Study on Modeling and Structure Optimization of Pneu-nets Actuator

魏琼; 刘伟恒; 柯鼎; 郭川

doi:10.13433/j.cnki.1003-8728.20230202

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Study on Modeling and Structure Optimization of Pneu-nets Actuator

更新时间：2026-04-23

- Study on Modeling and Structure Optimization of Pneu-nets Actuator
- Mechanical Science and Technology for Aerospace Engineering Vol. 44, Issue 3, Pages: 430-437(2025)
- 作者机构：
  
  湖北工业大学机构机械工程学院,武汉,430068
- 作者简介：
- 基金信息：
- DOI：10.13433/j.cnki.1003-8728.20230202
  CLC：
- Published：2025
- 稿件说明：
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魏琼, 刘伟恒, 柯鼎, et al. Study on Modeling and Structure Optimization of Pneu-nets Actuator[J]. Mechanical Science and Technology for Aerospace Engineering, 2025, 44(3): 430-437.
DOI：

魏琼, 刘伟恒, 柯鼎, et al. Study on Modeling and Structure Optimization of Pneu-nets Actuator[J]. Mechanical Science and Technology for Aerospace Engineering, 2025, 44(3): 430-437. DOI： 10.13433/j.cnki.1003-8728.20230202.

摘要

建模精度及驱动能力不足是当前气动网格执行器常见的问题。建模的关键在于应变能计算和重力影响，驱动能力的关键在于结构。为提高建模精度及驱动能力，首先通过仿真与实验数据说明变形后的应变能有区域性分布的特征，并基于此提出了应变能分区计算方法，提高了模型中应变能的计算精度。然后采用集中质量和分布质量相结合的方法表征了重力影响，进一步提高了模型精度。实验、仿真与模型的对比分析验证了该模型的可靠性。最后基于实验数据探究气囊个数、高度及间距对弯曲角度和推力的影响规律，优化了执行器结构并提高了驱动能力。数据表明执行器弯的曲角度相比原来提升约0.5 rad，可达2.5 rad。输出推力相比原来提升约2 N，可达3 N。

Abstract

Insufficient model accuracy and drive capability are common problems of current pneu-nets actuators. The key of modeling is the strain energy calculation and gravity influence

and the key of drive capability is the structure. In order to improve model accuracy and drive capability

firstly

the strain energy after deformation is characterized by regional distribution through simulation and experimental data. Based on the above-mentioned results

a strain energy partition calculation method is proposed to improve the calculation accuracy of the strain energy in the model. Then a combination of concentrated and distributed masses was used to characterize the gravitational influence and further improve the model accuracy. The reliability of the model is verified by the comparative analysis of experiments

simulations and models. Finally

according to the experimental data

the influence of the number

height and gap of chamber on the bending angle and force was investigated

then the actuator structure to improve the driving capacity was optimized. The data show that the bending angle of the actuator is improved by about 0.5 rad comparing with the original one

and can reach 2.5 rad. The force increased by about 2 N comparing with the original one

and can reach 3 N.

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