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鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 摘要本課題設(shè)計(jì)一臺(tái)加工柴油機(jī)齒輪室蓋的鉆鏜組合機(jī)床主要完成機(jī) 床總體和右主軸箱的設(shè)計(jì)工作根據(jù)柴油機(jī)齒輪室蓋的結(jié)構(gòu)特點(diǎn) 加工部位尺寸精度表面粗糙度及生產(chǎn)率等要求確定該機(jī)床為單工位臥式組合機(jī)床為確保加工精度采用一面兩銷的定位方案為實(shí)現(xiàn)無(wú)級(jí)調(diào)速安全可靠選擇液壓滑臺(tái) 根據(jù)零件的大小及被加工孔的位置確定主軸箱的輪廓尺寸由加工工藝選擇滾珠軸承主軸通過(guò)計(jì)算扭矩確定主軸和傳動(dòng)軸的直徑齒輪的模數(shù)是通過(guò)類比法確定齒輪齒數(shù)和中間傳動(dòng)軸的位置是由計(jì)算作圖和多次試湊相結(jié)合的辦法確定計(jì)算主軸傳動(dòng)軸的坐標(biāo)并進(jìn)行中心距驗(yàn)算確定部分軸上需采用變位齒輪軸上的齒輪套鍵等零件按軸號(hào)選取相應(yīng)的標(biāo)準(zhǔn)件本課題設(shè)計(jì)的組合機(jī)床采用一面兩銷定位液動(dòng)夾緊一次裝夾加工柴油機(jī)齒輪室蓋三個(gè)面上的孔保證了加工精度提高了生產(chǎn)效率減少了工人的勞動(dòng)強(qiáng)度而且在設(shè)計(jì)之中盡量選用通用件減少了制造成本增加了經(jīng)濟(jì)效益關(guān)鍵詞組合機(jī)床主軸箱主軸傳動(dòng)軸齒輪室蓋鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 The overall and headstock design of drilling and boring modular machine for diesel engine geal chamber manufacture Abstract This project is to design a modular machine tool for manufacturing the gear chamber cap of diesel engine Mainly work is the design of overall and the right headstock According to the request of construction features processing spot size precision surface roughness and productivity that diesel engine gear chamber cap sets the machine tool for single location horizontal type modular machine tool In order to guarantee the processing precision the localization plan use two sells and a surface In order to implement the stepless speed regulation safe is reliable therefore choice hydraulic pressure sliding table According the size of components and the position of the hole that is processed to set the overall size of the headstock Choicing ball bearing spindle by processing craft The spindle and drive shaft diameter is decided through computation torque The gear modulus is decided through the correlation method The gear mentions and the position of intermediate propeller shaft is decided by the means computation mapping and tries to collect many times Calculates the coordinates of the spindle and drive shaft and checking the center distance determined department spindle must use dislodges the gear The components of tooth wheel cover key and so on that in axis select standard letter by the corresponding number The modular machine tool of this project design use two sells and one surface to locate hydraulic press and clamps In the situation of one clamp the holes three surface of the diesel engine gear chamber cap are guaranteed the processing precision is enhanced the production efficiency is increased worker s labor intensity Moreover during the design the standard parts are selected as far as 鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 possible reduced the production cost and increased the economic efficiency Key words modular machine tool headstock spindle drive shaft gear chamber cap 鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 目錄 1 前言 1 2 組合機(jī)床總體設(shè)計(jì) 2 2 1 組合機(jī)床工藝方案的制定 2 2 2 組合機(jī)床配置型式及結(jié)構(gòu)方案的確定 2 2 3 各側(cè)具體零部件的設(shè)計(jì) 計(jì)算及選擇 3 2 4 機(jī)床生產(chǎn)率計(jì)算卡 10 3 組合機(jī)床多軸箱設(shè)計(jì) 右主軸箱 12 3 1 繪制右主軸箱設(shè)計(jì)原始依據(jù)圖 12 3 2 主軸齒輪的確定及動(dòng)力計(jì)算 13 3 3 主軸箱傳動(dòng)系統(tǒng)的設(shè)計(jì)與計(jì)算 13 3 4 多軸箱坐標(biāo)計(jì)算繪制坐標(biāo)檢查圖 18 3 5 主軸箱中變位齒輪的計(jì)算 22 3 6 變位齒輪的設(shè)計(jì) 22 3 7 齒輪強(qiáng) 度校核 23 3 8 傳動(dòng)軸直徑的確定和軸的強(qiáng)度校核 25 3 9 主軸箱體及其附件的選擇設(shè)計(jì) 28 4 結(jié)論 30 參考文獻(xiàn) 31 致謝 32 附錄 33 鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 1 1 前言組合機(jī)床是根據(jù)工件加工需要以大量通用部件為基礎(chǔ) 配以少量專用部件組成的一種高效率專用機(jī)床目前組合機(jī)床主要用于平面加工和孔加工兩類工序平面加工包括銑平面锪刮平面車平面孔加工包括鉆擴(kuò) 鉸鏜孔以及倒角切槽攻螺紋锪沉孔滾壓孔等隨著綜合自動(dòng)化的發(fā)展其工藝范圍正擴(kuò)大到車外圓行星銑削拉削推削磨削珩磨及拋光沖壓等工序此外還可以完成焊接熱處理自動(dòng)裝配和檢測(cè) 清洗和零件分類及打印等非切削工作組合機(jī)床在汽車拖拉機(jī) 柴油機(jī) 電機(jī) 儀器儀表軍工及縫紉機(jī) 自行車等輕工行業(yè)大批大量生產(chǎn)中已經(jīng)獲得廣泛的應(yīng)用一些中小批量生產(chǎn)是企業(yè) 如機(jī)床機(jī)車工程制造業(yè)中也已推廣應(yīng)用組合機(jī)床最適宜于加工各種大中型箱體類零件如汽缸蓋汽缸體變速箱體電機(jī)座及儀表殼等零件也可用來(lái)完成軸套類輪盤(pán)類叉架類和蓋板類零件的部分或全部工序的加工組合機(jī)床的設(shè)計(jì) 目前基本上有兩種情況其一是根據(jù)具體加工對(duì)象的具體情況進(jìn)行專門(mén)設(shè)計(jì) 這是當(dāng)前最普遍的做法其二隨著組合機(jī)床在我國(guó) 機(jī)械行業(yè)的廣泛使用廣大工人總結(jié)自己生產(chǎn)和使用組合機(jī)床的經(jīng)驗(yàn) 發(fā)現(xiàn)組合機(jī)床不僅在其組成部件方面有共性可設(shè)計(jì)成通用部件而且一些行業(yè)在完成一定工藝范圍內(nèi)組合機(jī)床是極其相似的有可能設(shè)計(jì)為通用機(jī)床這種機(jī)床稱為專能組合機(jī)床這種組合機(jī)床就不需要每次按具體加工對(duì)象進(jìn)行專門(mén)設(shè) 計(jì)和生產(chǎn) 而是可以設(shè)計(jì)成通用品種組織成批生產(chǎn) 然后按被加工的零件的具體需要配以簡(jiǎn)單的夾具及刀具即可組成加工一定對(duì)象的高效率設(shè)備本次畢業(yè)設(shè)計(jì)課題來(lái)源于生產(chǎn)實(shí)際具體的課題是柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 在設(shè)計(jì)前認(rèn)真研究被加工零件的圖樣研究其尺寸形狀材料硬度重量加工部位的結(jié)構(gòu)及加工精度和表面粗糙度要求等內(nèi)容為設(shè)計(jì)提供大量的數(shù)據(jù) 