评估用于安全远程给药的受控电磁发射器

John Larocco, Q. Tahmina, John Simonis
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引用次数: 0

摘要

生物学家和兽医依靠飞镖投射器为动物注射药物、对标本进行活检或注射跟踪芯片。火器、气枪和其他发射器在精确控制弹丸动能方面能力有限,如果弹丸动能过高,可能会伤害动物。为了提高远程给药的安全性,我们制作了激光雷达调制电磁发射器和软给药镖的原型。在线圈效率为 2.25% 的情况下,发射器可持续发射动能为 1.00 ± 0.006 焦耳、非受控动能为 2.66 ± 0.076 焦耳的弹丸。尽管对充电时间、传感器和电子设备的改进可提高性能,但我们的发射器在必要的距离上仍能达到要求的水平。利用商用组件实现的精确度使我们能够应用于从执法到制造的许多其他领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluating a Controlled Electromagnetic Launcher for Safe Remote Drug Delivery
Biologists and veterinarians rely on dart projectors to inject animals with drugs, take biopsies from specimens, or inject tracking chips. Firearms, air guns, and other launchers are limited in their ability to precisely control the kinetic energy of a projectile, which can injure the animal if too high. In order to improve the safety of remote drug delivery, a lidar-modulated electromagnetic launcher and a soft drug delivery dart were prototyped. A single-stage revolver coilgun and soft dart were designed and tested at distances up to 8 m. With a coil efficiency of 2.25%, the launcher could consistently deliver a projectile at a controlled kinetic energy of 1.00 ± 0.006 J and an uncontrolled kinetic energy of 2.66 ± 0.076 J. Although modifications to charging time, sensors, and electronics could improve performance, our launcher performed at the required level at the necessary distances. The precision achieved with commercial components enables many other applications, from law enforcement to manufacturing.
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