体育学刊
體育學刊
체육학간
JOURNAL OF PHYSICAL EDUCATION
2014年
3期
127-131
,共5页
运动生理学%短距离速滑%弯道滑跑%弯道牵引%单步周期%表面肌电
運動生理學%短距離速滑%彎道滑跑%彎道牽引%單步週期%錶麵肌電
운동생이학%단거리속활%만도활포%만도견인%단보주기%표면기전
sports physiology%short distance speed skating%curve skating%traction simulated curving skating%single foot skating period%surface myoelectricity
运用表面肌电和高速摄影同步技术,结合功能解剖学,对比分析弯道滑跑和弯道牵引单步周期的肌电振幅曲线和时间、肌电参数,发现:(1)两者单步周期用时差异具有显著性,蹬冰期用时差异没有显著性。(2)两者单步周期肌肉振幅峰值都出现在蹬冰期,动作时相也一致。两者右单步周期踝关节肌群、股后肌群和臀大肌振幅峰值差异明显,左单步周期踝关节肌群差异明显。(3)两者右单步周期踝关节肌群、股后肌群和臀大肌IEMG差异明显,左单步周期踝关节肌群IEMG 差异明显。结果表明:两者因为使用器械的不同,单步周期踝关节肌肉收缩形式和动作模式不一致;两者单步周期蹬冰期股四头肌收缩形式和动作模式一致,右腿膝关节运动时肌肉间的协调模式不一致,左腿膝关节运动时肌肉间的协调模式一致;弯道牵引练习时,通过加大牵引力量,刺激肌肉运动单位募集水平提高,长期练习可以形成适应性,进而提高弯道滑冰加速能力。
運用錶麵肌電和高速攝影同步技術,結閤功能解剖學,對比分析彎道滑跑和彎道牽引單步週期的肌電振幅麯線和時間、肌電參數,髮現:(1)兩者單步週期用時差異具有顯著性,蹬冰期用時差異沒有顯著性。(2)兩者單步週期肌肉振幅峰值都齣現在蹬冰期,動作時相也一緻。兩者右單步週期踝關節肌群、股後肌群和臀大肌振幅峰值差異明顯,左單步週期踝關節肌群差異明顯。(3)兩者右單步週期踝關節肌群、股後肌群和臀大肌IEMG差異明顯,左單步週期踝關節肌群IEMG 差異明顯。結果錶明:兩者因為使用器械的不同,單步週期踝關節肌肉收縮形式和動作模式不一緻;兩者單步週期蹬冰期股四頭肌收縮形式和動作模式一緻,右腿膝關節運動時肌肉間的協調模式不一緻,左腿膝關節運動時肌肉間的協調模式一緻;彎道牽引練習時,通過加大牽引力量,刺激肌肉運動單位募集水平提高,長期練習可以形成適應性,進而提高彎道滑冰加速能力。
운용표면기전화고속섭영동보기술,결합공능해부학,대비분석만도활포화만도견인단보주기적기전진폭곡선화시간、기전삼수,발현:(1)량자단보주기용시차이구유현저성,등빙기용시차이몰유현저성。(2)량자단보주기기육진폭봉치도출현재등빙기,동작시상야일치。량자우단보주기과관절기군、고후기군화둔대기진폭봉치차이명현,좌단보주기과관절기군차이명현。(3)량자우단보주기과관절기군、고후기군화둔대기IEMG차이명현,좌단보주기과관절기군IEMG 차이명현。결과표명:량자인위사용기계적불동,단보주기과관절기육수축형식화동작모식불일치;량자단보주기등빙기고사두기수축형식화동작모식일치,우퇴슬관절운동시기육간적협조모식불일치,좌퇴슬관절운동시기육간적협조모식일치;만도견인연습시,통과가대견인역량,자격기육운동단위모집수평제고,장기연습가이형성괄응성,진이제고만도활빙가속능력。
By applying surface myoelectricity and high speed photography synchronization technology, coupled with functional anatomy, the authors comparatively analyzed myoelectricity amplitude curves and times as well as myoelectricity parameters in the single foot skating period of curve skating and traction simulated curve skating, and re-vealed the following findings:1) between the two types of curve skating, the difference in the time used in the single foot skating period was significant, while the difference in the time used in the ice striking period was not significant;2) be-tween the two types of curve skating, muscle amplitude peak values in the single foot skating period appeared in the ice striking period, and the time phases of movement were consistent as well;the differences in amplitude peak values of the ankle joint muscle group, hamstring muscle group and gluteus maximus in the single right foot skating period were sig-nificant;the difference in the ankle joint muscle group in the single left foot skating period was significant;3) between the two types of curve skating, the differences in the IEMG of the ankle joint muscle group, hamstring muscle group and glu-teus maximus in the single right foot skating period were significant;the difference in the IEMG of the ankle joint muscle group in the single left foot skating period was significant. The said findings indicated the followings:between the two types of curve skating, due to the difference of instruments used, ankle joint muscle contraction forms and movement modes in the single foot skating period were inconsistent;quadriceps contraction forms and movement modes in the ice striking period of the single foot skating period were consistent;when the right leg ankle joint moved, the mode of coordi-nation between muscles was inconsistent;when the left leg ankle joint moved, the mode of coordination between muscles was consistent;during the practice of traction simulated curve skating, we can stimulate the enhancement of the moving unit gathering performance of muscles by increasing traction power, form adaptability through practice over a long period of time, and then improve the skaters’ ability to accelerate during curve skating.