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1、12.外文翻譯 1. The mold designing and manufacturing The mold is the manufacturing industry important craft foundation, in our country, the mold manufacture belongs to the special purpose equipment manufacturing industry. China although very already starts to make the mold and the use mold, but long-te

2、rm has not formed the industry. Straight stabs 0 centuries 80s later periods, the Chinese mold industry only then drives into the development speedway. Recent years, not only the state-owned mold enterprise had the very big development, the three investments enterprise, the villages and towns (indiv

3、idual) the mold enterprises development also rapid quietly. Although the Chinese mold industrial development rapid, but compares with the demand, obviously falls short of demand, its main gap concentrates precisely to, large-scale, is complex, the long life mold domain. As a result of in aspect and

4、 so on mold precision, life, manufacture cycle and productivity, China and the international average horizontal and the developed country still had a bigger disparity, therefore, needed massively to import the mold every year . The Chinese mold industry must continue to sharpen the productivity, fr

5、om now on will have emphatically to the profession internal structure adjustment and the state-of-art enhancement. The structure adjustment aspect, mainly is the enterprise structure to the specialized adjustment, the product structure to center the upscale mold development, to the import and export

6、 structure improvement, center the upscale automobile cover mold forming analysis and the structure improvement, the multi-purpose compound mold and the compound processing and the laser technology in the mold design manufacture application, the high-speed cutting, the super finishing and polished t

7、he technology, the information direction develops . The recent years, the mold profession structure adjustment and the organizational reform step enlarges, mainly displayed in, large-scale, precise, was complex, the long life, center the upscale mold and the mold standard letter development speed i

8、s higher than the common mold product; The plastic mold and the compression casting mold proportion increases; Specialized mold factory quantity and its productivity increase; "The three investments" and the private enterprise develops rapidly; The joint stock system transformation step speeds up an

9、d so on. Distributes from the area looked, take Zhejiang Delta and Yangtze River delta as central southeast coastal area development quickly to mid-west area, south development quickly to north. At present develops quickest, the mold produces the most centralized province is Guangdong and Zhejiang,

10、places such as Jiangsu, Shanghai, Anhui and Shandong also has a bigger development in recent years. 1.模具設計與制造 模具是制造業(yè)的重要工藝基礎，在我國模具制造屬于專用設備制造業(yè)。中國雖然很早就開始制造模具和使用模具，但長期未形成產(chǎn)業(yè)。直到20世紀80年代后期，中國模具工業(yè)才駛?cè)氚l(fā)展的快車道。近年，不僅國有模具企業(yè)有了很大發(fā)展，三資企業(yè)、鄉(xiāng)鎮(zhèn)（個體）模具企業(yè)的發(fā)展也相當迅速。 雖然中國模具工業(yè)發(fā)展迅速，但與需求相比，顯然供不應求，其主要缺口集中于精密、大型、復雜、長壽命

11、模具領域。由于在模具精度、壽命、制造周期及生產(chǎn)能力等方面，中國與國際平均水平和發(fā)達國家仍有較大差距，因此，每年需要大量進口模具。 中國模具產(chǎn)業(yè)除了要繼續(xù)提高生產(chǎn)能力，今后更要著重于行業(yè)內(nèi)部結(jié)構(gòu)的調(diào)整和技術(shù)發(fā)展水平的提高。結(jié)構(gòu)調(diào)整方面，主要是企業(yè)結(jié)構(gòu)向?qū)I(yè)化調(diào)整，產(chǎn)品結(jié)構(gòu)向著中高檔模具發(fā)展，向進出口結(jié)構(gòu)的改進，中高檔汽車覆蓋件模具成形分析及結(jié)構(gòu)改進、多功能復合模具和復合加工及激光技術(shù)在模具設計制造上的應用、高速切削、超精加工及拋光技術(shù)、信息化方向發(fā)展。 近年，模具行業(yè)結(jié)構(gòu)調(diào)整和體制改革步伐加大，主要表現(xiàn)在，大型、精密、復雜、長壽命、中高檔模具及模具標準件發(fā)展速度高于一般模

