The entire tube processing workflow leaps forward at full speed, recreating a new industry benchmark with whirlwind-level high speed. Redefine efficiency, lead the future.
Actual tested performance, no false claims! The rear chuck reaches position in 2.5s at extreme speed, paired with whirlwind rotation speed, delivering cutting speed that surpasses peers, comprehensively leading the high-speed machine industry.
Maximum Acceleration
Maximum Rotation Speed
Note: Data sourced from Bodor Laser Laboratory.
Small circle cutting reaches an astonishing 500 pieces per minute.
For φ32mm, 1mm wall thickness stainless steel round tubes, processing complex patterns, single tube cutting time is saved by over 30s compared to the previous generation, setting a new high for comprehensive processing efficiency.
Under standard working conditions, compared with market-level products of the same class, the workpiece it processes shows a 20% improvement in accuracy data such as true roundness.
Note: Data sourced from Bodor Laser Laboratory, obtained by testing against the previous generation equipment. In actual processing scenarios, factors such as different environments, equipment status, and operational skills may cause variations in actual data.
The transmission system adopts a triangular three-dimensional structure, with balanced torque and more reasonable force distribution on the guide rails, ensuring more stable high-speed movement of the chuck.
The chuck uses high-strength alloy material, with hardened clamping jaws, improving positioning accuracy by over 20% compared to the previous generation.
Fully sealed internal dust prevention prevents roller jamming, extending service life by over 5 years.
The entire bed moves like a fully drawn bow, continuously releasing strong kinetic energy, with production efficiency soaring at full speed.
Equipped with an automatic loading device. When clamping the last piece of workpiece for cutting, the loading area can simultaneously perform 8s ultra-fast loading.
Cutting and loading proceed concurrently, optimizing the production cycle to the maximum extent, delivering even more extreme processing efficiency.
Equipped with an automatic loading device. When clamping the last piece of workpiece for cutting, the loading area can simultaneously perform 8s ultra-fast loading.
Cutting and loading proceed concurrently, optimizing the production cycle to the maximum extent, delivering even more extreme processing efficiency.
Following algorithm upgraded again. Laser head Z-axis speed 60m/min, a 25% improvement over the previous generation.
Following algorithm upgraded again. Laser head Z-axis speed 60m/min, a 25% improvement over the previous generation.
No need for professional manual drawing. Automatically generate processing drawings in 3 steps. Minimalist processing, more efficient, comprehensively solving the high-volume processing challenges in stair handrails, stainless steel security windows, and guardrail industries.
Unafraid of complex graphics. Upgraded layout strategy, intelligently plans the optimal cutting path, cutting efficiency improved by 30% compared to traditional nesting.
Simultaneously, achieves ultimate utilization of tube material, saving over 1000 tubes annually in comprehensive terms.
The front chuck can move forward carrying the material, passing over the laser head. The laser head is positioned between the front and rear chucks, with dual clamping for cutting. When the last piece is a long workpiece, cutting precision is not affected by unstable single chuck clamping. High-quality workpieces are obtained from start to finish.
Loading zone following rollers + deep U-shaped bionic roller support, unloading zone following plate support
All-servo following support ensures the entire tube maintains consistent precision throughout the entire processing, keeping product quality stable and uniform.
Under reasonable nesting, zero scrap cutting can be achieved, further improving tube utilization, attaining cutting effects only possible with three-chuck equipment.
Adopts a zero swing length structure, reducing tube movement path, lowering laser head swing amplitude, significantly improving cutting precision.
After cutting, zero-gap seam welding can be achieved, obtaining high-quality finished workpieces. No secondary grinding or filler required, greatly reducing labor, material, and time costs.
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