About JINME
Foshan CAN Dental Equipment Co., Ltd. (hereinafter referred to as Foshan CAN), has been focused on providing high and low speed dental handpiece and related dental products about clinicians with the clinical treatment, which is committed to make the treatment of dentists to simpler and more efficient, More accurate.
Established in 2007, the company set up in Hunan Jinme dental handpiece Co., Ltd., after that, in order to more efficient research and development, production, established Foshan CAN Dental Equipment Co., Ltd. in 2009 in China's most concentrated dental industry city - Foshan, and the company's brand name remains the same.
Company brand name: JINME, meaning the precision, beauty.
Product description
Dental handpiece as one of the most commonly used treatment equipment for a dentist, mainly use for repairing, cutting teeth, teeth preparation, polishing and other purposes. High-speed pneumatic handpiece work up to 400,000 rpm/ min. We have a very high technical requirements to the design and development, precision manufacturing, process control, test conditions.
R & D team
Foshan CAN has always been adhering to the spirit of "continuous innovation, and constantly go beyond", in our developing eight years, we always focus on this area, and ensure that R & D investment funds accounted for more than 10% of operating income. By September 2016, there are 15 full-time R & D staffs, 1 national senior engineer, 1 Dr. degree, 4 master's degree, 3 distinguished experts and professors, and other staffs are undergraduate and tertiary qualifications. Foshan CAN developed with more than 20 independent intellectual property rights patents in the air turbine high speed and low handpiece area.
Quality Assurance
Through the perfect ERP management system, we have effective management for each production batch to meet the medical device traceability laws and regulations. Foshan CAN has its own unique technology in noise and vibration analysis, micro-precision dynamic balance detection and processing, micro-fluid dynamic simulation analysis.
