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General all-steel punching dies punching accuracy Author:John J. Craig Accuracy of panel punching part is display the press accuracy of the die exactly. But the accuracy of any punching parts linear dimension and positional accuracy almost depend on the blanking and blanking accuracy,. So that the compound mould of compound punchings accuracy, is typicalness and representation in the majority.Analyse of the dies accuracy For the analyse of pracyicable inaccuracy during production of dies to inactivation, we could get the tendency when it is augmentation in most time. From this we could analyse the elements. When the new punch dies pt into production to the first cutter grinding, the inaccuracy produced called initial error; if the die grinding more than twenty times, until its discard, the inaccuracy called conventional error; and before the dies discard, the largest error of the last batch permit, called limiting error. at job site, the evidence to confirm life of sharpening is the higher of the blanking, punched hole or punched parts. Because all finished parts had been blanked ,so it is especially for the compound dies. Therefore, the analyse of burr and measurement is especially important when do them as enterprise standardization or checked with . The initial error usually is the minimal through the whole life of die. Its magnitude depend on the accuracy of manufacture, quality, measure of the punching part, thickness of panel, magnitude of gap and degree of homogeneity. The accuracy of manufacture depend on the manufacture process. For the 1 mm thicked compound punching part made in medium steel, the experimental result and productive practice all prove that the burr of dies which produced by spark cutting are higher 25%30% than produced by grinder ,NC or CNC. The reason is that not only the latter have more exact machining accuracy but also the value of roughness Ra is less one order than the formmer, it can be reached 0.025m. Therefore, the dies initial blanked accuracy depends on the accuracy of manufacture, quality and so on. The normal error of the punch die is the practicable error when the fist cutter grinding and the last cutter grinding before the die produce the last qualified product. As the increase of cutter grinding, caused the measure the nature wear of the dies are gradual increasing, the error of punching part increase also, so the parts are blew proof. And the die will be unused. The hole on the part and inner because the measure of wear will be small and small gradually, and its outside form will be lager in the same reason. Therefore, the hole and inner form in the part will be made mould according to one-way positive deviation or nearly equal to the limit max measure. In like manner, the punching parts appearance will be made mould according to one-way negative deviation or nearly equal to limit mini measure. For this will be broaden the normal error, and the cutter grinding times will be increased, the life will be long. The limit error in punching parts are the max dimension error which