According to the disclosure, the funds raised by this listing of Tsukagoshi Hirotaka Technology are mainly used to increase R&D layout, strengthen capacity building and optimize product structure.
According to the data, Tsukagoshi Hirotaka Technology was established in 21, mainly engaged in the scheme design, technology research and development, core equipment manufacturing, automatic control, system integration and related technical services of powder material treatment process, and committed to achieving high energy efficiency, low loss, economy and environmental protection in the production process of users.
According to reports, Tsukagoshi Hirotaka Technology has been focusing on pneumatic conveying system for more than 2 years. Through the implementation, accumulation and summary of thousands of pneumatic conveying lines for synthetic resin and other materials, it has formed a business model that is suitable for the market characteristics of the industry and the actual operation of the company. In the field of pneumatic conveying system equipment, Tsukagoshi Hirotaka brand has been widely recognized by customers. At present, the company has provided thousands of pneumatic conveying lines for many large petrochemical and chemical plants, and successfully realized the localization of large polyolefin fields.
technical features
Tsukagoshi Hirotaka Technology said that since its establishment in 21, the company has adhered to the continuous independent research and development of core technologies and equipment, and adhered to the self-reliance of key core technologies, realizing the independent control of pneumatic conveying system technology, the independent production of some core equipment and the localization of large polyolefin pneumatic conveying systems. By June 3, 223, the company had 65 patents, including 7 invention patents and 58 utility model patents.
It is understood that over the years, Tsukagoshi Hirotaka Technology has independently developed a special system pressure loss calculation model and conveying system calculation algorithm for pneumatic conveying through a large number of material characteristic tests, conveying simulation experiments and engineering practice accumulation of thousands of pneumatic conveying lines in the project. The process calculation and simulation of each conveying line are realized. Through the continuous revision and improvement of data parameters, the calculation results are infinitely close to the actual operating conditions.