EM165柴油機機體機械加工工藝及其組合機床鉆孔夾具設計含8張CAD圖
EM165柴油機機體機械加工工藝及其組合機床鉆孔夾具設計含8張CAD圖,em165,柴油機,機體,機械,加工,工藝,及其,組合,機床,鉆孔,夾具,設計,cad
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XX設計任務書
畢業(yè)生
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專業(yè)
指導教師
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學號
班級
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外聘、 √ 本校
一、畢業(yè)設計題目
EM165柴油機機體機械加工工藝及其
組合機床鉆孔夾具設計
二、畢業(yè)設計提供的原始數(shù)據(jù)資料
箱體類是機器或部件的基礎零件,它將機器或部件的一些軸、套、軸承和齒輪等有關零件裝配起來,使其保持正確的相互位置關系,以傳遞轉(zhuǎn)矩或改變轉(zhuǎn)速來完成規(guī)定的運動。因此,箱體的加工質(zhì)量對機器的工作精度、使用性能和壽命都有直接的影響。
箱體零件雖然結(jié)構多種多樣,但有共同的特點:多為鑄造件,結(jié)構復雜,壁薄且不均勻,內(nèi)部呈腔形,加工部位多,加工難度大。既有精度要求較高的孔系和平面,也有許多精度要求較低的緊固件。箱體類零件上面的孔與孔之間有較高的位置精度(孔與孔的平行度、孔的軸線與面有垂直度要求),其加工質(zhì)量的好壞直接影響柴油機的精度和使用性能,因此柴油機汽缸的加工質(zhì)量至關重要。箱體類零件的機械加工勞動量約占整個產(chǎn)品加工量的15%~20%。
EM165型柴油機的用途:?EM165柴油機陸用時,配以皮帶輪、聯(lián)軸器、離合器作為農(nóng)業(yè)排灌、發(fā)電機、電焊機、空壓機、水泵、碎石機及建筑機械等動力;船用時,配上倒順車離合器。減速齒輪箱后,可用作漁輪船動力,內(nèi)河航運主機及輪船輔機。
EM165型柴油機的結(jié)構特點:?機體:汽缸體和曲軸箱鑄成整體,兩側(cè)有檢查孔,汽缸套為濕式,用球墨鑄鐵制成,耐磨性好。曲軸:用球墨鑄鐵制成,經(jīng)正火處理后,提高了機械性能,耐磨性好。?
三、畢業(yè)設計應完成主要內(nèi)容:
1、畢業(yè)設計說明書:
1.分析柴油機機體零件結(jié)構特點
2.對機體零件進行工藝分析
3.確定機械毛坯種類和余量及毛坯尺寸
4.定制機體加工的工藝過程
5.確定切削用量及基本工時
6.鉆孔的夾具設計
2、畢業(yè)設計圖紙:
(1)總體設計完整、圖紙表達清晰;
(2)機體毛坯圖; A1 1張
(3)機體零件圖; A0 1張
(4)機械加工工藝過程卡片; A4 3張
(5)機械加工工序卡片; A0 2張
(6)夾具裝配圖; A0 1張
(7)夾具零件圖; A1 1張
(8)夾具零件圖(手繪); A1 2張
四、畢業(yè)生應提交的畢業(yè)設計資料要求
1、畢業(yè)設計說明書:
(1)畢業(yè)設計說明書必須打印成冊;
(2)按太原理工大學陽泉學院畢業(yè)設計說明書撰寫規(guī)范
(3)說明書正文40000字
(4)說明書按要求內(nèi)容填寫完備
(5)同時提交電子文檔;
(6)電子文檔的格式是:
①說明書必須是Word.DOC和EXCEL.Xls
②圖紙?zhí)峤坏碾娮游臋n資料必須是AUTOCAD.dwg的格式。
(7)郵箱地址(E-Mail):liruibin-2002@163.com
2、畢業(yè)設計圖紙:
(1)總體設計完整、圖紙表達清晰;
(2)機體毛坯圖; A1 1張
(3)機體零件圖; A0 1張
(4)機械加工工藝過程卡片; A4 3張
