超声波在介质内传播时,会使介质质点受到交变压力,对组织内物质和微小的细胞结构形成一种摩擦的作用。该作用引起细胞功能的改变,改善血液和淋巴循环,增强细胞膜的弥散过程,从而改善新陈代谢,提高组织再生能力,具有重要的医学意义。本文提供了一种基于脉搏信号控制的智能超声波理疗装置及其实现方法,通过脉搏波信号的采集和处理,实现超声效应与人体心血管系统共振,提高超声波的治疗效益。在治疗中,本系统能够对超声输出功率进行实时监控和调整,避免在使用过程中出现谐振频率不稳定,确保了系统的稳定和高效。 Ultrasound propagation in the medium, the media will be subjected to alternating pressure on the particle, the organization of substances and tiny cell structure to form a friction effect. This effect leads to changes in cell function, improve the blood and lymphatic circulation, enhance cell membrane diffusion process, thereby improving metabolism, improve tissue regeneration capacity, has important medical significance. In this paper, an intelligent ultrasonic physiotherapy device based on pulse signal control and its realization method are provided. Through the collection and processing of pulse wave signals, the ultrasonic effect and human cardiovascular system resonance are realized, and the therapeutic benefit of ultrasound is improved. In the treatment, the system can monitor and adjust the ultrasonic output power in real time to avoid instability of the resonance frequency during use, and ensure the stability and efficiency of the system.