hot line: 86-510-80628100hot line: 86-510-80628100the hydraulic transmission control system mainly consists of four parts: power components, execution components, control components, and auxiliary components. the hydraulic transmission control system needs to rely on the characteristics of the internal liquid as auxiliary power to maintain the hydraulic balance of the entire system. its energy pressure conversion is controlled by using the internal liquid as a carrier to adjust the piston matching pressure range.
hydraulic technology has outstanding advantages, ranging from civilian to national defense, from general transmission to high-precision control systems, with broad application prospects. hydraulic technology will continue to improve, specifically manifested as:
1. miniaturization, lightweighting, and modularization of hydraulic components
miniaturization, lightweighting, and modularization are inevitable trends in the entire hydraulic industry. by redesigning the layout and structure of components, the miniaturization of the hydraulic transmission control system can be achieved, which can accelerate the response speed of the hydraulic system. lightweight hydraulic components can be achieved through material selection and technological updates. lightweight hydraulic components can reduce energy consumption of downstream machinery and equipment, extend their service life, and improve production efficiency. modularization of hydraulic products refers to the technical means of integrating functions that were previously implemented by multiple components into one module, enabling a single module to replace multiple components. the modularization of hydraulic products can improve assembly efficiency and enhance the sealing performance of hydraulic products.
2. green production process
firstly, by utilizing structural optimization techniques and active control principles, the vibration and noise of hydraulic products and systems can be reduced. secondly, gradually eliminate processing and manufacturing processes that harm the environment, adopt environmentally friendly manufacturing methods and equipment, and improve the utilization of resources and energy in the manufacturing process. thirdly, develop new materials that reduce friction and lower the wear and tear of hydraulic components, and improve material utilization efficiency. fourthly, by developing hydraulic pipeline connection technology and researching new sealing materials, optimizing sealing structures and precision machining processes, improving product sealing performance, and reducing medium leakage and pollution. fifth, develop recycling and reuse processes for fluid media, develop specialized hydraulic component disassembly, recycling, and remanufacturing processes, and improve product recyclability.
3. integration and consolidation of hydraulic systems
the integration and integration of hydraulic systems can achieve the flexibility and intelligence of hydraulic systems, fully leveraging the advantages of high transmission output, low inertia, and fast response of hydraulic systems.
4. popularization of application scenarios
hydraulic transmission control technology can be applied not only to numerous mechanical fields, but also to daily life scenarios.