(5)機械加工工序卡片; A0 2張
(6)夾具裝配圖; A0 1張
(7)夾具零件圖; A1 1張
(8)夾具零件圖(手繪); A1 2張
五、設計進度安排(從第5周起)
序號
時間
周次
設計任務完成的內(nèi)容及質(zhì)量要求
1
3月24日~3月30日
第05周
查閱資料,復習與設計相關的知識
2
3月31日~4月06日
第06周
分析零件圖、繪制零件圖
3
4月07日~4月13日
第07周
進行工藝分析、繪制毛坯圖
4
4月14日~4月20日
第08周
進行工藝分析、制定工藝規(guī)程
5
4月21日~4月27日
第09周
完成說明書粗稿
6
4月28日~5月04日
第10周
繪制工藝過程卡片
7
5月05日~5月11日
第11周
說明書定稿,繪制夾具裝配圖
8
5月12日~5月18日
第12周
繪制夾具零件圖和工序卡片
9
5月19日~5月25日
第13周
檢查并修改說明書、圖紙
10
5月26日~6月01日
第14周
檢查并修改說明書、圖紙
11
6月02日~6月08日
第15周
打印和裝訂
12
6月09日~6月15日
第16周
教師評閱和開始答辯
六、主要參考文獻資料
1、工具書:
1. 呂明,《機械制造技術基礎》【M】武漢:武漢理工大學出版社.2012.4
2. 鄧文英,宋力宏,《金屬工藝學》.【M】北京:高等出版社.2008.4
3. 安琦,顧大強,《機械設計》【M】北京:科學出版社.2008
4. 曾令宜,《AutoCAD 2004工程繪圖技能訓練教程》【M】北京:高等教育出版社.2004.12
2、 參考資料:
[1] 浦林祥.《金屬切削機床夾具設計手冊(第二版)》[M].北京:機械工業(yè)出版社,1995
[2] 李洪.《機械加工工藝手冊》[M] 北京:北京出版社,1990
[3] 趙家齊.《機械制造工藝學課程設計指導書》[M]. 哈爾濱:哈爾濱工業(yè)大學,1994
[4] 薛源順.《機床夾具設計》[M].北京:機械工業(yè)出版社,2000
[5] 東北重型機械學院、洛陽工學院、第一汽車制造職工大學編,《機床夾具設計手冊第二版》[M]. 上海:上??茖W技術出版社,1990
[6] 葛金印.《機械制造技術基礎教學參考書》[M]. 北京:高等教育出版社,2005.
[7] 肖繼德.《機床夾具設計》第2版[M]. 北京:機械工業(yè)出版社,1997
[8] 張捷 趙虎 李先民.《機械制造技術基礎》[M].成都:西南交通大學,2005.12
[9] 毛昕 黃英 肖平陽.《畫法幾何及機械制圖》[M]. 北京:高等教育出版社,2010.7
[10] 向紅,梁正文.《車用發(fā)動機的發(fā)展前景》[J].交通標準化,2002,(12):141-145.?
[11] 陳因達.《發(fā)展我國車用發(fā)動機的戰(zhàn)略思考》[J].上海汽車,2004,(11):1-6.
[12] 周龍保編.《內(nèi)燃機學》[M].機械工業(yè)出版社.2005?
[13] 柴油機設計手冊編輯委員會.?《柴油機設計手冊》[M].?北京:中國農(nóng)業(yè)機械出版 社,1984
[14] 張宗杰.?《內(nèi)燃機課程設計指南》[M].?上海:華中理工大學出版社,1998?
[15] 動力工程師手冊編輯委員會.《?動力工程師手冊》[M].?北京:機械工業(yè)出版社,2001
[16]? Bahram?Khalighi?,?Daniel?C?Haworth,?Mark?S?Huebler.?Multi-dimensionalPort-and-In-Cylinder?Flow?Calculations?and?Flow?Visualization?Study?in?an?Internal?Combustion?Engine?with?Different?Intake?Configurations[J].?SAE?941871,?1994.
