The Analysis on Suspension of Fire Robot Based on FEA

Yan Xu; Shu Fang; Jian Qiao Fu

doi:10.4028/www.scientific.net/AMM.716-717.1536

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 716-717The Analysis on Suspension of Fire Robot Based on...

The Analysis on Suspension of Fire Robot Based on FEA

Abstract:

The suspension of fire robot, one of necessary components, directly impacts the environmental adaptability, and the strength of suspension has great importance to the life of robot. In the paper, the structure and the stress condition of the suspension was analyzed. The force condition of suspension is simplified as a 2-D diagram, the load acting on the elbow were simplified in two direction, A finite element model, which simulated the impact load and optimized the design of suspension, was established, and the result of the simulation shows the suspension structure is reasonable and the strength of the component is enough.

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Periodical:

Applied Mechanics and Materials (Volumes 716-717)

Pages:

1536-1539

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.716-717.1536

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Cite this paper

Online since:

December 2014

Authors:

Yan Xu*, Shu Fang, Jian Qiao Fu

Keywords:

FEA, Fire Robot, Strength of Suspension

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* - Corresponding Author

References

[1] Shu Fang, Zhenwei Zhang and Lei Zhang. Turning Dynamics of Series Hybrid Power All-terrain Vehicle. Advanced Materials Research. Vols. 512-515(2012), pp.2620-2624.

DOI: 10.4028/www.scientific.net/amr.512-515.2620

Google Scholar

[2] S. Fang, S.P. Liu and J. Ling: The Design of Dynamic Vibration Absorber on the Engine of Fire Smoke Exhausting Robot, Vibration, Structual Engineering and Measurement I (ICVSEM2011), p.180.

DOI: 10.4028/www.scientific.net/amm.105-107.180

Google Scholar

[3] Shu Fang，Shengpeng Liu，Lei Zhang，Zhenwei Zhang. Mode Analysis on the Rail Car of Fire Robot based on FEA. The 2011 the 2nd International Conference on system science, engineering design and manufacturing informatization. Vols. 1, pp.92-95.

DOI: 10.1109/icssem.2011.6081241

Google Scholar

[4] Shu Fang, Bin Hu and Shengpeng Liu, The analysis on fire Smoke exhausting robot vibration based on wavelet transform, Advanced Materials Research. Vols. 320-330, pp.1887-1891.

DOI: 10.4028/www.scientific.net/amr.328-330.1887

Google Scholar

[5] Shuancheng Li, Dingkun Chen, Feng Ge. Stiffness Calculation and Force Analysis of Double Wishbone Independent Suspension with Torsion Bar[J]. Journal of Academy of Military Transportation, 2010 12(1).

Google Scholar

[6] Long Xu. The Static Stregth Analysis and Optimization of Car Body Based on Extreme Working Condition Loads[D]. Changsha: Hunan University, 2011: 1-80.

Google Scholar

[7] Xue-jun Sun, Ke-qiang Li, Xiao-feng Wang, Da-feng Jin. Reliability sensitivity analysis on influence of vertical force to mechanical property of lower cross arm suspension[J]. Journal of Machine Dedign, 2008 25(2): 65-67.

Google Scholar

[8] Mingdong Wang, Shaofeng Hao, Cong Li. Force Analysis on Traction Bar of Heavy Truck Rear Suspension Based on Road Load Spectrum[J]. Automobile Technology, 2013(8): 31-48.

Google Scholar

[9] Yong Zhang. The Auto Double Bridge Thrust Bar Balance and Analysis of the Elastic Support[J]. Automobile Parts, 2012(4): 79-81.

Google Scholar

[10] Yanqing Liu, Xiaoming Cheng, Jianwu Zhang. Lateral Mechanical Analysis and Stress Surveying of Piston Rod for Vehicle Strut Shock Absorber[J]. Journal of Shanghai Jiaotong University, 2002 36(9): 1240-1244.

Google Scholar

[11] Yu-dong Zou, Tiezhu Zhang, Hong Zhao, Pengfei Wang, Peng Xu. Double Wishbone Suspension Stress and Finite-Element Analysis for FSC Racing[J]. Journal of Qingdao University (Engineering & Technology Edition), 2013(2): 11-15.

Google Scholar

[12] Jianguo Tao, Fei Yang, Zongquan Deng, Haibo Gao, Peng Zhang. The configuration evaluation and simulation analysis of a folded-deployed suspension for six-wheeled rovers[J], Chinese High Technology Letters, 2011 21(9): 941-947.

DOI: 10.1109/wcica.2011.5970646

Google Scholar

[13] Song Chen, Gang Lei, Ying Liu. Strength Analysis and Optimization of a Torsion Beam Rear Suspensiong[J]. Machine Tool & Hydraulics, 2013(18): 45-49.

Google Scholar

[14] Xinbo Chen, Rui Zhao. Nonlinear Analysis and Design of Double Wishbone Suspension with Torsion[J]. Journal of Tongji University (Natural Science), 2006 34(5): 655-659.

Google Scholar