研究生: |
李芸慧 Lee, Yung-Hui |
---|---|
論文名稱: |
油壓與傳統阻力訓練器材之動力學分析 The Dynamics Analysis on Hydraulic and Tradition Resistance Equipments |
指導教授: |
相子元
Shiang, Tzyy-Yuang |
學位類別: |
碩士 Master |
系所名稱: |
運動競技學系 Department of Athletic Performance |
論文出版年: | 2010 |
畢業學年度: | 98 |
語文別: | 中文 |
論文頁數: | 63 |
中文關鍵詞: | 油壓阻力 、肌力訓練 、動力學 |
英文關鍵詞: | hydraulic resistance, strength training, dynamics |
論文種類: | 學術論文 |
相關次數: | 點閱:189 下載:18 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
阻力訓練是肌力訓練很重要的環節,訓練器材的種類也有很多種,一般常見的是傳統式阻力訓練器材,近期國內也引進油壓式阻力訓練器材,並自行研發油壓缸。目的:旨在深入探討傳統式與油壓式兩種阻力訓練器材在動力學上有何異同,並提供訓練方法上的建議。方法:本研究分兩部分。首先進行油壓缸定量算出在三種油壓缸移動速度下傳統式器材所需的相對重量,接著請受試者進行相同負荷的油壓式與傳統式阻力訓練機,收取操作過程中的肌電與力量值。結果:向心期皆是兩種器材的主要訓練期,經過量化後傳統式的力量值與肌電值皆高於油壓式,但最大力量值與最大出力率卻是油壓式較高。而在離心期的部份,傳統式的力量值與肌電值較高,原因在於阻力源不同使得傳統式會使作用肌產生離心收縮,油壓式則否。結論:未來的油壓式阻力訓練器材可依本研究方法進行定量掌握訓練強度應用在訓練上,而本研究建議油壓式訓練應著重於向心期訓練作用肌;而傳統式除了向心期的訓練,在離心期可將速度降低使作用肌進行離心訓練,因此傳統式較容易產生肌肉痠痛,油壓式則否。此外油壓式還具備了高安全性的特點,更適合肌力較弱的族群,因此建議傳統式較適合青壯年或對傳統式器材較熟悉的使用者。
The resistance training is very important in strength training. The most used training equipments in strength training are traditional resistance equipments (TRE). The hydraulic resistance equipments (HRE) have been imported to Taiwan recently; therefore we have more options to choose the training devices. Purpose:The purpose of this study was to investigate the differences on muscle activation when using HRE and TRE in order to provide the recommendations for training utilizations. Methods:This is a twofold study. First, we built an index by quantifying the hydraulic cylinder and to find the relative weight of the plates. Second, the forces and the electromyography (EMG) of biceps brachii, triceps brachii, rectus femoris, and biceps femoris were collected when the subjects used both two types of training equipments. Results:The concentric phase is the main training period in both equipments. We found the forces and the EMG are higher when using TRE than using HRE in the concentric phase, but the max force and the max power slope are higher in the HRE group. In eccentric phase, TRE group shows higher force and EMG than HRE. It might be that the muscle should activate to resist the weight of plates in the eccentric phase when using TRE, but not HRE. Conclusions:Our quantified index can be used on strength training when using HRE. HRE training instructions should focus on concentric phase. Furthermore, we should slow down the movement in eccentric phase when using TRE to avoid delayed onset muscle soreness. Because of the feature of HRE, dual-concentric training, it is suitable for disable or strengthless groups. Otherwise, TRE is suitable for the people who are familiar with.
Aagaard, P., Simonsen, E., Trolle, M., Bangsbo, J., & Klausen, K. (1996). Specificity of training velocity and training load on gains in isokinetic knee joint strength. Acta Physiologica Scandinavica, 156 (2), 123-129.
Ballor, D., Becque, M., & Katch, V. (1987). Metabolic responses during hydraulic resistance exercise. Medicine & Science in Sports & Exercise, 19 (4), 363-367.
Byrnes, W. C., Clarkson, P. M., & Katch, F. I. (1985). Muscle soreness following resistance exercise with and without eccentric contractions. Research Quarterly for Exercise and Sport, 56 (3), 283-285.
Cooney, M., & Walker, J. (1986). Hydraulic resistance exercise benefits cardiovascular fitness of spinal cord injured. Medicine & Science in Sports & Exercise, 18 (5), 522-525.
