曲臂式平臺高空作業(yè)梯設計【作業(yè)車-含液壓系統(tǒng)】
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中國地質(zhì)大學長城學院畢業(yè)設計(論文)開題報告
學生姓名
金雨軒
學號
05211538
專業(yè)班級
11級機制5班
指導教師
楊運強
職稱
教授
單 位
中國地質(zhì)大學(北京)
課題性質(zhì)
設計√ 論文□
課題來源
科研□ 教學□ 生產(chǎn)√ 其它□
畢業(yè)設計(論文)題目
曲臂式平臺高空作業(yè)梯的設計
一、課題研究的目的和意義
曲臂式平臺高空作業(yè)梯作為一種專用機械,其特殊性在于:一是載人高空作業(yè),因此對其作業(yè)安全性要求比一般工程機械高,即所謂“高安全性”;二是施工場所環(huán)境的非結構性,即其工作環(huán)境預先不可預知,并且多變,要求其對環(huán)境具有“高適應性”;第三是因其常用于搶修作業(yè),并且多為室外或野外作業(yè),作業(yè)環(huán)境條件差,所以要求其具有作業(yè)的“高效率”。為了達到這些要求,高空作業(yè)車必然朝著智能化、輕量化和相同作業(yè)高度的小型化方向發(fā)展。因國民經(jīng)濟發(fā)展水平的提高和企業(yè)經(jīng)濟效益提高、勞動力成本上升,將促使大量企業(yè)普遍淘汰傳統(tǒng)落后的高空作業(yè)方式,而使用高空作業(yè)機械。這些驅(qū)動因素的存在將推動高空作業(yè)機械需求量的長期穩(wěn)定增長。
二、國內(nèi)外研究現(xiàn)狀
國內(nèi)的高空作業(yè)行業(yè)起步較晚.但發(fā)展很快,社會對高空作業(yè)平臺的需求在世不斷增多,有專家預測,我國高空作業(yè)平臺將會在未來幾年內(nèi)保持較高的產(chǎn)銷增長率.特別是大中城市基礎設施建設和維護等方面的需求增長更快。但國內(nèi)的產(chǎn)品的技術水平相比國外的名廠家還是有一定的差距,這就需要相關行業(yè)人員能夠虛心學習,大膽創(chuàng)新,迎頭趕上國外先進水平。國內(nèi)最初的產(chǎn)品受國外引進的影響都是曲臂式的,主要以中小高度為主。
三、課題研究的內(nèi)容
曲臂式高空作業(yè)梯是用于高空作業(yè)的升降設備,可跨越障礙進行高空作業(yè),平臺升降到任何位置均可作業(yè),結構緊湊,轉向靈活,其地盤的寬度可保證設備進入狹窄的通道及擁擠的工作區(qū)域。備用動力裝置,可操作工作平臺復位,方便的運輸方式,可被牽引到任何地方。易于識別的操作面板,多重的機械,電氣及液壓安全保護,先進的一體化的液壓電器集成系統(tǒng)。
四、課題研究的方案
1、設計參數(shù)及其工作平臺級別的確定;
2、工作平臺的整體設計;
3、液壓系統(tǒng)的設計計算
4、畫cad圖紙;
5、編寫設計使用說明書
五、畢業(yè)設計進度安排
第一階段(2014年12月15日-2015年01月04日)查閱文獻,準備開題
第二階段(2015年02月15日-2015年03月15日)設計參數(shù)及確定工作平臺級別
第三階段(2015年03月15日-2015年03月25日)工作平臺整體設計
第四階段(2015年03月25日-2015年04月15日)液壓系統(tǒng)的設計計算
第五階段(2015年04月15日-2015年05月10日)整理歸納,完成答辯
參考文獻
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指導教師意見:
指導教師簽名:
年 月 日
教研室意見:
審查結果: 同 意□ 不 同 意□
教研室主任簽名:
年 月 日
中國地質(zhì)大學長城學院
本科畢業(yè)設計外文資料翻譯
系 別: 工程技術系
專 業(yè): 機械設計制造及其自動化
姓 名: 金雨軒
學 號: 05211538
2015 年4月 3日
外文資料原文
On the history of the development of china construction machinery
China is the world's first national machinery development. Chinese mechanical engineering technology not only has a long history and splendid achievements in Chinese is not only the material culture and social economic development plays an important role in the world, and to promote the progress of civilization, technology has made great contribution to Chinese traditional machine. And in a long period ahead in the world. In modern times, especially from the early 18th century, due to the nineteen forties, due to the economic and social reasons, such as the China machinery industry, stagnation, in the 100 years is western bourgeois political revolution and industrial revolution, mechanical science and technology is developing rapidly, and far more than the level of China. So, China mechanical development level and the western gap widens, sharply to the 19th century middle behind western one hundred years.
