液压与气动2026,Vol.50Issue(3):23-29,7.DOI:10.11832/j.issn.1000-4858.2026.03.003
气动动作系统优化设计方法的试验验证与节能效果
Experimental Validation and Energy-saving Effects of Optimized Design Method for Pneumatic Motion Systems
摘要
Abstract
We investigate the high energy consumption caused by conventional pneumatic component selection methods.A nonlinear optimization design approach is proposed with the objective of minimizing system energy consumption.An experimental platform equipped with multiple sensors is established to validate the proposed method under several common industrial operating conditions.Comparative experiments and stability tests are conducted over ten operational cycles.The results show that the optimized pneumatic systems successfully complete all motion tasks with stable performance.Energy consumption is reduced by more than 30%per cylinder piston stroke.During multi-cycle reciprocating operation,the average energy-saving rate ranges from 31.6%to 33.1%.These findings confirm the engineering feasibility and energy-saving reliability of the proposed optimization method,providing strong experimental support for green design in pneumatic systems.关键词
气动系统/优化设计/试验验证/节能Key words
pneumatic systems/optimized design/experimental validation/energy-saving分类
机械制造引用本文复制引用
袁婷婷,度红望,熊伟,王海涛..气动动作系统优化设计方法的试验验证与节能效果[J].液压与气动,2026,50(3):23-29,7.基金项目
国家自然科学基金(52075065) (52075065)
