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徐州工程學院
畢業(yè)設計(論文)任務書
機電工程 學院 機械設計制造及其自動化 專業(yè)
設計(論文)題目 1250壓磚機機身及液壓系統(tǒng)設計
學 生 姓 名 陳振斌
班 級 04機本(2)班
起 止 日 期 2008.1.21——2008.6.2
指 導 教 師 張元越
教研室主任 張元越
發(fā)任務書日期 2008 年 1 月 21 日
1.畢業(yè)設計的背景:
自動壓磚機是墻地磚生產(chǎn)的關鍵設備,是機、電、液一體化的高技術設備。十多年來已進口4000多臺,幾乎壟斷了“七五”、“八五”計劃期間的國內市場。一九八七年國家建材局將其列為尚需攻關解決的十五項陶瓷裝備之一。至今國內有20多家企業(yè)參與自動壓磚機的開發(fā)生產(chǎn),共有19家企業(yè)制造出樣機,但大部分半途而廢。至目前為止,年產(chǎn)銷量超過50臺的僅有兩家,年產(chǎn)銷量超過10臺有5家。國產(chǎn)自動磚機主要是在“九五”期間得到快速發(fā)展的。可喜的是,現(xiàn)已能生產(chǎn)4800噸以下噸位的各種系列產(chǎn)品,國內市場占有率已達80%以上。除4800T以上超大噸位壓機近期尚需進口外,國產(chǎn)壓機基本取代進口,成為建陶企業(yè)的首選產(chǎn)品。
據(jù)不完全統(tǒng)計,到目前為止有近1000臺的國產(chǎn)自動壓磚機在頂線運行。去年下半年以來,受建陶業(yè)總體不景氣影響以及國產(chǎn)壓磚機產(chǎn)量增加,競爭日趨白熱化,市場價格大幅度下降,用戶拖欠貨款嚴重,各企業(yè)經(jīng)營效益也出現(xiàn)滑坡,這很不利于新興的國產(chǎn)壓磚機行業(yè)的發(fā)展。對許多批量小、成本高的企業(yè)是個嚴重的考驗。
自動壓磚機是技術復雜的產(chǎn)品,其制造難度高,要保證連續(xù)可靠的運行困難更大。1995年前,進口壓磚機一般設計三機配兩窯,以后進口機的可靠性提高了,許多用戶采用一機配一窯。為了節(jié)省投資,用戶也對國產(chǎn)機要求一機配一窯,這對當時剛剛起步的國產(chǎn)壓磚機行業(yè)是個嚴峻的挑戰(zhàn),不但要求有可靠的質量,還要求有完善的售后服務。因此一些開發(fā)制造壓機企業(yè)就達不到要求上不去了。少量的企業(yè)由于敢于投入、創(chuàng)新快,質量服務上去了,產(chǎn)銷量也跟著上去了。在正常的情況下,壓磚機這個新產(chǎn)品都要有2~3年的“質量提高期”及“市場認同期”,不是想象的那么容易,這是許多投資開發(fā)自動壓磚機企業(yè)對其認識不足而最終導致失敗的原因。
國產(chǎn)壓磚機的主要技術參數(shù)、主要技術性能和整體水平已接近國外現(xiàn)代壓磚機的先進水平,而且差距在不斷縮小,但是國產(chǎn)壓磚機行業(yè)發(fā)展時間短,發(fā)展開發(fā)過程中存在一些問題也是難免的,制造企業(yè)還應該不斷提高產(chǎn)品質量,進一步降低成本,提高自身的競爭力,在鞏固國內市場的同時,應積極開拓國際市場,只有在國際市場上占有一席之地,才真正證明國產(chǎn)壓機的成功。
2.畢業(yè)設計(論文)的內容和要求:
內容:(1)液壓機結構選型及設計;合理設計液壓機的結構;
(2)進行液壓機機身結構的強度及剛度校核
(3)液壓機立柱的穩(wěn)定性校核;合理設計液壓機的結構;
(4)完成液壓機的結構設計及總圖和零件圖;
(5)完成液壓系統(tǒng)的設計計算
(6)完成兩萬字的畢業(yè)論文及5000字的譯文
要求:學生在接受設計任務后,認真調研,認真設計,提出多種方案,認真進行論證,完成液壓機的結構,最終完成全部設計內容,方能進行畢業(yè)設計的答辯。
3.主要參考文獻:
[1]邱宣懷等.機械設計.北京:高等教育出版社,2003
[2]天津液壓機床廠.中小型液壓機設計[P].天津:天津人民出版社,1977
[3]俞新華等.液壓機[M].北京:機械工業(yè)出版社,1990
[4]方剛,康達昌,朱信等.箱形梁筋板上的孔對其強度的影響[M].鍛壓
機 械,1997(5)
[5]王步瀛.機械零件強度計算的理論和方法[M].北京:高等教育出版社,1986
[6]閔學熊,倪鵬南.鍛壓機械的新進展[J].鍛壓機械,1997(4)
[7]劉鴻文.材料力學[M].北京:高等教育出版社,1989
[8]胡秀麗,徐福昌等.長頸法蘭類件法蘭部位開式成形的數(shù)值模擬研