資料作好充分的全面的技術(shù)準(zhǔn)備在準(zhǔn)備了充足的資料之后進(jìn)行總體及零部件的設(shè)計(jì)工作總體的設(shè)計(jì)的主要工作是完成三圖一卡即繪制機(jī)床的總體尺寸聯(lián)系圖加工示意圖零件的工序圖及編制生產(chǎn)率計(jì)算卡主軸箱設(shè)計(jì)的方法是繪制主軸箱設(shè)計(jì)的原始依據(jù)圖確定主軸的結(jié)構(gòu) 軸頸及齒輪模數(shù) 擬訂傳動(dòng)系統(tǒng) 計(jì)算主軸傳動(dòng)軸坐標(biāo) 繪制坐標(biāo) 檢查圖繪制多軸箱總圖零件圖及編制組件明細(xì)表在此次的設(shè)計(jì)中采用一面兩銷定位液壓夾緊提高了生產(chǎn)效率降低了勞動(dòng)強(qiáng)度同時(shí)在設(shè) 計(jì)中采用了大量的通用零部件降低了產(chǎn)品的成本在設(shè)計(jì)過(guò)程中得到了劉道標(biāo)老師的大力指導(dǎo)和同課題組同學(xué)的熱情幫助在此謹(jǐn)致謝意限于本人水平和經(jīng)驗(yàn) 本設(shè)計(jì)中一定有錯(cuò)誤和不妥之處敬請(qǐng)批評(píng)指正柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 2 2 組合機(jī)床總體設(shè)計(jì) 組合機(jī)床總體設(shè)計(jì) 通常是根據(jù)與用戶簽定的合同和技術(shù)協(xié)議書(shū) 針對(duì)具體加工零件擬訂工藝和結(jié)構(gòu)方案并進(jìn)行方案圖樣和有關(guān)技術(shù)文件的設(shè)計(jì) 2 1 組合機(jī)床工藝方案的制定工藝方案的擬訂是組合機(jī)床設(shè)計(jì)的關(guān)鍵一步因?yàn)楣に嚪桨冈诤艽蟪潭壬?決定了組合機(jī)床的結(jié)構(gòu)配置和使用性能因此應(yīng)根據(jù)工件的加工要求和特點(diǎn) 按一定的原則結(jié)合組合機(jī)床常用的工藝方法充分考慮各種因素并經(jīng)技術(shù) 經(jīng)濟(jì)分析后擬訂出先進(jìn) 合理經(jīng)濟(jì) 可靠的工藝方案此次設(shè)計(jì)的組合機(jī)床是用于加工柴油機(jī)齒輪室蓋的鉆鏜專用組合機(jī)床其工藝方案為鉆孔和鏜孔其具體的加工工藝如下 a 鉆 6 M6 6H 孔至 5 左側(cè)面 b 鉆 6 9 孔深 38 右側(cè)面 c 鉆 3 9 孔深 78 右側(cè)面 d 鏜 45H8 孔至 43 5 后側(cè)面 e 倒孔口角至 46 6 后側(cè)面正確選擇組合機(jī)床加工工件采用的基準(zhǔn)定位是確保加工精度的重要條件本設(shè)計(jì)的柴油機(jī)齒輪室蓋是箱體類零件箱體類零件一般都有較高精度的孔和面需要加工又常常要在幾次安裝下進(jìn)行因此定位基準(zhǔn)選擇一面雙孔是最常用的方法因此該被加工零件采用一面兩銷的定位方案定位基準(zhǔn)和夾壓點(diǎn)見(jiàn)零件的工序圖該定位方案限制的自由度敘述如下以工件的右側(cè)面為定位基準(zhǔn)面約束了 y z 向的轉(zhuǎn)動(dòng)和 x 向的移動(dòng) 3 個(gè)自由度短定位銷約束了 y z 向的移動(dòng) 2 個(gè)自由度長(zhǎng)定位銷約束了 x 向的轉(zhuǎn)動(dòng) 1 個(gè)自由度這樣工件的 6 個(gè)自由度被完全約束了也就得到了完全的定位 2 2 組合機(jī)床配置型式及結(jié)構(gòu)方案的確定根據(jù)選定的工藝方案確定機(jī)床的配置型式并定出影響機(jī)床總體布局和技術(shù)性能的主要部件的結(jié)構(gòu)方案既要考慮能實(shí)現(xiàn)工藝方案以確保零件的精度技術(shù)要求及生產(chǎn)率又要考慮機(jī)床操作方便可靠易于維修且潤(rùn)滑冷卻排屑情況良好對(duì)同一個(gè)零件的加工可能會(huì)有各種不同的工藝方案和機(jī)床配置方案在最后決定采取哪種方案時(shí) 絕不能草率要全面地看問(wèn)題綜合分析各方面的情況進(jìn)行多種方案的對(duì)比從中選擇最佳方案各種形式的單工位組合機(jī)床具有固定式夾具通?？砂惭b一個(gè)工件特別適用于大中型箱體類零件的加工根據(jù)配置動(dòng)力部件的型式和數(shù)量這種鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 3 機(jī)床可分為單面多面復(fù)合式利用多軸想同時(shí)從幾個(gè)方面對(duì)工件進(jìn)行加工但其機(jī)動(dòng)時(shí)間不能與輔助時(shí)間重合因而生產(chǎn)率比多工位機(jī)床低在認(rèn)真分析了被加工零件的結(jié)構(gòu)特點(diǎn)及所選擇的加工工藝方案又由單工位組合機(jī)床的特點(diǎn)及適應(yīng)性確定設(shè)計(jì)的組合機(jī)床的配置型式為單工位臥式組合機(jī)床 2 3 各側(cè)具體零部件的設(shè)計(jì) 計(jì)算及選擇 2 3 1 刀具的選擇考慮到工件加工尺寸精度表面粗糙度切削的排除及生產(chǎn)率要求等因素所以加工 15 個(gè)孔的刀具均采用標(biāo)準(zhǔn)錐柄長(zhǎng)麻花鉆和單導(dǎo)向懸臂鏜刀 2 3 2 右側(cè)面鉆 9 9 a 切削用量的選擇右側(cè)是鉆削 6 9 深 38 及 3 9 深 78 根據(jù)孔徑的大小和深徑比以及被加工材料的硬度查參考文獻(xiàn) 9 表 2 17 知主軸的進(jìn)給量 f 為 0 1 0 18mm r 切削速度 vc 10 18m min 鉆孔的切削用量還與鉆孔的深度有關(guān) 當(dāng)加工鑄鐵件孔深為鉆頭直徑的 6 8 倍時(shí) 在組合機(jī)床上通常都是和其他淺孔一樣采取一次走刀的辦法加工出來(lái)的不過(guò)加工這種較深孔的切削用量要適當(dāng)降低些因此選擇切削速度 vc 13m min 進(jìn)給量 f 0 13mm r 由此主軸轉(zhuǎn)速 n 由公式 2 1 01dvn 計(jì)算出 r min 將主軸轉(zhuǎn)速圓整為 470 r min 4 6914 30 n 實(shí)際切削速度 vc 工進(jìn)速度 vf 工進(jìn)時(shí)間 tf 分別由下列公式求得 2 2 10Dnc 2 3 f 2 4 ffvht 計(jì)算出實(shí)際切削速度 vc 13 282m min 工進(jìn)速度 vf 61 1mm min 工進(jìn)時(shí) 間 tf 1 26min b 切削功率切削力轉(zhuǎn)矩以及刀具耐用度的選擇由參考文獻(xiàn) 9 表 6 20 計(jì)算公式切削力 2 5 6 08 2HBDfF 切削轉(zhuǎn)矩 2 6 9 1T 柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 4 切削功率 2 7 DTVP 9740 刀具耐用度 2 8 8 035 02 6 HBvfn 計(jì)算出切削力 F 1144 5N 切削轉(zhuǎn)矩 T 3 18N m 切削功率 P 0 153kw 刀具耐用度 Tn 768 799min c 動(dòng)力部件的選擇由上述計(jì)算每根軸的輸出功率 P 0 153kw 右側(cè)共 9 根輸出軸且每一根軸都鉆 9 直徑所以總切削功率 P 切削 0 153 9 1 377kw 則多軸箱的功率 kw 其中 0 8 所以 kw 72 18 03 切削多軸 P 72 1 多軸因電機(jī)輸出經(jīng)動(dòng)力箱時(shí)還有功率損耗所以選擇功率為 2 2kw 的電機(jī) 其型號(hào)為 Y 100L1 4 由參考文獻(xiàn) 9 表 5 39 選取 1TD32 I 型動(dòng)力箱動(dòng)力箱的主軸轉(zhuǎn)速 715r min d 確定主軸類型尺寸外伸長(zhǎng)度滾珠軸承主軸前支承為推力球軸承和向心球軸承后支承為向心球軸承或圓錐滾子軸承因?yàn)橥屏S承設(shè)置在前端能承受單方向的軸向力適用于鉆孔主軸在右側(cè)面主軸用于鉆孔因此選用滾珠軸承主軸又因?yàn)楦?dòng)卡頭與刀具剛性連接所以該主軸屬于長(zhǎng)主軸所以主軸均為滾珠軸承長(zhǎng)主軸根據(jù)主軸轉(zhuǎn)矩 T 3 18 N m 由參考文獻(xiàn) 9 表 3 4 可知 2 9 410TBd 其中 B 7 3 則計(jì)算出 d 17 335mm 選取 d 20mm 由參考文獻(xiàn) 9 表 3 6 查得主軸直徑 d 20mm D d 1 30 20 mm 主軸外伸尺寸 L 115mm 接桿莫氏圓錐號(hào) 1 2 e 導(dǎo)向裝置的選擇組合機(jī)床鉆孔時(shí) 零件上孔的位置精度主要是靠刀具的導(dǎo)向裝置來(lái)保證的導(dǎo)向裝置的作用是保證刀具相對(duì)工件的正確位置保證刀具相互間的正確位置提高刀具系統(tǒng)的支承剛性固定式導(dǎo)套刀具或刀桿本身在導(dǎo)套內(nèi)既有相對(duì)轉(zhuǎn)動(dòng)又有相對(duì)移動(dòng) 由于這部分表面潤(rùn)滑困難工作時(shí)有粉塵侵入當(dāng)?shù)稐U相對(duì)導(dǎo)套的線速度超過(guò) 20m min 時(shí)就會(huì)有研著的危險(xiǎn) 因此選用導(dǎo)套前計(jì)算一下導(dǎo)套與刀具的線速度由上述內(nèi)容知導(dǎo)套與刀具的線速度 vc 13 282m min 1 1 1 2 符合傳動(dòng)要求同樣求出軸 15 與 16 相嚙合的一對(duì)齒輪的重合度 1 66 1 1 1 2 符合傳動(dòng)要求 3 7 齒輪強(qiáng)度校核在初步確定主軸傳動(dòng)系統(tǒng)后還要對(duì)危險(xiǎn)齒輪進(jìn)行強(qiáng)度校核尤其對(duì)低速級(jí) 齒輪或齒根到鍵槽距離較小的齒輪及受轉(zhuǎn)矩較大的齒輪進(jìn)行校核以保證傳動(dòng) 系統(tǒng)平穩(wěn)準(zhǔn)確有一定的使用壽命通過(guò)比較發(fā)現(xiàn) 主軸箱中最薄弱的齒輪是驅(qū)動(dòng)齒輪因?yàn)槠鋫鲃?dòng)的功率大如果它能滿足強(qiáng)度要求則其他的齒輪也應(yīng)滿足要求驅(qū)動(dòng)軸上的齒輪齒數(shù) zo 24 m 3 與其相嚙合的大齒輪的齒數(shù) z16 36 