12、具產(chǎn)品；塑料模和壓鑄模比例增大；專業(yè)模具廠數(shù)量及其生產(chǎn)能力增加；“三資”及私營企業(yè)發(fā)展迅速；股份制改造步伐加快等。從地區(qū)分布來看，以珠江三角洲和長江三角洲為中心的東南沿海地區(qū)發(fā)展快于中西部地區(qū)，南方的發(fā)展快于北方。目前發(fā)展最快、模具生產(chǎn)最為集中的省份是廣東和浙江，江蘇、上海、安徽和山東等地近幾年也有較大發(fā)展。 2. Mold Present Status of Technology Technical level of China’s mold industry currently uneven, with wide disparities generally speaking, wi

13、th the developed industrial countries, Hong Kong and Taiwan advanced level, there is a large gap. The use of CAD / CAM / CAE / CAPP and other technical design and manufacture molds, either wide application, or technical level, there is a big gap between both. In the application of CAD technology

14、design molds, only about 10% of the mold used in the design of CAD, aside from drawing board still has a long way to go; in the application of CAE design and analysis of mold calculation, it was just started, most of the game is still in trial stages and animation; in the application of CAM technolo

15、gy manufacturing molds, first, the lack of advanced manufacturing equipment, and second, the existing process equipment (including the last 10 years the introduction of advanced equipment) or computer standard (IBM PC and compatibles, HP workstations, etc.) different, or because of differences in by

16、tes, processing speed differences, differences in resistance to electromagnetic interference, networking is low, only about 5% of the mold manufacturing equipment of recent work in this task; in the application process planning CAPP technology, basically a blank state, based on the need for a lot of

17、 standardization work; in the mold common technology, such as mold rapid prototyping technology, polishing, electroforming technologies, surface treatment technology aspects of CAD / CAM technology in China has just started. Computer-aided technology, software development, is still at low level, th

18、e accumulation of knowledge and experience required. Most of our mold factory, mold processing equipment shop old, long in the length of civilian service, accuracy, low efficiency, still use the ordinary forging, turning, milling, planning, drilling, grinding and processing equipment, mold, heat tr

19、eatment is still in use salt bath, box-type furnace, operating with the experience of workers, poorly equipped, high energy consumption. Renewal of equipment is slow, technological innovation; technological progress is not much intensity. Although in recent years introduced many advanced mold proc

20、essing equipment, but are too scattered, or not complete, only about 25% utilization, equipment, some of the advanced functions are not given full play. 2.我國模具的結(jié)構(gòu)現(xiàn)狀 工業(yè)目前技術(shù)水平參差不齊，懸殊較大。從總體上來講，與發(fā)達工業(yè)國家及港臺地區(qū)先進水平相比，還有較大的差距。 在采用CAD/CAM/CAE/CAPP等技術(shù)設計與制造模具方面，無論是應用的廣泛性，還是技術(shù)水平上都存在很大的差距。在應用CAD技術(shù)設計模具方面，僅有約

21、10%的模具在設計中采用了CAD，距拋開繪圖板還有漫長的一段路要走；在應用CAE進行模具方案設計和分析計算方面，也才剛剛起步，大多還處于試用和動畫游戲階段；在應用CAM技術(shù)制造模具方面，一是缺乏先進適用的制造裝備，二是現(xiàn)有的工藝設備（包括近10多年來引進的先進設備）或因計算機制式（IBM微機及其兼容機、HP工作站等）不同，或因字節(jié)差異、運算速度差異、抗電磁干擾能力差異等，聯(lián)網(wǎng)率較低，只有5%左右的模具制造設備近年來才開展這項工作；在應用CAPP技術(shù)進行工藝規(guī)劃方面，基本上處于空白狀態(tài)，需要進行大量的標準化基礎工作；在模具共性工藝技術(shù)，如模具快速成型技術(shù)、拋光技術(shù)、電鑄成型技術(shù)、表面處理技術(shù)等方

