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서국웅,양점홍,윤양진,황영성,이중숙,김용재,유경복 釜山大學校 附設 體育科學硏究所 1994 體育科學硏究所 論文集 Vol.10 No.-
The purpose of this study was to get the quantitative data of effect of two different load carrying system on Kinematics and Kinetics. The subjects for the research were 2-adults. The mechanism of each load carrying pattern was measured by a motion analylizer, a forceplatform and EMG system. The conclusions were get from Kinematics variables and Kinetics variables. 1. It was not effected at the vertical reaction force(Fz) of left, right foot according to the big value the 1st peack of 10kg, 15kg fore, back-pack carrying system, 20 kgw, 30 kgw back-pack carrying system in walking. But it was effected at the vertical reaction force(Fz) on 30 kgw back-pack carrying system in walking. 2. It was not effected at the Anterior-Posterior reaction force(Fx) of left, right foot according to high value of the 1st peack on 10 kgw, 15 kgw fore, back-pack carrying in walking. But, it was effected on the 20 kgw, 30 kgw only back-pack carrying in walking. 3. It was effected at the left-right reaction force(Fy) of left-right foot according to the big value of the 2nd peak on 10 kgw, 15 kgw fore-backpack carrying system in walking. It was more effective than 20 kgw, 30 kgw back-pack carrying system in walking. There was not disorder force(Fx) on 10 kgw, 15 kgw fore-backpack carrying system in walking. 4. Analysis of computer graphic, on the pack carrying system in walking. It was efficient in 10 kgw, 15 kgw fore-backpack carrying system in walking. But, it was efficient on 20 kgw, 30 kgw backpack carrying in walking. Castrocnemius, Tibialis anterior, Vastus lateralis, Vastus medialis, are stressed to bend their body foreward. So it occurred fatigue fast, injured muscles and joints. 5. Extension anyles and flection angles of the knee joint and the hip joint on 10 kgw, 15 kgw fore-backpack carrying system in walking showed less than those on 20 kgw, 30 kgw backpack carrying system in walking. It was efficient on the 10 kgw, 15 kgw fore-backpack carrying system in walking. 6. Magnitudes of EMG of Castrocnemius, Tibialis anterior, Vastus lateralis, Vastus medialis, were increased according to increasing weight road and were decreased on the 20 kgw, 30 kgw back-pack carrying system in walking.
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서국웅,윤양진,김용재,이훈식,유경복 부산대학교 사범대학 1995 교사교육연구 Vol.30 No.-
The purpose of this study was to prepare some useful data for the prevention of injury caused by shoes when female was walking. Kinematic variables were analyzed with the aid of the visual materials filmed with a 16mm high speed camera, such as angular changes of joints, displacement, velocity, and momentum of the center of body gravity. The subjects for the research were normal 4 female high school students: The analytic results of the mechanism of each locomotion pattern were as follows: 1. It is desirable Kinematically that the dispersion of power should not be caused in the movement of lower-legs by keeping natural flexion and extension of joint. 2. Too much vertical displacement of the center of body gravity was thought undesirable because it caused the dispersion of power against the moving direction. To get some propulsion in the moving direction, it was efficient to use as much energy as possible from 8 F-F support phase to the toe-off. And also the center of body gravity was moved by the inertia just after toe-off. 3. The correct walking motion occurred when the walker moved their hip joint or knee joint gently with their upper body upright and their eyes looking around. 4. In order to lengthen the stride it was essential to practice intensively the flexion of the hip joint, extension of knee and plantar flexion of ankle joint. 5. It was proved that in race walking, they could get much greater propulsion from the flexion of the ankle joint than from the hip joint or the knee joint. It was, therefore, very important to train walkers so that the initial planter flexion of the ankle joint might occur from 6 F-F of the supporting phase. 6. The flexion of the ankle joint produced the added propulsion in the moving direction but the excessive flexion increased energy consumption and caused strain on the ankle joint because it dispersed power in moving the center of body gravity. 7. It was desirable to narrow the ankle of the flexion of the hip and knee joints because it could speed up revolutions per minute of the lower limb through lessening the inertia of the revolutions. The angle made by knee joint was desirable for getting the greatest propulsion in the moving direction. 8. High heel was lower than barefoot or jogging shoes in the displacement of the center of body gravity. This result showed that the displacement of the center of body gravity was made safe by lowering the flexion and extension of knee joint.
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