m 3 驅(qū)動(dòng)軸所傳遞的功率 P 1 72kw 轉(zhuǎn)速 no 715r min 齒數(shù)比 1 5 齒輪材料為 45 鋼大小齒輪的硬度分別為 220HBS 260HBS 3 7 1 校核齒根彎曲疲勞強(qiáng)度齒根彎曲疲勞強(qiáng)度的校核公式為 3 8 FSaFdFYmzKT 321 確定公式中各參數(shù)值 a 大小齒輪的彎曲疲勞強(qiáng)度極限 1liF2liF 查參考文獻(xiàn) 13 圖 6 9 取 Mpa 201lim F 0m b 彎曲疲勞壽命系數(shù) NK 查參考文獻(xiàn) 13 圖 6 7 取 8 9 2FNK 鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 25 c 許用彎曲應(yīng)力 1F 2 取定彎曲疲勞系數(shù) SF 1 4 應(yīng)力修正系數(shù) YST 2 0 得 Mpa 71 304 801lim11 TNFYK Mpa86 2 92li22FSTF d 齒形系數(shù) 和應(yīng)力修正系數(shù) 1aY21SaY2 查參考文獻(xiàn) 13 表 6 4 得 2 62 2 22 1 59 1 771a2F1Sa2SaY e 計(jì)算大小齒輪的與并加以比較取其中大值帶入公式 1FS 2Sa 計(jì)算大齒輪的數(shù) 038 7 359621 FSaY 0139 86 72 FSaY 值較大應(yīng)按大齒輪校核齒根彎曲疲勞強(qiáng)度校核計(jì)算 Mpa 彎曲疲勞強(qiáng)95 7 125 20 1046342 F 2F 度足夠 3 7 2 校核接觸疲勞強(qiáng)度接觸疲勞強(qiáng)度由公式進(jìn)行校核 HEHubdKTZ 125 確定公式中各參數(shù)值 a 小齒輪傳遞的轉(zhuǎn)矩 T1 N mm297315 0 9105 966 nP b 大小齒輪接觸疲勞強(qiáng)度極限 1limH 2li 按齒面硬度查參考文獻(xiàn) 13 圖 6 8 得大小齒輪的接觸疲勞強(qiáng)度極限 600 Mpa 560 Mpa1limH 2limH c 接觸疲勞壽命系數(shù) 1NK2H 查參考文獻(xiàn) 13 圖 6 6 得 0 9 0 952N d 計(jì)算許用接觸應(yīng)力取安全系數(shù) SH 1 則 Mpa 54069 01lim1 HS 柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 26 Mpa 532609 2lim2 HNHSK Mpa 421 e 確定材料系數(shù) ZE 查參考文獻(xiàn) 13 表 6 3 得 ZE 189 8 Mpa f 計(jì)算圓周速度 v m s695 2106 ndt g 確定載荷系數(shù) K 查參考文獻(xiàn) 13 表 6 2 得使用系數(shù) KA 1 根據(jù) v 2 695m s 7 級(jí)精度查參考文獻(xiàn) 13 圖 6 10 得動(dòng)載系數(shù) Kv 1 1 查圖 6 13 得 K 1 18 則 K KAKvK 1 1 1 1 18 1 298 校核計(jì)算 Mpa 15 42 5172498 185 225 1 ubdTZEH H 接觸疲勞強(qiáng)度滿足要求所以該齒輪滿足使用要求 3 8 傳動(dòng)軸直徑的確定和軸的強(qiáng)度校核 3 8 1 軸的直徑的確定 T 總 T1i1 T2i2 Tnin 3 5 式中 Tn 作用在第 n 根主軸上的轉(zhuǎn)矩單位為 N m in 傳動(dòng)軸至第 n 個(gè)主軸之間的傳動(dòng)比軸 10 T 10 T1i1 T2i2 2T1i1 2 3 18 0 707 4 49 N m 由公式計(jì)算出直徑 mm 查參考文獻(xiàn) 9 表40Bd 89 14 03 74 d 3 4 選取直徑 d10 20mm 軸 11 因軸 11 上只有一排齒輪因此軸不承受扭距其直徑由彎距計(jì)算可得因其承受的彎矩也比較小參照其他軸選取 d11 25mm 軸 12 其受力情況同軸 11 所以選取 d12 25mm 軸 13 T 13 T7i7 T8i8 T9i9 3T7i7 3 3 18 0 82 7 8228 N m 由公式計(jì)算出直徑 mm 查參考文獻(xiàn)410Bd 49 238 7103 4 9 表 3 4 選取直徑 d13 30mm 軸 14 由彎矩計(jì)算及參照其他軸取 d14 20mm 軸 15 T 15 3T7i7 2T1i1 3 3 18 1 67 0 82 2 3 18 1 96 0 707 21 78 N m 由公式計(jì)算出直徑 mm 查參考文獻(xiàn)40TBd 046 287 103 74 9 表 3 4 選取直徑 d15 30mm 軸鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 27 16 T 16 4T3i3 3T7i7 2T1i1 4 3 18 0 75 1 25 1 07 3 3 18 0 82 1 67 0 74 2 3 18 0 707 1 96 0 74 28 882 N m 由公式計(jì)算出直徑 mm 查參考文獻(xiàn) 9 40TBd 49 28 103 74 d 表 3 4 選取直徑 d 16 35mm 軸 17 選取油泵軸的直徑 d 16 20mm 3 8 2 軸的強(qiáng)度校核軸在初步完成結(jié)構(gòu)設(shè)計(jì)后進(jìn)行校核計(jì)算計(jì)算準(zhǔn)則是滿足軸的強(qiáng)度或剛度要求進(jìn)行軸的強(qiáng)度校核計(jì)算時(shí) 應(yīng)根據(jù)軸的具體受載及應(yīng)力情況采取相應(yīng)的方法并恰當(dāng)?shù)剡x取其許用應(yīng)力對(duì)于用于傳遞轉(zhuǎn)矩的軸應(yīng)按扭轉(zhuǎn)強(qiáng)度條件計(jì)算對(duì)于只受彎矩的軸心軸應(yīng)按彎曲強(qiáng)度條件計(jì)算兩者都具備的按疲勞強(qiáng)度條件進(jìn)行精確校核等在本設(shè)計(jì)中軸的直徑是按強(qiáng)度公式計(jì)算進(jìn)行選擇因此并不是要對(duì)主軸箱內(nèi)所有的軸都進(jìn)行校核只是對(duì)那些承受彎扭矩相對(duì)交較大的軸進(jìn)行強(qiáng)度校核在這里對(duì)長(zhǎng)主軸 7 進(jìn)行強(qiáng)度校核 a 求出主軸上的轉(zhuǎn)矩 T 在工作時(shí) 主軸上所承受的功率 P 0 153kw 不計(jì)齒輪的嚙合損耗和軸承損耗的功率則 N mm8 310475 105 9105 966 nPT b 求作用在齒輪上的力 mm82mzd N 59 2TFt N70tan 7an tr c 軸的受力分析 1 畫(huà)軸的受力分析圖 2 計(jì)算支承反力在水平面內(nèi) N 2121lFltH 12 97153 4 82 71 HF N 9 t 在垂直平面內(nèi) N2121 llvr 4 153 9271v N 34 5 rvF 3 畫(huà)彎矩圖見(jiàn)圖 3 8 在水平面內(nèi) a a 剖面左側(cè) MaH Ftl1 75 82 43 3260 26 N mm a a 剖面右側(cè) M aH FH2l2 21 3 153 3258 9 N mm 在垂直平面內(nèi) a a 剖面左側(cè) MaV Frl1 27 59 43 1186 37 N mm 柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 28 a a 剖面右側(cè) M aV FV2l2 7 75 153 1185 75 N mm 合成彎矩 a a 剖面左側(cè) N mm4 3697 186 30222 aVaHaM a a 剖面右側(cè) N mm 5 9 5 2 4 畫(huà)轉(zhuǎn)矩圖 T 3108 829 N mmFrt V2H1TtFrV12MHVTa bc de fg 圖 3 8 軸的彎矩扭矩圖 d 危險(xiǎn)截面的判斷截面左右的合成彎矩右側(cè)相對(duì)左側(cè)大些扭矩為 T 則判斷左側(cè)為a 危險(xiǎn)截面只要右側(cè)滿足強(qiáng)度要求即可 e 軸的彎扭合成強(qiáng)度校核由參考文獻(xiàn) 13 表 11 2 查得 1 60 Mpa 6 010 b a a 剖面左側(cè) mm36 92 3 5201 2 1 033 dtbW MpaTMe 56 9 8 1 4 f 軸的疲勞強(qiáng)度安全系數(shù)校核根據(jù)參考文獻(xiàn) 13 表 11 2 查得 MpaB0 271 pa15 2 0 1 截面左側(cè) 鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 29 32323 5 160 3 20 2 0 mdtbW 由參考文獻(xiàn) 13 附表 11 2 查得由附表 10 4 查得絕對(duì)1 K8 尺寸系數(shù) 軸經(jīng)磨削加工由附表 11 4 得表面質(zhì)量系數(shù)95 則0 1 彎曲應(yīng)力 MPaWb97 251643 應(yīng)力幅 pa 平均應(yīng)力 0m 切應(yīng)力 aT67 25 1893 MpTma 安全系數(shù) 9 8702 97 50 11 maKS 62 53 1 92 81 ma 476 5 87222 S 查參考文獻(xiàn) 13 表 11 8 得許用安全系數(shù) 則 5 13 S S 剖面安全即主軸的強(qiáng)度滿足要求 a 3 9 主軸箱體及其附件的選擇設(shè)計(jì) 3 9 1 主軸箱的選擇設(shè)計(jì) 該柴油機(jī)氣缸體三面鉆組合機(jī)床主軸箱選用 630 630 的通用主軸箱體主軸箱體材料為 HT200 前后蓋的材料是 HT150 雖然主軸箱是通用的但為了滿足具體的使用要求故在此基礎(chǔ)上進(jìn)行了一系列的補(bǔ)充加工其補(bǔ)充加工的情況可參見(jiàn)補(bǔ)充加工圖 3 9 2 主軸箱上的附件材料的設(shè)計(jì) a 分油器本主軸箱中分油器選用 B ZIR31 2 36 型分油器其作用是把油分成幾路分別潤(rùn)滑不同排數(shù)的齒輪及軸承以便于保證軸承齒輪有一定的使用壽命減少摩擦和磨損降低振動(dòng) 消耗發(fā)熱柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 