Hydraulic press, including a frame (2), an operation platform (1), and eight cylinders, where the cylinders house piston rods (3). The Bengbu New Energy Hydraulic Press features a tensioning cylinder (6) on top of the cylinders, with the piston rods in the tensioning cylinder being hollow, and the piston rods (7) within the tensioning cylinder passing through the hollow section of the cylinder piston rods. This utility model employs the piston rods of dual or even multiple cylinders for a single-step tensioning and forming of metal plates, boasting a scientifically designed structure. As a brand of new energy hydraulic presses, it is simple and convenient to operate. The hydraulic presses manufactured according to the design theme of this utility model are sure to bring positive operating effects to the broad metal hydraulic press industry, representing a major breakthrough in metal plate stretching equipment, especially for the automotive manufacturing industry.


It provides technical support for the optimized design of the hydraulic system for modern forging hydraulic presses; it can improve the existing design of the hydraulic control system for forging hydraulic presses, enhancing system performance and optimizing control technology to elevate the overall level of forging hydraulic presses. This article addresses the requirements for modern forging hydraulic presses to be rapid, non-impact, and high-precision, and focuses on the specialized research of both the influencing factors of the working characteristics and the control characteristics of forging hydraulic presses by manufacturers of new energy hydraulic presses. Using mechanism modeling technology, a dynamic modeling study of the hydraulic control system and components of forging hydraulic presses has been conducted.


Through extensive research and experimentation, the factors affecting the rapidity of forging hydraulic presses have been investigated. The study of the impact vibration of forging hydraulic presses was conducted from three aspects: decompression and unloading impact, pipeline pressure impact, and unloaded impact vibration. By combining production site measured data, using technology, the ideal decompression curve, the influence of different pipeline positions on system impact vibration, and measures to reduce vibration caused by unloaded conditions were studied. The control characteristics of the forging hydraulic press valve-controlled cylinder were investigated, utilizing the specificity of the hydraulic system's installed unit to control the working cylinder, and design controller parameters.


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