practicable allowed in the parts with limit error. This kind of parts usually are the last qualified products before the die discard. For the all classes of dies, if we analyse the fluctuate, tendency of increase and decrease and law which appeared in the dies whole life, we will find that the master of the error are changeless; the error that because the abrade of the cutter and impression will be as the cutter grinding times increased at the same time. And that will cause the error oversize gradually; and also have another part error are unconventional , unforeseen. Therefore, every die s error are composed of fixed error, system error, accident error and so on. At the whole process when the New punching die between just input production to discard, the changeless master error that in qualified part are called fixed error. Its magnitude is the deviation when the die production qualified products before the first cutter grinding. Also is the initial error, but the die have initial punching accuracy at this time. Because of the abrade of parts, the die after grinding will be change the dimension error. And the increment of deviation will oversize as the times of cutter grinding. So the punching accuracy after cutter grinding also called “grinding accuracy” and lower tan initial accuracy. The fixed error depend on the elements factor as followed :1. the material , sorts, structure, (form) dimension, and thick of panel the magnitude of punching gap and degree of homogeneity are have a important effect for the dimension accuracy. Different punching process, material, thick of panel, have completely different gap and punching accuracy. A gear H62 which made in yellow brass with the same mode number m=0.34, 2mm thick and had a center hole, when the gap get C=0.5%t (single edge) , and punched with compound punching die, and the dimension accuracy reached IT7, the part have a flat surface ,the verticality of tangent plane reached 89.5, its roughness Ra magnitude are 12.5m, height of burr are 0.10mm; and the punching part are punched with progressive die, the gap C=7%t (single edge) , initial accuracy are IT11, and have an more rough surface, even can see the gap with eyes. In the usual situation, flushes a material and its thickness t is theselection punching gap main basis. Once the designation gap haddetermined flushes the plane size the fixed error main body; Flushesthe structure rigidity and the three-dimensional shape affects itsshape position precision.2. punching craft and molder structure type Uses the different ramming craft, flushes a precision and the fixederror difference is really big. Except that the above piece gearexample showed, the essence flushes the craft and ordinary punching flushes a precision and the fixed error differs outside a magnitude,even if in ordinary punching center, uses the different gap punching, thefixed error difference very is also big. For example material thickt=1.5mm H62 brass punching, selects C = the 40%t unilateral I kind ofsmall gap punching compared to select C 4mm flushes, the size precision can lower some. Different dies structure