創新非侵入式光電埋針之研製;Development of Innovative Non-Invasive Photoelectric Buried Needle

Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/80537

Title:	創新非侵入式光電埋針之研製;Development of Innovative Non-Invasive Photoelectric Buried Needle
Authors:	黃亮穎;Huang, Liang-Ying
Contributors:	光電科學與工程學系
Keywords:	針灸;埋針;高頻;磁療;熱療;熱成像;Catgut;embedding;therapy;magnetic;induction heat;thermal imaging
Date:	2019-07-12
Issue Date:	2019-09-03 14:43:50 (UTC+8)
Publisher:	國立中央大學
Abstract:	隨著運動風氣興盛及人口老化影響，復健與疼痛治療的需求日益增加，現代中、西醫學均已發展出許多有效治療方式；然而因設備、空間及時間侷限，動則數月的冗長的療程使效果也大打折扣，復健用輕便的穿戴裝置實屬必要。本研究主要是在非侵入式的概念上整合復健醫學上常用的光療、磁療、熱療方法製作出三合一輕便的復健穿戴裝置；以感磁性良好的矽鐵合金為軟性基板材料再設計製作三合一電路，利用磁振生熱、紅外線光源加上磁感應直接刺激方式，達成與埋針等效的非侵入式光電埋針穿戴裝置，提供便利及效率的解決方案。量測方法以ASTM D5470熱傳導 (Thermal Conduction) 測試標準、熱電偶計(Thermocouple)、熱像儀(Thermal imager)方法來進行，實驗結果可得知：(1)矽鐵粉添加固含量在70wt%左右電感及材料強度有理想平衡點。(2)磁場對外感應同時對內仍能有效產生熱。(3)磁感應生成的熱與市售熱阻式加熱墊生成的熱，每瓦的溫度上升的比值為(5.2/2.4)(℃/W)，及本產品每瓦升溫為市售商品每瓦升溫的2倍，也就是說本實驗製造出來的產品在升溫至50~60℃的標準下，可以用一半的電池量達到相同的溫度；即耗能節省一倍。 ;The need for rehabilitation treatment is increasing owing to the promotion of physical activity. With the advancement of modern medicine, plenty of effective treatment methods have been developed until now. However, the effect of rehabilitation is always limited by time-consuming treatment and restrictions on the medical devices. It is necessary to use a lightweight wearing device for rehabilitation. In this work, three Non-Invasive treatments commonly used in rehabilitation including phototherapy, magnetic therapy and hyperthermia are combined to develop a three-in-one lightweight rehabilitation wearable device. Ferro silicon alloy with good magnetic properties is used to fabricate three-in-one circuit. Non-invasive photoelectric wearable device equivalent to catgut embedding is realized by using combination of magnetic induction heat, infrared light source and magnetic induction direct stimulation method to provide more convenient and effective method for rehabilitation. Heat transfer coefficient of materials is measured with thermocouple and thermal imager based on the standard test method ASTM D5470. The test result shows that: (1) Electromagnetic induction and mechanical strength of material are optimized with 70 wt. % Ferro silicon powder doping. (2) Heat can be effectively generated at the same time with the magnetic field is externally induced. (3) Three-in-one rehabilitation wearable device can achieve 2 times heat generation efficiency compared to commercially available heating pad (5.2/2.4 =℃/W). In this case, rehabilitation wearable device with high commercial potential is developed. Under the standard of heating up to 50~60 °C.
Appears in Collections:	[Graduate Institute of Optics and Photonics] Electronic Thesis & Dissertation

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