La cintreuse automatique à petits axes pour acier inoxydable, associée à la technologie servo-entraînement et à la commande numérique, est un équipement d'usinage de haute précision et à haut rendement pour l'industrie manufacturière moderne. Spécialement conçue pour l'usinage de matériaux durs comme l'acier inoxydable, elle permet des opérations de cintrage précises sur de petits arbres, des raccords de tuyauterie et d'autres composants. Elle est largement utilisée dans des secteurs tels que l'automobile, l'aérospatiale, les équipements médicaux, l'électroménager et les instruments de précision.
Caractéristiques principales :
Système d'entraînement servo :
Utilisant des servomoteurs hautes performances comme source d'alimentation, il offre une réactivité élevée, une grande précision de positionnement et un fonctionnement fluide. Le système servo permet de contrôler avec précision la vitesse, le couple et la position du moteur, permettant ainsi un réglage précis pendant le pliage.
Le servomoteur, associé à un réducteur de précision, fournit un couple de sortie suffisant pour assurer l'exécution en douceur des tâches de pliage, même lors de la manipulation de matériaux durs tels que l'acier inoxydable.
Numerical Control Program Control:
Equipped with advanced CNC system, users can input bending parameters such as bending angle, bending speed, holding time, etc. through the programming interface to achieve automated control of complex bending processes.
The CNC system supports multiple programming languages, making it easy for users to customize development according to their actual needs. At the same time, the system has a memory function that can store multiple sets of bending programs for easy subsequent retrieval.
High precision positioning:
By using high-precision sensors such as grating rulers and encoders, the working status and position information of the bending machine can be monitored in real time to ensure that the bending accuracy reaches the micrometer level.
The automatic calibration and compensation function can automatically adjust errors caused by material differences, mechanical wear, and other factors, ensuring long-term stability and reliability during operation.
Friendly human-computer interaction interface:
Equipped with a color touch screen or industrial grade display, it intuitively displays the operating status, parameter settings, and fault information of the bending machine.
The operation interface is simple and clear, and users can quickly get started without professional training. At the same time, it supports remote monitoring and fault diagnosis functions, making it easy for maintenance personnel to quickly respond and handle problems.
Modular design:
The bending machine adopts a modular design, with each component independent and easy to replace and maintain. Users can choose different molds and accessories according to their actual needs to meet the bending requirements of stainless steel small shafts of different specifications and shapes.
Safety protection measures:
Equipped with comprehensive safety protection devices, such as emergency stop buttons, safety barriers, protective covers, etc., to ensure the safety of operators.
The device automatically detects abnormal situations and issues alerts during operation, effectively preventing the occurrence of accidents.
Application advantages:
Improve production efficiency: high degree of automation, reduced manual intervention, and shortened production cycle.
Improving product quality: high-precision positioning and control technology to ensure bending accuracy and consistency.
Reduce labor intensity: Reduce manual handling and adjustment work, and improve the working environment.
Easy to maintain and upgrade: modular design facilitates maintenance and replacement of components; The numerical control system supports software upgrading to keep the equipment progressiveness.
The automatic bending machine for stainless steel small shafts is playing an increasingly important role in modern manufacturing due to its high efficiency, precision, and automation.