type, because is suitable the rammingmaterial to be thick and the manufacture precision difference, causesto flush a fixed error to have leaves. Compound die center, multi-locations continuous type compound die because flushes continuously toduplicate the localization to add on the pattern making error to bebigger, therefore it flushes a fixed error compound punching die to wantcompared to the single location Big 1 2 levels 3. the craft of punching dies manufacture the main work of punching die namely are raised, the concave moldprocessing procedure, to operates on the specification not to behigh, can time form a more complex cavity. But its processing surfaceapproximately is thick 0.03 0.05mm is the high temperatureablation remaining furcated austenite organization, degree ofhardness may reach as high as HRC67 70, has the micro crack, easilywhen punching appears broke the cutter or flaking. The Italian CorradaCorporations related memoir called the line cut the processing contruction to have the disadvantageous influence to the superficialgold, in fact already changed the gold contruction. We must use theJingang stone powder to grind or the numerical control continual pathcoordinates rub truncate (cut to line) to make the precision work . In recent years country and so on Switzerland and Japan, has conductedthe thorough research to the electrical finishing equipment and abigger improvement, makes function complete high accuracy NC and theCNC line cutter, the processing precision may reach 0.005 0.001mm,even is smaller. The processing surface roughness Ra value can achieve0.4 mu m. According to the recent years to the domestic 12 productionlines cutter factory investigation and study, the domesticallyproduced line cutter processing precision different factory differentmodel line cutter might reach 0.008 0.005mm, generally all in0.01mm or bigger somewhat, was individual also can achieve0.005mm, the processing surface roughness Ra value was bigger than1.6m. However, the electrical finishing ablation metal surface thus the change and the damage machined surface mental structure character can not change, only if with rubs truncates or other ways removes this harmful level. Therefore, merely uses electricity machining, including the spark cutting and the electricity perforation, achieves with difficulty punching, especially high accuracy, high life punching die to size precision and work components surface roughness Ra value request. With precisely rubs truncates the law manufacture punching die, specially makes the high accuracy, the high life punching die, such as: Thin material small gap compound punching die, multi- locations continuous type compound die and so on, has the size precision high, the work component smachined surface roughness Ra value is small, the mold life higher characteristic. Its processing craft at present changed the electrical fire by the past ordinary engine bed rough machining spark cutting or the electricity puncher rough machining, finally precisely rubs truncates, also from takes shape rubs, optics curve rubs, the manual grid reference rubs gradually