究[P].金屬成形工藝,2000(2)
[9]韓提儒.我國鍛壓機械50 年的光輝歷程[J].鍛壓機械,1999(6)
4.畢業(yè)設計(論文)進度計劃(以周為單位):
起 止 日 期
工 作 內 容
備 注
1.21-1.27
1.28-2.3
2.18-2.24
2.25-3.2
3.3-3.9
3.10-3.16
3.17-3.23
3.24-3.30
3.31-4.6
4.7-4.13
4.14-4.20
4.21-4.27
4.28-5.4
5.5-5.11
5.12-5.18
5.19-5.25
徐州三緣鍛壓設備有限公司調研
寫開題報告、設計規(guī)劃書
徐州三緣鍛壓設備有限公司調研;外文翻譯
外文翻譯
液壓缸設計、計算、校核
液壓缸、活塞和活塞桿的設計、計算、校核
畫液壓缸相關零件圖裝配圖
同上;立柱設計、計算、校核
畫立柱零件圖;上橫梁設計、計算、校核
上橫梁設計、計算、校核;畫上橫梁
畫上橫梁;活動橫梁、下橫梁設計并畫其零件圖
畫活動橫梁、下橫梁零件圖、畫總裝圖
液壓系統(tǒng)設計計算;畫液壓系統(tǒng)圖
液壓系統(tǒng)設計計算;畫液壓系統(tǒng)圖
寫設計說明書
寫設計說明書
教研室審查意見:
室主任
年 月 日
學院審查意見:
教學院長
年 月 日
徐州工程學院
畢業(yè)設計(論文)開題報告
課 題 名 稱: 1250壓磚機機身及液壓系統(tǒng)設計
學 生 姓 名: 陳振斌 學號:200400601219
指 導 教 師: 張元越 職稱: 講師
所 在 學 院: 機電工程學院
專 業(yè) 名 稱: 機械設計制造及其自動化
徐州工程學院
2008年1月28日
說 明
1.根據(jù)《徐州工程學院畢業(yè)設計(論文)管理規(guī)定》,學生必須撰寫《畢業(yè)設計(論文)開題報告》,由指導教師簽署意見、教研室審查,學院教學院長批準后實施。
2.開題報告是畢業(yè)設計(論文)答辯委員會對學生答辯資格審查的依據(jù)材料之一。學生應當在畢業(yè)設計(論文)工作前期內完成,開題報告不合格者不得參加答辯。
3.畢業(yè)設計開題報告各項內容要實事求是,逐條認真填寫。其中的文字表達要明確、嚴謹,語言通順,外來語要同時用原文和中文表達。第一次出現(xiàn)縮寫詞,須注出全稱。
4.本報告中,由學生本人撰寫的對課題和研究工作的分析及描述,沒有經(jīng)過整理歸納,缺乏個人見解僅僅從網(wǎng)上下載材料拼湊而成的開題報告按不合格論。
5. 課題類型填:工程設計類;理論研究類;應用(實驗)研究類;軟件設計類;其它。
6、課題來源填:教師科研;社會生產(chǎn)實踐;教學;其它
課題
名稱
1250壓磚機機身及液壓系統(tǒng)設計
課題來源
工程實際
課題類型
設計類
選題的背景及意義
中國是世界上最大的發(fā)展中國家,隨著"禁實"力度的加大,傳統(tǒng)以燒制黏土磚的制磚業(yè)已不能滿足高質量,高環(huán)保的社會需要。以用粉煤灰、煤矸石、礦碴、石粉、尾礦砂、建筑垃圾等廢碴和廢料,生產(chǎn)空心砌塊、多孔磚、標準磚的壓磚機應運而生,解決了城鄉(xiāng)建設的迅猛發(fā)展需要大量的墻體材料與土地資源嚴重缺乏形成了強烈的矛盾。
研究內容擬解決的主要問題
液壓缸,上、下活動橫梁、上橫梁的尺寸設計,及其強度、剛度校核;液壓系統(tǒng)的設計、計算;電控PLC系統(tǒng)設計;畫出完整的零件及裝配標準CAD圖紙。
研究方法技術路線
公司調研、圖書館及網(wǎng)絡查閱相關資料、老師指導
研究的總體安排和進度計劃
1.21-1.27 徐州三緣鍛壓設備有限公司調研
1.28-2.3 寫開題報告、設計規(guī)劃書
2.18-2.24 徐州三緣鍛壓設備有限公司調研;外文翻譯
2.25-3.2 外文翻譯
3.3-3.9 液壓缸設計、計算、校核
3.10-3.16 液壓缸、活塞和活塞桿的設計、計算、校核
3.17-3.23 畫液壓缸相關零件圖裝配圖
3.24-3.30 同上;立柱設計、計算、校核
3.31-4.6 畫立柱零件圖;上橫梁設計、計算、校核
4.7-4.13 上橫梁設計、計算、校核;畫上橫梁
4.14-4.20 畫上橫梁;活動橫梁、下橫梁設計并畫其零件圖
4.21-4.27 畫活動橫梁、下橫梁零件圖、畫總裝圖
4.28-5.4 液壓系統(tǒng)設計計算;畫液壓系統(tǒng)圖
5.5-5.11 液壓系統(tǒng)設計計算;畫液壓系統(tǒng)圖
5.12-5.18 寫設計說明書
5.19-5.25 寫設計說明書
主要參考
文獻
[1]邱宣懷等.機械設計.北京:高等教育出版社,2003
