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南昌航空大學本科畢業(yè)論文
南昌航空大學
畢業(yè)論文
風扇調(diào)速旋鈕塑料模結構分析及設計
專 業(yè) 名 稱 模具設計與制造
班 級 學 號
學 生 姓 名 曾 登
指 導 教 師 宛 強
2012 年04月20日
南昌航空大學
畢業(yè)論文任務書
I、畢業(yè)論文題目:
風扇調(diào)速旋鈕塑料模結構分析及設計
II、畢 業(yè)論文使用的原始資料及設計技術要求:
一、原始資料:
零件圖及PROE、UG等設計所涉及的軟件
二、技術要求:
1.論述塑料模的結構特點
2.制件的設計精度為4級,要求大批量生產(chǎn)
3.選用注射機
III、畢 業(yè)論文工作內(nèi)容:
2012年1月8日前 完成選題
2012年1月 進行資料收集、加工、整理,提出設計方案
2012年2月 進行并完成畢業(yè)論文
2012年3月 撰寫畢業(yè)論文
2012年3月30日 畢業(yè)論文模擬答辯
2012年4月20日 畢業(yè)論文答辯,成績評定
江西工業(yè)貿(mào)易職業(yè)技術學院 院、系(函授站) 模具設計與制造 專業(yè) 自考本科 班 學生 曾 登
日期:自 2012 年 01 月 8 日至 2012 年 04 月 20 日
指導教師 宛 強
兼職教師或答疑教師(并指出所負責的部分):
教研室主任
摘要
塑料工業(yè)是當今世界上增長最快的工業(yè)門類之一,而注塑模具是其中發(fā)展較快的種類,因此,研究注塑模具對了解塑料產(chǎn)品的生產(chǎn)過程和提高產(chǎn)品質(zhì)量有很大意義。
本設計介紹了注射成型的基本原理,特別是單分型面注射模具的結構與工作原理,對注塑產(chǎn)品提出了基本的設計原則;詳細介紹了塑件工藝的分析過程和注射模具澆注系統(tǒng)的設計過程,并對材料要求做了說明。
通過本設計,可以對注塑模具有一個初步的認識,注意到設計中的某些細節(jié)問題,了解模具結構及工作原理;通過對Pro/E、UG的學習,可以建立較簡單零件的零件庫,從而有效的提高工作效率。
目 錄
1 塑件成型工藝性分析·································7
1.1塑件制品結構分析····························································7
1.2成型工藝的分析·······················································7
1.2.1尺寸精度確定·························································7
1.2.2 脫模斜度確定·································································8
1.3 ABS的性能分析·············································································8
1.4 ABS的注射成型過程工藝參數(shù)··························································8
1.4.1注射成型過程···········································································8
1.4.2 ABS的注射工藝參數(shù)··································································9
1.5 ABS成型塑件的主要缺陷及消除措施················································9
1.6 確定模具基本結構·········································································9
2 分型面結構設計·········································································10
2.1分型面的選擇原則·········································································10
2.1.1分型面的確定·········································································10
2.2確定型腔數(shù)量及排列方式·······························································10
2.2.1一般確定型腔數(shù)量的三種方法···················································10
2.2.2確定型腔的排布方式·······························································11
2.3注射機型號的確定·········································································11
2.3.1按風扇調(diào)速旋鈕的注射量計算···················································11
2.3.2選擇注射機············································································12
2.3.3注射機有關參數(shù)的校核····························································12
2.4澆注系統(tǒng)形式和澆口設計·······························································13
2.4.1主流道的設計·········································································13
2.4.2主流道尺寸的確定···································································14
2.4.3主流道襯套的形式···································································14
2.4.4主流道冷料穴的設計·······························································15
2.4.5分流道的截面形式···································································16
2.4.6澆口的選擇原則及位置····························································16
2.4.7排氣系統(tǒng)的設計······································································17
2.5確定頂出方式···············································································17
2.5.1頂出方式的確定······································································17
2.5.2脫模力的計算·········································································17
2.6確定冷卻系統(tǒng)···············································································19
2.7注射模選材···················································································19
2.8導向與定位結構的設計···································································20
2.9模具的工作過程············································································20
3 成型零部件的設計···································································· 20
3.1確定型腔、型芯的結構和固定方式····················································20
3.2成型零件的尺寸計算······································································20
3.2.1型腔的徑向與深度尺寸計算······················································21
3.2.2型芯的徑向與高度尺寸計算······················································21
3.2.3塑件的型芯及型腔的成型尺寸標注圖·········································22
4 模架的確定和校核···································································· 22
4.1各模板尺寸的確定·········································································22
4.2模架各尺寸的校核·········································································23
5 繪制模具圖················································································ 24
6、總結······························································································ 33
7、參考文獻······················································································ 33
1 塑件成型工藝性分析
1.1塑件制品結構分析
本設計記為風扇調(diào)速旋鈕,如圖1.1所示塑件的質(zhì)量要求不允許有裂紋和變形缺陷的;塑件材料為ABS,生產(chǎn)為大批量,塑件公差按模具設計要求進行轉換。
該塑件的結構不算復雜,但是產(chǎn)品外表面帶有花紋,產(chǎn)品里面也有凹槽,因為此產(chǎn)品是作為風扇調(diào)速旋鈕使用,大批量生產(chǎn)。所要求的制造精度不高,所以要求模具的制造精度也不高,因要與手部接觸,所以保證塑件表面質(zhì)量即可。
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