filters the continual path grid reference to rub and NC and the CNC continual path grid reference rubs, Processing coarseness may reach 0.001 0.0005mm, the processing surface roughness Ra value may reach 0.1 0.025 mu m. Therefore, with this craft manufacture the die , regardless of the size precision, the work components surface roughness, all can satisfy die, each kind of compound request, the die is especially higher than the electrical finishing craft manufacture scale.4. gap size and degree of homogeneity the flange and other sheet forming sgene rally all must first punching (fall material) the plate to launch the semi finished materials, after also has the forming to fall the material, the incision obtains the single end product to flush. Therefore punching the work, including is commonly used punching hole, the margin, cut side and so on, regarding each kind of sheet pressing partall is necessary. Therefore punching the gap to flushes a out form in chprecision to have the decisive influence. punching the gap small and is even, may cause punching the size gain high accuracy. Regarding drawability, is curving and so on mould, the gap greatly will decide increases flushes the oral area size error and the snapping back. The gapnon-uniformity can cause to flush a burr enlarges and incurs cutting edge the non-uniform attrition. 5. ramming equipment elastic deformation In the ramming process After the punch press load bearing can have the certain elastic deformation. Although this kind of distortion quantity according to flushes the pressure the size to change also to have the obvious directivity, but on the pressing part, mainly is to has the volume ramming archery target stamping, embosses, the equalization, the pressure is raised, the wave, flushes crowds, the shape, the flange, hits flatly, thinly changes draw ability and so on the craft work punching forming flushes, has the significant influence to its ramming aspect size precision From: 黃河科技學(xué)院畢業(yè)設(shè)計(jì)(文獻(xiàn)翻譯) 第 4 頁(yè) 普通全鋼沖模的沖壓精度 作者:約翰J克雷格 板料沖壓件的精度準(zhǔn)確顯示出其沖模的沖壓精度。而任何沖件的線性尺寸精度與形位精度主要取決于沖模沖裁和立體成形沖壓件展開平毛坯的落料精度。因此,多工步復(fù)合沖壓的單工位復(fù)合模、多工位連續(xù)模的沖壓精度,在普通沖壓的眾多種類與不同結(jié)構(gòu)的沖模中,最具典型性和代表性。沖模的沖壓精度分析 對(duì)沖模投產(chǎn)至失效報(bào)廢各個(gè)時(shí)期沖件的實(shí)際誤差分析,可以看出其增大的時(shí)期及趨向,從而分析其增大的因素。新沖模投產(chǎn)至第一次刃磨前沖制沖件的誤差即所謂的初始誤差;沖模經(jīng)過20次左右刃磨至失效報(bào)廢前沖制的沖件誤差稱之為常規(guī)誤差;而沖模失效報(bào)廢前沖制的最后一批合格沖件的允許最大誤差稱之為極限誤差。在現(xiàn)場(chǎng),確定沖模刃磨壽命的依據(jù)是沖件沖孔與落料的毛刺高度。由于任何成形件都具有沖裁作業(yè)(毛坯落料或沖孔),對(duì)于復(fù)合模尤為如此。所以,沖件毛刺高度的觸模檢查和測(cè)量并按企業(yè)標(biāo)準(zhǔn)或JB4129-85沖壓件毛刺高度對(duì)照檢測(cè)就顯得十分重要。 沖模的初始誤差通常是沖模整個(gè)壽命中沖件誤差最小的。其大小主要取決于沖模的制造精度與質(zhì)量及沖件尺寸、料厚以及間隙值大小與均勻度。沖模的制造精度及質(zhì)量又取決于制模工藝。對(duì)于料厚t1mm的中碳鋼復(fù)合沖裁模沖件,實(shí)驗(yàn)結(jié)果與生產(chǎn)實(shí)踐都證明,電火花線切割制造的沖模沖件毛刺高度比用成型磨或NC與CNC連續(xù)軌跡座標(biāo)磨即精密磨削工藝制造的沖模沖件要高25%30%。這是因?yàn)楹笳卟粌H加工精度高,而且加工面粗糙度Ra值要比前者小一個(gè)數(shù)量級(jí),可達(dá)到0.025m。因此,沖模的制造精度與質(zhì)量等因素決定了沖模的初始沖壓精度,也造就了沖件的初始誤差。 沖件的常規(guī)誤差是沖模經(jīng)第一次刃磨到最后一次刃磨后沖出最后一個(gè)合格沖件為止,沖件實(shí)際具有的誤差。隨著刃磨次數(shù)的增加,刃口的自然磨損而造成的尺寸增量逐漸加大,沖件的誤差也隨之加大。當(dāng)其誤差超過極限偏差時(shí),沖件就不合格,沖模也就失效報(bào)廢。沖件上孔與內(nèi)形因凸模磨損尺寸會(huì)逐漸變??;其外形落料尺寸會(huì)因凹模磨損而逐漸增大。