How does Manhart (Guangdong) CNC Machine Tool Co., Ltd. control the speed and temperature during the bending process?

**How to control the speed and temperature during the bending process**
**1、 Speed control strategy**
1. * * Pre set speed setting * *: Based on the properties, thickness, and expected bending effect of the material, preset an appropriate bending speed. Thin materials can usually use faster speeds, while thicker materials require slower speeds to ensure bending accuracy.
2. * * Dynamic speed adjustment * *: During the bending process, the bending speed is dynamically adjusted based on real-time bending force, material deformation and other parameters. When encountering significant resistance or deformation, the speed can be appropriately reduced to reduce internal stress.
3. * * Speed curve control * *: For complex bending shapes, a speed curve control strategy can be adopted, which sets different speeds at different bending stages to achieve the best bending effect.
**2、 Temperature control methods**
1. Preheating treatment: For some materials that are prone to deformation, preheating treatment is carried out before bending to reach a moderate temperature to reduce stress during the bending process.
2. Real time temperature monitoring: During the bending process, use infrared thermometers and other devices to monitor the temperature of the material in real time, and adjust the heating or cooling equipment as needed to maintain the material within a stable temperature range.
3. Collaborative control of temperature and speed: Temperature and speed are two important factors that affect the bending effect of materials. It is possible to find the optimal bending process parameters through collaborative control of temperature and speed.
**3、 Monitoring and feedback system**
1. Real time monitoring: By installing various sensors, key parameters such as speed, temperature, and bending force during the bending process are monitored in real time.
2. * * Data Analysis and Feedback * *: Analyze the real-time monitoring data, compare it with the preset process parameters, and then adjust the control strategy based on the feedback results to achieve more accurate bending control.
**4、 Analysis of influencing factors**
1. * * Material characteristics * *: The hardness, ductility, thermal conductivity, and other characteristics of a material can affect the effectiveness of speed and temperature control.
2. * * Mold Design * *: Factors such as the shape, size, and surface quality of the mold can also affect the speed and temperature control during the bending process.
3. * * Environmental factors * *: Workshop temperature, humidity and other environmental factors can also have a certain impact on speed and temperature control.
**5、 Security measures**
1. * * Overheat protection * *: Set the overheat protection function on the heating device, and automatically turn off the heating device when the temperature exceeds the safe range.
2. Emergency stop: Set an emergency stop button in the control system, which can immediately stop the operation of the bending machine when abnormal situations are found.
3. Regular Maintenance: Regularly inspect and maintain speed and temperature control equipment to ensure it is in good working condition.
By implementing reasonable speed and temperature control strategies, combined with effective monitoring and feedback systems, the stability of the bending process and product quality can be greatly improved. Meanwhile, by deeply analyzing the influencing factors and taking corresponding safety measures, the safety and reliability of the entire bending process can be ensured.