[17] ERICH?J.?SCHULZ?.??.?Gregg?Division?McGraw-Hill?Book?Company.??McGraw-Hill,Inc?,2000?
[18] ARTHUR?W.?JUDGE.??High?Speed?Diesel?Engines.?CHAPMAN&HALL??LTD?,1957?
[19] I.?Lilly.?L.C.R.??Diesel?engine?reference?book.??Butterworth?and?Co?Ltd?,1984
七、簽字欄
簽 字 欄
畢業(yè)生
姓名
專業(yè)
班級
要求設計工作起止日期
2014年3月24日--2014年 6 月 15日
教師審核
指導教師(簽字)
日期
201 年 月 日
教研室主任審查(簽字)
日期
201 年 月 日
系主任批準(簽字)
日期
201 年 月 日
第3頁 共 3頁
太原理工大學陽泉學院-----畢業(yè)設計任務書
外文文獻
One. A foreword
Development of diesel engines has been a hundred years of history, to the production of human life brought extraordinary convenience, but also to the development of human society provided the impetus extraordinary. In the development process more than a century, the diesel technology has appeared three times a qualitative leap.
In industrialized countries, essentially all trucks use diesel engines. In recent years, with the diesel engine turbocharged, intercooled, direct injection, exhaust gas catalytic converters and particulate traps and other advanced technology, diesel emissions have reached the Euro Ⅲ, Ⅳ emission standard in Europe, and thus set off a car engine of climax, Volkswagen AG, General Motors, Toyota Motor Corporation and other large auto companies also used diesel cars.
In a growing shortage of oil resources, the development of diesel vehicles will be one focus of future automotive industry. According to the National Automobile Development Plan, "fifth" period, diesel cars accounted for the proportion of total output in 2000 from 29.7% to around 35%, in the car to achieve full of diesel. At present, China diesel cars, diesel mini-vehicle production has just started, Volkswagen has developed a Jetta, Bora diesel cars in the domestic part of the city market.
Diesel engine compression ratio, high thermal efficiency, its fuel consumption is 30% lower than gasoline to 40%, plus diesel and motor gasoline and low processing costs compared to 5%, with the world's universal attention to energy-saving cars , automotive diesel engine development is the trend of the global automobile industry.
In addition to lower fuel consumption than the gasoline engine, the diesel and gasoline engine also has the power compared to large, long life and good dynamic performance, it produces greenhouse emissions 45% lower than gasoline, carbon monoxide and hydrocarbon emissions are also low, but its Nitrogen oxide emissions slightly larger than the gasoline engine, large emissions of harmful particles.
Two. EM165 diesel engine uses:
????EM165 diesel land available, with pulleys, couplings, clutches as agricultural irrigation, generators, welding machines, air compressors, pumps, crushers and construction machinery, such as power; while marine, coupled with inverted car clutch. After the reduction gear box, power can be used as fishing vessels, inland waterways host and auxiliary vessels.
Three. EM165 diesel engine structural features:
1. the body: the cylinder block and crankcase cast as a whole, on both sides of the inspection hole, the wet cylinder liners, made of ductile iron, good wear resistance.
2. Crankshaft: The ductile iron, after normalizing to improve the mechanical properties, good wear resistance.
3. cylinder heads: each cylinder heads, intake and exhaust ports are placed on one side, the other side is equipped with injection machines, cylinder head made of cast iron.
4. 45 # steel rod with forging, the shaft is H, the bulk of the flat incision.
5. the piston is made of aluminum alloy. Equipped with three gas rings and two oil rings, the first ring of porous chrome, piston pin for high-quality steel carburizing, hardening the surface.
6.valve train, intake and exhaust valves for the heat-resistant steel, ductile iron camshaft.
7. lubrication system Pressure splashed oil pump gear pump for the grade.
8. the governor of the mechanical centrifugal whole program.
9. with a single fuel injection pump, fuel injector for the hole axis inclined.