所以,沖件上孔與內(nèi)形按單向正偏差標(biāo)允差并依接近或幾乎等于極限最大尺寸制模。同理,沖件外形落料按單向負(fù)偏差標(biāo)注允差并依接近或幾乎等于極限最小尺寸制模。這樣就使沖件的常規(guī)誤差范圍擴(kuò)大,沖模可刃磨次數(shù)增加,模具壽命提高。 沖件的極限誤差是具有極限偏差的沖件所具有的實(shí)際允許的最大尺寸誤差。這類沖件通常是在沖模失效報(bào)廢前沖制的最后一批合格沖件。 對(duì)各類沖模沖件誤差在沖模整個(gè)壽命中出現(xiàn)的波動(dòng)、增減趨向及規(guī)律等進(jìn)行全面分析便可發(fā)現(xiàn):沖件誤差的主導(dǎo)部分是不變的;因刃口或型腔的自然磨損而出現(xiàn)的誤差增量隨沖模刃磨沖數(shù)增加而使這部分誤差逐漸加大;還有部分誤差的增量是非常規(guī)的、不可預(yù)見的。所以,各類沖模沖件誤差是由因定誤差、漸增誤差、系統(tǒng)誤差及偶發(fā)誤差等幾部分綜合構(gòu)成。 新沖模在指定的沖壓設(shè)備上投入使用至失效報(bào)廢的整個(gè)(總)壽命過程中,其合格沖件誤差的主導(dǎo)部分固定不變即所謂固定誤差。其大小就是新沖模第一次刃磨前沖制的合格沖件的偏差,也即沖模的初始誤差,而此時(shí)的沖模具有初始沖壓精度。刃磨后的沖模,因其工作零件(凸、凹模)磨損而改變尺寸誤差,使沖件識(shí)差增量隨刃磨次數(shù)增加而逐漸加大,故沖模刃磨后的沖壓精度亦稱“刃磨精度”比其初始精度要低。沖模沖件的固定誤差取決于以下各要素:1、沖件的材料種類、結(jié)構(gòu)(形狀)尺寸及料厚 沖裁間隙的大小及其均勻度對(duì)沖裁件的尺寸精度有決定性的影響。不同沖裁工藝、不同材料種類與不等料厚,間隙相差懸殊,沖壓精度差異很大。同一種模數(shù)m=0.34的2mm的料厚、中心有孔的H62黃銅材料片齒輪復(fù)合模沖件,當(dāng)取間隙C=0.5%t(單邊),用復(fù)合精沖模沖制,沖件尺寸精度達(dá)到IT7級(jí),沖件平直無(wú)拱彎,沖切面垂直度可達(dá)89.5,其表面粗糙Ra值為0.2m;而用普通復(fù)合模沖制,間隙C=5%t(單邊),沖件初始誤差亦即沖模的初始沖壓精度為1T9級(jí),沖切面粗糙度Ra值為12.5m,毛刺高度為0.10mm;還是這個(gè)沖件用連續(xù)模沖制,間隙C=7%t(單邊),初始沖件精度為IT11級(jí),沖切面更粗糙,甚至有肉眼可見的臺(tái)階。通常情況下,沖件材料及其厚度t是選取沖裁間隙的主要依據(jù)。一旦選定間隙就確定了沖件的平面尺寸的固定誤差的主體;沖件結(jié)構(gòu)剛度及立體形狀則影響其形位精度。2、沖壓工藝及沖模結(jié)構(gòu)類型 采用不同的沖壓工藝,沖件的精度及固定誤差相差甚大。除上述片齒輪實(shí)例說明,精沖工藝與普通沖裁的沖件精度與固定誤差相差一個(gè)數(shù)量級(jí)之外,即便在普通沖裁中,采用不同間隙沖裁,固定誤差相差也很大。例如料厚t=1.5mm的H62黃銅沖裁件,選用C40%t單邊類小間隙沖裁比選用C8%t(單邊)類大間隙沖裁,沖件固定誤差將加大40%60%,精度至少降一級(jí)。此外,采有無(wú)搭邊排樣,沖件的誤差要遠(yuǎn)大于有搭邊排樣沖件。無(wú)搭邊排樣沖件。無(wú)搭邊排樣沖件的精度低于IT12級(jí),而多數(shù)有搭邊排樣的沖件精度在IT11IT9級(jí)之間,料厚t4mm的沖件,尺寸精度會(huì)更低一些。 不同沖模結(jié)構(gòu)類型,由于適用沖壓料厚及制造精度的差異,導(dǎo)致沖件的固定誤差有別。復(fù)合模中,多工位連續(xù)式復(fù)合模由于沖件連續(xù)重復(fù)定位加上制模誤差較大,故其沖件的固定誤差比單工位復(fù)合沖裁模要 大12級(jí)。3、沖模制造工藝 沖模主要工作零件即凸、凹模的加工程序,對(duì)操作上的技術(shù)要求不高,能夠一次成形較復(fù)雜的模腔。但其加工表面約厚0.030.05mm為高溫?zé)g的殘余樹枝狀?yuàn)W氏體組織,硬度可高達(dá)HRC6770,有顯微裂紋,容易在沖裁時(shí)出現(xiàn)崩刃或剝落。意大利Corrada公司的有關(guān)研究報(bào)告稱“線切割加工對(duì)表面金相結(jié)構(gòu)產(chǎn)生不利的影響,實(shí)際上已經(jīng)改變了金相結(jié)構(gòu)。我們必須用金剛石粉研磨或數(shù)控連續(xù)軌跡坐標(biāo)磨削(對(duì)線切割件)作精加工”。近年來瑞士和日本等國(guó),對(duì)電加工設(shè)備進(jìn)行了深入的研究和較大的改進(jìn),制造出功能齊全的高精度NC和CNC線切割機(jī),加工精度可達(dá)0.0050.001mm,甚至更小。加工表面粗糙度Ra值能達(dá)到0.4m。根據(jù)近年對(duì)國(guó)內(nèi)12家生產(chǎn)線切割機(jī)工廠的調(diào)研,國(guó)產(chǎn)線切割機(jī)加工精度各別廠家的各別型號(hào)線切割機(jī)可達(dá)0.0080.005mm,一般都在0.01mm或更大一些,個(gè)別也能達(dá)到0.005mm,加工表面粗糙度Ra值均大于1.6m。然而,電加工燒蝕金屬表面從而改變和損壞加工面金相結(jié)構(gòu)的特性不會(huì)改變,除非用磨削或其他加工法去除這一有害層。所以,僅僅用電加工法,包括電火花線切割與電穿孔,難以達(dá)到?jīng)_模,尤其高精度、高壽命沖模對(duì)尺寸精度與工作零件表面粗糙度Ra值要求。 用精密磨削法制造沖模,特別是制造高精度、高壽命沖模,諸如:薄料小間隙復(fù)合沖裁模、多工位連續(xù)式復(fù)合模等,具有尺寸精度高、工作零件加工面粗糙度Ra值小、模具壽命高等特點(diǎn)。其加工工藝目前已由過去的普通機(jī)床粗加工改為電火花線切割或電穿孔機(jī)粗加工,最后精密磨削,也由成型磨、光學(xué)曲線磨、手動(dòng)座標(biāo)磨逐步過濾到連續(xù)軌跡座標(biāo)磨及NC與CNC連續(xù)軌跡座標(biāo)磨,加工粗度可達(dá)0.0010.0005mm,加工表面粗糙度Ra值可達(dá)0.10.025m。所以,用該工藝制造的沖模,無(wú)論尺寸精度、工作零件表面粗糙度,都能滿足沖模,尤其各種復(fù)合模的要求,比電加工工藝制造的沖模高一個(gè)檔次。4、間隙的大小與均勻度 拉深、彎曲、翻邊及其他板料成形件一般都要先沖裁(落料)出平板展開毛坯,也有成形后落料、切開得到單個(gè)成品沖件。故沖裁作業(yè),包括常用的沖孔、切口、切邊等,對(duì)于每種板料沖壓件都是必要的。所以沖裁間隙對(duì)沖件的外廓尺寸精度有決定性的影響。沖裁間隙小而均勻,可使沖裁尺寸獲取更高精度。對(duì)于拉深、彎曲等成形模,間隙大定將增大沖件口部尺寸誤差及回彈。間隙不均勻會(huì)使沖件毛刺加大并招致刃口的不均勻磨損。5、沖壓設(shè)備的彈性變形 在沖壓過程中,沖床承載后會(huì)產(chǎn)生一定的彈性變形。