Browse > Article
http://dx.doi.org/10.15683/kosdi.2017.09.30.358

The test methods of Lifting performance and Environmental resistance tests using power assist device for a fireman to rescue humans  

Lee, Minsu (Inderstry Convergence Technology Center, Korea Confirmity Laboratories)
Park, Chan (Inderstry Convergence Technology Center, Korea Confirmity Laboratories)
Lee, Seonmin (Inderstry Convergence Technology Center, Korea Confirmity Laboratories)
Lee, Dongeun (Inderstry Convergence Technology Center, Korea Confirmity Laboratories)
Publication Information
Journal of the Society of Disaster Information / v.13, no.3, 2017 , pp. 358-365 More about this Journal
Abstract
As the damage caused by disasters increases rapidly around the world, it is necessary to develop the technology for equipment to reduce human injury. Therefore in the support of fire safety and 119 rescue and rescue technology research and development project, in the "Development of a power assist device for a fireman to rescue humans(2015 ~ 2018)" for life saving restoration, we are developing equipment that satisfies the lifting performance considering the disaster environment and the disaster response scenario(Amount of load over 100 kg, height of over 1 m, height over middle 60 cm, speed over 0.2 m/s). In this study, we propose a lifting performance and environmental test method to evaluate the usefulness of the power-assisted device and analyze and verify detailed specifications of the device through dynamics analysis of the lifting performance test. This study suggests that the proposed test method can be applied practically to evaluate whether a stable performance of a power-assisted device is achieved.
Keywords
human injury; power-assisted device; lifting performance; environmental test; test method;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 A'Design Award & Competition, (2016), "A.F.A-Powered Exo-Suit for Firefighter Advance Firefighting Apparatus by Jiazhen (Ken) CHEN", A'Deisgn Award & Competition (https://competition.adesignaward.com/design.php?ID=45387)
2 B. S. Kim, J. K. Ryu, (2016), "Design and Simulation of a Coupler for Heavy Duty Tools", Korea Society for Precision Engineering.
3 European Committee for Standaraization(CEN), (2016), "EN 13204, Double Acting Hydraulic Rescue Tools for Fire and Rescue Service Use - Safety and Performance Requirements", CEN.
4 Holmatro, "Rescue Tools" Leaflet, Holmatro.
5 HURST, (2016), "Strongarm by HURST Jaws of Life" Technical Datasheet and Brochure, HURST.
6 K. M. Nam, J. K. Ryu, (2016), "Design Optimization of Lifting Load Hydraulic Actuator Using Power Assist Device", Korea Society for Precision Engineering.
7 Minsu Lee, Chan Park, Jingi Kim, Dongeun Lee, (2016), "Analysis of the Disaster Sites using Power-assisted Devices for Rescue", the Korean Society of Disaster Information.
8 Montomery County Government, (2015), Hydraulic Tools and Equipment, p.19.
9 National Fire Protection Association, (2015), "NFPA 1936 Standard on Powered Tools", National Fire Protection Association.
10 Joonseok Kim, (2016), "Numerical Numerical study on the structural stability of the precast joint buttress wall" Journal of the korea Society of Disaster information. Vol. 12, No.4, pp.366 - 372   DOI
11 Choi Jaehyeong, Kim Woojae, Kang Shinwook, Kim Junggon, (2016), "A Study on the Supply and Perception of Personal Protective Equipments for Fire Fighters", Korea Society Disaster Information Conference, KOSDI.
12 KS C IEC 60068-3-1, Environmental testing - Part 3-1: Supporting documentation and guidance - Cold and dry heat tests
13 KS C IEC 60529, Degrees of protection provided by enclosures(IP Code)
14 KS A 0006, Standard atmospheric conditions for testing