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This semi-automatic tube cutting and material feeding device consists of a new type of gantry structure and a feeding system. To ensure the smooth operation of the entire automated system, manual intervention and auxiliary control are required during operation.
● Gantry structure : The foundation that supports the movement of the upper and lower mechanical arms, assembled from multiple columns and beams (made of large-section high-strength thick-walled steel), providing good overall rigidity.
● Feeding System: This system is responsible for gripping steel tube and feeding them into the laser tube cutting machine. It consists of sprockets, cylinders, guide rails, drive chains, and a material sorting mechanism, among other components.
Workflow: tube Material Stacking → Manual Loading → Material Sorting → Feeding → Cutting
● tube Material Stacking: A stack of tube is manually placed at the material stacking area.
● Manual Loading: Workers push the stack of tube into the feeding area, where the tube are conveyed to the feeding support by chains.
● Material Sorting: When the tube reach a specific position at the feeding support, a material sorting mechanism separates the tube to ensure that only one tube is fed into the feeding mechanism.
● Feeding: Once the tube reaches the designated position, the feeding mechanism operates to deliver the tube to the target location of the laser tube cutting machine.
● Cutting: The laser tube cutting machine clamps the tube and performs the cutting process.
Advantages:
1, Supports different types of profiles, including round pipes, square pipes, elliptical pipes, channel steel, I-beams, angle iron, equal angle steel, and unequal angle steel.
2,Can handle pipe materials of different lengths for loading.
3, Upgrades the manual loading of single pipes with frequent repetitions to bundle loading, reducing labor intensity, saving labor costs, and improving production efficiency.
4, Modular design allows for upgrades such as multi-machine parallel material storage with additional modules.
5,Flexible production line with specialized CNC systems and nesting software, allowing for easy changes or replacements of products.
This semi-automatic tube cutting and material feeding device consists of a new type of gantry structure and a feeding system. To ensure the smooth operation of the entire automated system, manual intervention and auxiliary control are required during operation.
● Gantry structure : The foundation that supports the movement of the upper and lower mechanical arms, assembled from multiple columns and beams (made of large-section high-strength thick-walled steel), providing good overall rigidity.
● Feeding System: This system is responsible for gripping steel tube and feeding them into the laser tube cutting machine. It consists of sprockets, cylinders, guide rails, drive chains, and a material sorting mechanism, among other components.
Workflow: tube Material Stacking → Manual Loading → Material Sorting → Feeding → Cutting
● tube Material Stacking: A stack of tube is manually placed at the material stacking area.
● Manual Loading: Workers push the stack of tube into the feeding area, where the tube are conveyed to the feeding support by chains.
● Material Sorting: When the tube reach a specific position at the feeding support, a material sorting mechanism separates the tube to ensure that only one tube is fed into the feeding mechanism.
● Feeding: Once the tube reaches the designated position, the feeding mechanism operates to deliver the tube to the target location of the laser tube cutting machine.
● Cutting: The laser tube cutting machine clamps the tube and performs the cutting process.
Advantages:
1, Supports different types of profiles, including round pipes, square pipes, elliptical pipes, channel steel, I-beams, angle iron, equal angle steel, and unequal angle steel.
2,Can handle pipe materials of different lengths for loading.
3, Upgrades the manual loading of single pipes with frequent repetitions to bundle loading, reducing labor intensity, saving labor costs, and improving production efficiency.
4, Modular design allows for upgrades such as multi-machine parallel material storage with additional modules.
5,Flexible production line with specialized CNC systems and nesting software, allowing for easy changes or replacements of products.