雖然這種變形量依沖壓力的大小變化且具有明顯的方向性,但就沖壓件,主要是對(duì)具有體積沖壓性質(zhì)的壓印、壓花、校平、壓凸、起波、沖擠、鐓形、翻邊、鐓粗、打扁、變薄拉深等工藝作業(yè)沖制成形的沖件,對(duì)其沖壓方面的尺寸精度有重大影響。 出自:科學(xué)指南 畢業(yè)設(shè)計(jì)文獻(xiàn)翻譯 院(系)名稱工學(xué)院機(jī)械系 專業(yè)名稱機(jī)械設(shè)計(jì)制造及其自動(dòng)化 學(xué)生姓名郭中亮 指導(dǎo)教師 康紅偉2012年 03 月 10 日 目 錄前言1第一章 專業(yè)課程設(shè)計(jì)概述 2 1.1 專業(yè)課程設(shè)計(jì)的目的和要求 2 1.1.1 專業(yè)課程設(shè)計(jì)的目的2 1.1.2 專業(yè)課程設(shè)計(jì)的要求2 1.2 專業(yè)課程設(shè)計(jì)的內(nèi)容3 1.2.1專業(yè)課程設(shè)計(jì)課題3 1.2.2 專業(yè)課程設(shè)計(jì)時(shí)間安排3 1.2.3 專業(yè)課程設(shè)計(jì)工作量4第二章 冷沖壓工藝與模具設(shè)計(jì)、模具制造工藝4 2.1 沖壓工藝性分析4 2.2 工藝方案確定5 2.3 確定模具類型及結(jié)構(gòu)形式5 2.4 工藝計(jì)算6 2.5 編寫工藝文件9 2.6 選擇和確定模具主要零部件的結(jié)構(gòu)和尺寸10 2.7 校核所選壓力機(jī)11 2.8 編制工作零件機(jī)械加工工藝卡12第三章 塑料成型工藝與模具設(shè)計(jì)、模具制造工藝133.1 工藝分析14 3.2 成型設(shè)備的選擇與模塑工藝參數(shù)的確定14 3.3 模具結(jié)構(gòu)方案及尺寸的確定15 3.3.1選擇制品的分型面15 3.3.2 型腔布置16 3.3.3澆注系統(tǒng)16 3.3.4 溢流、排氣系統(tǒng)的設(shè)計(jì)17 3.3.5 選擇脫模方式17 3.3.6 成型零件工作尺寸的計(jì)算17 3.3.7 模具主要零件的結(jié)構(gòu)和尺寸設(shè)計(jì)18 3.3.8 模具調(diào)溫系統(tǒng)的設(shè)置18 3.4 注射機(jī)有關(guān)工藝參數(shù)的校核19 3.5 編寫工藝零件機(jī)械加工工藝20結(jié)束語(yǔ)21前 言在“十五”規(guī)劃中,模具被認(rèn)為是“工業(yè)生產(chǎn)的基礎(chǔ)工藝裝備”,國(guó)民經(jīng)濟(jì)的五大支柱產(chǎn)業(yè)機(jī)械、電子、汽車、石化、建筑都要求模具工業(yè)發(fā)展與之相適應(yīng)。中國(guó)成模具制造大國(guó)當(dāng)今世界正進(jìn)行著新一輪的產(chǎn)業(yè)調(diào)整,一些模具制造逐漸向發(fā)展中國(guó)家轉(zhuǎn)移,中國(guó)正成為世界模具大國(guó)?,F(xiàn)代模具行業(yè)是技術(shù)、資金密集的行業(yè)。它作為重要的生產(chǎn)裝備行業(yè)在為各行各業(yè)服務(wù)的同時(shí),也直接為高新技術(shù)產(chǎn)業(yè)服務(wù)。模具是工業(yè)生產(chǎn)中使用廣泛的基礎(chǔ)工藝裝備。有人說,現(xiàn)代模具是高技術(shù)背景下的工藝密集型工業(yè)。模具技術(shù)水平的高低,在很大的程度上決定著產(chǎn)品的質(zhì)量、效益和新產(chǎn)品的開發(fā)能力,因此已成為衡量一個(gè)國(guó)家產(chǎn)品制造水平高低的重要標(biāo)志。我國(guó)沖壓模具無(wú)論在數(shù)量上,還是在質(zhì)量、技術(shù)和能力等方面都已有了很大發(fā)展,但與國(guó)發(fā)經(jīng)濟(jì)需求和世界先進(jìn)水平相比,差距仍很大,一些大型、精度、復(fù)雜、長(zhǎng)壽命的高檔模具每年仍大量進(jìn)口,特別是中高檔轎車的覆蓋件模具,目前仍主要依靠進(jìn)口。一些低檔次的簡(jiǎn)單沖模,已趨供過于求,市場(chǎng)竟?fàn)幖ち?。同時(shí),隨著經(jīng)濟(jì)的發(fā)展注塑模具也飛速發(fā)展起來,因?yàn)樽⑺苣?yōu)點(diǎn)很多。塑料具有質(zhì)量輕、比強(qiáng)度大、絕緣性好、成型生產(chǎn)率高和價(jià)格低廉等特點(diǎn)。塑料已成為金屬的子代用材料,出現(xiàn)了金屬材料塑料化的趨勢(shì)。2)由于汽車輕量化、低能耗的發(fā)展要求,汽車零部件的材科構(gòu)成發(fā)生明顯的以塑代鋼的變化。從國(guó)內(nèi)外汽車塑料應(yīng)用的情況看,汽車塑料的用量已成為衡量汽車生產(chǎn)技術(shù)水平的重要標(biāo)志。3)注塑成型由于可以一次成型各種結(jié)構(gòu)復(fù)雜、尺寸精密和帶有金屬嵌件的制品,并目成型周期短,可以模多腔,大批生產(chǎn)時(shí)成本低廉,易于實(shí)現(xiàn)自動(dòng)化生產(chǎn),因此在塑料加行業(yè)中占有非常重要的地位。本設(shè)計(jì)是通過設(shè)計(jì)復(fù)合冷沖模和注塑模來熟悉模具設(shè)計(jì)與制造工藝,了解其內(nèi)部的結(jié)構(gòu)和工作原理,加深對(duì)所學(xué)習(xí)的知識(shí)的理解。由于本人所學(xué)模具知識(shí)水平有限,視野狹小,在設(shè)計(jì)中還存在這樣那樣的問題和錯(cuò)誤,敬請(qǐng)老師批評(píng)指正。第一章 專業(yè)課程概述1.1專業(yè)課程設(shè)計(jì)的目的和要求專業(yè)課程設(shè)計(jì)是材料成型及控制工程專業(yè)教學(xué)中重要的實(shí)踐教學(xué)環(huán)節(jié)之一,它是在沖壓工藝于模具設(shè)計(jì)、塑料成型工藝于模具設(shè)計(jì)、模具制造工藝三門理論課程教學(xué)之后,為了加強(qiáng)學(xué)生所學(xué)的知識(shí)和提高學(xué)生的初步設(shè)計(jì)能力及實(shí)際動(dòng)手能力二開設(shè)的實(shí)踐性教學(xué)環(huán)節(jié)。1.1.1專業(yè)課程實(shí)際的目的 1、綜合運(yùn)用和鞏固本課程及有關(guān)課程的基礎(chǔ)理論和專業(yè)知識(shí),培養(yǎng)學(xué)生從事模具設(shè)計(jì)于制造的初步能力,為后續(xù)畢業(yè)設(shè)計(jì)和實(shí)際工作打下良好的基礎(chǔ)。 2、培養(yǎng)學(xué)生分析問題和解決問題的能力。