30 b 油杯油杯是用來(lái)給箱體注油用的以保證箱體內(nèi)油量滿足使用要求 c 油塞油塞是用來(lái)放油用的應(yīng)該置在箱體的底部由于該主軸箱是臥式組合機(jī) 床故活塞放置在箱體上放油孔螺母與凸臺(tái)之間應(yīng)加封油圈密封 d 油標(biāo) 油標(biāo)是用來(lái)指示油的高度的應(yīng)該放置在便于檢查及油面較穩(wěn)定處該主軸箱選用管狀油標(biāo) GB1162 79 放置在箱體側(cè)面上鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 31 4 結(jié)論本課題設(shè)計(jì)的組合機(jī)床采用一面兩銷定位液壓夾緊一次性加工柴油機(jī)齒輪室蓋三個(gè)面上的鉆鏜孔保證了加工精度提高了加工效率減少了工人的勞動(dòng)強(qiáng)度而且在設(shè)計(jì)之中盡量選用通用件進(jìn)一步減少了制造成本從而增加了經(jīng)濟(jì)效益柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 32 參考文獻(xiàn) 1 葉偉昌主編機(jī)械工程及自動(dòng)化簡(jiǎn)明設(shè)計(jì)手冊(cè) 上冊(cè) 北京機(jī)械工業(yè) 出版社 2001 2 葉偉昌主編機(jī)械工程及自動(dòng)化簡(jiǎn)明設(shè)計(jì)手冊(cè) 下冊(cè) 北京機(jī)械工業(yè) 出版社 2001 3 胡家秀主編機(jī)械零件設(shè)計(jì)實(shí)用手冊(cè) 北京機(jī)械工業(yè)出版社 1999 4 李益民主編機(jī)械制造工藝設(shè)計(jì)手冊(cè) 北京機(jī)械工業(yè)出版社 1995 5 艾興等主編金屬切削用量手冊(cè) 北京機(jī)械工業(yè)出版社 1996 6 范云漲等主編金屬切削機(jī)床設(shè)計(jì)簡(jiǎn)明手冊(cè) 北京機(jī)械工業(yè)出版社 1993 7 孟憲椅等主編機(jī)床夾具圖冊(cè) 北京機(jī)械工業(yè)出版社 1991 8 韓敬禮等主編機(jī)械電氣設(shè)計(jì)簡(jiǎn)明手冊(cè) 北京機(jī)械工業(yè)出版社 1994 9 謝家瀛主編組合機(jī)床設(shè)計(jì)簡(jiǎn)明手冊(cè) 北京機(jī)械工業(yè)出版社 1992 10 楊培元等主編液壓系統(tǒng)設(shè)計(jì)手冊(cè) 北京機(jī)械工業(yè)出版社 1995 11 大連組合機(jī)床研究所編組合機(jī)床設(shè)計(jì) 北京機(jī)械工業(yè)出版社 1995 12 大連組合機(jī)床研究所編組合機(jī)床設(shè)計(jì)參考圖冊(cè) 北京機(jī)械工業(yè)出版社 1986 13 徐錦康主編機(jī)械設(shè)計(jì) 北京機(jī)械工業(yè)出版社 2001 14 陳秀寧施高義機(jī)械設(shè)計(jì)課程設(shè)計(jì) 杭州浙江大學(xué)出版社 1995 15 姚永明主編非標(biāo)準(zhǔn)設(shè)備設(shè)計(jì) 上海上海交通大學(xué)出版社 1999 鹽城工學(xué)院畢業(yè)設(shè)計(jì)說(shuō)明書(shū) 2006 33 致謝本次畢業(yè)設(shè)計(jì)我的課題是柴油機(jī)氣缸體三面鉆鏜孔組合機(jī)床總體及右主軸箱設(shè)計(jì) 在劉道標(biāo)老師指導(dǎo)下及與同組設(shè)計(jì)人員共同努力下如期完成了任務(wù) 由于我們還是學(xué)生所以在設(shè)計(jì)這方面還是缺乏經(jīng)驗(yàn)的但設(shè)計(jì)任務(wù)擺在我們面前我們不得不想辦法去完成這設(shè)計(jì)任務(wù) 院里也知道我們學(xué)生只懂得一些理論知識(shí) 對(duì)生產(chǎn)實(shí)踐的內(nèi)容知之甚少所以在做畢業(yè)設(shè)計(jì)之前給我們安排了為期兩個(gè)星期的畢業(yè)實(shí)習(xí) 在實(shí)習(xí)過(guò)程中通過(guò)與工廠里的師傅們的交流我認(rèn)識(shí)到并非所有的理論知識(shí)都能在實(shí)踐中運(yùn)用總的來(lái)說(shuō) 通過(guò)這次畢業(yè)實(shí)習(xí) 我對(duì)所要設(shè)計(jì)的組合機(jī)床有了一個(gè)感性的認(rèn)識(shí) 對(duì)我的畢業(yè)設(shè)計(jì)是有很大的幫助作用因此在這里對(duì)院里為我們安排的實(shí)習(xí)表示感謝為期三個(gè)月的畢業(yè)設(shè)計(jì)已結(jié)束回顧這三個(gè)月我覺(jué)得做設(shè)計(jì)并不是十分的容易的事情它需要我們查閱大量的文獻(xiàn)資料將不同課程的知識(shí)綜合地運(yùn)用起來(lái) 因此它不同于以前單一的課程設(shè)計(jì) 畢業(yè)設(shè)計(jì)不僅是對(duì)大學(xué)學(xué)習(xí)的一個(gè) 總結(jié) 它還是對(duì)工作環(huán)境的一種模擬通過(guò)本次的畢業(yè)設(shè)計(jì)使我能夠?qū)⒗碚撆c 實(shí)踐融會(huì)貫通加深了對(duì)理論知識(shí)理解的同時(shí)對(duì)實(shí)踐經(jīng)驗(yàn)有了進(jìn)一步的提高只有深入生產(chǎn)實(shí)踐才能體會(huì)到理論聯(lián)系實(shí)踐的重要性認(rèn)識(shí)到理論與實(shí)踐之間的差距而縮短這一差距的方法只有反復(fù)地去實(shí)踐本次設(shè)計(jì)的組合機(jī)床較好的解決了對(duì)柴油機(jī)齒輪室蓋的三面鉆鏜孔問(wèn)題在提高生產(chǎn)質(zhì)量改善操作人員勞動(dòng)條件等方面發(fā)揮了很大的作用但尚存在一些問(wèn)題例如在定位時(shí)采用兩個(gè)銷定位這銷是由人工插入銷孔中這造成輔助時(shí)間的延長(zhǎng) 一臺(tái)機(jī)床所要設(shè)計(jì)的零件有很多因此光靠一個(gè)人的力量是不行的總的來(lái)說(shuō) 在整個(gè)設(shè)計(jì)過(guò)程我意識(shí)到了團(tuán)隊(duì)的重要性作為一個(gè)整體彼此間的分工協(xié)助合作是相當(dāng)?shù)闹匾?這對(duì)于即將踏上工作崗位的我來(lái)說(shuō) 無(wú)疑更具有意義和價(jià)值本次設(shè)計(jì)任務(wù)業(yè)已順利完成但限于本人的水平和經(jīng)驗(yàn) 且是第一次做這樣的工作本設(shè)計(jì)中一定有錯(cuò)誤和不妥之處在此懇請(qǐng)各位老師批評(píng)指正在這次畢業(yè)設(shè)計(jì)期間我得到了劉道標(biāo)老師的悉心指導(dǎo) 同組同學(xué)的熱心幫助在這對(duì)設(shè)計(jì)過(guò)程中所有幫助過(guò)我的人一并致謝柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 34 附錄序號(hào) 圖名圖號(hào) 圖幅 1 機(jī)床尺寸聯(lián)系圖 ZH1105W06 01 A0 2 加工示意圖 ZH1105W06 02 A1 3 被加工零件工序圖 ZH1105W06 03 A0 4 右主軸箱裝配圖 ZH1105W06 00 A0 5 坐標(biāo)檢查圖 ZH1105W06 04 A2 6 前蓋補(bǔ)充加工圖 ZH1105W06 05 A2 7 后蓋補(bǔ)充加工圖 ZH1105W06 06 A2 8 上蓋補(bǔ)充加工圖 ZH1105W06 07 A3 9 側(cè)蓋補(bǔ)充加工圖 ZH1105W06 08 A3 10 箱體補(bǔ)充加工圖 ZH1105W06 09 A2 11 主軸 ZH1105W06 10 A3 12 傳動(dòng)軸 ZH1105W06 11 A3 13 變位齒輪 ZH1105W06 12 A3 畢業(yè) 設(shè) 計(jì) 說(shuō) 明書(shū) 柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì) 專業(yè) 機(jī)械設(shè)計(jì)制造及其自動(dòng)化學(xué)生姓名聞志祥班級(jí) B 機(jī)制 023 學(xué) 號(hào) 0210110316 指導(dǎo)教師劉道標(biāo) 完成日期 2005 年 6 月 5 日外文翻譯專業(yè) 機(jī)械設(shè)計(jì)制造及其自動(dòng)化學(xué) 生姓名聞志祥班級(jí) B 機(jī) 制 023 學(xué) 號(hào) 0210110316 指導(dǎo) 教師劉道標(biāo) 1 鉆削與鏜削 Addison Wesley pub Co 聞志祥譯摘要通過(guò)驅(qū)動(dòng)刀具能在工件上鉆出通孔或盲孔鉆刀是正對(duì)著工件繞著自己的軸線旋轉(zhuǎn) 當(dāng)然刀具從其軸線向外的切削距離應(yīng)和需加工的孔的半徑相等在實(shí)際生產(chǎn)中是采用關(guān)于同一軸線對(duì)稱的兩切削刀刃的刀具鉆削既可被應(yīng)用于手工也可用于鉆床中鉆床在尺寸和結(jié)構(gòu)上有所不同然而當(dāng)工件被牢固地安裝好后鉆刀總是繞著自己的軸線旋轉(zhuǎn) 這是和在車床上鉆孔是相反的鏜孔是擴(kuò)大以前鉆削或鏜削好了的孔鏜孔能夠消除鉆空加工時(shí)孔所產(chǎn)生的偏心使孔擴(kuò)大到需鉸削的尺寸下面是對(duì)鉆削鉆床分類和鏜孔的簡(jiǎn)要介紹關(guān)鍵詞鉆削鏜削鉆床鉆削刀具鏜刀鉆床的分類鉆削刀具在鉆削操作中采用的是一種柱形的螺旋式刀具被稱之為鉆刀鉆刀有一條或兩條切削刃和相應(yīng)的出屑槽出屑槽呈直線或螺旋線形出屑槽的作用是為在鉆削過(guò)程中產(chǎn)生的切屑提供一個(gè)通道同時(shí)也是便于潤(rùn)滑劑和冷卻劑到達(dá)鉆刀的切削刃和工件的被加工表面以下是普通刀具的概括論述圖 4 1 麻花鉆麻花鉆是最普通的一類鉆刀麻花鉆有兩條切削刃和兩條螺旋線形的出屑槽出屑槽連續(xù)地圍繞分布在整個(gè)鉆體上如圖 4 1 鉆刀除了鉆體部分還有鉆頸和鉆柄鉆柄可以是圓柱形也可以是錐行在后者的情況下鉆柄是通過(guò) 