• 제목/요약/키워드: reinforcement of rafter

Search Result 3, Processing Time 0.018 seconds

Experimental Analysis on Yield Strength of Pipe Connectors and Joints for Pipe Framed Greenhouses (파이프 골조 온실의 조립 연결구 내력 시험)

  • 남상운
    • Magazine of the Korean Society of Agricultural Engineers
    • /
    • v.43 no.6
    • /
    • pp.113-119
    • /
    • 2001
  • Experiments on the yield strength of pipe connectors made of metal wire, joint pins, pole pipes, multi span insertion joints, and T-clamp joints used in pipe houses were conducted. The strength of connections of a pipe connector made of metal wire was adequate but it had a big difference according to loading direction. Therefore as it is installed, its direction should be taken into consideration. The collapse load of pipes connected with a joint pin was lower than that of single pipes. In the part of frame member at which the great bending moment occurs, the use of joint pin should be avoided. Also experimental results showed that pole pipes for use in a part of frame buried under the ground were safe, and the strength of multi span insertion joints should be increased. The resistant moment of T-clamp was about 13.7% of a single pipe. In case that the external forces acting on left and right rafter are different. a unsymmetrical rotational force is produced at the multi span joint. If it is expected that the actual bending moment on the multi span joint is larger than resistant moment of T-clamp, a reinforcement to safely resist the rotational force is required.

  • PDF

Field Technique of Non-Educated Constructors in Timber Structure of Korean-Style Secondary Station(Gong-So) -Focused on the Sin-Sung and Su-Bun Secondary Stations- (한옥 공소의 목구조 방식에 나타난 민간 기술자의 현장기법 -천주교 신성공소와 장수천주교회 수분공소를 중심으로-)

  • Park, Kwang-Hyun;Kim, Tai-Young
    • Journal of the Korean Institute of Rural Architecture
    • /
    • v.12 no.1
    • /
    • pp.49-56
    • /
    • 2010
  • This paper is aimed to clarify field technique of non-educated constructors in timber structure of korean-style secondary station(Gong-So) on the annex of catholic church. The main object of this study is Sin-Sung and Su-Bun secondary stations which post-lintel structure was 2high columns(Go-Ju) 5beams(Ryang) in Jeon-Buk area of Korea. We reached the following conclusion. Firstly, these secondary stations are required a lots of space for number of persons with the introduction of basilica plane. These plans have different intervals in the layout. Secondly, they constructed the holy space by using high columns(Nae-Jin-Go-Ju). The former problems of plan layout are sloved by reinforcement and replacement eaves and rafter of logitudinal. Thirdly, the elements showed the natural feature such as irregular wooden floor, arch-type head pentrating tie and a ceiling. In the end, we knew that non-educated constructor had found a way in the problem for accepting unreasonable work.

The Development of Wide-span Plastic Film Greenhouse for Strawberry Seedling Cultivation (딸기 육묘용 광폭 플라스틱 필름 온실 개발)

  • Man Kwon Choi;Myeong Whan Cho;Hyun Ho Shin;Ki Bum Kweon
    • Journal of Bio-Environment Control
    • /
    • v.32 no.4
    • /
    • pp.442-448
    • /
    • 2023
  • This study aimed to develop an optimal greenhouse model for strawberry seedling during the summer high-temperature period based on the results of field surveys. We conducted a survey on the structure types of 46 strawberry seedling farms nationwide, including width, ridge height, eaves height, ventilation method, seedling bed width, and spacing. Based on the survey results, we derived the optimal greenhouse model by considering various factors. The greenhouse width was set at 14 meters to maximize the efficiency of seedling beds and overall space. The height was determined at 2 meters, taking into account ventilation during the summer season. To reduce stress on the supporting structure due to snow loads, we established a reinforcement installation angle of 50 degrees. We analyzed two different models that use support beams with dimensions of φ48.1×2.1t and φ59.9×3.2t, respectively, to ensure structural safety against meteorological disasters, considering regional design wind speeds and snow accumulation. We utilized these developed greenhouse model to conduct strawberry seedling experiments, resulting in a high survival rate of average 93.2%. These findings confirm the usefulness of the strawberry seedling greenhouse in improving the seedling environment and enhancing overall efficiency.