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YM-TZJ
Yanming
Yanming is a leading aluminum profile equipment company dedicated to providing high - quality products and excellent services. Our company has a team of skilled technicians,who are dedicated to the resesrch and improvement of technology,Has outstanding advantages in the field of straightening machine for aluminum profiles research and development.Adopting PLC numerical control technology,Gear and rack movement enables infinite positioning.We support customized services and can further improve our products according to your specific needs,And develop a personalized plan for you.We will be dedicated to serving you. Please feel free to consult us at any time.
Yanming is a leading aluminum profile equipment company dedicated to providing high - quality products and excellent services. Our company has a team of skilled technicians,who are dedicated to the resesrch and improvement of technology,Has outstanding advantages in the field of straightening machine for aluminum profiles research and development.Adopting PLC numerical control technology,Gear and rack movement enables infinite positioning.We support customized services and can further improve our products according to your specific needs,And develop a personalized plan for you.We will be dedicated to serving you. Please feel free to consult us at any time.
Core components
The straightener consists of four parts:main jaw,auxiliary jaw,straightening frame and hydraulic system.The main jaw can rotate to meet different needs ,while the auxiliary jaw is fixd and cannot rotate. The auxiliary jaws are manually moved back and forth on the rack,with adjustable jaw positions to accommodate aluminum materials of different lengths.The straightening force can be adjusted as needed,and the proportional valve can be set through the touch screen.
Main working principle:The material passes through multiple sets of staggered straightening rolls, where the rolls apply counter-bending forces to the material, causing it to undergo elastic-plastic deformation and gradually eliminate its original curvature. By adjusting the height of the upper roll (changing the pressure) and the distance between the rolls, different materials' hardness, diameter, and degree of curvature can be accommodated.
Combining intelligent, environmentally friendly, and efficient production concepts, we have made improvements in the following aspects:
• Intelligentization: Integrating sensors with AI algorithms to automatically identify material bending and adjust straightening parameters (such as in unmanned production lines);
• Energy efficiency and environmental protection: Using servo motors instead of traditional motors to reduce energy consumption and minimize hydraulic system oil leakage pollution;
• High precision: Developing micrometer-level straightening technology for high-end manufacturing (such as new energy vehicles and precision instruments).
Core components
The straightener consists of four parts:main jaw,auxiliary jaw,straightening frame and hydraulic system.The main jaw can rotate to meet different needs ,while the auxiliary jaw is fixd and cannot rotate. The auxiliary jaws are manually moved back and forth on the rack,with adjustable jaw positions to accommodate aluminum materials of different lengths.The straightening force can be adjusted as needed,and the proportional valve can be set through the touch screen.
Main working principle:The material passes through multiple sets of staggered straightening rolls, where the rolls apply counter-bending forces to the material, causing it to undergo elastic-plastic deformation and gradually eliminate its original curvature. By adjusting the height of the upper roll (changing the pressure) and the distance between the rolls, different materials' hardness, diameter, and degree of curvature can be accommodated.
Combining intelligent, environmentally friendly, and efficient production concepts, we have made improvements in the following aspects:
• Intelligentization: Integrating sensors with AI algorithms to automatically identify material bending and adjust straightening parameters (such as in unmanned production lines);
• Energy efficiency and environmental protection: Using servo motors instead of traditional motors to reduce energy consumption and minimize hydraulic system oil leakage pollution;
• High precision: Developing micrometer-level straightening technology for high-end manufacturing (such as new energy vehicles and precision instruments).