柄舌的楔形作用安裝在主軸的錐形鉆套中柄舌是安裝在主軸鉆套的狹槽中這樣鉆刀和主軸形成一個(gè)整體來(lái)傳遞旋轉(zhuǎn)運(yùn)動(dòng) 在另一方面圓柱形鉆柄是被安裝在鉆鉆體頂角楔邊死頂尖出屑槽螺旋角頸部柄部出屑槽刀刃刃帶后刃面出屑槽刀刃刃帶柄舌 2 夾頭里然后以安裝錐形鉆柄的方法將其安裝進(jìn)主軸的鉆套中從圖 4 1 可以看出兩條切削邊被稱為刀刃兩條切削刃是通過(guò)楔子連接在一起麻花鉆還有兩條刃帶其能在鉆削操作中對(duì)刀具起正確的導(dǎo)向和定位的作用兩條刀刃形成鉆刀的頂角頂角大小的選擇是依據(jù)被加工材料的特性工業(yè)生產(chǎn)中經(jīng)常使用的鉆刀的頂角是 118 其適合鉆削低碳鋼和鑄鐵對(duì)于硬度和剛度較高的金屬譬如硬剛黃銅和青銅宜選用稍大頂角 130 或 140 的鉆刀常用麻花鉆的出屑槽的螺旋角是范圍是在 24 30 之間當(dāng)在鉆削銅或軟塑材料時(shí) 推薦使用螺旋角較大的刀具 35 45 之間圖 4 2 空心鉆空心鉆是由倒棱鉆體鉆頸和鉆柄組成如圖 4 2所示此類的空心鉆有三條或四條出屑槽和相應(yīng)數(shù)量的刃帶保證良好的導(dǎo)向來(lái)獲得高的加工精度從圖 4 2還可以看出空心鉆有一平斷倒棱可能有三條或四條切削邊或稱為刀刃頂角可在 90 120范圍內(nèi)變化空心鉆是用來(lái)擴(kuò)大先前已有的孔它不是用來(lái)鉆削新的孔的空心鉆有高的生產(chǎn)率高的加工精度和能鉆削出高質(zhì)量的表面的特性槍孔鉆槍孔鉆是用來(lái)加工深孔的所有的槍孔鉆的出屑槽都是直的只有一單條切削刃在槍鉆的鉆體上有一個(gè)孔其起著導(dǎo)管的作用冷卻劑在較的壓力下通過(guò)該孔流到槍鉆的頂尖部位現(xiàn)有兩種槍鉆即用來(lái)加工盲孔的中心鉆和套筒鉆套筒鉆的中心有一個(gè)圓柱形孔鉆孔時(shí)可在工件上形成一個(gè)芯子當(dāng)鉆頭連續(xù)進(jìn)給進(jìn)行鉆孔時(shí) 芯子對(duì)鉆起導(dǎo)向作用平鉆平鉆是用于鉆削大于 7 2英寸的孔 90mm 乃至更大的孔該類的鉆易于磨削鏜刀鏜孔是擴(kuò)大以前鉆削或鏜削好了的孔鏜孔能夠消除鉆空加工時(shí)孔所產(chǎn)生的偏心使孔擴(kuò)大到需鉸削的尺寸平底擴(kuò)孔是指擴(kuò)大一個(gè)鉆孔的末端這個(gè)擴(kuò)大的孔的底部是平的它與原來(lái)的頂角倒棱鉆體鉆頸鉆柄 3 孔是同軸的刀具與導(dǎo)向銷一起使用導(dǎo)向銷裝進(jìn)已鉆好的孔中用于切削刃對(duì)中平底擴(kuò)孔主要用于在上面安裝螺栓下面安裝螺釘?shù)目椎募庸?在一個(gè)已加工好的孔上加工一個(gè)小的平面該面稱之為刮孔平面在粗糙的表面上為螺栓提供平滑的沉頭座的操作是很普遍的如果把一個(gè)已加工控切成斜邊以便適合一個(gè)平底螺栓的圓錐座該操作稱為锪錐面刀具用于臥式鏜床或是被安裝在一個(gè)大型桿上或是作一個(gè)鏜前頭它們依次排布在機(jī)床的主軸上絕大多數(shù)鏜孔操作是使用具有一個(gè)單齒的鏜刀如圖 4 3所示因?yàn)樗麄円子诎惭b和維修鏜桿的作用是將來(lái)機(jī)床自軸的動(dòng)力傳遞到刀具上和保持在切削過(guò)程中的剛性在加工過(guò)程中工件通常不動(dòng) 刀具在孔中作旋轉(zhuǎn)進(jìn)給運(yùn)動(dòng) 如圖所示通常需給鏜桿提供附加支撐鏜桿必須足夠的長(zhǎng)以達(dá)到末端支撐和為機(jī) 床操作提供一定的縱向空間圖 4 3 在銑床坐標(biāo)鏜床或鉆床上進(jìn)行精密鏜削時(shí) 有必要使用一種帶有千分尺調(diào) 整的工具這種工具安裝在刀具頭上并作旋轉(zhuǎn)運(yùn)動(dòng) 因此任何孔徑的增加必須通過(guò) 調(diào)整工具半徑來(lái)獲得圖 4 3b所示的是最常見(jiàn)的組合式雙鏜刀布置形式他包括兩個(gè)相對(duì)的刀具夾在溝槽中螺柱是用來(lái)在指定位置鎖緊刀具和調(diào)整他們的位置整體裝進(jìn)一個(gè)矩形狹槽中且鎖在固定位置刀具固定在滑行刀架里且與頂尖成一條直線刀具的精度取決與刀具車間的全體人員而不是操作者端部支承鏜桿工件主軸床頭箱鏜桿鏜刀鏜刀工作臺(tái) 圖 4 4 4 通常用于小型機(jī)床譬如車床的鏜刀是單齒鏜刀他是被以其能進(jìn)入孔內(nèi)的方式支承著圖 4 4a所示刀具的末端事實(shí)鍛造的然后通過(guò)磨削成型它是安裝在一個(gè) 單獨(dú)的支承桿上該支承桿是安裝在車床的刀架上對(duì)于轉(zhuǎn)塔車床所用的是類似于圖 4 4b所示的刀具只是刀桿稍有不同刀具的修改是鏜桿部分如圖 4 4c所示它被設(shè)計(jì)成在鏜桿的末端擁有一個(gè)小型高速鋼刀具鏜桿的剛度強(qiáng) 其長(zhǎng)度可根據(jù) 孔的長(zhǎng)度作相應(yīng)的調(diào)整盡管這些刀具的間隙斜度和切削角應(yīng)該接近那些在車床操作中推薦使用的相近但如果孔較小的話這些角度是不能使用的在加工工件中普遍使用多切削刃的鏜刀如圖 4 4f 這些表面類似筒形絞刀的刀具但具有鑲齒銑刀它們被調(diào)整成補(bǔ)償磨損和直徑變化這種類型的鏜刀比單刃刀具有較長(zhǎng)的壽命因此在加工中更經(jīng)濟(jì) 如圖 4 4e 所示的帶有導(dǎo)向銷的以保證同軸度的平底擴(kuò)孔刀具是用來(lái)擴(kuò)大孔的末端鉆床的分類便攜式的小機(jī)床上可實(shí)現(xiàn)鉆削操作一般的機(jī)床上也可以實(shí)現(xiàn)鉆削操作一般的機(jī)床在形狀和尺寸上不同于便攜式小機(jī)床但它們也有共同的特征例如它們都擁有一根或更多根的麻花鉆當(dāng)在加工以被固定裝好了的工件時(shí) 每根麻花鉆繞著自己的軸作旋轉(zhuǎn)運(yùn)動(dòng) 這和在車床上工件被夾緊并隨著卡盤(pán)作旋轉(zhuǎn)運(yùn)動(dòng)而進(jìn)行的鉆削是相反的下面是對(duì)一些普通式鉆床的概述臺(tái)式鉆床臺(tái)式鉆床通常是被放在工作臺(tái)上的普通加工用途的小型機(jī)床這種鉆床包括一個(gè)動(dòng)力來(lái)源的電動(dòng)機(jī) 動(dòng)力是通過(guò)滑輪和皮帶傳遞到裝有刀具的主軸上進(jìn)給運(yùn)動(dòng)是通過(guò)降低操縱桿由操縱桿帶動(dòng)主軸的下降或上升來(lái)實(shí)現(xiàn)的臺(tái)鉆的主軸在套筒內(nèi)自由旋轉(zhuǎn) 套筒由操縱桿通過(guò)齒輪齒條系統(tǒng)驅(qū)動(dòng) 但不隨主軸一起旋轉(zhuǎn) 加工工件時(shí) 工件是被放在機(jī)床的工作臺(tái)上有時(shí)需要一個(gè)特殊的花鉗來(lái)固定被加工工件的最大厚度是受機(jī)床主軸與工作臺(tái)之間的間隙限制立式鉆床立式鉆床可被用于輕度中等甚至相對(duì)重負(fù)荷強(qiáng)度的工作這主要取決于立式鉆床的尺寸立式鉆床與臺(tái)式鉆床基本相似主要的不同點(diǎn)是里是立式鉆床的底座上裝有一較長(zhǎng)的圓柱形支柱在支柱上附加安裝了一個(gè)可以鎖定在任一想要高度的滑動(dòng)工作臺(tái) 當(dāng)立式鉆床用于中等強(qiáng)度的工作時(shí) 其所需的動(dòng)力要比臺(tái)式鉆床的多在立式鉆床里有比較的的鉆床因此這大的鉆床有一個(gè)箱柱和較高的動(dòng)力 5 以此滿足重負(fù)荷此外它是采用齒輪箱為主軸提供不同的旋轉(zhuǎn)速度和軸向進(jìn)給量通過(guò)齒輪箱可以預(yù)先設(shè)置任何想要的主軸轉(zhuǎn)速和進(jìn)給速率多軸鉆床多軸鉆床的結(jié)構(gòu)堅(jiān)固其工作時(shí)需要很強(qiáng)的動(dòng)力每臺(tái)多軸鉆床能同時(shí)鉆削很多孔為滿足加工要求不同的刀具是可以調(diào)整的同時(shí)根據(jù)需要整個(gè)床頭箱部分帶有主軸和刀具是可以傾斜的這類的鉆床主要用于批量生產(chǎn)且擁有很多孔的零件的加工例如汽缸體排式鉆床當(dāng)幾個(gè)獨(dú)立的鉆頭每個(gè)都有一個(gè)單獨(dú)主軸排列在一個(gè)單獨(dú)的普通的工作臺(tái)上此時(shí) 該機(jī)床被稱之為排式鉆床這種機(jī)床特別地適用于幾種需連續(xù)進(jìn)行的操作搖臂鉆床搖臂鉆床特別地適合那些不便于安裝在立式鉆床上的大型和重型工件進(jìn)行鉆孔在圖 4 5可以看出搖臂鉆床有一安裝在底座上的立柱搖臂鉆床的搖臂帶著鉆床的床頭箱主軸和刀具移動(dòng) 該搖臂能夠沿立柱上升或下降并可以鎖緊在任一所需的位置上床頭箱沿著搖臂滑動(dòng)并使主軸作旋轉(zhuǎn)運(yùn)動(dòng)和軸向進(jìn)給運(yùn) 動(dòng) 此外搖臂能夠擺動(dòng) 因此刀具可移動(dòng)到圓柱坐標(biāo)系統(tǒng)的任一位置轉(zhuǎn)塔鉆床歸屬于轉(zhuǎn)塔鉆床類的機(jī)床或是半自動(dòng)或是全自動(dòng)控制的轉(zhuǎn)塔機(jī) 床的一個(gè)普遍的設(shè)計(jì)特征是用轉(zhuǎn)塔代替原來(lái)機(jī)床的主軸轉(zhuǎn)塔上裝有幾把鉆削鏜削和螺紋切削刀具因此幾種連續(xù)的操作只需要在一次初安裝下就可以完成在兩種操作之間不需要再次裝夾工件電動(dòng)機(jī) 立柱底座主軸搖臂鉆床的床頭箱絲桿圖 4 5 6 如今由數(shù)字或計(jì)算機(jī)控制系統(tǒng)控制的自動(dòng)轉(zhuǎn)塔鉆床是相當(dāng)?shù)钠毡榱?