1. The use of numerical control machining technology in the automobile industry
The traditional automobile industry is typically driven by the pursuit of benefit and scale. At the moment, society has higher expectations for automobile functions, necessitating a high level of overall performance from the vehicle as well as high levels of precision in the parts. In light of the current situation, we should increase the use of numerical control technology, which can help automobile processing enterprises transition from large to small-scale operations. Because of the rapid development of personalization and high efficiency, it is also possible to carry out rapid processing for automobile cylinders cnc drilling parts, connecting rods, pistons, crankshafts, and other parts through the use of numerical control technology. Furthermore, the use of numerical control machine tools in the processes of stamping, coating, and welding should be encouraged. A variety of elements, such as industrial robots and CNC machine tools, must be combined with computers in order to achieve a flexible manufacturing system and improve the quality and efficiency of work. For the time being, the majority of automobile manufacturers will rely on numerical control technology for their manufacturing processes. The use of robots can improve the efficiency and quality of work while also ensuring the safety of employees.
2. The use of numerical control (NC) machining technology in coal mining machinery
The process of coal mining machinery can benefit greatly from the application of numerical control technology. Blanking and rough embryo manufacturing are frequently required during the manufacturing of coal mining machinery. Numerical control technology can be fully utilized in this process. Process parameters can be effectively adjusted, and manufacturing intelligence can be realized, thanks to numerical control technology. It can not only promote the overall improvement of operation efficiency and production quality, but it can also promote the overall improvement of mechanical performance, all without the participation of personnel, and effectively reduce the risk of personnel injury or illness. During the processing of the floating oil seal structure of the shearer, the staff should make certain that the compression of the sealing ring is equal between the protruding surface of the inner ring and the concave surface of the outer ring. In this process, the cnc turning parts gas cutting technology can be used to increase the cutting speed while maintaining the accuracy of the processing.
3. The use of numerically controlled machining technology in the aerospace industry
Aviation technology is an important symbol of China's scientific and technological development, as well as an important embodiment of the country's progress in terms of national strength as a whole. Precision must be given greater consideration in aerospace technology. Lightweight materials such as titanium alloys and aluminum alloys are commonly used in aerospace equipment. When cutting titanium alloy and aluminum alloy using the traditional method, it is easy to cause deformation of parts and components, which has a significant negative impact on the machining accuracy and overall quality. While numerical control technology combined with high-speed mechanical technology is used in the manufacturing of aerospace equipment, it not only produces less heat but also has a faster cutting speed and higher quality. Furthermore, numerical control technology, fuzzy control technology, and artificial neural network technology are being integrated with one another, allowing for the realization of dynamic machining, the promotion of overall improvement in machining accuracy, and the fulfillment of the needs of aerospace equipment.
The use of numerical control machining technology in industrial production
The application of numerical control technology can be improved in the process of industrial production. Industrial robots are a common example of how numerical control technology is put to use. Industrial robots are capable of quickly accepting human instructions and performing tasks according to established procedures. Industrial robots are commonly used in a variety of manufacturing processes, including welding, industrial handling, machining, spraying, and assembly. We can work in hazardous, cnc machining , and high-temperature environments without the risk of harming ourselves or others by employing industrial robots instead of humans. Furthermore, industrial robots are equipped with a variety of key technologies, such as a high-speed performance controller, a high-performance servo motor, a precision reducer, and so on. Machines that produce goods are primarily operated through the use of computer technology, and the control panel drives them through their entire process, which helps to improve the overall quality of the product as well as its reliability and safety.