[2]天津液壓機床廠.中小型液壓機設計[P].天津:天津人民出版社,1977
[3]俞新華等.液壓機[M].北京:機械工業(yè)出版社,1990
[4]方剛,康達昌,朱信等.箱形梁筋板上的孔對其強度的影響[M].鍛壓
機 械,1997(5)
[5]王步瀛.機械零件強度計算的理論和方法[M].北京:高等教育出版社,1986
[6]閔學熊,倪鵬南.鍛壓機械的新進展[J].鍛壓機械,1997(4)
[7]劉鴻文.材料力學[M].北京:高等教育出版社,1989
[8]胡秀麗,徐福昌等.長頸法蘭類件法蘭部位開式成形的數(shù)值模擬研
究[P].金屬成形工藝,2000(2)
[9]韓提儒.我國鍛壓機械50 年的光輝歷程[J].鍛壓機械,1999(6)
指導教師
意 見
指導教師簽名:
年 月 日
教研室意見
學院意見
教研室主任簽名:
年 月 日
教學院長簽名:
年 月 日
徐州工程學院畢業(yè)設計(論文)
摘要
通過對分析液壓壓磚機的國內外生產(chǎn)及研究現(xiàn)狀,確定了本課題的主要設計內容。在確定了壓磚機初步設計方案后,采用了傳統(tǒng)設計方法對1250T液壓壓磚機機身結構進行設計計算及強度校核,并采用AutoCAD設計軟件對上橫梁、底座、拉伸滑塊、壓邊滑塊、拉伸缸、壓邊缸、頂出缸、立柱及總裝圖進行了工程繪圖,在參考了某公司生產(chǎn)的四梁四柱式液壓墻體壓磚機機液壓系統(tǒng)以及查閱了有關關于液壓系統(tǒng)設計的書籍后,確定了全自動數(shù)字控制系統(tǒng)的設計方案,繪制了數(shù)字控制系統(tǒng)的梯形圖,設計了電氣系統(tǒng)的工作說明書,并對其進行了可行性分析,最后對整個設計進行系統(tǒng)分析,得出整個設計切實可行。
關鍵詞 壓磚機;機身結構;數(shù)字控制系統(tǒng)
Abstract
Through to analysed the type hydraulic press domestic and foreign research present situation, I had determined this topic main design content. After I had determined the type hydraulic press preliminary design plan, used the traditional theory method to carry on the design, the computation, the intensity examination to the body of 1250T hydraulic presses fuselages structure, used AutoCAD design software to the main traverse, under the crossbeam, moves Liang, the master cylinder, goes against the cylinder, the column, the final assembly drawing had carried on the project cartography, meanwhile had carried on the mapping to the master cylinder; After referred to three Liang four columns hydraulic Type hydraulic press of wall hydraulic system which some company produces as well as has consulted massively and the hydraulic system design books, the definite system of numberal control design proposal, had drawn up the hydraulic system schematic diagram, had produced the system of numberal control working instructions, and had carried on the feasibility analysis to it, finally carried on the system analysis to the entire design, obtained the entire design to be practical and feasible.
