{$cfg_webname}
主页 > 机械机电 > 机械 >

新型智能微创拔牙器的设计(含CAD零件装配图)

来源:wenku163.com  资料编号:WK16314568 资料等级:★★★★★ %E8%B5%84%E6%96%99%E7%BC%96%E5%8F%B7%EF%BC%9AWK16314568
资料介绍

新型智能微创拔牙器的设计(含CAD零件装配图)(论文说明书15000字,CAD图纸12张)
THE DESIGN OF THE INTELLIGENT MINIMALLY INVASIVE TOOTH EXTRACTION DEVICE
摘要
鉴于现今的拔牙技术落后,导致病人在拔牙时会产生很大的伤害,对病人的心理上也造成了很大的伤害,所以我在参照国内外各个拔牙器械的设计后,对一种微创智能拔牙器进行了设计。设计理念就是利用各种增利的机构来达到拔牙的目的,本次设计用到的增利机构有滑动螺旋传动、斜楔机构、杠杆机构,由一种动力来驱动,由各个增力机构来传动,滑动螺旋传动采用的是螺杆转动螺母移动,斜楔机构就是很简单改变转动的方向也能达到增力的作用,最后通过杠杆拔起拔牙螺丝,达到拔牙的目的,这种拔牙的方式更加的先进,符合当前的科学技术发展进程,下面就根据上面阐述的这个思路来对毕设题目进行设计和计算。
关键词 拔牙;微创;机械

Abstract
In view of the current backwardness of tooth extraction technology, it will cause great harm to the patient during tooth extraction, and it will also cause great psychological harm to the patient. Therefore, after referring to the design of various tooth extraction instruments at home and abroad, I have developed a minimally invasive method. The smart tooth extractor was designed. The design concept is to use a variety of boosting mechanisms to achieve the purpose of tooth extraction. The augmented body used in this design is a sliding screw drive, a wedge mechanism, and a lever mechanism. It is driven by a type of power and is powered by various force increasing mechanisms. Transmission, sliding screw transmission is used to rotate the screw nut, wedge mechanism is very simple to change the direction of rotation can also achieve the role of force, and finally through the lever pull up the extraction screw, to achieve the purpose of tooth extraction, this extraction method is more The advanced, in line with the current process of scientific and technological development, the following based on the above-mentioned ideas to design and calculate the completion of the topic.
Keywords  tooth extraction  minimally invasive  mechanical
 

新型智能微创拔牙器的设计(含CAD零件装配图)
新型智能微创拔牙器的设计(含CAD零件装配图)
新型智能微创拔牙器的设计(含CAD零件装配图)
新型智能微创拔牙器的设计(含CAD零件装配图)



目录
1绪论    14
1.1拔牙的背景与发展    14
1.2对现存拔牙器械的分析    14
2微创拔牙系统技术    16
2.1微创拔牙系统的概念    16
2.2微创拔牙系统的要求    16
3设计方案的选择    17
3.1手动式拔牙器    17
3.2电动式拔牙器    17
4 拔牙器的传动设计    18
4.1电动机的选择    18
4.2齿轮传动的选择    19
4.3螺旋传动的选择    27
4.4斜楔机构的选择    33
4.5杠杆机构的选择    36
4.6零件的设计    37
5零件的工艺分析    38
5.1毛坯制造方法和种类    39
5.1.1公差等级    39
5.1.2零件的表面粗糙度    39
5.2制定工艺路线    39
结论    40
致谢    42
参考文献    43

推荐资料