8 research outputs found
Piezoelectric biomimetic micro flapping flight device
No full text一种压电仿昆虫微扑翼飞行器,包括:压电翅膀、机身、电源、升压电路、控制电路及信号接收发射器,压电翅膀固定于机身上表面的中部,电源、升压电路、控制电路及信号接收发射器依次串联并分别安装于机身上,所述压电仿昆虫微扑翼飞行器的整体质量重心位于翅膀的中垂面上。本发明具有轻质、能耗低、机构简单、转化效率高、操作性强的突出优点
Design and Fabrication of an SU-8 Biomimetic Flapping-wing Micro Air Vehicle by MEMS Technology
No full text为研制一种轻质仿昆虫微扑翼飞行器,提出了采用微机电系统(MEMS)领域的SU-8光刻胶作为结构材料的制作方案.基于仿生学原理和微机电系统加工技术,设计微扑翼飞行器结构及MEMS工艺方法.研究结果表明,该种结构设计及制作方案满足设计要求,为仿昆虫微扑翼飞行器的研制提供了一种很好的途径
Design and Fabrication of an SU-8 Biomimetic Flapping-wing Micro Air Vehicle by MEMS Technology
No full text为研制一种轻质仿昆虫微扑翼飞行器,提出了采用微机电系统(MEMS)领域的SU-8光刻胶作为结构材料的制作方案.基于仿生学原理和微机电系统加工技术,设计微扑翼飞行器结构及MEMS工艺方法.研究结果表明,该种结构设计及制作方案满足设计要求,为仿昆虫微扑翼飞行器的研制提供了一种很好的途径
Bevel gear train flapping-wing aircraft
No full text一种机械电子技术领域的锥齿轮组扑翼飞行器,包括:扑动机构、主轴和尾翼,主轴分别与扑动机构和尾翼连接。本发明能够使两个翅膀扑动频率不同,能够在飞行过程中高效地调节两个翅膀之间的扑动关系,还能够降低由于两个翅膀扑动力不同所带来的能量损耗,消除两边扑动力不平衡的影响
Flapping mechanism design and aerodynamic analysis for the flapping wing micro air vehicle
No full textThis paper introduces a biological flapping micro air vehicle (FMAV) with four wings, instead of two wings, where wing clap-and-fling of real insects has been mimicked. The total weight is 2.236g. A spatial linkage is implemented in the flapping wing system, which is symmetry. This can prevent the flapping wing MAV from tilting toward the left or the right in the course of flight. By using the computational fluid dynamics (CFD), it has been confirmed that the flapping wing system can utilize the clap-and-fling mechanism, which is essential to enhance the lift and thrust in the insect flight
新疆野生核桃的组织培养和植株再生/Tissue Culture and Plantlet Regeneration of J.fallax Dode in Xinjiang[J]
No full text[目的]采用植物离体组织培养快繁技术繁殖新疆野生核桃,为野生核桃资源的进一步保护、开发和利用提供可行途径.[方法]以生长在新疆天山西部伊犁谷地巩留县南部的凯特明山中的野生核桃沟当年结的野生核桃种子为试材,进行催芽处理并播种于营养基质中成苗后,选取茎段进行诱导芽分化、生长和生根成苗试验.[结果]筛选出茎段离体初代培养基为DKW+ BA 1.0 mg/L;继代培养和壮苗培养基为DKW+BA 1.0mg/L+IBA 0.01 mg/L;野生核桃在离体繁殖条件下较难生根,实验采用间接诱导生根法,即用50 mg/L IBA 浸渍处理试管苗基部60 min,然后转至不含生长调节物质的1/2 DKW培养基,先黑暗诱导2周后,再在16 h/d 光照下培养,可诱导试管苗生根率达96%以上.而后生根的试管苗在珍珠岩基质中培养,进行有效的移栽驯化管理,获得了较理想的移栽成活率.[结论]成功地进行了新疆野生核桃离体组织培养及植株再生,为新疆野生核桃的快速繁殖和细胞水平的遗传改良提供了一条有效的途径
