Kinematical Analysis of Somersault with Twist in Men`s Vault: Focusing on the Lou Yun and Akopian Motions

Korean Journal of Sport Biomechanics Pub Date : 2016-09-30 DOI:10.5103/KJSB.2016.26.3.243

Kyu-chan Lim, H. S. Park

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Abstract

Vaulting should be performed with all the technical motions required in gymnastics, such as board contact, horse contact, takeoff, somersault, twist, and landing. The degree of difficulty of a technique is determined based on the type of takeoff, the body position during somersault, and the number of turns (International Gymnastics Federation [FIG], 2013). The FIG has classified the types of vault into 5 groups according to the entry types established through the regulatory reform in 2013. The first group includes the forward handspring and Yamashita-style vault; the second group, the handspring with a one-fourth or half turn in the first flight phase (phase from the board takeoff to horse contact); the third group, the round-off entry vaults with a one-fourth turn in a backward direction in the second flight phase (phase from horse takeoff to mat landing); the fourth group, the round-off entry vaults with a half turn in the first flight phase; and the fifth group, the round-off entry vaults with three-fourth or full turn in the first flight phase (FIG, 2013). In the first group, forward somersault technique with a half turn and landing toward the vault is called Cuervo vault, where a technique score is given for every turn made. In other words, 1 turn in addition to the Cuervo vault is the Lou Yun vault, with 5.2 points, and 1 turn in addition to the Lou Yun vault becomes Yeo 2 vault, with 6.0 points (FIG, 2013). In addition, landing by backward somersaulting in group 2 is called the Tsukahara vault, and a half turn and forward somersaulting after the takeoff at this motion is the Kasamatsu vault. The technique score increases as the number of turns increases. Landing after 1 more turn with the body stretched as in the Kasamatsu vault is the Akopian motion, with 5.2 points. A half turn in addition to this technique is the Driggs vault, with 5.6 points, and a half turn in addition to this and landing to the vault is the Lopez vault, with 6.0 (FIG, 2013). As mentioned earlier, the techniques with a greater degree of difficulty in the first and second groups should be based on the accurate performance of the Lou Yun and Akopian motions. As discussed earlier, the scores in the two techniques are the same, and the motions in full and half turns with the body stretched during aerial movement are also identical. Contact with the vault is made after a side turn in the Akopian motion, causing a time difference between the vault landings with the two hands, with the load being inclined to one arm (Dilman, Cheetham, and Smith, 1985). Therefore, increasing momentary elasticity is challenging (Lee, Park, & Lee, 2006; Back et al., 2005). In addition, Lim (2005) argued that KJSB Korean Journal of Sport Biomechanics 2016; 26(3): 243-248 http://dx.doi.org/10.5103/KJSB.2016.26.3.243 http://e-kjsb.org eISSN 2093-9752 ORIGINAL

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男子跳马翻筋斗的运动学分析——以娄云和阿卡平动作为重点

跳马应该完成所有体操中需要的技术动作，如跳板接触、马接触、起跳、空翻、转身和落地。一项技术的难易程度是根据起跳的类型、翻腾时的身体位置和转身数来确定的(国际体操联合会[FIG]， 2013)。国际体联根据2013年监管改革确立的跳马项目类型，将跳马项目类型划分为5类。第一组包括前手翻和山下式跳马;第二组，在第一个飞行阶段(从跳板起飞到与马接触的阶段)进行四分之一或半圈的手弹跳;第三组，在第二个飞行阶段(从马起飞到垫地着陆阶段)，以向后转四分之一的弧度起跳;第四组，在第一飞行阶段进行半转身的圆弧跳跃;第五组，在第一飞行阶段进行四分之三或全转的圆弧进入跳马(FIG, 2013)。在第一组中，向前翻筋斗，半转身后向跳马方向落地的技术称为回旋跳马，每转一个转身就得一分技术分。也就是说，在Cuervo跳马的基础上再转1圈即为娄云跳马，得5.2分，在娄云跳马基础上再转1圈即为Yeo跳马，得6.0分(FIG, 2013)。另外，第二组的后空翻落地称为冢原跳马，在此动作起跳后半转身再向前空翻落地称为Kasamatsu跳马。技术得分随着回合数的增加而增加。像Kasamatsu跳马一样，身体伸展，再转1圈后落地是Akopian动作，得5.2分。在此技术的基础上，半转身是Driggs跳马，5.6分，半转身是Lopez跳马，6.0分(FIG, 2013)。如前所述，第一组和第二组难度较大的技术，应以准确的娄云和阿卡普动作为基础。如前所述，这两种技术的得分是相同的，空中运动时全身伸展的全圈和半圈动作也是相同的。与跳马的接触是在阿科皮运动中侧身转身后进行的，这导致双手跳马落地时产生时间差，因为负载倾向于一只手臂(Dilman, Cheetham, and Smith, 1985)。因此，增加瞬时弹性具有挑战性(Lee, Park， & Lee, 2006;Back et al.， 2005)。此外，Lim(2005)认为KJSB Korean Journal of Sport Biomechanics 2016;[j] .26 (3): 243-248 http://dx.doi.org/10.5103/KJSB.2016.26.3.243 http://e-kjsb.org eISSN 2093-9752

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Korean Journal of Sport Biomechanics

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