在這種情況下人的工作只是對(duì)工件進(jìn)行初安裝和對(duì)其進(jìn)行監(jiān)控這類機(jī)床就空間要求機(jī)床的物理尺寸和工件裝夾次數(shù)而言比排式鉆床有優(yōu)越性長(zhǎng)孔鉆床長(zhǎng)孔鉆床是一類特殊的被用作鉆削長(zhǎng)孔的機(jī)床譬如槍管的長(zhǎng)孔就是用此類機(jī)床加工通常長(zhǎng)孔鉆在使用時(shí)對(duì)工件的進(jìn)給速度是較慢的這類機(jī)床在工作時(shí) 工件作旋轉(zhuǎn)運(yùn)動(dòng) 而刀具不作旋轉(zhuǎn)運(yùn)動(dòng) 長(zhǎng)孔鉆床有立式結(jié)構(gòu)也有臥式結(jié)構(gòu) 然而這兩種結(jié)構(gòu)的共同特征是在鉆削過(guò)程中工件的精確導(dǎo)向和剛性支承坐標(biāo)鏜床這類機(jī)床是為獲得高的精確性和精密性而特別設(shè)計(jì)的這類機(jī)床不但鉆孔而且能夠給孔定位因?yàn)楣ぷ髋_(tái)的運(yùn)動(dòng)由電子測(cè)量裝置監(jiān)控著 7 DRILLING AND BORING Addison Wesley pub Co Abstract Drilling involves producing through or blind holes in a workpiece by forcing a tool which rotates around its axis against the workpiece Consequently the range of cutting from that axis of rotation is equal to the radius of the required hole In practice two symmetrical cutting edges that rotate about the same axis are employ Drilling operations can be carried out by using either hand drills or drilling machine The latter differ in size and construction Nevertheless the tool always rotates around its axis while the workpiece is kept firmly fixed This is contrary to drilling on a lathe Boring is enlarging holes previously drilled or bored Drilled holes are frequently bored to eliminate any possible eccentricity and to enlarge the hole to a reaming size Following is a survey of drilling drilling machine tool and boring Keyword drilling boring drilling machine tool classification of drilling machine cutting tool for drilling operations cutting tool for boring operations CUTTING TOOL FOR DRILLING OPERATIONS In drilling operations a cylindrical rotary end cutting tool called a drill is employed The drill can have either one or more cutting edges and corresponding flutes which can be straight or helical The function of the flutes is to provide outlet passages for the chips generated during the drilling operation and also to allow lubricants and coolants to reach the cutting edges and the surface being machined Following is a survey of the commonly used drills Twist drill The twist drill is the most common type of drill It has 8 two cutting edges and two helical flutes that continue over the length of the drill body as shown in Fig 4 1 The drill also consists of a neck and a shank that can be either straight or tapered In the latter case the shank is fitted by the wedge action into the tapered socket of the spindle and has a tang which goes into a slot in the spindle socket thus acting as a solid means for transmitting rotation On the other hand straight shank drills are held in a drill chuck that is in turn fitted into the spindle socket in the same way as tapered shank drills Fig 4 1 The twist drill As can be seen in Fig 4 1 the two cutting edges are referred to as the lips and are connected together by a wedge which is a chisel like edge The twist drill also has two margins which enable proper guidance and locating of the drill while it is in operation The tool point angle TPA is formed by the two lips and is chosen based on the properties of the material to be cut The usual TAP for commercial drills is 118 which is appropriate for drilling low carbon steels and cast irons For harder and tougher metals such as hardened steel brass and bronze larger TAPs 130or 140 give better performance The helix angle of the flutes of the commonly used twist drills ranges between 24 and 30 When drilling copper or soft plastics higher values for the helix angle are recommended between35 and 45 9 Fig 4 2 The core drill Core drills A core drill consists of the chamfer body neck and shank as shown in Fig 4 2 This type of drill may have either three or four flutes and an equal number of margins which ensure superior guidance thus resulting in high machining accuracy It can also be seen in Fig 4 2 that a core drill has flat end The chamfer can have three or four cutting edges or lips and the lip angle may vary between 90 and 120 Core drills are employed for enlarging previously made holes and not for originating holes This types of drill is characterized by greater productivity high machining accuracy and superior quality of the drilled surfaces Gun drills Gun drills are used for drilling deep holes All gun drills are straight fluted and each had a single cutting edge A hole in the body acts as a conduit to transmit coolant under considerable pressure to the tip of the drill There are two kinds of gun drills namely the center cut dill used for drilling blind holes and the trepanning drill The latter has a cylindrical groove at its center thus generating a solid core which guides the tool as it proceeds during the drilling operation Spade drill Spade drills are used for drilling large holes of 7 2in 90mm or more Their which results in a marked saving in cost of the tool as well as a tangible reduction in its weight which facilitates its handling Moreover this type of drill is easy to grind BORING TOOLS Boring is enlarging holes previously drilled or bored Drilled holes are frequently bored to eliminate any possible eccentricity and to enlarge 10 the hole to a reaming size Counterboring is enlarging one end of a dilled hole