Research on an electromagnetic device and pressuring force for measuring the depth of borehole while drilling the bone

IF 1.7 4区 材料科学 Q3 MATERIALS SCIENCE, COMPOSITES
Xuan Wang, F. You, Jian-ping Hong, Wang Zhou
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Abstract

A device for measuring the depth of the borehole base on the magnetic grid during orthopedic surgery is proposed in this article. It consists of a magnetic grid, winding sleeve, two Hall sensors, and control circuitry. The magnetic grid comprises permanent magnets and coil windings. The device fixes on the electric hand drill and works during the surgical operation. An axial pressure keeps the shaft end of the magnetic grid in contact with the surface of the bone or the plate steadily during the electric handheld drilling of the bone. The pressure is an electromagnetic force generated by the interaction between the permanent magnets and the coil windings. The force should be large enough to support the weight of the magnetic grid and a low fluctuation is maintained. The larger the device, the higher the electromagnetic force will be generated. The electromagnetic force is simulated and obtained with the software of Maxwell. The factors that influence the force were the permanent magnet, and the others are the length of permanent magnet and the turns on the coil. The results of orthogonal simulation show that the primary factor is the diameter of the permanent magnet. The optimized parameters include the following: the diameter of the magnet is 7 mm, length of each permanent magnet is 5 mm, and the turns on the coil are 80. Then the pressure force range is approximately 0.485–0.716 N, and the variance of the force is 0.137.
钻骨时测量钻孔深度的电磁装置及压力的研究
本文提出了一种在骨科手术中测量磁栅钻孔深度的装置。它由一个磁栅、绕组套、两个霍尔传感器和控制电路组成。磁栅包括永磁体和线圈绕组。该装置固定在手电钻上,在手术过程中工作。轴向压力使磁性栅格的轴端在骨的手持式电动钻孔过程中稳定地与骨或板的表面接触。压力是由永磁体和线圈绕组之间的相互作用产生的电磁力。该力应足够大以支撑磁栅的重量,并保持低波动。装置越大,产生的电磁力就越高。利用Maxwell软件对电磁力进行了仿真计算。影响力的因素是永磁体,其他因素是永磁铁的长度和线圈匝数。正交模拟结果表明,永磁体的直径是影响永磁体性能的主要因素。优化的参数包括:磁体的直径为7mm,每个永磁体的长度为5mm,线圈上的匝数为80。则压力范围约为0.485–0.716 N,力的方差为0.137。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advanced Composites Letters
Advanced Composites Letters 工程技术-材料科学:复合
自引率
0.00%
发文量
0
审稿时长
4.2 months
期刊介绍: Advanced Composites Letters is a peer reviewed, open access journal publishing research which focuses on the field of science and engineering of advanced composite materials or structures.
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