立式空调遥控器上盖成型工艺分析与模具设计+图纸
时间:2020-09-26 16:06 来源:毕业论文 作者:毕业论文 点击:次
摘要:本设计详细介绍了立式空调遥控器上盖注塑模具的设计。通过UG软件的三维建模功能,对零件进行三维建模,分析零件的工艺性,拟定方案,对各方案进行论证与分析,确定最优设计方案。通过对塑件和所选材料进行分析,确定分型面,选定注射机,并设计浇注系统和计算成型零部件的尺寸。由于塑件左右有凹槽,采用斜滑块侧抽芯机构,根据计算的脱模力确定采用推杆机构脱模、冷却系统和排气系统的设计与计算。对模具结构和注塑机匹配校核,确保设计出的各种结构使模具工作时安全可靠。利用UG三维建模功能对模具各机构进行三维建模,并绘制模具装配图。57211 毕业论文关键词: 注塑模具;遥控器上盖;斜滑块 The forming process analysis and mould design for the remote control of the vertical air conditioner Abstract: The design of the injection mould for the upper cover of the vertical air conditioner is introduced in detail in this paper. Through the three-dimensional modeling function of UG software, the parts are modeled, the process of the parts is analyzed, the plan is made, and the optimal design scheme is determined. Through the analysis of the plastic part and the selected material, determine the parting surface, select the injection machine, and design the pouring system and calculate the size of the molding parts. Because the plastic part has a groove, the side core pulling mechanism of the inclined sliding block is adopted, and the design and calculation of the ejection, cooling system and the exhaust system of the push rod mechanism are determined according to the calculation of the ejection force. The structure of the mold and injection molding machine matching check to ensure that the design of a variety of structures to make the work of the mold safe and reliable. Three dimensional modeling of each mechanism is carried out by using the 3D modeling function of UG, and drawing die assembly drawing. Key words: Injection mould; remote control upper cover; inclined slide block 目 录 1 绪论 1 1.1模具发展现状1 1.2塑料模具发展新趋势1 2 工艺方案及分析2 2.1塑件成型工艺性分析2 2.2.1塑件的分析3 2.2设计方案的拟定3 2.2.1ABS的性能分析3 2.2.2塑件材料成型性能4 2.2.3注射成型工艺参数4 2.3拟定模具的结构形式和初选注射机5 2.3.1分型面位置的确定5 2.3.2型腔数量和排位方式的确定5 2.3.3注射机型号的确定7 3 浇注系统的设计8 3.1主流道的设计8 3.1.1主流道尺寸8 3.1.2主流道的凝料体积8 3.1.3主流道当量半径8 3.1.4主流道浇口套的形式9 3.2分流道的设计9 3.2.1分流道的布置形式9 3.2.2分流道的当量直径9 3.2.3分流道的截面积9 3.2.4凝料体积9 3.2.5校核剪切速率10 3.3浇口的设计10 3.3.1侧浇口尺寸的确定10 3.3.2侧浇口剪切速率的校核10 3.4校核主流道的剪切速率11 3.5冷料穴的设计11 4 成型零件的设计12 4.1成型零件的选材12 4.2侧抽机构12 4.2.1斜滑块抽芯机构的结构特点13 4.3凸凹模尺寸计算13 4.3.1凹模尺寸计算13 4.3.2凹模尺寸计算14 5 脱模推出机构的设计15 5.1推出机构的选用原则15 5.2确定推出机构的形式15 6 模架的确定16 6.1各模板尺寸的确定16 6.2模架各尺寸的校核16 6.3排气槽的设计16 6.4冷却系统的设计16 7 模具工作原理18 (责任编辑:qin) |