Fourth. the current situation and development of diesel engines:
???? Early seventies, and for the first time by the introduction of emission regulations affecting the world oil crisis, diesel fuel and low HC, CO emission characteristics of attention once again, the industry began to research and development of a new generation of diesel engines, designed to improve engine power performance and reduce emissions and noise and vibration. This provides new opportunities for application in diesel cars. Simultaneous development of world science and technology development, especially in electronics, precision machining, and testing of new materials such as high-tech equipment for the realization of this opportunity to provide technical possibility. 20 years thereafter, new combustion engine, direct injection combustion system, turbocharged and intercooled, electronically controlled high pressure injection, EGR valve structure and four other new technologies have been developed to the extent practical, diesel exhaust after treatment technology and high-quality diesel The development is also made substantial progress.
Modern automotive diesel engine has excellent overall performance high thermal efficiency, high power, high torque and low fuel consumption, low emissions, low noise: liter power increased by more than 15%, direct injection diesel engine fuel consumption by 20% to 30% lower than gasoline , emissions meet Euro III ~ Euro IV standards, the overall greenhouse gas emissions 45% lower than gasoline, but also basically reached the level of noise and vibration gasoline. Thus significantly speeding up the process of commercial vehicle diesel fuel, diesel cars get widely used.
??? ?China joined the WTO, the World engines and parts production has shifted from the high-cost areas to low-cost regions. Therefore, at present in China has established a number of engine parts foreign, including: electronic control systems, pump nozzle, turbocharger, electrical appliances, pistons, piston rings, bearings, cylinder head castings and body filters and other products in the field . The use of foreign resources to make up for a lot less than the internal combustion engine technology and equipment parts industry, and promote the product upgrade key components, but also for the car to provide better conditions by improving the level of diesel technology. Prominent changes in technology development is centered around the theme of environmental protection and speed up the electronic controls, high-pressure injection, application and development of direct injection combustion chamber, turbocharged and intercooled, and other advanced technology, the Chinese automotive diesel engine on a new technological level level.
???? But compared with foreign car behind China in general 10 to 15 years with a diesel engine products, product variety is also "missing car less heavy", key components such as the fuel injection system is still seriously hampered the development of the whole product. Emission regulations in China is growing at about 5 to 8 in Europe later in the speed propulsion, from Europe to achieve the Euro II to III, IV across Europe still faces many difficulties. A large gap between the level of foreign reserves mainly due to lack of technology. Because of funding, management mechanism and means of scientific research and other reasons, the Chinese diesel engine industry leading international and master the key technology is not enough, not strong independent development capacity, more difficult to be innovative and breakthrough.
Fifth. the technology development of the diesel engine
????The 21st century is the era of science and technology and the era of highly developed productive forces, but also full of challenges and opportunities. The world auto industry continues to face global environmental pollution and scarcity of oil resources and other issues, the United States, Japan and European countries regard "to reduce vehicle pollution impact on the environment and energy conservation" as cutting-edge issues in the 21st century automotive technology, but also to solve the problem pathway has also been a consensus, which is the "three arrows shot" - such as the future development of fuel cell-powered, clean fuel engine development, and improve the development of diesel engines, gasoline engines. For automotive diesel engine, the key direction is to further reduce fuel consumption, NOX emissions and particulate emissions to meet future more stringent fuel consumption regulations and emissions regulations. Emphasis on future technology development will further optimize the combustion process, the development of more effective and practical rear exhaust treatment systems, and the introduction of new low sulfur fuel.
China should be the basis of the current research projects have been carried out on the combustion chamber of direct injection, four-valve, turbocharged and intercooled, more in-depth study of electronically controlled high pressure injection and EGR, etc., as soon as possible to grasp the extent practical. While a study to develop diesel exhaust after-treatment system. The oil industry should be developed with low-sulfur diesel. In terms of development approach, product development and technology development combined with industry, academia, research integration, self-development and international cooperation, the introduction of the combination.
