cnc Swiss lathe, Efficient metal processing tool, using a centrifuge to achieve high-precision metal processing, improving production efficiency and reducing costs. Multiple models are available to meet various processing needs. High precision and efficient processing.
CNC Swiss lathes, also known as spindle box moving CNC automatic lathes, economical turning and milling composite machine tools, or longitudinal cutting lathes. Belonging to precision machining equipment, it can simultaneously complete compound processing such as turning, milling, drilling, boring, tapping, carving, etc. It is mainly used for batch processing of precision hardware and non-standard shaft shaped parts. The machine was originally originated in Germany and Switzerland, and was mainly used for precision machining of JUN tools in the early stage. With the continuous development and expansion of industrialization, it is gradually applied in the processing of civilian products due to the urgent market demand; The development of similar machine tools in Japan and South Korea was earlier than that in China, and in the early stages, they were mainly used in the military industry. After the war, with the increasing demand for development, they gradually became widely used in the manufacturing industry; Subsequently, Taiwan, China introduced this technology and independently developed this type of equipment with different processing needs. The manufacturing of CNC Swiss lathes in China started relatively late. Due to technological closure and policy restrictions, before the 1990s, China's centrifugal machines mainly relied on imports to meet processing needs. With the continuous development of automation and strong market demand, a large number of powerful CNC centrifugal machine manufacturers emerged in the Chinese market. Among them, the series of machine tools were produced in coastal Guangdong, Jiangsu, Nanjing, and mainland Xi'an, and achieved good market applications, filling the domestic gap. The centrifugal machine has made a qualitative leap in processing efficiency and accuracy compared to CNC lathes. Due to the use of dual axis arrangement of cutting tools, the processing cycle time is greatly reduced. By shortening the tool exchange time between the arrangement of cutting tools and the opposite tool table, the multi tool table weight function, the effective axis movement weight function of thread chips, and the direct spindle indexing function during secondary processing, the idle time is shortened. The chip cutting tool has always been processed at the clamping position between the spindle and the workpiece, and the machining accuracy remains constant. Currently, the machining diameter of CNC Swiss lathes on the market is 38mm, which has a great advantage in the precision shaft machining market. This series of machine tools can be equipped with automatic feeding devices to achieve fully automated production of a single machine tool, reducing labor costs and product defect rates. Very suitable for large-scale production of precision shaft parts.
Features and advantages: 1. Shorten the machining process of parts, improve production efficiency, and complete all or most of the machining seats in one go with the combination of turning and milling. There is no need for secondary turning machining like traditional lathes, which greatly increases the time and labor costs, and shortens the product machining process. This not only reduces production auxiliary time, but also reduces the manufacturing cycle and waiting time of tooling and fixtures, which can significantly improve production efficiency.
2. Reduce the number of clamping times and improve machining accuracy. The reduction in card loading frequency avoids the accumulation of errors caused by positioning benchmark conversion. Most of the walking locomotive milling composite processing equipment has the function of online detection, short tool inspection, and temperature difference compensation, which can achieve in situ detection and accuracy control of key data in the manufacturing process, thereby improving the machining accuracy of the product.
(3) Reduce land area and lower production costs. Although the cost of milling and composite processing for walking locomotives is relatively high, due to the shortening of manufacturing processes and the reduction of equipment required for products, as well as the reduction of personnel, the number of fixtures, workshop area, and equipment maintenance costs, it can effectively reduce the overall investment, production operation, and management costs of fixed assets.
Design features:
Due to the significant difference in structure between the Swiss lathes and traditional CNC lathes, the machining efficiency and precision speed of the Swiss lathes are much higher than those of CNC lathes. The walking machine adopts a dual axis arrangement of cutting tools, which greatly saves machining cycle time. By shortening the tool exchange time between the cutting tool arrangement and the opposite cutting tool table, multiple tool table overlaps and the effective axis movement overlap of thread chips are achieved, and the direct spindle indexing function is used during secondary machining to shorten the real space travel time. In the machining process of the clamping part between the spindle and the workpiece, the chip cutting tool has always played a very important role, providing strong support for constant machining accuracy. From the perspective of the centrifuge market, 38mm is its larger machining diameter, which gives the centrifuge a significant advantage in the precision shaft machining market. This series of machine tools can also be equipped with automatic feeding devices, achieving fully automated production of a single machine tool, reducing labor costs and defective products in the production process, and achieving intelligent processing and production workshops.