充電器外殼的注塑注射模具設(shè)計【側(cè)向抽芯機構(gòu)一模兩腔優(yōu)秀課程畢業(yè)設(shè)計含UG三維10張CAD圖紙帶任務書+開題報告+外文翻譯】-zsmj28
充電器外殼的注塑注射模具設(shè)計【側(cè)向抽芯機構(gòu)一模兩腔】
摘 要
塑料注射模是成型塑料的一種重要工藝。通過對充電器外殼注射模具設(shè)計,能夠基本地、全面地了解注射模具設(shè)計的基本原則、方法。在模具結(jié)構(gòu)設(shè)計過程中,我大膽嘗試提出各種不一樣的成型的方案,并與老師探討對方案進行了比較。在比較的過程中,發(fā)現(xiàn)大量的問題,也了解模具設(shè)計的要求和基本原則,最后在查閱大量書籍的幫助下完成沒一個數(shù)據(jù)的選擇。在設(shè)計中分析了常用日用品充電器的工藝特性,并介紹了ABS材料成型工藝特點、成型過程、開模過程以及成型后加工工藝。同時,分析了模具結(jié)構(gòu)與計算,掌握如何設(shè)計一個完整的模具生產(chǎn)結(jié)構(gòu)。通過本次設(shè)計,能較為熟練的使用Auto-CAD、Pro-E等軟件進行模具輔助設(shè)計,提高自己的計算機繪圖能力。本次畢業(yè)設(shè)計充分地為今后從事模具設(shè)計行業(yè)打下了扎實的基礎(chǔ)。
本次主要設(shè)計是對充電器外殼注射模的設(shè)計, 重點對塑件的成型原理、材料的選用和注射技術(shù)進行分析。通過前期指導老師安排的任務,我先對任務書進行了分析了解,并查閱了大量的書籍、手冊和文獻,對模具有了一定的了解并且清楚自己的所要完成的任務量。進過對ABS充電器的了解,要滿足制品大批量生產(chǎn)、高精度、外形復雜等要求,我首先主要把時間花費在確定所需的模塑成型方案、制品的后加工、分型面的選擇、型腔的數(shù)目和排列、成型零件的結(jié)構(gòu)等。既然以實際生產(chǎn)為目的,設(shè)計就要涵蓋了注塑模具的主要系統(tǒng)包括有注射機、澆注系統(tǒng)、排氣系統(tǒng)、冷卻系統(tǒng)、頂出系統(tǒng)、導向系統(tǒng)等。對于要實際生產(chǎn)的模具,我們考慮的東西還有很多,為此我積極詢問我的指導老師關(guān)于現(xiàn)實工廠中模具的生產(chǎn)過程及可能遇到的問題。設(shè)計時,嘗試使用了側(cè)向抽芯機構(gòu),增加模具的復雜性以及實用性。設(shè)計時參考了以往注射模具的設(shè)計經(jīng)驗,并結(jié)合制品的實際要求,通過簡化設(shè)計結(jié)構(gòu)、優(yōu)化各個系統(tǒng)性能,盡最大限度實現(xiàn)美觀、實用性高、長的使用壽命、短的生產(chǎn)周期和良好的經(jīng)濟性能。
關(guān)鍵詞:塑料注射模;充電器外殼;計算機繪圖
Abstract
Injection molding is an important molding plastics. Through the design of the injection mould for the charger shell, can basically, a comprehensive understanding of the basic principles, methods of injection mold design. In the mold structural design process, I attempt to put forward a variety of different forming schemes, and the schemes are compared with the teacher discussion. In the comparison process, found a lot of problems, but also understand the mold design requirements and basic principles, finally finish without a data selection in access to a large number of books to help. In the analysis of the design process characteristics of common commodity charger, and introduces the technology characteristics, forming ABS material molding process, mold and molding process. At the same time, analyzed the mold structure and calculation, master the design of a complete mold to produce structure. Through this design, can be more skilled use of Auto-CAD, Pro-E and other software mold aided design, improve the ability of computer drawing their own. This graduation design is fully engaged in mold design industry for the future lay a solid foundation.