Keywords Hydraulic press body structure Numberal control system
目 錄
1緒論.......................................................................................................................................1
1.1壓磚機的發(fā)展..................................................................................................................1
1.2壓磚機的概述..................................................................................................................2
1.2.1壓磚機應用領域.........................................................................................................2
1.2.2壓磚機的工作原理和主要參數(shù).................................................................................3
1.2.3國產(chǎn)壓磚機的主要技術性能.....................................................................................5
2 YZ-1250壓磚機機身結構設計...........................................................................................7
2.1用途和特點......................................................................................................................7
2.2結構及工作原理..............................................................................................................7
2.3 YZ-1250主體結構設計..................................................................................................9
2.3.1上橫梁的設計、計算及效核.....................................................................................9
2.3.2下橫梁的設計、計算及效核...................................................................................13
2.4液壓缸的設計、計算及效核........................................................................................15
2.4.1負載分析...................................................................................................................16
2.4.2主液壓缸主要參數(shù)的確定.......................................................................................16
2.4.3頂出缸的設計...........................................................................................................19
2.5立柱部分設計及計算....................................................................................................19
2.6柱塞與活塞....................................................................................................................25
2.7機身的緊固....................................................................................................................26
3 電氣系統(tǒng)的控制................................................................................................................29
3.1電氣系統(tǒng)的概述............................................................................................................29
3.2電氣原理說明................................................................................................................29
3.3梯形圖及編程................................................................................................................31
4調運、安裝與調試.............................................................................................................35
4.1壓磚機調運部分............................................................................................................35
4.2安裝與調試....................................................................................................................35
4.2.1條件...........................................................................................................................35
4.2.2安裝...........................................................................................................................35
4.2.3調試.......................................................................................................................36
4.3使用須知....................................................................................................................37
結論....................................................................................................................................39
致謝....................................................................................................................................40
參考文獻............................................................................................................................41
附錄1................................................................................................................................44
附錄2................................................................................................................................52
4
徐州工程學院畢業(yè)設計(論文)
附錄
附錄1
英文原文
The Evolutionary Rules of Production System
Abstract: The competition among modern enterprises has been converted from products to capability. As the basis of competition, production system can’t win the market unless it takes advantage of its capability in competition. Here in this article, the evolutionary rules of production system contributing to the establishment, renovation, reform, invention and promotion of the production of modern enterprises are observed.
Key words: production system rule evolution
1. Introduction
Manufacturing industry is the cornerstone of national economy and the source of national income. Especially, since 1980s, with the shift in business concepts and competition patterns from products to capabilities, the production system has been focused on manufacturing. The production system is the basis of competition among enterprises. It’s vital for any enterprise to pay more attention to strengthen their own capabilities and qualities so as to take the lead in competition in the Age of Knowledge Economy and New Economy. The 21st century is typical of high-tech, in which the production, possession, division and consumption of knowledge mean everything. Inevitably, manufacturing is faced with challenges and opportunities as well, which indicates a revolution to come. It has been proved by economic and natural laws that the fittest survives. We can’t be tomorrow-winner unless we prepare for the future. Here in this article, the evolutionary rules of production system are observed to contribute to the establishment, refreshment, renovation, invention and promotion of the production system of enterprises. That’s the sound way to lead the national economic development to move steadily and smoothly.
2. The Rules of the Evolution of Production System
2.1 The Expansion of Functions and Direction of Market
In general, the production management is meant to plan, organize and control production activities in order to put out qualified goods efficiently, low-costly, flexibly and punctually to serve customers. With the expansion of the function of modern production system, including the production of tangible commodities and intangible operations, like service, knowledge and information, the difference between manufacturing industry and service industry becomes dim. Most manufacturers are serving as supplies of services. Products in many industrial departments, in fact, are the integrity of hardware, software and services. The development of economy and technology in post-industrial society and Information Age made the demands in market less and less stable. Consequently, the status of mass production in competition declined increasingly. The changeable demands determined by customers disturbed the pattern of mass production and developed into variety and small scale.
