A New Design of Climbing Robot with TRIZ Theory

Yu Xuan  Huang; Ling Cheng  Kong; Wen Tao Liu

doi:10.4028/www.scientific.net/KEM.572.624

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The Analysis and Control of Exoskeleton Upper-Limb Rehabilitation Robot
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A New Design of Climbing Robot with TRIZ Theory
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 572A New Design of Climbing Robot with TRIZ Theory

A New Design of Climbing Robot with TRIZ Theory

Abstract:

Aiming at the existing problems and shortcomings of current climbing robots which are short of migratory climbing, the climbing forms of robots are analyzed by means of theory of inventive problem solving (TRIZ). The contradictions of mobility and structural complexity are established and solved by combining with the TRIZ contradiction matrix. According to dynamic inventive theory, a new type of turnover climbing form is established. The new type of turnover climbing robot consists of the scalable body, the turnover arm installed on the body, the clamping claws and the controller installed on the turnover arm.

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Periodical:

Key Engineering Materials (Volume 572)

Pages:

624-627

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.572.624

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Online since:

September 2013

Authors:

Yu Xuan Huang, Ling Cheng Kong, Wen Tao Liu

Keywords:

Climbing Robot, Design Condition, TRIZ, Turnover

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References

[1] Guizhen Liu, Huaiao Wang and Liquan Wang: Journal of Jiamusi University: Natural Science Edition. Vol. 25 (2007), pp.634-636.

Google Scholar

[2] Sheng Xu, Libin Zhang and Qinghua Yang: Mechanical Engineers. Vol. 3 (2004), pp.45-48.

Google Scholar

[3] Wang Xiaoguang, Chen Ming-sen and Zhao feng: Journal of Mechanical Engineering. Vol. 46-48 (2008), pp.36-39.

Google Scholar

[4] Xiuli Zhang, Haojun Zheng and Ken Chen: Robot. Vol. 24 (2002), pp.189-192.

Google Scholar

[5] Guangming Chen, Zhiwei Zhu and Yaofei Sun: Science and Technology Research and Development. Vol. 31 (2009), pp.635-637.

Google Scholar

[6] Hong Sun, Lixiang Liu and Peisun Ma: Robot. Vol. 30 (2008), pp.112-116.

Google Scholar

[7] Runhua Tan: Theory of Invention. (Science Press, Beijing 2004).

Google Scholar

[8] Science and Technology Department of Heilongjiang Province: Application and Practice of TRIZ (Heilongjiang Science and Technology Press, Harbin 2008).

Google Scholar