Portable Fire Water Branch Stents Structure Design and Kinematical Simulation

Shao Wei Wang; Hai Yin Qin; Wei Wei

doi:10.4028/www.scientific.net/AMM.620.55

Paper Titles

Analysis, Design and Simulation of Transmission System in a Mini Vehicle Weapon System (Unmanned Ground Vehicle)
p.33

Prediction of the Development of Non-Equilibrium Turbulent Boundary Layers Based on Modified Log-Wake Law
p.39

A New Type of Underwater Salvage Dilator with Seawater Hydraulic Drive
p.44

The Spiral Space Form of Exhibition Buildings Based on Topology and Bionics
p.48

Portable Fire Water Branch Stents Structure Design and Kinematical Simulation
p.55

On Surface Continuity in the Procession of Product Design
p.60

3-D Model Reconstruction and Mold Flow Simulation for an Existing Shaped Part
p.65

Analysis of Surge Shaft Excavation Process Based on 3-Dimensional Finite Difference Method
p.69

Singular Configurations Analysis of a Redundantly Actuated Parallel Manipulator
p.75

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 620Portable Fire Water Branch Stents Structure Design...

Portable Fire Water Branch Stents Structure Design and Kinematical Simulation

Abstract:

Contrapose the disadvantages of the traditional fire water branch stents, the paper developed a simple structure, safe and reliable, low labor intensity, and can adapt to the complex fire environment of portable fire water branch stents.This paper introduces the structure and working principle of fire water branch stents, and simulates analysis of the motion trajectory of fire water branch through the Pro/E and ADAMS.The results show that the portable fire water branch stents safe and reliable, can meet the demand of fire control.

You might also be interested in these eBooks

Industrial Engineering and Applied Research

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 620)

Pages:

55-59

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.620.55

Citation:

Cite this paper

Online since:

August 2014

Authors:

Shao Wei Wang, Hai Yin Qin*, Wei Wei

Keywords:

Adam, Fire Water Branch Stents, Kinematic Simulation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Wang haihua. Progress and Problems of Fire Protection in China. Fire Safety Science[J]. 1996, 5(2): 44-57.

Google Scholar

[2] Tadabiro Hasegawa, Hiroshi Katakura, et. On the Application of Water Jet in Fire Fighting. Proceedings of the international Symposium on NEW Applications of Water Jet Technology October 19-21, 1999, Isionomaki, Japan: 467-471.

Google Scholar

[3] Yamaoka, Naoji, Kouji. On-line car-body measuring system using Modified car-body welding robot. Robot 1997，114(1): 77-81.

Google Scholar

[4] Li jia, Zhang yuan. The operation of the nozzle[J]. Fire Technique and Products Information，2011(3)：78-78.

Google Scholar

[5] Liushen you. Fixed extinguishing intelligent fire hoses[J]. China Safety Science Journal, 2001(4)：37-41.

Google Scholar

[6] Liuyan hu, Jiang hong, Xiejin ping. Transfer station fire water gun safety brackets[J]. Oil-Gasfield Surface Engineering，2009(2): 74-74.

Google Scholar

[7] Zu chang. The development of the voltage type multifunction fire hoses and fine water mist fire extinguishing experiment[D]. Zhejiang: zhejiang university，2005，01.

Google Scholar

[8] Huguo liang, Donglin jun, Liangju xin. A since the pendulum to reduce hydraulic design method of fire water gun recoil[J]. Machinery Design and Manufacture，2010，12(1): 42-44.

Google Scholar

[9] Wanghong xia. To improve the experimental research on fire hoses[D]. Chongqing: chongqing university, (2004).

Google Scholar

[10] Gongxiao ju, Yeli hua, Shao xia. Multifunction fire hoses design principle[J]. Journal of Agricultural Mechanization Research，2004，5，153-155.

Google Scholar

[11] Zhengjian rong. ADAMS virtual prototype technology introduction and improvement[M]. Beijing: mechanical industry press. (2007).

Google Scholar

[12] Yangxiao yu , Wangrui ling. Based on the virtual prototype of a certain type of gun recoil method[J]. Machine design，2012, 29(3): 61-64.

Google Scholar