經(jīng)過課程設(shè)計(jì)環(huán)節(jié),學(xué)生能全面理解和掌握沖壓工藝、塑料成型工藝、模具設(shè)計(jì)、模具制造、等內(nèi)容;掌握沖壓工藝、塑料成型工藝、模具設(shè)計(jì)的基本方法和步驟、模具零件的常用加工方法及工藝規(guī)程的編制;獨(dú)立解決在制定沖壓工藝規(guī)程、設(shè)計(jì)模具結(jié)構(gòu)、編制模具零件加工工藝規(guī)程中出現(xiàn)的問題;會(huì)查閱技術(shù)文獻(xiàn)和資料,以完成從事本專業(yè)技術(shù)工作的人員在模具設(shè)計(jì)與制造方面所必須具備的基本能力訓(xùn)練。 3、在課程設(shè)計(jì)中,培養(yǎng)學(xué)生認(rèn)證負(fù)責(zé)、踏實(shí)細(xì)致的工作作風(fēng)和眼睛的科學(xué)態(tài)度,強(qiáng)化質(zhì)量意識(shí)和時(shí)間觀念,養(yǎng)成良好的職業(yè)習(xí)慣。1.1.2 專業(yè)課程設(shè)計(jì)要求 1、樹立正確的設(shè)計(jì)思想,盡量結(jié)合生產(chǎn)實(shí)際,結(jié)合考慮技術(shù)性、經(jīng)濟(jì)性、實(shí)用性、可靠性、安全及先進(jìn)性等方面的要求,嚴(yán)肅認(rèn)真地進(jìn)行設(shè)計(jì)。 2、獨(dú)立擬定指定制件的成型工藝,正確選擇成型設(shè)備。3、合理確定模具結(jié)構(gòu),很據(jù)制件圖及模具要求,提出模具結(jié)構(gòu)方案,并使其結(jié)構(gòu)合理,質(zhì)量可靠,操作方便。必要時(shí)可根據(jù)模具設(shè)計(jì)和加工要求,提出修改制件圖紙的要求,但這必須征得用戶同意后方可實(shí)施。4、正確確定模具成型零件的形狀和尺寸。所設(shè)計(jì)的模具應(yīng)當(dāng)模具零部件加工工藝性好、制造方便、造價(jià)便宜、裝配調(diào)整、維護(hù)維修方便。模具使用效率高,安全可靠,使用壽命長(zhǎng)。5、充分考慮制件的設(shè)計(jì)特色,盡量減少后加工工序。 6、要求所編制的模具零件加工工藝規(guī)程符合生產(chǎn)實(shí)際,技術(shù)經(jīng)濟(jì)性。 7、設(shè)計(jì)說明書要求文字通順、條理清晰、書寫工整。圖紙圖面整潔、標(biāo)注齊全、圖樣及標(biāo)注符合國(guó)家標(biāo)準(zhǔn)。1.2 專業(yè)課程設(shè)計(jì)的內(nèi)容1.2.1 專業(yè)課程設(shè)計(jì)課題專業(yè)課程設(shè)計(jì)所用的制件盡量從生產(chǎn)實(shí)踐中選取,要求該零件具有一定的典型意義。沖壓模具課題:選用只有兩道工序的制件,擬定用沖孔落料復(fù)合?;騼傻拦ば虻倪B續(xù)模作為制件的成型方法,設(shè)計(jì)模具、編寫模具工作零件的加工工藝作為設(shè)計(jì)題目。塑料模具課題:選擇無(wú)側(cè)向抽芯的塑料件,擬定用注射模成型的方法,設(shè)計(jì)模具、編寫模具工作零件的加工工藝作為設(shè)計(jì)題目。1.2.2專業(yè)課程設(shè)計(jì)時(shí)間安排表1.1 專業(yè)課程設(shè)計(jì)安排表項(xiàng)目工藝與設(shè)計(jì)畫裝配圖畫零件圖編制模具制造工藝卡片整理、答辯沖裁模2-3天2.5天1-1.5天0-1天2天注射模2-3天2.5天1-1.5天0-1天2天1.2.3 專業(yè)課程設(shè)計(jì)工作量1、沖裁模具、塑料注塑模具裝配圖各一張。2、沖裁模具、塑料注射模具工作零件圖。3、沖模、塑模工作零件(各一份)機(jī)械加工工藝卡各一份(附在說明書)。4、模具設(shè)計(jì)說明書一份,字?jǐn)?shù)要求10000-15000字。第二章 冷沖壓工藝與模具設(shè)計(jì)、模具制造工藝工件如下圖,材料Q235,料厚1mm,表面不允許有明顯的劃痕。技術(shù)要求:1 未注圓角為R1 2 未注公差為IT14級(jí) 3 材料厚度t=1mm圖2.1 制件圖2.1 沖壓工藝性分析1、材料:該零件的材料為Q235,是普通的碳素工具鋼,板厚為1mm,具有良好的可沖壓性能。 2、該零件的形狀比較簡(jiǎn)單、規(guī)則,并在轉(zhuǎn)角處有R1的圓角過渡,孔邊距較大,且孔的尺寸是8,工藝性較好。 3、尺寸精度,零件上所有孔的位置精度為IT12IT14,尺寸精度為IT13,其余尺寸都是未注公差,屬于自由公差,精度比較低,符合沖裁件的工藝性要求。查公差表可以得到如圖所示的結(jié)果。結(jié)論:適合沖壓。2.2 工藝方案確定該工件包括落料、沖孔另個(gè)基本工序:方案一:先落料,后沖孔,采用單工序模生產(chǎn)。方案二:落料沖孔復(fù)合沖壓,采用復(fù)合模生產(chǎn)。方案三:沖孔落料級(jí)進(jìn)沖壓,采用級(jí)進(jìn)模生產(chǎn)。方案一模具結(jié)構(gòu)簡(jiǎn)單,但需要兩道工序兩副模具,成本高而生產(chǎn)率低,難以滿足大中批量生產(chǎn)需求。方案二只需一副模具,工件的精度及生產(chǎn)效率都很高。方案三也只需一副模具,生產(chǎn)效率高,操作方便,但位置精度不如復(fù)合模具沖裁精度高。通過對(duì)以上三種方案的分析比較,成型該零件采用方案二復(fù)合模具成型。2.3 確定模具類型及結(jié)構(gòu)形式1、該零件質(zhì)量要求不高,板厚1mm,孔邊距較大,為了保證零件的精度,可以選用正裝復(fù)合模。2、定位方式的選擇:控制條料的送進(jìn)方向采用兩個(gè)導(dǎo)料銷,控制條料的送進(jìn)步距采用擋料銷。3、卸料、出件方式的選擇:采用彈性卸料、上出件,下模剛性頂件。4、導(dǎo)向方式的選擇:為了方便操作,該模具采用后側(cè)導(dǎo)柱的導(dǎo)向方式。 沖壓件的形狀簡(jiǎn)單,精度要求也不高,為了使得模具的壽命較高,采用有導(dǎo)向、彈性卸料、下出件的模具結(jié)構(gòu)形式。2.4 工藝計(jì)算 1、確定最佳排樣方式,并計(jì)算材料利用率,選擇板料的規(guī)格。 該零件為較規(guī)則的矩形零件,可直接設(shè)置為斜排排樣方式,如圖:圖2.2 查沖壓手冊(cè)表218,最小搭邊值為:工件間2mm 側(cè)面1.5mm工件面積:1171.2mm2斜排:取搭邊值1.2mm條料寬度:B=57.45mm 步距:L=36mm材料利用率:=1171.2/(57.4536)=56.6選用12500mm1250mm,可以裁43條,每條可以沖34件??