The main design is the design of injection mold for the shell of charger, focuses on the analysis of plastic molding principle, material selection and injection technology. The teacher assigned task, I would first of task were analyzed to understand, and access to a large number of books, manuals and documentation, to mold a certain understanding and clear the task completed their. In the ABS charger understanding, to meet the product mass production, high precision, complex shape and other requirements, I first time spent in the molding, products after processing, the selection of parting surface, cavity number and arrangement, forming part of the structure. Since the actual production, designed to cover the main system of injection mold include injection machine, casting system, exhaust system, cooling system, ejector system, guiding system. For mold to the actual production, there are many we consider something, so I actively ask may meet the production process and my teacher about the real factory mold problems. Design, try to use the side core pulling mechanism, increase the mould complexity and practicability. A reference to the design of the injection mould design experience, combined with the actual requirements of products, through the simplification and optimization of each system performance, structure design, to maximize the realization of beautiful appearance, high practicality, long service life, short production cycle and good economic performance.
Key words:Injection mould for plastic;The charger shell;computer graphics
目 錄
引言 1
1 緒論 2
1.1 模具概述 2
1.1.1 模具種類 2
1.1.2注射模具概述 3
1.1.3 模具設(shè)計中面臨的難題和要求 3
1.1.3國內(nèi)研究現(xiàn)狀 4
1.1.4國外研究現(xiàn)狀 5
1.2 課題的目的及意義 5
1.3課題的主要內(nèi)容和工作方法 6
1.4解決的重點問題與創(chuàng)新 8
2 塑料制品分析 9
2.1 明確制品設(shè)計要求 9
2.2 明確制品批量 9
2.3 材料選擇及性能 9
2.3.1 材料選擇 9
2.3.2 材料品種 10
2.4 成型設(shè)備 10
2.5 拔模斜度 10
2.6 計算制品的體積和質(zhì)量 11
2.6.1表面質(zhì)量的分析 11
2.6.2塑件的體積重量 11
3 注射機及成型方案的確定 11
3.1 注射機的確定 12
3.2 成型方案的確定 12
3.2.1 成型設(shè)備的選擇 12
3.2.2 成型的特點 12
3.2.3 成型的原理 13
3.2.4 成型過程 13
4 型腔數(shù)的確定及分型面的選擇 13
4.1 型腔數(shù)的確定 14
4.2 分型面的選擇 14
4.2.1 分型面的主要選擇原則 14
4.3確定型腔的排列方式 15
4.4標準模架的選用 16
5 成型零部件的設(shè)計與計算 17
5.1 凸模設(shè)計 17
5.2 凹模的設(shè)計 17
5.3 成型零件工作尺寸的計算 18
5.3.1 模腔工作尺寸的計算 18
6 澆注系統(tǒng)的設(shè)計 20
6.1澆注系統(tǒng)設(shè)計的原則 20
6.2主流道設(shè)計 20
6.3分主流道的設(shè)計 20
6.4澆口的設(shè)計 21
6.5平衡進料 21
6.6冷料穴設(shè)計 21
7 排氣與冷卻系統(tǒng)的設(shè)計 22
7.1 冷卻系統(tǒng)設(shè)計的原則 22
7.2 冷卻水路的計算 22
7.3 排氣系統(tǒng)的設(shè)計 23
8 頂出與抽芯機構(gòu)的設(shè)計 24
8.1 推桿復位裝置 24
8.2 抽芯機構(gòu)的選擇 25
8.3 抽芯距的計算 25
8.4 斜導柱抽芯的設(shè)計 25
8.5滑塊的設(shè)計 26
9 導向機構(gòu)的設(shè)計 26
9.1 導向、定位機構(gòu)的主要功能 27
9.2 導向機構(gòu)的設(shè)計 27
9.2.1 導柱的設(shè)計 27
9.2.2 導套的設(shè)計 27
10 注射機與模具各參數(shù)的校核 28
10.1 工藝參數(shù)的校核 29
10.2 模具安裝尺寸的校核 29
10.2.1 噴嘴的校核 29
10.2.2 定位圈尺寸的校核 29
10.2.3 模具外形尺寸的校核 30
10.2.4 模具厚度的校核 30
10.2.5 安裝參數(shù)的校核 30
10.3 開模行程的校核 30
11 結(jié)論 31
謝 辭 32
參考文獻 33
附錄 34
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1000110532.prt
1000110532.stp
充電器外殼的注塑注射模具設(shè)計.doc
充電器外殼的注塑注射模具設(shè)計中期檢查表.doc
充電器外殼的注塑注射模具設(shè)計任務書.doc
充電器外殼的注塑注射模具設(shè)計開題報告.doc
動模座板 A2.dwg
型腔 A2.dwg
型腔固定板 A1.dwg
型芯3 A2.dwg
型芯固定板 A1.dwg
墊塊 A2.dwg
塑件 A4.dwg
定模座板 A1.dwg
文件清單.txt
滑塊 A3.dwg
英文翻譯(原文).doc
英文翻譯(譯文).doc
裝配圖 A0.dwg
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