After the founding of new China, especially in the past 30 years, our country's mechanical science and technology development speed. To the mechanical product large-scale, precision, automation and discusses the trend of development. In some aspects has reached or exceeded the world advanced level. Generally speaking, currently China mechanical science and technology achievement is huge, developing fast, high level of unprecedented. In this period, China has no end of mechanical science and technology will develop to a higher level. As long as we can adopt the correct policy, with good technology development and innovation, our machinery industry and mechanical technology can revitalize, leading to the development trend of mechanical industry.
(1)Just small ramming machinery:
In the 1960s, China mechanical very small tamp lack, many small venues ramming basically USES artificial ramming.
Early 1960s, changsha construction machinery institute and Beijing architectural engineering institute, etc., the technical innovation achievements in mass on the basis of summing up Chinese characteristic invented the breaststroke ramming machine, 1962 exceeded national science and technology. The breaststroke ramming machine structure is simple, easy to use and maintenance in 1960s, soon became the dominant products to consolidate machinery. According to not complete count breaststroke tamp cumulative yield reached more than 50,000 machine, in the economic development of our country has played an important role. Since 1970's, the breaststroke ramming machine was gradually more advanced performance of vibration shock ram and vibrating plate ram, now replaced by laying machine has rarely breaststroke, basically be eliminated.
In 1964, changsha construction machinery institute HB120 developed movable type, type of Shanghai began laying machine, engineering machine production mainly by Tianjin municipal later, annual production engineering machinery dongting about 200. In the 1980s, movable type ramming machine product quality has increased greatly, have exported to southeast Asia and Africa. Since 1990s, internal-combustion type ramming machine production sales, and gradually decreased in only a few small private enterprise production.
In 1977, changsha construction machinery factory buildings and developed in liuzhou HZR250 type and the HZR70 type vibrating plate ram, these two kinds of products in 1979 and 1982 passed by the ministry of construction of the organization. Then yiwu building construction machinery factory, siping, anyang vibrators factory, Tianjin municipal engineering machinery dongting and other enterprises have started producing vibrating plate ram. In 1986, Changsha construction machinery research and develop a larger HZR450 type of vibrating plate ram. Since 1990s, vibrating plate ram in our country has developed very quickly, varieties of products, specifications and increase production enterprises, foreign vibrating plate ram gradually to enter the Chinese market.
In 1983, Changsha construction machinery institute and the joint development of Hubei vibration in the first HZR70 type vibration shock ramming, 1984, passed by the ministry of construction, organization construction technology progress in 1985 won prizes. Due to the vibration impact compaction result has good ramming, productivity, high volume and weight of small, lightweight flexible outstanding characteristics, deeply user etc, obtained a rapid promotion, and soon ZiJiang development to the factory, Xinxiang municipal engineering machine tool plant and Tianjin dozens of dongting production factory etc. Vibration shock ramming although than vibrating plate ram, but later development speed of development, production and use of extensive than vibrating plate ram, has become the largest in China in the ramming machinery products. Since 1990s, foreign vibrating plate ram gradually to enter the Chinese market.
Vibration shock ramming and vibrating plate ram the successful development in our country, not only for our construction department provides advanced performance of mechanical, laying have achieved good economic benefit and social benefit, and make our ramming mechanical technology into a big step forward, shorten the gap with the advanced world level, promoting the development of compaction machine.
