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摘 要 模具是工業(yè)生產(chǎn)的基礎工藝裝配，廣泛應用于機械、汽車、電子通訊、家電等行業(yè)，其中有80%以上的產(chǎn)品零件均通過模具生產(chǎn)而成。在國際上，模具又有“工業(yè)之母”之稱。模具分為冷沖壓模具、熱鍛模具、塑料模具、鑄造模具、橡校模具和玻璃模具等。其中冷沖壓模具在各種模具中所占比重最多，占整個模具市場的60%以上，具有廣泛的發(fā)展前景。 冷沖壓模具是在室溫下，借助于設備提供的壓力，利用模具使板料發(fā)生分離成塑性變形的一種加工方法。加工對象主要是金屬或非金屬的板料。 本設計是對給定的模具產(chǎn)品圖進行沖壓工藝分析和連續(xù)模設計，在綜合考慮了加工產(chǎn)品的經(jīng)濟性、零件的沖壓工藝性以及復雜程度和精確度等諸多因素的基礎上進行沖壓工藝分析與計算的，并提出了合理的工藝方案和結構形式；最后，結合產(chǎn)品的工藝及現(xiàn)有加工方法合理設計連續(xù)模排樣方案及加工方法最終達到省時省料、節(jié)約資源的目的。本設計介紹了模具設計中的排樣與送料方式和卸料與導向方式，討論了主要工作件間隙的確定和刃口尺寸及沖壓力的計算，并選擇合適的壓力機，設計中主要對模具工作部分尺寸進行計算和主要零部件的設計以及加工工藝的制定。 總而言之沖壓模的加工生產(chǎn)效率高，加工成本低，材料利用率高，產(chǎn)品的一致性好，制件質量符合生產(chǎn)要求,且操作簡單。 關鍵詞：前板 沖壓 工藝分析 連續(xù)模 Abstract Mold is the basis of industrial production assembly process is widely used in machinery, automobile, telecommunications, home appliances and other industries, including more than 80% of the product parts are made through the mold production. At the international level, mold and "Mother of industry" called. Is divided into cold stamping die mold, forging mold, plastic mold, die casting, rubber mold school, such as mold and glass. One cold stamping die mold in a variety of the largest share, accounting for the entire mold more than 60% of the market, has a broad development prospects. Cold stamping die is at room temperature, the pressure through the use of equipment, the use of sheet metal dies so that the separation took placeinto a plastic deformation process. Processing object is a metallic or non-metallic sheet. The design of stamping process analysis and die design for a given moldproducts, in comprehensive consideration of the stamping process of economy,parts processing products and complexity and accuracy factors on stamping process analysis and calculation, and put forward the reasonable process scheme and structure; finally, combined with the product of the process andthe existing processing method of rational design of progressive die layoutand processing method of saving time and material, reach the purpose of saving resources. This design introduced the mold design of nesting and feeding and discharging and guiding mode, the main pieces of determining clearance and edge size and blanking force calculation are discussed,and select the appropriate machine design, design of the main working parts of die size calculation and main parts and processing technology . All in all, the production of Die efficient processing, low processing costs, material utilization high, the product of good consistency, the product quality is suit for the production needs, and easy to operate. Key words：foreplate ,stamping,analysis of manufacturing ,modulus of continuity 目 錄 第1章 前言·················································································1 1.1 沖壓的概念、特點及應用······························································1 1.2 沖壓的基本工序及模具································································2 1.3 連續(xù)模介紹·············································································3 1.4 連續(xù)模結構分析········································································3 1.5 連續(xù)模設計要點········································································4 第2章 連續(xù)模設計過程··································································8 2.1 沖件工藝性分析········································································8 2.1.1 沖裁件結構工藝性···································································8 2.1.2 沖裁件的精度和毛刺································································8 2.2 工藝方案的設定········································································9 2.3 間隙的含義及間隙值的選擇·························································10 2.3.1 沖裁間隙分析·······································································10 2.3.2 間隙值的選擇·······································································11 2.4 沖壓加工工序及排樣圖設計·························································11 2.5 凸模、凹模尺寸的計算·······························································12 2.5.1 外形尺寸的計算····································································12 2.5.2 內形尺寸的計算····································································13 第3章 落料件凸凹模尺寸計算過程·················································15 3.1 刃口尺寸計算·········································································15 3.2 沖孔部分凸凹模尺寸計算····························································19 第4章 沖壓力的計算····································································20 4.1 沖裁件的力學性能分析·······························································20 4.2 沖裁件沖裁力的計算·································································20 4.3 沖裁件卸料力的計算·································································21 