基于3D打印技术的平面机构设计分析实验台的研制
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摘要
所提出的平面机构设计分析实验台是一种可广泛应用于全国各大高校开展设计性开放性实验的实验平台.实验平台可以实现目前大部分任意尺寸平面机构稳定地安装在实验平台上并且在电机驱动下平稳地运转后得出相应的实验数据.实验平台本身与现有平台相比可随着构件尺寸的变化支撑横梁与支撑立柱的位置可相应变化,并利用3D打印技术实验者自主打印出所需构件,本实验台不提供任何构件,确保实验自主设计性与开放性.
The experimental platform for planar mechanism design and analysis presented in this paper is an experimental platform which can be widely used in designing and opening experiments in major universities throughout the country.The experimental platform can realize that most of the planar mechanisms at any size are stably installed on the experimental platform,and the corresponding experimental data are obtained after the smooth operation of the motor.Experimental platform with the existing platform can be compared with the size of the components change support beam and the supporting upright position can be changed,and the use of 3D printing technology to print out the experimenter independent component,the platform does not provide any component,ensure the independent design and open. This paper introduces the experiment platform of plane mechanism.
The experimental platform for planar mechanism design and analysis presented in this paper is an experimental platform which can be widely used in designing and opening experiments in major universities throughout the country.The experimental platform can realize that most of the planar mechanisms at any size are stably installed on the experimental platform,and the corresponding experimental data are obtained after the smooth operation of the motor.Experimental platform with the existing platform can be compared with the size of the components change support beam and the supporting upright position can be changed,and the use of 3D printing technology to print out the experimenter independent component,the platform does not provide any component,ensure the independent design and open. This paper introduces the experiment platform of plane mechanism.
引文
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[2]陈文音,唐锡宽.四杆机构运动综合实验装置[J].实验技术与管理,1995(1):34-37.
[3]陈庆,高路,甘树坤.实践教学中培养机械类专业学生工程素质和创新能力的研究与探索[J].吉林化工学院学报,2013(4):38-42.
[4]田爱华,关金贵,刘兴德.机械设计制造及其自动化专业工程素质人才培养探讨[J].吉林化工学院学报,2011(4):13-15.
[5]孙艳萍,孙纯国.提高机械基础课教学效果的实践与探索[J].吉林化工学院学报,2013(12):88-90.
[6]史玉升,张李超,白宇,等.3D打印技术的发展及其软件实现[J].中国科学:信息科学,2015(2):197-203.
[7]王萍.3D打印及其教育应用初探[J].中国远程教育,2013(8):83-87.
[8]刘晓敏,赵云伟,张金涛,等.速无冲击直线往复运动机构研究[J].吉林化工学院学报,2015(8):43-45.
[9]陈青欣.平面多杆机构综合与分析研究[D].武昌:湖北工业大学,2017.
[10]黄真,丁华锋.机构的结构类型综合综述[J].燕山大学学报,2003(3):189-192.
[11]陈青欣,王君,汪泉,等.一种平面曲柄滑块五杆机构的路径生成方法[J].湖北工业大学学报,2017(1):101-104.
[12]刘少刚,韩继光.对心双曲柄滑块机构急回特性研究[J].林业机械与木工设备,2004(2):26-28.