22、面的CAD/CAM技術(shù)應用在我國才剛起步。計算機輔助技術(shù)的軟件開發(fā)，尚處于較低水平，需要知識和經(jīng)驗的積累。我國大部分模具廠、車間的模具加工設備陳舊，在役期長、精度差、效率低，至今仍在使用普通的鍛、車、銑、刨、鉆、磨設備加工模具，熱處理加工仍在使用鹽浴、箱式爐，操作憑工人的經(jīng)驗，設備簡陋，能耗高。設備更新速度緩慢，技術(shù)改造，技術(shù)進步力度不大。雖然近年來也引進了不少先進的模具加工設備，但過于分散，或不配套，利用率一般僅有25%左右，設備的一些先進功能也未能得到充分發(fā)揮。 3. Die trend (1) Mold software features integrated Die soft

23、ware features of integrated software modules required relatively complete, while the function module using the same data model, in order to achieve Syndicated news management and sharing of information to support the mold design, manufacture, assembly, inspection, testing and production management o

24、f the entire process to achieve optimal benefits. Series such as the UK Delcams software will include a surface / solid geometric modeling, engineering drawing complex geometry, advanced rendering industrial design, plastic mold design expert system, complex physical CAM, artistic design and sculpt

25、ure automatic programming system, reverse engineering and complex systems physical line measurement systems. A higher degree of integration of the software includes: Pro / ENGINEER, UG and CATIA, etc.. Shanghai Jiao tong University, China with finite element analysis of metal plastic forming syste

26、ms and Die CAD / CAM systems; Beijing Bei hang Haier Software Ltd. CAXA Series software; Jilin Gold Grid Engineering Research Center of the stamping die mold CAD / CAE / CAM systems. (2) Mold design, analysis and manufacture of three-dimensional Two-dimensional mold of traditional structural desi

27、gn can no longer meet modern technical requirements of production and integration. Mold design, analysis, manufacturing three-dimensional technology, paperless software required to mold a new generation of three-dimensional, intuitive sense to design the mold, using three-dimensional digital model

28、can be easily used in the product structure of CAE analysis, tooling manufacturability evaluation and CNC machining, forming process simulation and information management and sharing. Such as Pro / E, UG and CATIA software such as with parametric, feature-based, all relevant characteristics, so tha

29、t mold concurrent engineering possible. In addition, Cimarron company Mold expert, Delcams Ps-mold and Hitachi Shipbuilding of Space-E/mold are professional injection mold 3D design software, interactive 3D cavity, core design, mold base design configuration and typical structure . Australian comp

30、any Mold flow realistic three-dimensional flow simulation software MoldflowAdvisers been widely praised by users and applications. China Huazhong University of Science has developed similar software HSC3D4.5F and Zhengzhou University, Z-mold software. For manufacturing, knowledge-based intelligent

31、 software function is a measure of die important sign of advanced and practical one. Such as injection molding experts Cimarron’s software can automatically generate parting direction based parting line and parting surface, generate products corresponding to the core and cavity, implementation of a

32、ll relevant parts mold, and for automatically generated BOM Form NC drilling process, and can intelligently process parameter setting, calibration and other processing results. (3) Mold software applications, networking trend With the mold in the enterprise competition, cooperation, production

33、and management, globalization, internationalization, and the rapid development of computer hardware and software technology, the Internet has made in the mold industry, virtual design, and agile manufacturing technology both necessary and possible. 3.模具的發(fā)展趨勢 （1）模具軟件功能集成化 模具軟件功能的集成化要求軟件的功