(2)The mechanical processing:
According to the archaeological discovery, hot-working casting in Beijing pinggu, changping and so have proved that the 16th century BC shang dynasty (bronze objects. Ming yongle (1403-1424 years), Beijing produce world-renowned Ming yongle great 3-ton bell made (46.5 tons) and tower (63 tons ) of great 3-ton bells made of iron clock (25) and the furnace of melting, pit TaoFan model and method of casting. In the 1950s, Beijing based on clay sand castings in manual. In 1955, Beijing first machine tool plant began using leakage mould modeling, double-sided model and iron plate type plate and standard sand box modeling. In 1965, start using plastic model. In 1980, the institute and Beijing municipal electrical factory has successfully developed line frequency coreless bathroom plug stem bottom note type electric insulation casting. In 1982, hospital and Beijing the casting machine research cupola tuber oxygen blowing technology. 1985-1988, Beijing institute of machine of floating end face seal ring by die successful test pressure casting process.
In 1959, Beijing second metal forming machinery general factory changed (Beijing) built 2500 ton heavy-duty hydraulic press. In 1971, the factory produced 6,000 tons, which is then Beijing hydrtesting biggest metal forming equipment. 1968-1979, Beijing hoisting machine factory has 300 tons of using hydraulic press 2000 tons and create crane and large panel. In the 1980s, Beijing institute of electrical and developed a series of Beijing mould centre high-precision cutting die, the multistage close to or to import mould level, changed Beijing precision punching moulds dependence on imports.
Before 1949, Beijing has heat treatment furnace, salt dissolved by thermocouples means furnace, quenching and tempering, parts of annealing, normalizing, quenching and tempering, carburizing and etc. In 1956, Beijing first began using high-frequency quenching machine tool plant. In 1961, the Beijing second machine tool plant began using gas intruding quenching. In 1969, the following enterprise by Beijing gage start light quenching. In 1978, the complete machine tool research institute of Beijing guide surface contact quenching process and equipment, quenching condition of quality inspection. In 1979, scientific research institute of China academy of railway and mechanical institute of high-power diesel engine cylinder collaboration of surface modification of laser. In 1979, Beijing institute of electrical carbon dioxide laser is developed, and the kilowatt in early 1980s respectively applied in cylinder and stamp printing equipments of laser treatment. Among them, Tsinghai university, Beijing, Beijing institute of electrical YouPiaoChang jointly completed YouPiaoChang seven color machine Datong laser surface strengthening research. From 1984 to 1990, Beijing institute of vacuum heat treatment research, gas carburizing microcomputer control technology (Beijing university of aeronautics &astronautics and cooperation), rare earth soft nitriding, powder metallurgy products surface strengthening, kerosene and methanol small drops of microcomputer control method of carburizing, solid brooding and carburizing process computer aided process planning and tracking control system, and the application of new technology heat in production. Welding and cutting in 1949, Beijing has geo-drilling, electric welding and cutting etc oxyacetylene flame manual operation. In 1963, Beijing metal structure and YiJiBu mechanical science research cooperation to develop tungsten argon arc welding, and realize the nitrogen plasma cutting stainless steel. In 1964, the use of dc argon arc welding and tungsten wire alloying technology solved by tilting electrolysis industry worse pure nickel welding. In 1966, Beijing metal structure factory developed by rotating sphere of the submerged arc welding automatic welding. In 1968, the plant began to liquefy petroleum gas (LPG) instead of acetylene cutting. In the early 1980s, Tsinghai university invented new MIG welding arc technology in control, control a breakthrough. In the early 1980s, the Beijing urban construction design completed liquefied petroleum gas (LPG) mobile pneumatic rail welding technology research and application. In 1990, Beijing metal structure factory to adopt CNC precision cutting and with photo-electricity tracking and CNC pursuit of high input automatic programming technology plasma cutting.
Visible, China mechanical development in modern development of its rapid.
