한국운동역학회지 (Korean Journal of Applied Biomechanics)

  • 제25권4호
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  • Pages.489-498
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  • 2015
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  • 1226-2226(pISSN)
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  • 2093-9752(eISSN)
한국운동역학회 (Korean Society of Applied Biomechanics)
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윈들라스 메커니즘을 적용한 트레일 워킹화 개발을 위한 생체역학적 분석

Biomechanical Analysis for the Development of Windlass Mechanism for Trail-walking Shoe

  • 박종진 (경성대학교 예술종합대학 스포츠건강학부) ;
  • 박승범 (부산경제진흥원 신발산업진흥센터 성능평가지원팀)
  • Park, Jong-Jin (Division of Sport & Health Science, College of Arts, University of Kyungsung) ;
  • Park, Seung-Bum (Footwear Biomechanics Team, Footwear Industrial Promotion Center, Busan Economic Promotion Agency)
  • 투고 : 2015.10.30
  • 심사 : 2015.12.26
  • 발행 : 2015.12.31
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초록

Objective : The purpose of this study was to analyze the effects of the windlass mechanism in trail-walking shoe prototypes that can effectively support arches. A study of these effects should help with the development of a first-rate trail-walking shoe development guide for the distribution of quality information to consumers. Methods : The subjects were ten adult males who volunteered to participate in the study. Shoes from three companies, which will be referred to as Company S (Type A), Company M (Type B), and Company P (Type C), were selected for the experiment. The subjects wore these shoes and walked at a speed of 4.2 km/h, and as they tested each shoe, the contact area, maximum pressure average, and surface force were all measured. Results : Shoe Type A showed a contact area of $148.78{\pm}4.31cm^2$, Type B showed an area of $145.74{\pm}4.1cm^2$, and Type C showed an area of $143.37{\pm}4.57cm^2$ (p<.01). Shoe Type A demonstrated a maximum average pressure of $80.80{\pm}9.92kPa$, Type B an average of $85.72{\pm}11.01kPa$, and Type C an average of $89.12{\pm}10.88bkPa$ (p<.05). Shoe Type A showed a ground reaction force of $1.13{\pm}0.06%BW$, Type B a force of $1.16{\pm}0.04%BW$, and Type C a force of $1.16{\pm}0.03%BW$ (p<.05). Conclusion : The Type A trail-walking shoe, which was designed with a wide arch from the center of the forefoot to the front of the rearfoot showed excellent performance, however, more development and analysis of the windlass mechanism for a variety of arch structures is still necessary.

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