34、能模塊比較齊全，同時各功能模塊采用同一數(shù)據(jù)模型，以實現(xiàn)信息的綜合管理與共享，從而支持模具設計、制造、裝配、檢驗、測試及生產(chǎn)管理的全過程，達到實現(xiàn)最佳效益的目的。如英國Delcam公司的系列化軟件就包括了曲面/實體幾何造型、復雜形體工程制圖、工業(yè)設計高級渲染、塑料模設計專家系統(tǒng)、復雜形體CAM、藝術(shù)造型及雕刻自動編程系統(tǒng)、逆向工程系統(tǒng)及復雜形體在線測量系統(tǒng)等。集成化程度較高的軟件還包括：Pro/ENGINEER、UG和CATIA等。國內(nèi)有上海交通大學金屬塑性成型有限元分析系統(tǒng)和沖裁模CAD/CAM系統(tǒng)；北京北航海爾軟件有限公司的CAXA系列軟件；吉林金網(wǎng)格模具工程研究中心的沖壓模CAD/CAE/

35、CAM系統(tǒng)等。 （2）模具設計、分析及制造的三維化 傳統(tǒng)的二維模具結(jié)構(gòu)設計已越來越不適應現(xiàn)代化生產(chǎn)和集成化技術(shù)要求。模具設計、分析、制造的三維化、無紙化要求新一代模具軟件以立體的、直觀的感覺來設計模具，所采用的三維數(shù)字化模型能方便地用于產(chǎn)品結(jié)構(gòu)的CAE分析、模具可制造性評價和數(shù)控加工、成形過程模擬及信息的管理與共享。如Pro/ENGINEER、UG和CATIA等軟件具備參數(shù)化、基于特征、全相關(guān)等特點，從而使模具并行工程成為可能。另外，Cimatran公司的Moldexpert，Delcam公司的Ps-mold及日立造船的Space-E/mold均是3D專業(yè)注塑模設計軟件，可

36、進行交互式3D型腔、型芯設計、模架配置及典型結(jié)構(gòu)設計。澳大利亞Moldflow公司的三維真實感流動模擬軟件MoldflowAdvisers已經(jīng)受到用戶廣泛的好評和應用。國內(nèi)有華中理工大學研制的同類軟件HSC3D4.5F及鄭州工業(yè)大學的Z-mold軟件。面向制造、基于知識的智能化功能是衡量模具軟件先進性和實用性的重要標志之一。如Cimatron公司的注塑模專家軟件能根據(jù)脫模方向自動產(chǎn)生分型線和分型面，生成與制品相對應的型芯和型腔，實現(xiàn)模架零件的全相關(guān)，自動產(chǎn)生材料明細表和供NC加工的鉆孔表格，并能進行智能化加工參數(shù)設定、加工結(jié)果校驗等。 （3）模具軟件應用的網(wǎng)絡化趨勢 隨著模

37、具在企業(yè)競爭、合作、生產(chǎn)和管理等方面的全球化、國際化，以及計算機軟硬件技術(shù)的迅速發(fā)展，網(wǎng)絡使得在模具行業(yè)應用虛擬設計、敏捷制造技術(shù)既有必要，也有可能。 4. Heat Treatment of Die Traditional die and mould design, mainly by experience or semi—experience，is isolated from manufacturing process. Before the design is finalized，the scheme of die and mould is usually modified time

38、 and again，thus some disadvantages come into being, such as long development period, high cost and uncertain practical effect. Due to strong desires for precision, service life, development period and cost, modern die and mould should be designed and manufactured perfectly. Therefore more and more a

39、dvanced technologies and innovations have been applied, for example, concurrent engineering, agile manufacturing virtual manufacturing, collaborative design, etc. Heat treatment of die and mould is as important as design, manufacture and assembly because it has a vital effect on manufacture，assembl

40、y and service life．Design and manufacture of die and mould have progressed rapidly，but heat treatment lagged seriously behind them．As die and mould industry develops，heat treatment must ensure die and mould there are good state of manufacture，assembly and wear—resistant properties by request. Impert

41、inent heat treatment can influence die and mould manufacturing such as over—hard and—soft and assembly．Traditionally the heat treatment process was made out according to the methods and properties brought forward by designer．This could make the designers of die and mould and heat treatment diverge f