2.2 The Variety and Reasonability of Targets in Production System
Market investigations are performed when the production system is established, renovated and regulated in order to learn more about the demand, to set up practical goals and to regulate the specification, the output and the production speed of commodities. Some reasons for the variety and reasonability are shown as follows:
(1) With the development of economy, consumers have converted their attention to various commodities and they’re keen on peculiar ones which are efficient and fashionable;
Early target Transmitting target Modern target
High-efficiency
High-efficiency
High-efficiency
Low-cost
High-quality
High-quality
Low-cost
Low-cost
Short delivery period safe-production
Single-product
Multi-product
Big lot-size
Middle-small lot-size
(2) New commodities occurred as soon as old commodities lose their marker and vanished quickly. In this circle, the life spans of product are so short that many up-to-date ones have to be developed and produced in time;
(3) Because of the severe competition, how to increase the shares in the market becomes an important target. To take the lead, enterprises are supposed to put out more and more new commodities.
2.3 The Flexibility of Production System
The assembly line production and mass production used to be of low-cost but they were limited because of the variety, changeability and short life span. So the law of “scale economy” is being challenged in its application. Single-product production system couldn’t adjust to the changes in market and in the operation of enterprise. As a result, along with the shift to variety and mass production, GT (group technology), AM (Agile manufacturing), IMI (Independent Manufacturing island) and FMS (Flexible Manufacturing System) are adopted. Especially, consolidating manufacturing islands based on the integrated manufacturing system with computer and IMI technology, on the whole, increased the flexibility and contingency.
2.4 The Automation, Integrity and Intellection of Production System
The automation technology, esp. information technology, computer technology and systematic technology, brought the advanced manufacturing industry into prosperity which prepared well enough to meet dynamic adaptability in terms of material and technological conditions. The 5th technology revolution that began in 1970s actually was a breakthrough in micro-electronic and computer technology. Generated from both of them, the advanced manufacturing technology and information technology come into being. In this way, the low cost in bottle materials and fuels, the high efficiency and the adaptability in modern enterprises are made possible. In theory, the profitable source of scale economy could be realized.
(1) In traditional patterns, it took high price to acquire knowledge and information, so mass production was the solution. When CIMS, MRPⅡ, ERP, Internet, Intranet among enterprisers and extranet of enterprises occurred, the information of designing and management was stored in software. The cost of using and regulating information was so low that mass production wasn’t the solution any more; (2) The intellectual and automatic manufacturing equipment took up the repetitive task and work efficiently only if following the order from the central computer. The accumulated experiences don’t mean much here, the so-called mass production experience and process of learning no longer existed; (3) In traditional patterns, manufacturing equipments and tools were specialized and efficient, which are suitable for mass production to increase the productivity and to lower the cost. But modern equipments are more often than not multi-functional. They are adaptable to many manufacturing procedures, which ensure the high productivity without mass production; (4) In modern advanced manufacturing technology, the production of one kind of commodities in certain quantity costs almost as much as that of other kinds but in the same quantity. But it’ll cost much less when manufactured in the same factory than in different factories; (5) With the technology of CAE, CAD, CAPP, CAM and FMS, the designing and manufacturing of new commodities can be completed soon and the delivery period is also shortened with improved quality.
2.5 Emphasis on People——The Main Factor in the Production System
People who are in charge of manufacturing activities are faced with new requirement with regard to their role status, knowledge and capability. It’s due to the change of production means and the expansion of production activities.
(1) The ultimate factor in manufacturing activities——people: The automation of manufacturing system was ever the center of international manufacturing research. And “no one factory” pattern, that is, auto-operated factory was expected. The early CIMS was based on this imagination. But only a few enterprises achieved what they had expected. Most of them failed in fulfilling their goals in some developed industrial countries. In comparison with the large investment, the profit was too far from being satisfactory. Finally, CIMS in many countries have been laid off. People’s role in the modern manufacturing system was not undercut but strengthened. It has drawn unusual attention of many developed countries to cultivate skilled workers and executives who are competent in this system. Thus the even higher standard is set for workers and executives; (2) The strengthening of people’s knowledge and capability: Modern manufacturing technology evolved from integrated technology. It is characteristic of multi-subject, so the technicians are supposed to have a solid specialty, not only the expertise but also much knowledge in the advanced researches is concerned. At the same time, it’s very important to learn much about the subjects involved so as to widen view, to refresh the knowledge and to accept new concepts. The initiative of definition and the capability of integrity are expected.