中文譯文
一、前言
柴油機的發(fā)展已經(jīng)有一百多年的歷史,給人類的生產(chǎn)、生活帶來了非凡的便利,也給人類社會的發(fā)展提供了不同凡響的動力。在一個多世紀的發(fā)展過程中,柴油機技術先后出現(xiàn)了三次質(zhì)的飛躍。
在工業(yè)發(fā)達國家,載貨汽車基本上全部使用柴油機。近年來,隨著柴油機采用渦輪增壓、中冷、直噴、尾氣催化轉(zhuǎn)換和顆粒捕集器等先進技術,柴油機排放已達到歐Ⅲ、歐Ⅳ排放標準,因而也掀起了小轎車柴油機化的高潮,德國大眾汽車公司、美國通用汽車公司、日本豐田汽車公司等大型汽車公司的小轎車也采用了柴油機。
在石油資源越來越短缺的我國,發(fā)展柴油車將是未來汽車工業(yè)的重點之一。根據(jù)國家汽車發(fā)展規(guī)劃,“十五”期間,柴油車占汽車總產(chǎn)量的比重要從2000年的29.7%提高到35%左右,中型車要全部實現(xiàn)柴油化。目前我國柴油轎車、柴油微型車生產(chǎn)剛開始起步,一汽大眾已經(jīng)開發(fā)出捷達、寶來柴油轎車,在國內(nèi)部分城市上市。
柴油機的壓縮比高,熱效率高,其燃料消耗量比汽油機低30%~40%,加上車用柴油與車用汽油相比加工成本又低5%,隨著世界各國對汽車節(jié)能的普遍重視,汽車發(fā)動機向柴油機化發(fā)展已是全球汽車工業(yè)發(fā)展的大趨勢。
除燃料消耗量比汽油機低外,柴油機與汽油機相比還具有功率大、壽命長、動力性能好的特點,它排放產(chǎn)生的溫室效應比汽油低45%,一氧化碳與碳氫排放也低,但其氮氧化物排放略大于汽油機,有害顆粒排放大。
二、EM165型柴油機的用途:?
EM165柴油機陸用時,配以皮帶輪、聯(lián)軸器、離合器作為農(nóng)業(yè)排灌、發(fā)電機、電焊機、空壓機、水泵、碎石機及建筑機械等動力;船用時,配上倒順車離合器。減速齒輪箱后,可用作漁輪船動力,內(nèi)河航運主機及輪船輔機。
三、EM165型柴油機的結(jié)構特點:?
1、機體:汽缸體和曲軸箱鑄成整體,兩側(cè)有檢查孔,汽缸套為濕式,用球墨鑄鐵制成,耐磨性好。?
2、曲軸:用球墨鑄鐵制成,經(jīng)正火處理后,提高了機械性能,耐磨性好。?
3、汽缸蓋:每缸一蓋,進排氣道都安置在一側(cè),另一側(cè)裝有噴油機,缸蓋用鑄鐵制成。
? 4、連桿用45#鋼模鍛而成,桿身為工字型,大頭為平切口。?
5、活塞用鋁合金制成。裝有三道氣環(huán)和二道油環(huán),第一環(huán)為多孔鍍鉻,活塞銷為優(yōu)質(zhì)鋼滲碳,表面淬火。?
6、配氣機構,進排氣門為耐熱鋼制成,凸輪軸用球墨鑄鐵。
7、潤滑系統(tǒng)為壓力飛濺復合式,油泵為等級齒輪泵。
? 8、調(diào)速器為機械離心全程式。?
9、用單體式噴油泵,噴油器為單孔軸斜式。
四、柴油機的現(xiàn)狀與發(fā)展:?
七十年代初,受世界石油危機和首次出臺廢氣排放法規(guī)的影響,柴油機省油和低HC、CO排放的特點再度受到關注,工業(yè)界開始了新一代柴油機的研究開發(fā),旨在提高柴油機動力性并減少廢氣排放和噪聲振動。這為柴油機在轎車上的應用提供了新的機遇。世界科學技術的同步發(fā)展,尤其是電子技術、精密加工、新材料和測試裝備等高新技術的發(fā)展為實現(xiàn)這個機遇提供了技術可能。其后20多年,柴油機新燃燒方式、直噴燃燒系統(tǒng)、增壓中冷、電子控制高壓噴射、EGR和四氣門結(jié)構等新技術均已發(fā)展到實用程度,對柴油機排氣后處理技術和優(yōu)質(zhì)柴油的開發(fā)也取得實質(zhì)性進展。?