外文資料翻譯譯文
淺談中國工程機械發(fā)展史
中國是世界上機械發(fā)展最早的國家之一。中國的機械工程技術不但歷史悠久,而且成就十分輝煌,不僅對中國的物質(zhì)文化和社會經(jīng)濟的發(fā)展起到了重要的促進作用,而且對世界技術文明的進步做出了重大貢獻.傳統(tǒng)機械方面,我國在很長一段時期內(nèi)都領先于世界。到了近代由于特別是從18世紀初到19世紀40年代,由于經(jīng)濟社會等諸多原因,我國的機械行業(yè)發(fā)展停滯不前,在這100多年的時間里正是西方資產(chǎn)階級政治革命和產(chǎn)業(yè)革命時期,機械科學技術飛速發(fā)展,遠遠超過了中國的水平。這樣,中國機械的發(fā)展水平與西方的差距急劇拉大,到十九世紀中期已經(jīng)落后西方一百多年。
新中國建立后特別是近三十年來,我國的機械科學技術發(fā)展速度很快。向機械產(chǎn)品大型化,精密化、自動化和成套化的趨勢發(fā)展。在有些方面已經(jīng)達到或超過了世界先進水平??偟膩碚f,就目前而言中國機械科學技術的成就是巨大的,發(fā)展速度之快,水平之高也是前所未有的。這一時期還沒有結束,我國的機械科學技術還將向更高的水平發(fā)展。只要我們能夠采取正確的方針、政策、用好科技發(fā)展規(guī)律并勇于創(chuàng)新,我國的機械工業(yè)和機械科技一定能夠振興,重新引領世界機械工業(yè)發(fā)展潮流。
(1)就小型夯實機械而言:
上世紀60年代以前,我國小型夯實機械非常缺乏,很多小型場地的夯實基本上采用人工夯實。60年代初期,長沙建設機械研究所與北京建筑工程學院等單位合作,在群眾性技術革新成果的基礎上總結發(fā)明了具有中國特色的蛙式夯實機,1962年獲國家科技發(fā)明獎。蛙式夯實機結構簡單,維修、使用方便,很快成為我國60年代夯實機械的主導產(chǎn)品。據(jù)不完全統(tǒng)計蛙式夯實機累計產(chǎn)量達到50000多臺,在我國經(jīng)濟建設中發(fā)揮了重要作用。70年代以后,蛙式夯實機逐漸被性能更先進的振動沖擊夯和振動平板夯所替代,目前蛙式夯實機已經(jīng)很少,基本被淘汰。
1964年,長沙建設機械研究所開發(fā)了HB120型內(nèi)燃式夯實機,開始由上海工程機械廠生產(chǎn),后來主要由津市洞庭工程機械廠生產(chǎn),年產(chǎn)量200臺左右。80年代,內(nèi)燃式夯實機產(chǎn)品質(zhì)量有較大提高,曾出口東南亞和非洲地區(qū)。90年代以后,內(nèi)燃式夯實機產(chǎn)銷售量也在逐漸減少,目前只有少數(shù)小型民營企業(yè)生產(chǎn)。
1977年,長沙建設機械研究所和柳州市建筑機械廠開發(fā)了第一臺HZR250型和HZR70型振動平板夯,這兩種產(chǎn)品分別于1979 年和1982年通過了由建設部組織的鑒定。隨后義烏建筑機械廠、四平建筑機械廠、安陽振動器廠、津市洞庭工程機械廠等多家企業(yè)都開始生產(chǎn)振動平板夯。1986年長沙建設機械研究所又開發(fā)了較大的HZR450型振動平板夯。上世紀90年代以后,振動平板夯在我國有了較快的發(fā)展,產(chǎn)品品種、規(guī)格和生產(chǎn)企業(yè)增多,國外的振動平板夯陸續(xù)進入中國市場。
1983年,長沙建設機械研究所和湖北振動器廠聯(lián)合開發(fā)了我國第一臺HZR70型振動沖擊夯,1984年通過了由建設部組織的鑒定,1985年獲建設部科技進步三等獎。由于振動沖擊夯具有壓實效果好、生產(chǎn)率高、體積和重量小、輕便靈活等突出特點,深受用戶歡迎,得到了迅速的推廣使用,并很快發(fā)展到資江機器廠、新鄉(xiāng)第三機床廠和津市洞庭工程機械廠等幾十家企業(yè)生產(chǎn)。振動沖擊夯雖然比振動平板夯開發(fā)晚,但發(fā)展速度、產(chǎn)銷量和使用廣泛性比振動平板夯大得多,目前已成為我國夯實機械中產(chǎn)銷量最大的主導產(chǎn)品。上世紀90年代以后,國外的振動平板夯陸續(xù)進入中國市場。
