便携式输液报警器-毕业设计
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安徽建筑工业学院毕业设计(论文)
1 安徽建筑工业学院
毕 业 设 计 (论 文)
专 业 机械设计制造及自动化
班 级 07城建机械(3)班
学生姓名 吴虎
学 号 07290070303
课 题 便携式智能输液报警器三维结构造型及动态仿真
指导教师 马 玉 平
2011年 6月 1日
安徽建筑工业学院毕业设计(论文)
2 摘要
我们发明设计的新型便捷机电式输液报警控制器是用于临床患者输液过程中的一种监测控制装置。当输液完毕时,报警器自动发出声光信号,提示护者急时处理,并且可以自动控制液体流速。
此仪器适用于各种颜色的药液,而且结构简单,体积小,重量轻,体现简约理念。此仪器器材所需的材料价格低廉,利用率高,可反复使用。新型便捷机电式输液报警控制器反应灵敏,安全可靠,没有电磁辐射干扰,对病人身体没有伤害;更重要的是它的机械检测控制装置,不接触药液,安全卫生,让人能更放心。该产品不影响患者走动,便于随处移动。这种新型输液报警装置让每瓶药液充分输尽,不浪费药液,体现节约理念。
关键词:安全;节约;灵敏;智能;卫生
安徽建筑工业学院毕业设计(论文)
3 Abstract
the We invented the new design of electromechanical infusion
alarm controller is convenient for patients in the process of a kind
of infusion monitoring control device. When infusion finished,
alarm automatically give out sound and light signals, tip armor,
and the urgent when processing can be automatically control the
liquid flow rate. This instrument is suitable for various kinds of
color, and the solution of simple structure, small volume, light
weight, reflects contracted concept. This apparatus of required
materials low prices, high efficiency, can use repeatedly. New
convenient electromechanical infusion alarm controller senstive
reaction, safe and reliable, no electromagnetic radiation, the body
without interference to the patient harm; More important is its
mechanical test and control device, not contact solution, safety
and health, let a person can rest assured. This product does not
affect patients ambulate, facilitate everywhere is mobile. This
new infusion alarm device let every bottle of liquor fully lost all
liquids and not waste, reflect save concept.
Keywords: security; Save; Sensitive; Intelligent; health
安徽建筑工业学院毕业设计(论文)
4 目录
摘要 .................................................................................................................................................. 2
Abstract........................................................................................................................................... 3
1.1 研究的背景和意义 ........................................................................................................... 5
1.2 智能输液报警器的历史与现状 ................................................................................... 6
第2章产品可行性报告及产品设计 ............................................................................................... 8
2.1当前市场状况以及市场前景分析 ............................................................................................ 8
2.1(1)、市场可行性分析 ..................................................................................................... 8
2.1(2)当前市场状况及市场前景分析 ............................................................................. 10
2.1.2同类产品比较: .......................................................................................................... 10
2.2.产品设计 ......................................................................................................................... 11
2.2.(2)产品具体特点: ....................................................................................................... 12
2.2.(3)产品具体介绍 1)输液报警控制器既可单独使用,也可配合医院护理中心监控联合使用。 ............................................................................................................................. 12
2.2.(4)产品技术参数:(简略) ......................................................................................... 12
本章小结 ................................................................................................................................. 12
第3章智能输液报警器三维结构造型及动态仿真 ............................................................. 14
3.1输液报警器结构及功能简介 .......................................................................................... 14
3.2见部分零件图 .................................................................................................................. 18
第四章输液报警器动态仿真 ................................................................................................. 29
4.1输液报警器爆炸图 .......................................................................................................... 29
4.2输液报警器爆炸动画 ...................................................................................................... 29
第五章输液智能报警器的使用 ............................................................................................. 30
5.1应用 .................................................................................................................................. 30
5.2实现功能 .......................................................................................................................... 30
5.3自动输液报警器产品介绍 .............................................................................................. 32
5.4 简 介 ............................................................................................................................... 33
5.4.(1) 工作原理 ............................................................................................................. 33
5.4.2 操作方法 ..................................................................................................................... 34
5.4.3保养与维修 .................................................................................................................. 36
5.4.4包装及附件 .................................................................................................................. 36
5.4.5储存及运输 .................................................................................................................. 37
本章小结 ................................................................................................................................. 37
第六章 结论与展望 ....................................................................................................................... 38
参考文献 ................................................................................................................................. 40
致谢......................................................................................................................................... 41
附录1英文科技文献翻译 ............................................................................................................. 42
附录二毕业设计任务书 ................................................................................................................. 64