Fully automatic CNC lathes are widely used in electrical equipment processing and manufacturing industries. The energy crisis is a strategic problem, and our country has always attached importance to the manufacturing of electrical equipment. After decades of development trends, my country's electrical equipment manufacturing capacity has long been at the forefront of the world, and my country's welding equipment manufacturing companies can serve as the future development requirements of smart energy. The progress in the manufacture of machine tools for electrical equipment has also taken a step forward. The precision index values of small and medium-sized processing are roughly divided into: precise positioning accuracy and repeated precise positioning accuracy; screen resolution and single pulse dose; indexing accuracy. Accurate positioning accuracy refers to the consistent level of the real fitness and command parts of the operating table of small and medium-sized machining centers and other sports components. The inconsistent error is the accurate positioning deviation. The factors that cause precise positioning deviations include servo control systems, monitoring systems, tool drive systems, and slide rail deviations. Accurate positioning
deviation immediately affects the specification accuracy of the production and processing parts.
The repeated precise positioning accuracy of an automatic CNC lathe refers to a consistent level of results obtained after several actual operations are required under the same control methods and standards. The accuracy of repeated precise positioning is generally an occasional deviation with a standard normal distribution, which will endanger the consistency of mass-produced parts. It is a very net weight performance parameter. Generally, the precision positioning accuracy of small and medium-sized machining centers is 0.018mm, and the repeated precision positioning precision is 0.008mm. The precision index values of CNC machine tools are roughly divided into: precision positioning accuracy and repeated precision positioning accuracy; screen resolution and single pulse dose; indexing accuracy . Accurate positioning accuracy is the consistent level of the real fitness exercise part and the commanded part of the motion components such as the operation table of the index value-controlled machine tool. The inconsistent error is the precise positioning deviation. The factors that cause precise positioning deviations include servo control systems, monitoring systems, tool drive systems, and slide rail deviations.
The precision positioning deviation of the precision CNC lathe immediately affects the specification accuracy of the production and processing parts. Repeated precision positioning accuracy refers to the consistent level of results obtained after several required actual operations under the same control methods and standards. The accuracy of repeated precise positioning is generally a random deviation with a standard normal distribution, which will endanger the consistency of mass-produced parts. It is a very net weight performance parameter. The precise positioning accuracy of general CNC machine tools is 0.018mm, and the repeated precise positioning accuracy is 0.008mm. Screen resolution and single pulse dose: The screen resolution refers to the small offset gap that can be distinguished. For the system, the screen resolution is the small offset that can be adjusted, and for the control system software, the screen resolution is the small offset increase that can be adjusted. The single pulse dose is the offset caused by the offset component of the machine tool without a differential signal from the exponential value control device. Indexing accuracy: Indexing accuracy refers to the error between the specific rotation angle of view and the commanded angle of rotation when the indexing console is indexing. The indexing accuracy not only harms the viewing angle of the parts and monitoring parts in the area, but also harms the parallelism of the production and processing of the hole system.