42、rom each other，for the designers of die and mould could not fully realize heat treatment process and materials properties，and contrarily the designers rarely understood the service environment and designing thought. These divergences will impact the progress of die and mould to a great extent. Accor

43、dingly，if the process design of heat treatment is considered in the early designing stage，the aims of shortening development period，reducing cost and stabilizing quality will be achieved and the sublimation of development pattern from serial to concurrent will be realized． Concurrent engineering ta

44、kes computer integration system as a carrier, at the very start subsequent each stage and factors have been considered such as manufacturing，heat treating，properties and so forth in order to avoid the error．The concurrent pattern has dismissed the defect of serial pattern, which bring about a revolu

45、tion against serial pattern． In the present work．the heat treatment was integrated into the concurrent circumstance of the die and mould development，and the systemic and profound research was performed． 4.模具的熱處理 模具設計主要是依照自身實踐經(jīng)驗或依照部分實踐經(jīng)驗，而不是制造工藝。在設計完成之前，模具方案通常要被一次又一次的改進，于是有些缺點便出現(xiàn)，例如開發(fā)時期長，成本高和實際效果不

46、明顯。由于對精確性、使用壽命、開發(fā)期和費用的嚴格要求，先進的模具要求設計和制造得十分完善。因此越來越先進的技術(shù)和創(chuàng)新方法被應用其中，例如并行工程、敏捷制造業(yè)、虛擬制造業(yè)、協(xié)同合作設計等。 模具的熱處理與模具設計，制造和裝配同樣重要。因為它對模具的制造裝配和使用壽命又及其重要的影響。模具設計與制造發(fā)展十分迅速，但是熱處理發(fā)展卻嚴重滯后它們。隨著模具工業(yè)的發(fā)展，熱處理必須保證模具有良好的制造裝配和磨損耐熱性能。不切實際的熱處理將導致模具材料過硬或過軟，同時影響模具裝配性能。傳統(tǒng)的熱處理工藝是按照設計師提出的方法和特性制作出來的。這樣會使模具設計師和熱處理工藝師意見產(chǎn)生分歧，而模具設計師卻不能充分

47、地了解熱處理工藝和材料的性能，相反熱處理工藝師卻很少了解模具的使用環(huán)境和設計思路。這些分歧將在很大程度上影響模具的發(fā)展。因此，如果把熱處理工藝設計放在設計階段之前，則縮短開發(fā)周期，減少花費和保證質(zhì)量等目標將會被考慮，而且從串行到并行的發(fā)展模式也將會實現(xiàn)。 并行工程是以計算機集成系統(tǒng)作為載體，在開始以后，每個階段和因素都被看作如制造、熱處理、性能等等，以避免出現(xiàn)錯誤。并行模式已經(jīng)摒除了串行模式的缺陷，由此帶來了一場對串行模式的革命。 在當前的工作中，熱處理被集成到了模具開發(fā)的并行環(huán)境中，同時也正在進行這種系統(tǒng)性和深入性的研究。 總結(jié)5. Summary 進入21世紀，在經(jīng)濟全球化的新形勢

48、下，隨著資本、技術(shù)和勞動力市場的重新整合，我國裝備制造業(yè)在加入WTO以后，將成為世界裝The 21st century, in the new situation of economic globalization, with capital, technology and labor market re-integration of equipment manufacturing in China after joining the WTO will become the worlds equipment manufacturing base. 而在現(xiàn)代制造業(yè)中，無論哪一行業(yè)的工程裝備，都越

49、來越多地采用由模具工業(yè)提供的產(chǎn)品。 In the modern manufacturing industry, no matter which industry, engineering equipment, are increasingly used to provide the products from the mold industry. 為了適應用戶對模具制造的高精度、短交貨期、低成本的迫切要求，模具工業(yè)正廣泛應用現(xiàn)代先進制造技術(shù)來加速模具工業(yè)的技術(shù)進步，滿足各行各業(yè)對模具這一基礎工藝裝備的迫切需求。 In order to meet the users high-precision

