Abstract

With the improvement of living standards and increasing health awareness, more and more people begin to pay attention to physical exercise, especially the demand for home fitness equipment continues to grow. Gyms and private fitness Spaces have a high demand for diverse and efficient fitness equipment. Hydraulic technology has made great progress in recent years, and its application scope has been gradually expanded to the field of fitness equipment. With the development of electronic control technology and sensing technology, the hydraulic fitness equipment can realize intelligent and personalized training experience. The traditional fitness car may be unstable during use, while the hydraulic system can provide a smoother and more stable resistance changes. The hydraulic system can better simulate the real riding experience and improve the user's use experience. Existing fitness vehicles on the market may not meet the needs of all users, especially there is room for improvement in resistance regulation, durability and silence effects. There is a lack of customized fitness equipment for specific groups (such as the elderly, rehabilitation patients, etc.), and the application of hydraulic technology can provide more possibilities.

This paper aims to design a hydraulic fitness bike structure to meet the modern demand for efficient, safe and comfortable fitness equipment. Through the analysis of the research status of fitness bikes at home and abroad, it is found that the traditional fitness bikes have deficiencies in energy utilization, intelligence, personalized training and resistance adjustment. Therefore, this study proposes a design scheme for hydraulic fitness bike combining hydraulic technology, electronic control technology and sensing technology. The bicycle can provide smooth and stable resistance changes through the hydraulic system, simulate the real riding experience, and improve the user's exercise effect and comfort. At the same time, the introduction of intelligent control technology, so that the device can record the user's exercise data, and adjust the training plan according to the personal situation, to achieve personalized training. Moreover, this study explores the classification of hydraulic fitness bikes and the application of their connections, which provides a theoretical basis for the design. The research significance of this paper is to promote the technical innovation of fitness equipment, meet the diversified needs of the market, and improve the market competitiveness of products.

Key words: hydraulic fitness bicycle; structural design; intelligent control; resistance adjustment; fitness equipment