Zhejiang Fanyu Electronic Technology Co., Ltd., a professional R&D and manufacturing pioneer in the field of robot end effectors, has been deeply rooted in the industry frontier since its establishment in 2016. The company's headquarters is located in the beautiful Lupu Economic and Technological Development Zone, Yuhuan City, Zhejiang Province, China, and its core brand "FOYOT" has become a symbol of quality and innovation.
With profound technical accumulation and an innovation-driven development strategy, Fanyu Electronics adheres to the independent R&D route and has achieved remarkable results in the field of robot end effector technology. It has successfully obtained a number of invention patents and utility model patents, and has been awarded the honorary title of "National High-tech Enterprise" due to its outstanding scientific research strength.
The company has invested heavily in building a modern intelligent manufacturing system, equipped with internationally advanced high-precision CNC production and processing equipment and cutting-edge testing instruments, supplemented by scientific and rigorous processing technology, to ensure that each product meets strict precision standards and provides customers with excellent and reliable products.
Fanyu Technology's product line is rich and diverse, covering hundreds of robot automated end effector systems such as humanoid robot dexterous hands, pneumatic two-finger/three-finger grippers, gantry robot and six-axis robot end loading and unloading grippers, high-temperature resistant forging grippers, etc. These products are widely used in industrial production, intelligent logistics and other fields, meeting the diverse needs of customers in different industries.
Upholding the corporate spirit of "Pursue Excellence, Strive for the First", Fanyu Electronics has always taken high-quality products as the cornerstone and honest service as the link, continuously winning high recognition and trust from global customers, and is committed to becoming a leading enterprise in the global robot end effector field