Doheny, E. P., Lowery, M. M., FitzPatrick, D. P., & O'Malley, M. J. (2008). Effect of elbow joint angle on force-EMG relationships in human elbow flexor and extensor muscles. Journal of Electromyography and Kinesiology, 18 (5), 760-770.
Gordon, N., Kohl, H., Villegas, J., Pickett, K., Vaandrager, H., & Duncan, J. (1989). Effect of rest interval duration on cardiorespiratory responses to hydraulic resistance circuit training. Journal of Cardiopulmonary Rehabilitation and Prevention, 9 (8), 325-330.
Hempel, L., & Wells, C. (1983). Oxygen utilization during performance of the 20 minute Nautilus express circuit [Abstract]. Medicine & Science in Sports & Exercise, 15 (2), 169.
Morgan, R. E. and Adamson, G. T. (1962). Circuit training. Sjaelland:G. Bell and Sons Ltd London.
Jacobs, I., Bell, D., Pope, J., & Lee, W. (1987). Effects of hydraulic resistance circuit training on physical fitness components of potential relevance to +Gz tolerance. Aviation, Space, and Environmental Medicine, 58 (8), 754-760.
Katch, F., Freedson, P., & Jones, C. (1985). Evaluation of acute cardiorespiratory responses to hydraulic resistance exercise. Medicine & Science in Sports & Exercise, 17 (1), 168-173.
Liverman, R., & Gordon (1982). Metabolic analysis of high intensity weight training [Abstract]. Medicine & Science in Sports & Exercise, 14 (2), 169.
McArdle, W., Katch, F., & Pechar, G. (1973). Comparison of continuous and discontinuous treadmill and bicycle tests for max VO2. Medicine and Science in Sports, 5 (3), 156-160.
Pereira, M., & Gomes, P. (2003). Movement velocity in resistance training. Sports Medicine, 33 (6), 427-438.
Petersen, S., Bagnall, K., Wenger, H., Reid, D., Castor, W., & Quinney, H. (1989). The influence of velocity-specific resistance training on the in vivo torque-velocity relationship and the cross-sectional area of quadriceps femoris. Journal of Orthopaedic and Sports Physical Therapy, 10 (11), 456-462.
Sogaard, K., Christensen, H., Jensen, B., Finsen, L., & Sjogaard, G. (1996). Motor control and kinetics during low level concentric and eccentric contractions in man. Electroencephalography and Clinical Neurophysiology/Electromyography and Motor Control, 101(5), 453-460.
Suomi, R. (1992). Strength training for the disabled educates, activates, and integrates. Perspective, 8, 25–27.
Suomi, R. (1998). Self-directed strength training: its effect on leg strength in men with mental retardation. Archives of Physical Medicine and Rehabilitation, 79 (3), 323-328.
Takeshima, N., Rogers, M., Islam, M., Yamauchi, T., Watanabe, E., & Okada, A. (2004). Effect of concurrent aerobic and resistance circuit exercise training on fitness in older adults. European journal of Applied physiology, 93 (1), 173-182.
Takeshima, N., Tanaka, K., Kobayashi, F., Watanabe, T., & Kato, T. (1993). Effects of aerobic exercise conditioning at intensities corresponding to lactate threshold in the elderly. European Journal of Applied Physiology and Occupational Physiology, 67 (2), 138-143.
Weltman, A., Janney, C., Rians, C., Strand, K., Berg, B., Tippitt, S., et al. (1986). The effects of hydraulic resistance strength training in pre-pubertal males. Medicine & Science in Sports & Exercise, 18 (6), 629-638.
Wicks, J., Oldridge, N., Cameron, B., & Jones, N. (1983). Arm cranking and wheelchair ergometry in elite spinal cord-injured athletes. Medicine & Science in Sports & Exercise, 15 (3), 224-231.
Wilmore, J., Parr, R., Girandola, R., Ward, P., Vodak, P., Barstow, T., et al. (1978). Physiological alterations consequent to circuit weight training. Medicine and Science in Sports & Exercise, 10 (2), 79-84.
Yamauchi, J., Mishima, C., Nakayama, S., & Ishii, N. (2009). Force-velocity, force-power relationships of bilateral and unilateral leg multi-joint movements in young and elderly women. Journal of Biomechanics, 42 (13), 2151-2157.