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| 智能艾灸头燃烧组件的温度场仿真与优化设计 |
| The simulation of temperature field and optimal design of intelligent moxibustion head combustion module |
| 投稿时间:2023-09-12 修订日期:2023-12-15 |
| DOI: |
| 中文关键词: 艾灸 智能艾灸头 结构改进 温度场仿真 实验验证 |
| 英文关键词: moxa intelligent moxibustion head structural improvement scheme temperature field simulation experimental verification |
| 基金项目:国家自然科学基金:热敏灸辅助机器人及其腧穴智能辨敏定位与多机协作安全控制研究(项目编号61763030);2023年度上海市地方院校能力建设项目(项目编号23010501600) |
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| 中文摘要: |
| 传统人工艾灸操作存在费时费力、温度无法精准控制等诸多弊端,而现有艾灸设备功能有限,缺乏对艾灸温度的自动控制。上述原因导致患者的体感温度不佳,甚至无法达到理想的艾灸治疗效果,因此有必要对艾灸头结构进行改进。本文以智能艾灸头作为研究对象,对智能艾灸头外部环境和内部结构两方面影响艾灸温度因素进行研究,提出多种结构改进方案并进行温度场仿真和实验验证,结果表明:通过通风和增加艾条周围空隙来加速燃烧不会提高患者的体感温度,新的结构可使艾灸温度明显提升。 |
| 英文摘要: |
| Traditional artificial moxibustion operation has many disadvantages, such as time-consuming and laborious problems, and the temperature can not be accurately controlled. However, the existing moxibustion equipment has limited functions, and there is a lack of automatic control of moxibustion temperature. The above reasons lead to the poor body temperature of patients, and even can not achieve the ideal moxibustion treatment effect, so it is necessary to improve the structure of moxibustion head. This paper with intelligent moxibustion head as the research object, the intelligent moxibustion head external environment and internal structure of the influence of moxibustion temperature factors, put forward a variety of structural improvement scheme and temperature field simulation and experimental verification, the results show that through ventilation and increase the gap around the moxa accelerated combustion will not improve the body temperature, the new structure can make moxibustion temperature significantly improve. |
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