摘要
针对现有无针注射系统体积大、噪声大、注射效率低、驱动力小且难以调节的问题,设计了一种采用空行程蓄能的磁阻式电磁蓄能无针注射系统。对注射器电磁驱动部分和安瓿药液射流部分进行了仿真研究,通过搭建的实验平台验证了理论设计的正确性。该方案极大地缩小了无针注射系统的体积、扩大了驱动力的可调范围,并且安全稳定,可以完成注射,具备一定的实用性和可行性。
Aiming at the problems of existing needle-free syringes such as large volume,high noise,low injection efficiency,small driving force,and difficulty in adjustment,a magnetoresistive electromagnetic energy storage needle-free injection system which adopted empty stroke energy storage method was designed.Electromagnetic drive part and ampoule liquid jet part of the injection system were simulated,and an experimental platform was established to further verify the correctness of theoretical design by experiments.The scheme greatly reduces volume of the needle-free injection system and enlarges adjustable range of driving forces.It is safe and stable,and may meet the injection requirements,which make the syringe has certain practicability and feasibility.
作者
倪玉吉
王明娣
陈添禹
张晓
倪超
刘金聪
NI Yuji;WANG Mingdi;CHEN Tianyu;ZHANG Xiao;NI Chao;LIU Jincong(College of Mechanical and Electrical Engineering,Suzhou University,Suzhou,Jiangsu,215131)
出处
《中国机械工程》
EI
CAS
CSCD
北大核心
2021年第2期227-234,共8页
China Mechanical Engineering
基金
国家自然科学基金(51675360)
苏州市科技计划(SYG201805)
苏州市相城区科技计划(201701)。
关键词
电磁驱动
电磁仿真
流体仿真
蓄能
electromagnetic drive
electromagnetic simulation
fluid simulation
energy storage