The enlarged hole which is concentric with the original one is flat on the bottom The tool is provided with a pilot pin that fits into the drilled hole to center the cutting edges Counterboring is used principally to set bolt heads and nuts below the surface To finish off a small surface around a drilled hole is known as spot facing This is a customary practice on tough surface to provide smooth seats for bolt heads If the top of a drilled hole is beveled to accommodate the conical seat pf a flat head screw the operation is called countersinking Fig 4 3 Tools used in horizontal boring machines are mounted in either a heavy bar or a boring head which in turn is connected to the main spindle of the machine Most boring operations use a single point cutter as shown in Fig 4 3 because they are simple to set up and maintain The bar serves to transmit power from the machine spindle to the cutter as well as to hold it rigidly during the cutting operation The workpiece is normally stationary and the rotating cutter is fed through the hole It is often necessary to provide additional support for the bar as shown in the figure The bar must be long enough to reach the end support and also must provide the necessary longitudinal traverse for the machining operation For precision boring work on milling machines jig bore or drill presses it is necessary to use a tool having micrometer adjustment Such 11 tools are held in a cutter head and rotate Hence any increase in hole size must be obtained by adjusting the tool radially from its center The most popular double cutter arrangement is the block type shown in Fig 4 3b which consists of two opposing cutters resting in grooves on the block Screws are provided to lock the cutters in position as well as to adjust them The entire assembly fits into a rectangular slot in the cutters in position as well as to adjust them The entire assembly fits into a rectangular slot in the bar and is keyed in place Cutters are ground while assembled in the block and are held in alignment by the center holes provided The responsibility for tool accuracy and setup belongs to the toolroom personnel rather than the operator Fig 4 4 Types of boring tools The boring tool commonly use in small machines such as lathes is a single pointed tool supported in a manner that permits its entry into a hole This tool shown in Fig 4 4a is forged at the end and then ground to shape It is supported in a separate holder that fits into a lathe tool post For turret lathes slightly different holders and forged tools similar to the one shown in Fig 4 4b are used A modification of this tool is the boring bar shown in Fig 4 4c which is designed to hold a small high speed steel tool bit at the end The bar supporting the tool is rigid and may be adjusted according to the hole length Although the clearance rake and cutting angles cannot be used if the tools should be similar to those recommended for lathe work these angles cannot be used if the holes are small 12 In production work boring cutters with multiple cutting edges are widely used These cutters shown in Fig 4 4f resemble shell reamers in appearance but are usually provided with inserted tooth cutters that may be adjusted radially to compensate for wear and variations of diameter Boring tools of this type have longer life than single pointed tools and hence are more economical for production jobs The counterboring tool shown in Fig 4 4e provided with pilots to ensure concentric diameters Is designed to recess or enlarge one end of a hole CLASSIFICATION OF DRILLING MACHINES Drilling operations can be carried out by employing either portable small machines or appropriate machine tools The latter differ in shape and size although they have common features For instance they all involve one or more twist drills each rotating around its own axis while the work piece is kept firmly fixed This is contrary to the drilling operation on a lathe where the work piece is held in and rotates with the chuck Following is a survey of the commonly used types of drilling machines Beach type drilling machines Beach type drilling machines are general purpose small machine tools that are usually placed on benches This type of drilling machine includes an electric motor as the source of motion which is transmitted via pulleys and belts to the spindle where the tool is mounted The feed is manually generated by lowering a lever handle which is designed to lower or raise the spindle The latter rotates freely inside a sleeve which is actuated by the lever through a rackpinion system but does mot rotate with the spindle The workpiece is mounted on the machine table although a special vise is