Abstract
In order to meet the workers’ requirements for the flagstones transport technology, this paper proposes a new transport method by using the Theory of the Solution of Inventive Problems (TRIZ). Firstly, Substance-Field Model is used for analyzing the problem and proposing preliminary plan according to the general solution. Aiming at finding out the harmful functions in the system of preliminary plan, system function model of the preliminary plan is analyzed and trim those components with harmful functions for the improvement of the degree of Ideality of the system. Finally, a model of flagstone transport device based on TRIZ theory is proposed, which will be analyzed to compare the transport efficiency before and after improvement.
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References
Sun, H.: Mechanical Principle. Higher Education Press, Beijing (2013)
Jiang, F., Fang, W.Z., Yue, P.F., et al.: Design of semi-automatic hand push forklift truck based on TRIZ and extenics. J. Guangzhou Univ. (Nat. Sci. Ed) 15(2), 76–80 (2016)
Cheng, S.Y., Hou, J.P., Guo, Z.N., et al.: Technological Innovation Method – TRIZ Theory and Application. Tsinghua University Press, Beijing (2014)
Sun, Y.W.: TRIZ the Key to Innovation. Science Press, Beijing (2015)
Gao, C.Q.: Product Innovation Design. China Machine Press, Beijing (2018)
Zhang, L., Peng, H.W., Liu, Z.F., et al.: Knowledge reuse in conceptual design of green product. J. Mech. Eng. 49(7), 72–79 (2013)
Zhang, X.T., Chen, J.H.: Application of extension method and TRIZ method in product innovation design. Ind. Eng. 7(2), 33–37 (2004)
Zhou, E.W., Jin, X.Q.: Design of environmentally friendly coffee machine based on TRIZ theory [J/OL]. Design 03, 109–111 (2019)
Liu, Z.F., Yang, M., Zhang, L.: TRIZ based design for disassembly of joint structure. China Mech. Eng. 21(07), 852–859 (2010)
Jiang, F., Chen, Y.L., Chen, J.D., et al.: Design of a grinding device based on TRIZ and extenics. J. Guangdong Univ. Technol. 36(02), 20–25 (2019)
Qi, Y.F., Yao, G.Y.: Journal of Guangdong university of technology. Mech. Res. Appl. 31(05), 27–29 (2018)
Meng, M.C.: Model of the conceptual design process based on TRIZ/QFD/FA. J. Tsinghua Univ. (Sci. Technol.) 11, 56–59 (2001)
Guo, Y.L., Yang, S.C., Wang, Y.W.: Innovation design of products based on TRIZ theory. J. Mach. Des. 26(02), 35–38 (2009)
Yang, L., Ma, C., Long, D.G., et al.: The fold truck design based on TRIZ. Mach. 44(11), 48–50+53 (2017)
Jiang, F.: Mechanical Principle. China Machine Press, Beijing (2013)
Jiang, F., Wang, Y.J., Xiao, Z.M., et al.: Innovative design of the sealing structure in the roller ball mill based on TRIZ theory. Min. Process. Equip. 38(05), 70–72 (2010)
Jiang, F., Wang, Y.J., Xiao, Z.M., et al.: Teaching instrument based on TRIZ theory—design of automobile gas pollution test chamber. Mod. Manuf. Technol. Equip. 2, 10–11 (2010)
Jiang, F.: Design of 3D acceleration sensor based on TRIZ theory. Sens. Lett. 11(12), 2257–2263 (2013)
Jiang, F.: Collection mode optimization of casting dust based on TRIZ. Adv. Mater. Res. 97–101, 2695–2698 (2010)
Jiang, F., Wang, Y.J., Xiang, J.H., et al.: Design of the Soymilk mill based on TRIZ theory. Adv. J. Food Sci. Technol. 5(05), 530–538 (2013)
Jiang, F., Wang, Y.J., Hu, Y.D.: The mechanism innovation design examples analysis based on TRIZ theory. J. Guangzhou Univ. (Nat. Sci. Ed.) 12(01), 75–80 (2013)
Jiang, F., Fang, W.Z., Yue, P.F.: Mechanical kinematic scheme design of packing lifting device based on ideal superiority evaluation method 37(07), 11–15 (2016)
Altshuler, G.S.: 40 Princilpes—TRIZ Keys to Technical Innovation. Southwest Jiaotong University Press, Chengdu (2004)
Tan, R.H.: TRIZ and Applications: Technological Innovation Processes and Methods. Higher Education Press, Beijing (2010)
Jiang, F., Li, S.J.: Are You Innovating Today? TRIZ Innovation Story. Intellectual Property Publishing House, Beijing (2017)
Jiang, F., Chen, J.D.: TRIZ Kingdom Travel Notes. Intellectual Property Publishing House, Beijing (2019)
Jiang, F., Chen, J.D., Xiao, Z.M., et al.: Case Study of TRIZ Evolutionary Innovation for Mechanical Principles. Higher Education Press, Beijing (2018)
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Jiang, F., Shen, J., Zhu, T., Wen, J. (2020). Design of Flagstone Transport Device Based on TRIZ Theory. In: Tan, J. (eds) Advances in Mechanical Design. ICMD 2019. Mechanisms and Machine Science, vol 77. Springer, Singapore. https://doi.org/10.1007/978-981-32-9941-2_22
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DOI: https://doi.org/10.1007/978-981-32-9941-2_22
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