???? 現(xiàn)代車用柴油機已具有高熱效率、高功率、高扭矩和低油耗、低排放、低噪聲等優(yōu)良的綜合性能:升功率增長超過15%,直噴式柴油機燃油耗比汽油機低20%~30%,廢氣排放達到歐III~歐IV標準,溫室效應氣體排放總體上比汽油機低45%,噪聲振動也基本上達到汽油機的水平。因而商用車柴油化進程明顯加快,柴油轎車獲得推廣使用。
中國加入WTO,世界發(fā)動機及其零部件生產(chǎn)也由高成本地區(qū)向低成本地區(qū)轉(zhuǎn)移。因此,目前在中國已建立了一批內(nèi)燃機零部件外資企業(yè),包括:電控系統(tǒng)、油泵油嘴、增壓器、電機電器、活塞、活塞環(huán)、軸瓦、機體缸蓋鑄件和濾清器等產(chǎn)品領域。對國外資源的利用彌補了內(nèi)燃機零部件行業(yè)技術和裝備的諸多不足,促進了關鍵零部件的產(chǎn)品升級,也為車用柴油機技術水平的提高提供了更好的條件。在技術發(fā)展方面的突出變化是圍繞環(huán)境保護的主旋律而加快了電子控制、高壓噴射、直噴燃燒室、增壓中冷等先進技術的應用和開發(fā),使中國車用柴油機的技術水平上了新的臺階。?
但中國車用柴油機產(chǎn)品水平與國外相比總體上落后10~15年,產(chǎn)品品種還“缺轎少重”,燃油噴射系統(tǒng)等關鍵零部件仍嚴重制約整機產(chǎn)品的發(fā)展。排放法規(guī)方面中國正以大約遲于歐洲5~8年的速度推進,要實現(xiàn)從歐II到歐III、歐IV的跨越還面臨不少困難。與國外水平差距較大的主要原因在于技術儲備不足。由于經(jīng)費投入、管理機制和科研手段等多種原因,中國柴油機界對國際柴油機的領先和關鍵技術掌握不夠、自主開發(fā)能力不強、更難以有所創(chuàng)新和突破。
五、柴油機的技術發(fā)展方向?
21世紀是科學技術和生產(chǎn)力高度發(fā)展的時代,也是充滿挑戰(zhàn)和機遇的時代。世界汽車工業(yè)繼續(xù)面臨全球環(huán)境污染和石油資源匱乏等問題,美國、日本和歐洲各國都把“降低汽車污染對環(huán)境的沖擊和節(jié)約能源”列為21世紀汽車技術的前沿問題,而且對解決問題的途徑也有所共識、也就是“三箭齊發(fā)”-燃料電池等未來動力的開發(fā),清潔燃料發(fā)動機的開發(fā),以及柴油機、汽油機的改進開發(fā)。對車用柴油機而言,重點方向是進一步降低油耗、NOX排放和顆粒物排放,以滿足未來更嚴格的燃油耗法規(guī)和排放法規(guī)。今后技術開發(fā)將重于進一步優(yōu)化燃燒過程、開發(fā)更為有效和實用的排氣后處理系統(tǒng)以及采用新的低硫優(yōu)質(zhì)燃料。
???? 中國應在目前已經(jīng)開展的研究項目基礎上,對直噴燃燒室、四氣門、增壓中冷、電控高壓噴射和EGR等進行更深入的研究,早日掌握到實用程度。同時展開柴油機排氣后處理系統(tǒng)的研究開發(fā)。應配合石油業(yè)界進行低硫柴油的開發(fā)。在開發(fā)途徑方面,產(chǎn)品開發(fā)與技術開發(fā)相結(jié)合,產(chǎn)、學、研相結(jié)合,自行開發(fā)與國際合作、引進相結(jié)合。
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