50、 mold manufacturing, short delivery time, the urgent demand low-cost, mold industry is extensive application of modern advanced manufacturing technology to speed up the mold industry, technological progress, to meet the basic sectors of the mold process equipment urgent needs. 5.總結(jié) 總結(jié)進入21世紀，在經(jīng)濟全球化

51、的新形勢下，隨著資本、技術(shù)和勞動力市場的重新整合，我國裝備制造業(yè)在加入WTO以后，將成為世界裝備制造業(yè)的基地。而在現(xiàn)代制造業(yè)中，無論哪一行業(yè)的工程裝備，都越來越多地采用由模具工業(yè)提供的產(chǎn)品。為了適應用戶對模具制造的高精度、短交貨期、低成本的迫切要求，模具工業(yè)正廣泛應用現(xiàn)代先進制造技術(shù)來加速模具工業(yè)的技術(shù)進步，滿足各行各業(yè)對模具這一基礎工藝裝備的迫切需求。 X 13.參考書目 參考文獻 [1]《模具設計與制造》黨根茂 駱志斌 李集仁編，西安電子科技大學出版社 [2]《沖壓工藝與模具設計》張如華主編，清華大學出版 [3]《沖壓工藝與模具設計》王信友主編，清華大學

52、出版 [4]《模具設計與制造簡明手冊》馮炳堯等編，上?？茖W技術(shù)出版社 [5]《實用模具技術(shù)手冊》鄧石城 王旭編，上海科學技術(shù)出版社 [6]《沖模設計手冊》張鼎承主編，機械工業(yè)出版社 [7]《互換性與技術(shù)測量》廖念釗主編，機械工業(yè)出版社 [8]《冷沖模設計手冊》編寫組，機械工業(yè)出版社 [9]《沖壓加工設備與自動化》王平主編，華中科技大學出版社 [10]《冷沖模具設計精要》周本凱編寫 [11]《模具專業(yè)英語》機械工業(yè)出版社 14.謝辭 致謝詞 本文主要闡述了沖壓工藝及模具，讓我對沖壓模具產(chǎn)生了濃厚的興趣，同時，受我專業(yè)的影響，我

53、已經(jīng)習慣于關(guān)注帶來的一系列機遇與挑戰(zhàn)。 本篇設計雖然凝聚著自己的汗水，但卻不是個人智慧的產(chǎn)品，沒有老師的指引和贈予，沒有父母和朋友的幫助和支持，我在大學的學術(shù)成長肯定會大打折扣。當我打完畢業(yè)論文的最后一個字符，涌上心頭的不是長途跋涉后抵達終點的欣喜，而是源自心底的誠摯謝意。我首先要感謝我的老師盧振華，對我的構(gòu)思以及設計的內(nèi)容不厭其煩的進行多次指導和悉心指點，使我在完成論文的同時也深受啟發(fā)和教育。 再次由衷感謝答辯組的各位老師對學生的指導和教誨，我也在努力的積蓄著力量，盡自己的微薄之力回報母校的培育之情，爭取使自己的人生對社會產(chǎn)生些許積極的價值！

54、 15.附頁 凹模加工工藝過程 材料：Gr12硬度：58～62HRC 零件工藝過程卡 模具名稱 止動片級進模 零件編號 1 零件名稱 凹模 零件件數(shù) 1 工序號 工序名稱 工序內(nèi)容 設備 1 備料 鍛件（退火狀態(tài)）17514535㎜ 2 粗銑 銑六面到尺寸17214232，注意兩大平面與相鄰鄰側(cè)面用標準角尺測量達基本垂直 線割機 3 平面磨 磨光兩大平面厚度達31㎜，并磨兩相鄰側(cè)面達四面垂直。垂直度0.02㎜/100㎜ 4 鉗 ①劃線 劃出各孔徑中心線并劃出凹模洞口輪廓尺寸 ②鉆