振動沖擊夯和振動平板夯在我國的成功開發(fā),不僅為我國建設施工部門提供了性能先進的夯實機械,取得了良好的經(jīng)濟效益和社會效益,而且使我國夯實機械技術向前跨進了一大步,縮短了與世界先進水平的差距,促進了我國壓實機械的發(fā)展。
(2)就機械加工而言:
在熱加工鑄造方面據(jù)考古發(fā)現(xiàn),在北京平谷、昌平、房山等處曾出土了公元前16世紀(商代)的青銅禮器。 明永樂年間(1403~1424年),北京制造出享譽世界的明永樂大銅鐘(46.5噸)和鐘樓大銅鐘(63噸)及鐵鐘(25噸),采用分爐熔化、地坑造型和陶范法鑄造。 20世紀50年代以前,北京在鑄造上采用粘土砂手工造型。1955年,北京第一機床廠開始采用漏模造型、雙面模型型板及鐵型板和標準砂箱造型。1965年,開始采用塑料模型。 1980 年,北京市機電研究院與北京瑪鋼廠研制成功工頻無芯塞桿底注式保溫澆注電爐。1982年,該院與北京機床鑄造二廠研究成功沖天爐風口吹氧技術。 1985~1988年,北京機床研究所試驗成功浮動端面密封環(huán)的壓力鑄造工藝。
鍛壓的大規(guī)模發(fā)展在1959年就已開始,北京第二通用機械廠(后改名北京重型機器廠)建成2500噸水壓機。1971年,該廠制造出6000噸水壓機,這是當時北京最大的鍛壓設備。 1968~1979年,北京起重機器廠先后采用300噸油壓機和2000噸油壓機制造出起重機吊臂和大型覆蓋件。 80年代,北京市機電研究院和北京市模具中心研制出一系列高精度多工位沖裁模具,接近或達到進口模具水平,改變了北京精密沖裁模具依賴進口的局面。
熱處理方面在949年前,北京已采用電爐、鹽溶爐、熱電偶等手段進行零件退火、回火、淬火、正火、調(diào)質(zhì)、滲碳等熱處理。 1956年,北京第一機床廠開始采用高頻感應淬火。1961年,北京第二機床廠開始采用氣體氮化淬火。1969年,北京量具刃具廠開始采用光亮淬火。 1978年,北京機床研究所研究完成機床導軌表面接觸淬火工藝及設備、淬火質(zhì)量檢查技術條件的研究。1979年,鐵道科學研究院和中國科學院力學研究所等合作完成大功率柴油機缸套表面的激光改性處理的研究。 1979年,北京市機電研究院研制成功千瓦級二氧化碳激光器,并于80年代初分別應用于汽缸套和郵票印刷設備的激光熱處理。其中,清華大學、北京市機電研究院、北京郵票廠共同完成郵票廠七色機打孔器表面激光強化研究。 1984~1990年,北京市熱處理研究所研究成功真空熱處理、氣體滲碳微機控制技術(與北京航空航天大學合作)、稀土軟氮化、粉末冶金制品表面強化、煤油加甲醇小滴量法微機可控滲碳、固體滲硼、滲碳過程微機輔助工藝設計及跟蹤控制系統(tǒng)等熱處理新技術,并應用于生產(chǎn)。 焊接與切割 1949年,北京已有氣焊、電弧焊及氧乙炔火焰切割等手工作業(yè)。 1963年,北京金屬結構廠與一機部機械科學研究院合作開發(fā)出鎢極氬弧焊,并實現(xiàn)了氮氣等離子切割不銹鋼。1964年,用直流鎢極氬弧焊及焊絲合金化技術解決了核工業(yè)用傾斜式電解糟純鎳焊接。 1966年,北京金屬結構廠開發(fā)出了使被焊球體旋轉的埋弧自動焊。1968年,該廠開始以液化石油氣代替乙炔切割。 80年代初,清華大學發(fā)明了新型MIG焊接電弧控制法,在控制電弧技術上取得突破。 80年代初,北京城建設計院等完成液化石油氣移動式氣壓焊軌技術的研究和應用。 1990年,北京金屬結構廠開始采用數(shù)控精密切割和具有光電跟蹤及數(shù)控尋蹤讀入自動編程的大功率等離子切割技術。
可見,我國機械發(fā)展在近代發(fā)展其迅速。
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