| Cam instruction value | ±0.1° - ±359.9° |
| No. of Feeding Round | |
| Power of Wire Feeding Motor | 15kw |
| Power of Turning Motor | 5.5kw |
| Power of Wire Cuter Motor | 5.5kw |
| Power of Moving Motor | 1kw |
| Power of Angle Control Motor | 7.5kw |
| Machine weight | 4000KG |
| Machine sizes | 4350x2000x2000mm |
The YF-CNC-5-140 is a five-axis heavy wire bending machine for Ø5.0–14.0 mm material. Its published parameters list strong feeding, turning, cutting and angle-control servo systems, supporting its use for large industrial components.
Automotive seat frame wires
Commercial vehicle structural rods
Large machine handles
Heavy support brackets
Agricultural equipment rods
Industrial protection bars
Transport rack components
Large pipe retaining structures
Copper or aluminum bar components, subject to material evaluation
Reinforced locking rods
Heavy furniture frame parts
Custom large bent-wire components
Automotive seating
Commercial transportation
Agricultural equipment
Industrial machinery
Electrical power components
Large furniture structures
Copper, aluminum and steel materials require different tooling, bending allowances and springback settings. The material grade, cross-section and bend radius must be evaluated before confirming machine suitability.