偟牟牧侠寐剩?3341171.2/(25001250)=552、計(jì)算沖壓合力并預(yù)選沖床L=145mm+37.7mm=182.7mmt=1mm =450MP沖壓力:F=Lt=182.71450=82.2KN查沖壓工藝及模具設(shè)計(jì)表3-11 K=0.05 K=0.055 K=0.06卸料力:F= KF=0.0582.2KN= 4.1KN正裝復(fù)合模:頂件力F頂 = KF=0.0682.2=5KN沖裁合力F=FKF=91.3KN根據(jù)沖壓合力預(yù)選 J23-16的曲柄壓力機(jī)3、確定沖裁壓力中心先求xx1=0 x2=4.5 x3=9 x4=17 x5=25 x6=33.5 x7=42 x8=50 x9=58x10=51.5 x11=45 x12=41.5 x13=38 x14=29 x15=20 x16=16.5 x17=13 x18=6.5 x19=13 x20=45L1=28 L2=9 L3=8 L4=16 L5=8 L6=17 L7=8 L8=16L9=36 L10=13 L11= 8 L12= 7 L13=8 L14=18 L15=8L16=7 L17=8 L18=13 L19=L20=8x=x iLi/Li=8444.96/286.2=29.5再求yy1=14 y2=28 y3=32 y4=36 y5=32 y6=28 y7=32 y8=36 y9=18 y10=0 y11=4 y12=8 y13=4 y14=0 y15=4 y16=8 y17=4 y18= 0 y19=18 y20=18y=yi Li/Li=4832.32/286.2=16.93 取x=29.5mm y=17作為模具的壓力中心的位置4、確定沖裁凸模和凹模工作刃口尺寸落料以落料凹模為基準(zhǔn)計(jì)算,落料凸模根據(jù)凹模和最小間隙計(jì)算,也可根據(jù)據(jù)凹模實(shí)際尺寸和間隙值配制。沖孔以沖孔凸模為基準(zhǔn)計(jì)算,沖孔凹模根據(jù)凸模和最小間隙計(jì)算,也可根據(jù)凸模十幾尺寸和間隙值配制。沖孔用分別加工法計(jì)算,落料、中心尺寸用配合加工法進(jìn)行計(jì)算。間隙差沖壓工藝及模具設(shè)計(jì) 表34,Z=0.1mm Z=0.14落料凹模磨損后變大的尺寸20、14、26、2,凹模公差按/4磨損系數(shù)查沖壓工藝及模具設(shè)計(jì) 表3-5A1=(200.50.74)=19.63A2=(140.50.27)=13.86A3=(260.50.62)=25.69A4=(20.50.27)=1.86沖孔凸模磨損后變小尺寸6 公差為IT13級(jí)凸、凹模公差按IT8級(jí),=0.018mm =0.018mm校核間隙=0.0180.018=0.0360.140.10.04 可行磨損系數(shù)查沖壓工藝及模具設(shè)計(jì) 表3-5,X=0.5。B1(60.50.16)6.08B1(6.080.1)6.185、確定彈性元件聚氨脂橡皮允許承受的載荷較彈簧大,而且安裝調(diào)整方便,所以選用橡皮。卸料力為F=4.1KN橡皮的高度:H=H/(0.25-0.3)=23.328 取25式中H=t+1+H=1+1+5=7 (H=47)橡皮的面積:A=卸料力F/p=2038510600mm式中p為橡皮預(yù)壓(壓1015H)的單位面積上的壓力,取0.260.5取一塊整開凸??缀退膫€(gè)卸料螺釘孔14014025面積校核:1401403500483.14=15296.16mm10600mm 可行2.5 編寫工藝文件表2.1 沖壓工藝過程卡材料牌號(hào)規(guī)格材料技術(shù)要求毛坯尺寸每件毛坯可制件數(shù)毛坯重量輔助材料Q235(125001250)條料(157.451250)34件工序號(hào)工序名稱工序內(nèi)容加工簡(jiǎn)圖設(shè)備工藝裝備0下料剪板機(jī)上裁板57.4512501落料 沖孔落料沖孔復(fù)合沖裁J23-16落料沖孔復(fù)合模2.6 選擇和確定模具主要零部件的結(jié)構(gòu)和尺寸1、工作零件的結(jié)構(gòu)及尺寸設(shè)計(jì)(1) 凸凹模:為了便于加工,凸凹模設(shè)計(jì)成直通型,1個(gè)M8沉頭螺釘固定在墊板上,與凸凹模固定板的配合按H7/m6。其總長(zhǎng)L=H固定板+H卸料板+(H橡膠H預(yù)壓)=52mm(2) 凹模:凹模采用薄凹模結(jié)構(gòu),薄凹模厚度尺寸(可以參考單工序凹模的厚度計(jì)算方法H=Ks=0.2458=13.9mm)取14mm。凹模壁厚尺寸 C=(1.52)H3040mm 取C=32式中Ks查沖壓工藝及模具設(shè)計(jì) 表315,取0.24工件長(zhǎng)邊尺寸:b=54.5mm凹模板邊長(zhǎng): B58+2(3040)=118138 一般選取LB故取B=140 L=140,故薄凹模板長(zhǎng)、寬、厚度尺寸14014014mm,空心墊板長(zhǎng)、寬、厚度尺寸16014025mm (3)沖孔凸模:沖孔凸模采用臺(tái)階式,與凸模固定板的配合按H7/m6。其總長(zhǎng):L=H固定板+H凹模+H空心墊板=45mm (4)模具剛性校核凸凹模尺寸較大,模具強(qiáng)度較大,所以不需要進(jìn)行模具強(qiáng)度校核。小凸模:?jiǎn)蝹€(gè)凸模所受力:沖裁力:37.7X450=17KN 沖裁合力:11.3=11300 NLmax95d/=958/=57.2mm30 無(wú)導(dǎo)向 可行2、其他板的尺寸參考典型組合結(jié)構(gòu)(GB2872.1-81)凸凹模墊板:1401406 凸凹模固定板:14014018卸料板:16014015空心墊板:16014015小凸模固定板:16014020小凸模墊板:160140103、模架的規(guī)格上模座的規(guī)格:14014035下模座的規(guī)格:14014040模柄的規(guī)格:A3050mm導(dǎo)套:A25H78033 導(dǎo)柱:A25h6130 4、模具的閉合高度的計(jì)算H=219.5mm2.7 校核所選壓力機(jī) J23-16壓力機(jī):標(biāo)稱壓力 160KN;滑塊行程55(次/min);連桿調(diào)節(jié)高度45mm;最大裝模高度220mm,工作臺(tái)尺寸(前后左右)300450mm,模柄孔尺寸(直徑深度)3050,電機(jī)功率1.5KW。校核以上所有參數(shù),均可以滿足使用要求。所以J23-25能滿足該模具的使用要求。2.8 編制工作零件機(jī)械加工工藝卡表2.2 凹模機(jī)械加工工藝規(guī)程卡凹模機(jī)械加工工藝規(guī)程 材料Cr12MoV 硬度 6064序號(hào)工序名稱工序內(nèi)容1備料鍛件(退火狀態(tài)) 165145302粗銑銑六面尺寸160.3140.325.5 。注意兩大平面與兩相鄰側(cè)面用標(biāo)準(zhǔn)角度尺測(cè)量達(dá)到基本垂直要求。3磨平面磨光兩大平面厚度達(dá)25.3mm,并磨四個(gè)側(cè)面,達(dá)到兩相鄰側(cè)面垂直,垂直度0.02mm/100mm4鉗工劃線 劃出孔和凹模洞口穿絲孔中心線鉆孔 鉆螺紋、銷釘?shù)卓缀桶寄6纯诖┙z孔鉸孔 鉸銷釘孔到要求攻絲 攻螺紋孔到要求5熱處理淬火+低溫回火 使材料硬度達(dá)到60-64HRC6磨平面磨光六個(gè)面 消除淬火變形和氧化皮,并達(dá)到工藝所要求的尺寸7退磁消除坯料殘余磁8線切割割凹模洞口,并留0.01-0.02的研磨余量9鉗工研磨凹模洞口內(nèi)壁側(cè)面到尺寸,粗糙度Ra值0.8m10檢驗(yàn)按圖紙檢驗(yàn)12
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