sometimes used to hold the workpiece The maximum height of a workpiece to be machined is limited by the maximum gap between the spindle and the machine table Upright drilling machines Depending upon the size upright drilling 13 machine tools can be used for light medium and even relatively heavy jobs It is basically similar to bench type machines the main difference being a longer cylindrical column fixed to the basic Along that column is an additional sliding table for fixing the workpiece which can be locked in position at any desired height The power required for this type is more than that for bench type drilling machines since this type is employed in performing medium duty job There are also large drilling machines of the upright type In this case the machine has a box column and a higher power to deal with large jobs Moreover gear boxes are employed to provide different rotational spindle speeds as well as the axial feed motion which can be preset at any desired rate Multispindle drilling machines Multispindle drilling machines have sturdy construction and require high power each is capable of drilling many holes simultaneously The positions of the different tools spindles can be adjusted as desired Also the whole head which carries the spindles and tools can sometimes be titled as required This type of drilling machine is used mainly for mass production in jobs having many holes such as cylinder blocks Gang drilling machines When several separate heads each with a single spindle are arranged on a single common table the machine tool is then referred to as a gang drilling machine This type of machine tool is particularly suitable where several operations are to be performed in succession 14 Fig 4 5 A Sketch of radial drill Radial drill A radial drill is particularly suitable for drilling holes in large and heavy workpiece that are inconvenient to mount on the table of an upright drilling machine As you can see in Fig 4 5 a radial drilling machine has a main column which is fixed to base The cantilever guide arm which carries the drilling head spindle and tool can be raised or lowered along the column and clamped at any desired position The drill head slides along the arm and provides rotary motion and axial feed motion Again the cantilever guide arm can be swung thus enabling the tool to be moved in all directions according to a cylindrical coordinate system Turret drilling machines Machines tools that belong to the turret drilling machines are either semi or fully automatic A common design feature is that the main spindle is replaced by a turret which carries several drilling boring reaming and threading tools Consequently several successive operations can be carried out with only a single initial setup and without the need for setting up the workpiece again between two operations Nowadays automatic turret drilling machines that are operated by NC or CNC systems are quite common In this case the human role is limited to the initial setup and monitoring This type of machine tool therefore has advantages over the gang drilling machines with respect to space required 15 physical size of the machine tool and the number of workpiece setup Deep hole drilling machines Deep hole drilling machines are special machines employed for drilling long holes like those of rifle barrels Usually gun type drills are used these are fed slowly against the workpiece In this type of machine tool it is the workpiece that is rotated while the drill is kept from rotary motion A deephole drilling machine may have either a vertical or horizontal construction However in both case the common feature is the precise guidance and positive support of the workpiece during the drilling operation Jig boring machine These machine tools are specially designed to posses high precision and accuracy A machine of this type not only drills the holes but also locates them because the table movements are monitored by electronic measuring devices References 1 Valliere D Computer Aided Designing Manufacturing Prentic Hall 1990 2 Goetsch D L Midern Manufacturing Process Delmar Publishers Inc 1991 3 Goetsch D L Advanced Manufacturing Technology Delmar Publishers Inc 1990 4 Amstead B H Manufacturing Processes 1987 5 Metalforming Digest ASM international 1993 6 Edwards Tr K S McKee R B Fundamentals of Mechanical Component Design McGrawHill 1991 7 Chemov N Machine Tools Mir Publishers 1984 8 Wakil Sherif D E1 Processes and Design for Manufacturing Prentice Hall 1989 16 9 Wright R T Processes of Manufacturing The Coodheart Willcox Company Inc 1987

柴油機(jī)齒輪室蓋鉆鏜專機(jī)總體及主軸箱設(shè)計(jì)【含CAD圖紙和畢業(yè)論文全套】.zip

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