55、孔 鉆螺紋底孔，銷釘?shù)卓?，凹模洞口穿線孔 ③鉸孔 鉸銷釘孔到要求 ④攻絲 攻螺紋絲到要求 5 熱處理 淬火 使硬度達58-62HRC 6 平面磨 磨光兩大平面，使厚度達30.5㎜ 鏜床 7 線切割 割凹模洞口，并留0.01~0.02㎜研余量 8 鉗 ①研磨洞口內(nèi)壁側(cè)面達0.8um ②配推件塊到要求 9 平磨 磨凹模板上平面厚度達要求 10 鉗 總裝配 沖孔凸模加工工藝過程 材料：Cr12硬度：52～60HRC 零件工藝過程卡 模具名稱 止動片級進模 零件編號 2 零件名

56、稱 沖孔凸模 零件件數(shù) 2 序號 工序名稱 工序內(nèi)容 1 備料 鍛件（退火狀態(tài)）：Φ1570㎜ 線割機 2 熱處理 退火，硬度達到52～60HRC 3 車 ① 一端面，打頂尖孔。車外圓至Φ12㎜；掉頭車另一端面，長度至尺寸66㎜；打孔尖孔。 ②雙頂尖頂，車外圓尺寸Φ12㎜圓，達到Φ11㎜至要求， 4 熱處理 淬火，硬度至52～60H RC。 鏜床 5 磨削 磨削外圓尺寸Φ11㎜，Φ10㎜至要求 6 線切削 切除工作端面頂尖孔，長度尺寸至65㎜要求 7 磨削 磨削端面至Ra0.8um 8 鉗 總裝配

57、 落料凸模加工工藝過程 材料：Gr12硬度：52～60HRC 零件工藝過程卡 模具名稱 止動片級進模 零件編號 2 零件名稱 落料凸模 零件件數(shù) 1 工序號 工序名稱 工序內(nèi)容 設備 1 備料 鍛件（退火狀態(tài)）：753570㎜ 2 粗銑 銑六面見光 線割機 3 平磨 磨高度兩平面到尺寸68㎜ 4 鉗 ①劃線 在長度方一側(cè)線切割夾位6㎜后，劃凸模輪廓線并劃凸模中線。 ②按凸模洞口中心鉆線切割穿絲孔、正方形。 5 熱處理 淬火 硬度達52～60HRC 6

58、平磨 磨高度到65.5㎜ 鏜床 7 線切割 割凸模及兩凹模，并單邊留0.01～0.02研磨余量 8 鉗 ①研配 研凸模并配入凸模固定板 ②研 各側(cè)壁到0.8um 9 平磨 磨高度到要求 10 鉗 總裝配 凸模固定板加工工藝過程 材料：Q275硬度：43～48HRC 零件工藝過程卡 模具名稱 止動片級進模 零件編號 3 零件名稱 凸模固定板 零件件數(shù) 1 工序號 工序名稱 工序內(nèi)容 設備 1 備料 下料17514525㎜ 2 熱處理 調(diào)質(zhì) 硬度43～48H

59、RC 線割機 3 粗銑 銑六面達17214222mm，并使兩大平面和相鄰兩側(cè)面相互基本垂直 4 平磨 磨光兩大平面厚度達20.5㎜，并磨兩相鄰側(cè)面使四面垂直，垂直度0.02㎜/100㎜ 5 鉗 ①劃線 凸模固定孔中心線，銷釘孔中心線，螺紋過中心線，銷釘過孔中心線 ②鉆孔 凸模固定孔穿絲線，螺紋過孔和銷釘過孔到要求 6 線切割 割凸模安裝固定孔單邊留0.01～0.02㎜研余量 鏜床 7 銑 銑凸模固定孔背面沉孔到要求 8 鉗 研配凸模板 9 平磨 磨模厚度到要求 10 鉗 總裝配 卸料

