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Characteristics of a Hipped and Gable Roof With Anheori - Focusing on the Front 3 Kan and Side 3 Kan of a Buddhist Temple -

팔작지붕 안허리곡의 특성에 관한 연구 - 정면3칸 측면3칸 불전을 중심으로 -

  • 위소연 (미강건축사사무소, 조선대학교 건축학과, 전남대학교 건축디자인학과)
  • Received : 2021.09.22
  • Accepted : 2022.03.15
  • Published : 2022.03.30

Abstract

This study aims to disclose the factors that influence and creates an Anheori, which is not strongly reflected in a vertical plane. The Anheori is formed from the difference of chunyeoes protrusion and eaves protrusion, close relativity and a substantial width of change is noticed with the former. The overall height of the Anheori and the eaves height is confirmed with direct proportion. If the eaves height is high, the side part is significantly exposed to oegi. In the jeongkan part, the eaves curve is greatly constructed to protect the side part. In the cross-section part, the eaves curve is placed upward to have chunyeoes protrusion while protecting the side; due to this purpose, it is assumed that the Anheori grew larger. The vertical position percentage of the front Anheori and oegidori is confirmed with inverse proportion. If the vertical distance of the oegidoli and jusimdoli is small, the slope of the chunyeo becomes smaller to reduce a sliding phenomenon. Factoring that chunyeoes protrusion allows for substantial construction, the front Anheori is likely to extend further. The ratio percentage of the Anheori and side jeongkan is confirmed with direct proportion. If the side jeongkan grows larger to enable the jungdori to be closer to the jusimdori, the naemok length of the front seokkalae is shortened to make it more difficult for the front eaves protrusion to be vastly constructed; the chunyeoes protrusion is constructed into a greater size to protect the edge column, therefore causing the Anheori to grow larger. For future reference purposes, further study is needed on this subject due to its current limitations and unintended generalized content.

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References

  1. Jang, G.I. (2005). Approximate system of Korean architecture Vbuilt of wood, Boseonggak, 292.
  2. Min, Y.K. (2010). A Study On Drawing Techniques In Hip-rafter And Outstretching-rafter Of The Traditional Korean Architecture-3D Modeling Techniques By Autodesk Inventer Program-, Thesis, Mokwon University, 13
  3. Park, J.K., Cho, J.M., & Choi, M.H. (2007). A study on the eaves protrusion of the Buddhist pavilions in Joseon dynasty, Journal of the Architectural Institute of Korea, Planning & Design, 23(5), 101-108
  4. Wi, S.Y. (2021). A study on the correlation between the eaves curvature diagram and Toekan on the side in three-kan hipped and gable roof Buddhist temples, Journal of the Architectural Institute of Korea, 37(2), 115-122 https://doi.org/10.5659/JAIK.2021.37.2.115