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K23L平板微波炉加热性能提升研究

发布时间:2018-05-06 08:27

  本文选题:K23L平板微波炉 + 模式搅拌器 ; 参考:《电子科技大学》2014年硕士论文


【摘要】:技术的革新是推动生活品质提升的关键,这点在家电行业体现得尤为明显。从最初的烧柴做饭到如今初具雏形的智能厨房,这一切的背后都蕴含着技术的创新、科技的进步。微波炉作为家电科技的杰出代表,体现了人们对于技术进步的不懈追求,并极大程度上改变和丰富了人们的生活。从最初的“雷达波”炉问世,到第一台微波炉在南京生产,再到如今微波炉的普遍使用,几十年来,微波炉行业经历了无数的技术革新。纵观微波炉行业的发展,不难看出,微波炉的技术革新紧紧围绕其加热性能的研究展开。最初的微波炉都是平板式微波炉,然而因为无法满足IEC标准的规定,平板式微波炉一度被转盘微波炉所取代,甚至一度出现了转盘式微波炉完全占据微波炉市场的局面。然而得益于科技的革新,尤其是新平台技术的发展与进步,平板式微波炉的加热性能获得极大提升并重新开始占领市场,并且有继续扩大领先优势的趋势。同时,由于平板微波炉相对转盘式微波炉具有先天的优势:(1)具有更好的腔体清洁性;(2)具有更高的空间使用效率;(3)平板微波炉有利于热风对流,因此平板微波炉重新成为了微波炉市场的主角。目前,国内的微波炉生产厂商,以美的和格兰仕为代表,其研发工作主要集中于平板式微波炉,国内的平板微波炉已经占据了全微波炉市场份额的90%以上,并有继续扩大的趋势。国外的微波炉厂商,如松下、东芝、LG其研发的重点也多集中于平板式微波炉,并且取得了相当不俗的成果。本课题研究的关键在于如何利用天线技术有效提升K23L平板微波炉的加热性能。模式搅拌器在国内的平板微波炉应用较多,考虑到成产成本以及模式搅拌器研究的专利成果,对模式搅拌器进行研究的同时还需考虑其专利的规避问题。同时,如何对微波炉天线进行研究与探索也涉及到专利规避问题。本文还要求不改变整体微波炉尺寸的情况下提升微波炉的加热性能,这对微波炉天线的研发也是一项不小的挑战。
[Abstract]:Technological innovation is the key to improving the quality of life, especially in the home appliance industry. From the original firewood cooking to today's embryonic intelligent kitchen, behind all these are technological innovation and technological progress. Microwave oven as an outstanding representative of home appliance science and technology reflects the unremitting pursuit of technological progress and greatly changes and enriches people's life. From the first "radar wave" oven to the first microwave oven produced in Nanjing, and then to the widespread use of microwave ovens today, the microwave oven industry has experienced numerous technological innovations in recent decades. According to the development of microwave oven industry, it is not difficult to see that the technological innovation of microwave oven is focused on its heating performance. The original microwave ovens were flat microwave ovens, but because they could not meet the requirements of IEC standard, flat microwave ovens were once replaced by turntable microwave ovens, and at one time, the rotary microwave ovens completely occupied the market of microwave ovens. However, thanks to the innovation of science and technology, especially the development and progress of new platform technology, the heating performance of flat microwave ovens has been greatly improved and has begun to occupy the market again, and there is a tendency to continue to expand the leading edge. At the same time, because the flat microwave oven has the innate advantage over the rotary plate microwave oven) it has better cavity cleanliness and has higher space use efficiency / 3) the flat microwave oven is advantageous to the hot air convection. Therefore, flat microwave oven has become the main role of microwave oven market. At present, the domestic manufacturers of microwave ovens, represented by the United States and Galanz, mainly focus their research and development work on flat microwave ovens, and domestic flat microwave ovens have occupied more than 90% of the market share of the whole microwave ovens. And there is a tendency to continue to expand. Foreign microwave oven manufacturers, such as Matsushita and Toshiba LG, also focus on flat microwave ovens, and have achieved good results. The key of this research is how to improve the heating performance of K 23 L flat microwave oven by using antenna technology. The mode agitator is widely used in domestic flat microwave ovens. Considering the production cost and the patented achievements of the mode agitator research, it is necessary to consider the problem of patent evasion while studying the mode stirrer. At the same time, how to research and explore microwave oven antenna also involves patent evasion. This paper also requires that the heating performance of the microwave oven be improved without changing the size of the whole microwave oven, which is also a challenge to the development of the microwave oven antenna.
【学位授予单位】:电子科技大学
【学位级别】:硕士
【学位授予年份】:2014
【分类号】:TM925.54

【参考文献】

相关期刊论文 前1条

1 顾小卫;蒙林;孙宜琴;于新华;蒲小亮;;微波炉炉腔内电磁场仿真[J];电子器件;2008年03期



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