The company has passed ISO9001:2015 certification, and has been recognized by many customers for its excellent quality.
The company has been committed to the development, optimization and improvement of manufacturing technology, and has obtained ten patent certificates.
The company has injection molding machines, CNC machining centers, precision CNC lathes, as well as gold-plated and silver-plated production lines.
The company continues to improve in order to ensure the interests of customers and fully meet customer product needs.
Founded in 2005, WinWay is a Hong Kong based enterprise, which is located in Changan Town, Dongguan City.
WinWay focuses on providing you with precision machining, precision tooling, etching lid, precision hardware, precision mechanical, metal injection, precision metal, CNC precision, Precision Plating, CNC parts, Optical Communication Parts and Precision Medical Parts, high-mix/small-volume and Low-mix/high-volume manufacturing services.
Springback is a major problem in the forming process of large thin-walled parts. The closed-loop forming technology based on intelligent prediction is an effective way to solve this problem. This technology is based on the principle of closed-loop control, using a combination of mathematical models and artificial intelligence to accurately predict the amount of springback, and based on the prediction information to perform closed-loop precise control of the forming process, thereby effectively suppressing the impact of springback and improving forming accuracy. Ensure manufacturing quality.
The idea is to perform forming and processing operations based on the same reference, so as to eliminate multiple positioning errors caused by the reference non-overlapping, and effectively improve the manufacturing quality and efficiency of large thin-walled parts.
The fixture is a process device used to quickly fasten the workpiece during processing, so that the machine tool, cutting tool, and workpiece maintain the correct relative position. That is to say, tooling fixtures are indispensable parts of machining. Driven by the development of machine tool technology towards high-speed, high-efficiency, precision, composite, intelligence, and environmental protection, fixture technology is moving towards high-precision, high-efficiency, modular, combined, universal, Economic direction development.
The integration of machine tools and tooling through network and information technology can form a new integrated processing system. Its significance is the same as the integration of machine tools and tool magazines to form a machining center, which will bring about new changes in manufacturing equipment and manufacturing systems. One of the benefits of this new system is that machine tools and tooling can interact and interoperate, thereby improving the overall benefits of thin-walled parts manufacturing.
"We love the interface, the experience, and most importantly… the results."
"We’ve solved the biggest problem for every business, the lead problem. We are now constrained by sales time and no longer lack interested prospects."
High precision, very good processing, good chamfering
For example, welding fixtures, inspection fixtures, assembly fixtures, machine tool fixtures, etc. Among them, machine tool fixtures are the most common, such as vices, chucks, indexing heads and rotary tables.
The classification of tooling fixtures, tooling is divided into special tooling, general tooling, standard tooling (similar to standard parts).
Three elements of tooling design: 1. Benchmark 2. Size 3. Clamping Benchmark: Design drawing benchmark and process processing benchmark. Tooling and fixture design is designed on the basis of design drawings. It can also be designed on process benchmark. Of course, the process benchmark is higher than the basic design requirements. Size: The design size of the fixture can not be designed according to the size of the drawing, which means: the size of the fixture design should be stricter than the size of the drawing, generally 1/3. Clamping: Do not destroy the positioning position of the workpiece during clamping and ensure that the shape and size of the product meet the requirements of the drawing. It can neither allow the workpiece to loosen and slip, nor make the restraint of the workpiece too large and produce a larger restraint stress.