Features of multi-axis machining (1) Reduce the datum conversion and improve machining accuracy.
The process integration of multi-axis NC machining not only improves the effectiveness of the process, but also because the parts need only to be clamped once during the entire machining process, and the machining accuracy is more easily guaranteed.
(2) Reduce the number of fixtures and floor space.
Although the cost of a single unit in a multi-axis CNC machining center is relatively high, the number of fixtures, floor space, and equipment maintenance costs are also reduced due to the shortened process chain and the reduction in the number of equipment.
(3) Shorten the production process chain and simplify production management.
The complete processing of multi-axis CNC machine tools has greatly shortened the production process chain, and since only the processing task is given to one job, not only the production management and the planning and scheduling are simplified, but also the transparency is significantly improved. The more complex the workpiece is, the more obvious it is to the advantages of a traditional process. At the same time, due to the shortening of the production process chain, the quantity of work in process will inevitably decrease, which can simplify the production management, thereby reducing the cost of production operations and management.
(4) Shorten new product development cycle.
For companies in the aerospace, automotive and other fields, the shape of some new product parts and molding dies is complex and the precision requirements are high. Therefore, a multi-axis CNC machining center with high flexibility, high precision, high integration, and complete machining capability can be used. It solves the problem of the precision and cycle of complex parts processing in the new product development process, greatly shortens the development cycle and improves the success rate of new products.
Multi-axis Machining Advantage Multi-axis CNC machining center has the characteristics of high efficiency and high precision. The workpiece can be processed in five planes after one clamping. If a 5-axis linkage high-end numerical control system is configured, high-precision processing of complex space surfaces can also be performed, and it is very suitable for processing forming dies of automotive parts and aircraft structural parts.
Its greatest advantage is that the processing of the original complex parts becomes much easier, and the processing cycle is shortened, and the surface machining quality is improved. The improvement of product quality will increase the product performance requirements. If a dual-turntable 5-axis linkage machine tool is used, due to the special optical effect requirements of the headlight mold, many small surfaces for reflection have very high indexes for the accuracy and finish of the processing. Requirements, especially finish, almost require a mirror effect. The use of high-speed cutting technology equipment and five-axis linkage machine tool with a spherical cutter to cut out the effect of the mirror, it becomes easy, and past relatively backward processing methods are almost impossible to achieve. The use of five-axis linkage machine tool processing mold can quickly complete the mold processing, fast delivery, better guarantee the quality of the mold processing, make mold processing easier, and make mold modification easier. In the traditional mold processing, the vertical machining center is generally used to complete the milling of the workpiece. With the continuous development of mold manufacturing technology, some weaknesses of the vertical machining center itself have become increasingly apparent. Modern mold processing generally uses ball-end milling cutters for machining. The advantages of ball-end milling cutters in mold processing are obvious. However, if a vertical machining center is used, the linear velocity of the bottom surface is zero, so that the bottom surface finish is poor. If you use four or five axis linkage machine tool processing technology to mold, you can overcome the above deficiencies.
The brine tank is an essential component of water treatment systems, specifically in water softening processes. It is used to store and dissolve the softening salt, allowing it to mix thoroughly and effectively regenerate the resin.
PE (polyethylene) is the material commonly used to manufacture brine tanks due to its desirable properties. PE tanks are resistant to both acid and alkali substances, ensuring that the salt and other chemicals used in the water treatment process do not corrode or damage the tank. Additionally, PE tanks are durable and do not easily deteriorate with age, providing a long service life.
Furthermore, PE brine tanks are non-toxic and tasteless, ensuring that the water being treated remains safe for consumption. This is particularly important as the salt used in the tank will eventually mix with the water supply. The non-toxic nature of PE also means that it does not introduce any harmful substances into the water.
Overall, PE brine tanks play a vital role in water treatment projects by facilitating the proper dissolution of softening salt and enhancing the regeneration of resin. With their various color options, acid and alkali resistance, longevity, and safety features, PE brine tanks are a reliable and efficient choice for water treatment systems.
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