关键词: 自动控制技术, 液压弹射, 高速液压缸, 缓冲过程

Abstract:

A hydraulic power system design was proposed to achieve a hydraulic catapult, which mainly consists of a high-speed hydraulic cylinder, a piston accumulator, a main valve and a servo valve. An in- genious cylinder cushion structure was designed to avoid strong shock and vibration at the stroke end of hydraulic cylinder piston. The system working principle and design method were discussed. Then a sys- tem mathematical model was established, and the characteristics of the catapult and cushion process were further investigated through numerical simulation. Theoretical results were finally compared with the ex- perimental ones, and it was found that they are in agreement. The results show that the moving speed of hydraulic cylinder piston is up to 7 m/ s within 70 ms, and the cushion efficiency reaches 95% within 12 mm cushion stroke of hydraulic cylinder piston.

Key words: automatic control technology, hydraulic catapult, high-speed hydraulic cylinder, cushion process