60、板加工工藝過程 材料：Q275硬度：43～48HRC 零件工藝過程卡 模具名稱 止動片級進模 零件編號 4 零件名稱 卸料板 零件件數(shù) 1 工序號 工序名稱 工序內(nèi)容 設備 1 備料 下料17514525㎜ 2 熱處理 調(diào)質(zhì) 硬度43～48HRC 線割機 3 粗銑 銑六面17214222㎜，并使兩大平面和相鄰兩側(cè)面基本垂直 4 平磨 磨光兩大平面，厚度達20㎜，并磨兩相鄰側(cè)面使四面垂直，垂直度0.02㎜/100㎜ 5 鉗 ①劃線 螺紋孔中心線，守位孔中心線及中間型孔輪廓線 ②鉆孔 螺紋底孔，定位釘?shù)?/p>

61、孔型孔穿線孔 ③鉸絲，攻絲 鉸定位釘孔到要求，螺紋孔攻絲到要求 6 線切割 割型孔到要求 鏜床 7 鉗 ①型孔與凸模裝配 ②定位釘與定位釘裝配 ③螺紋孔與螺釘裝配 8 平磨 磨厚度到要求 9 鉗 總裝配 凸模墊板加工工藝過程 材料：45鋼硬度：43～48HRC 零件工藝過程卡 模具名稱 墊片級進模 零件編號 5 零件名稱 上墊板 零件件數(shù) 1 工序號 工序名稱 工序內(nèi)容 設備 1 備料 鍛件：17514510㎜ 2 粗銑 銑六面達1721427㎜，并使兩大

62、平面和相鄰兩側(cè)基本垂直 線割機 3 平磨 磨光兩大平面，厚度達6.5㎜，并磨兩相鄰側(cè)面使四面垂直，垂直度0.02㎜/100㎜ 4 鉗 ①劃線 螺紋過孔中心線，銷釘過孔中心線 ②鉆孔 鉆螺紋過孔，銷釘過孔到要求 5 熱處理 淬火 硬度：43～48HRC 6 平磨 磨兩大平面厚度達要求 鏜床 7 鉗 總裝配 凹模墊板加工工藝過程 材料：45鋼硬度：54～58HRC 零件工藝過程卡 模具名稱 墊片級進模 零件編號 6 零件名稱 下墊板 零件件數(shù)

63、1 工序號 工序名稱 工序內(nèi)容 設備 1 備料 鍛件：17514510㎜ 2 粗銑 銑六面達1721427㎜，并使兩大平面和相鄰兩側(cè)基本垂直 線割機 3 平磨 磨光兩大平面，厚度達6.5㎜，并磨兩相鄰側(cè)面使四面垂直，垂直度0.02㎜/100㎜ 4 鉗 ①劃線 緊固螺釘過孔中心線，卸料螺釘過孔空中心線，銷釘孔中心線，落廢料孔中心線，凸凹模緊固螺釘過孔中心線 ②鉆孔 鉆上述各孔到要求 5 熱處理 淬火 硬度：43～48HRC 6 平磨 磨兩大平面厚度達要求 鏜床 7 鉗 總裝配

64、 導料板加工工藝過程 材料：Q275硬度：54～58HRC 零件工藝過程卡 模具名稱 墊片級進模 零件編號 7 零件名稱 導料板 零件件數(shù) 2 工序號 工序名稱 工序內(nèi)容 設備 1 備料 鍛件（退火狀態(tài)）1455510㎜ 2 粗銑 銑六面達142527㎜，并使兩大平面和相鄰兩側(cè)基本垂直 線割機 3 平磨 磨光兩大平面，厚度達6.5㎜，并磨兩相鄰側(cè)面使四面垂直，垂直度0.02㎜/100㎜ 4 鉗 ①劃線 緊固螺釘過孔中心線，卸料螺釘過孔空中心線，銷釘孔中心線，落廢料孔中心線，凸凹模緊固螺釘過孔中心線 ②鉆孔 鉆上述各孔到要求 5 熱處理 淬火 硬度：43～48HRC 6 平磨 磨兩大平面厚度達要求 鏜床 7 鉗 總裝配 46