4.4 沖裁件推件力的計算·································································21 4.5 沖裁件頂件力的計算·································································22 4.6 沖裁件彎曲力的計算·································································22 4.7 沖裁件壓力中心的計算·······························································23 第5章 排樣計算··········································································25 第6章 模具結構設計····································································29 6.1 模具的總體結構介紹·································································29 6.2 主要零部件設計·······································································29 6.2.1 壓力機的選擇·······································································29 6.2.2 模架的選擇·········································································31 6.2.3 上、下模座的選擇·································································32 6.2.3.1 上模座的設計選擇·······························································33 6.2.3.2 下模座的設計選擇·······························································34 6.2.4 凹、凸模的設計選擇·······························································35 6.2.4.1 凸模設計選擇····································································35 6.2.4.2 凹模的設計選擇·································································36 6.2.5 模柄的設計與選擇·································································37 6.2.6 導柱和導套的選擇·································································38 6.2.7 卸料裝置的設計與選擇····························································39 6.2.8 頂料裝置的選擇與計算····························································41 6.2.9 擋料和導正裝置的設計與選擇····················································42 第7章 其他零部件的設計與選擇····················································43 7.1 卸料裝置中彈性元件的計算·························································43 7.1.1 卸料塊的設計·······································································43 7.1.2 彈性元件橡膠的設計與選擇·······················································43 7.2 卸料板的設計與選擇·································································46 7.3 墊板的設計與選擇····································································46 7.4 固定板的設計與選擇·································································49 7.5 導料銷的設計與選擇·································································50 7.6 卸料螺釘?shù)倪x擇·······································································50 7.7 定位零件的設計與選擇·······························································51 7.7.1 擋料銷的選用·······································································51 7.7.2 銷釘?shù)倪x取·········································································51 7.8 推桿的設計與選擇····································································53 7.9 打料板的設計與選擇··································································53 7.10 頂桿的設計與選擇···································································53 參考文獻·····················································································56 畢業(yè)實習報告···············································································57 附錄或后記··················································································62 附：英文翻譯···············································································63 英文原文···············································································69 設計項目 計算與說明 結果 第1章 前言 1.1沖壓的概念、特點及應用 沖壓是利用安裝在沖壓設備（主要是壓力機）上的模具對材料施加壓力，使其產(chǎn)生分離或塑性變形，從而獲得所需零件（俗稱沖壓或沖壓件）的一種壓力加工方法。沖壓通常是在常溫下對材料進行冷變形加工，且主要采用板料來加工成所需零件，所以也叫冷沖壓或板料沖壓。沖壓是材料壓力加工或塑性加工的主要方法之一，隸屬于材料成型工程術。 沖壓所使用的模具稱為沖壓模具，簡稱沖模。沖模是將材料（金屬或非金屬）批量加工成所需沖件的專用工具。沖模在沖壓中至關重要，沒有符合要求的沖模，批量沖壓生產(chǎn)就難以進行；沒有先進的沖模，先進的沖壓工藝就無法實現(xiàn)。沖壓工藝與模具、沖壓設備和沖壓材料構成沖壓加工的三要素，只有它們相互結合才能得出沖壓件。 與機械加工及塑性加工的其它方法相比，沖壓加工無論在技術方面還是經(jīng)濟方面都具有許多獨特的優(yōu)點。主要表現(xiàn)如下： （1）沖壓加工的生產(chǎn)效率高，且操作方便，易于實現(xiàn)機械化與自動化； （2）沖壓時由于模具保證了沖壓件的尺寸與形狀精度，且一般不破壞沖壓件的表面質量,而模具的壽命一般較長,所以沖壓的質量穩(wěn)定,互換性好等特征； （3）沖壓可加工出尺寸范圍較大、形狀較復雜的零件，如小到鐘表的秒表，大到汽車縱梁、覆蓋件等，加上沖壓時材料的冷變形硬化效應，沖壓的強度和剛度均較高； 設計項目 計算與說明 結果 （4）沖壓一般沒有切屑碎料生成，材料的消耗較少，且不需其它加熱設備，因而是一種省料，節(jié)能的加工方法，沖壓件的成本較低； 1.2 沖壓的基本工序及模具 由于沖壓加工的零件種類繁多，各類零件的形狀、尺寸和精度要求又各不相同，因而生產(chǎn)中采用的沖壓工藝方法也是多種多樣的。概括起來，可分為分離工序和成形工序兩大類；分離工序是指使坯料沿一定的輪廓線分離而獲得一定形狀、尺寸和斷面質量的沖壓（俗稱沖裁件）的工序；成形工序是指使坯料在不破裂的條件下產(chǎn)生塑性變形而獲得一定形狀和尺寸的沖壓件的工序。按基本變形方式不同又可分為沖裁、彎曲、拉深和成形四種基本工序，每種基本工序還包含有多種單一工序。 在實際生產(chǎn)中，當沖壓件的生產(chǎn)批量較大、尺寸較少而公差要求較小時，若用分散的單一工序來沖壓是不經(jīng)濟甚至難于達到要求。這時在工藝上多采用集中的方案，即把兩種或兩種以上的單一工序集中在一副模具內完成，稱為組合的方法不同，又可將其分為復合、級進和復合-級進三種組合方式。 復合沖壓——在壓力機的一次工作行程中，在模具的同一工位上同時完成兩種或兩種以上不同單一工序的一種組合方法式。 級進沖壓——在壓力機上的一次工作行程中，按照一定的順序在同一模具的不同工位上完面兩種或兩種以上不同單一工序的一種組合方式。復合-級進——在一副沖模上包含復合和級進兩種方式的組合工序。 沖模的結構類型也很多。通常按工序性質可分為沖裁模、彎曲模、拉深模和成形模等；按工序的組合方式可分為單工序模、復合模和級進模等。