2.6 The Production System Tends to Be Labor-intensive
To get the similar effect in production in a fixed quantity to in a large quantity, high efficiency and regional economy are being targeted. A stable and balanced production is to eliminate ineffective work and waste, to shorten the process of producing, to lower the cost and avoid stocking too long. Labor-intensive and elastic labor organizing should be executed soon. Consequently, the management converts from the one by individuals and departments to the whole production system based on man.
3. Conclusion
Finding out the rules of evolution production system, in a sense, contributes to the establishment, refreshment, innovation and promotion of the system itself and also support the functional target set for it and its construction strategy. For the progress in quality and competitiveness in contingency, all the enterprises are supposed to follow the rules, in the view of production strategy and competition advantages.
References:
1. Qingshan Zhang, Guoqing Jiang. Modern Production Management, Northeast University Publishing House, 1998.05
2. Kesheng Zhang, Songqian Zhang. The Evolution of Manufacturing Modes in US & Japan, Enterprise Management, 1998(1)
3. Ying Tao. The New Tendency of Foreign Enterprises Management and Its Implication, Modernization of Management, 1997(6)
中文譯文
制造系統(tǒng)的改革
摘要:現(xiàn)代企業(yè)之間的競爭已轉換成產(chǎn)品生產(chǎn)能力的競爭。以此為基礎的競爭,除非它充分利用了其能力的優(yōu)勢,否則企業(yè)是不能贏得市場的。在這篇文章中,制造系統(tǒng)的改革有助于建立,改造,改革,發(fā)明和促進現(xiàn)代生產(chǎn)企業(yè)遵守進化規(guī)則。
關鍵詞:生產(chǎn)系統(tǒng) 規(guī)則 演變
1導言
制造業(yè),是國民經(jīng)濟和國家收入的來源。特別是20世紀80年代以來,隨著在經(jīng)營理念和競爭模式從產(chǎn)品到能力的變化,生產(chǎn)系統(tǒng)已集中于制造業(yè)。生產(chǎn)系統(tǒng)的基礎是企業(yè)之間的競爭。在知識經(jīng)濟和新經(jīng)濟時代,為了起帶頭作用,在競爭中更多地注意提高自身的能力和素質對任何企業(yè)來說是很重要的。二十一世紀是典型的高科技時代,在其中生產(chǎn),擁有,分工和消費知識意味著一切。不可避免地,制造業(yè)正面臨著挑戰(zhàn)和機遇,這表明一場革命的到來。它已被證明是由經(jīng)濟和自然的法律決定的,即優(yōu)勝劣汰。我們不能肯定明天也是贏家,除非我們?yōu)槲磥碜龊脺蕚?。在這篇文章中,進化規(guī)則在生產(chǎn)系統(tǒng)中的體現(xiàn),有助于企業(yè)建立、更新、改造、發(fā)明和促進生產(chǎn)系統(tǒng)。這是使國家經(jīng)濟平穩(wěn),順利發(fā)展的健全的方式。
2生產(chǎn)系統(tǒng)規(guī)則的演變
2.1擴大市場的職能和方向,
一般來說,生產(chǎn)管理是指計劃、組織和控制生產(chǎn)活動,以便把商品的合格率,低費用高品質,靈活和準時向客戶提供服務。隨著現(xiàn)代生產(chǎn)體系功能的擴大,包括生產(chǎn)有形和無形的商品,像服務、知識和信息,制造業(yè)和服務業(yè)之間的差異變得暗淡。大多數(shù)制造商都提供相應服務。產(chǎn)品在許多工業(yè)部門,在事實上,是完整的硬件,軟件和服務。經(jīng)濟的發(fā)展和技術在后工業(yè)社會和信息時代提出的要求,在市場越來越缺少穩(wěn)定。因此,大規(guī)模生產(chǎn)的地位在競爭中日益下降。多變的要求確定以客戶為主體的模式,大規(guī)模生產(chǎn)已發(fā)展成為多品種和小規(guī)模的生產(chǎn)活動。
2.2生產(chǎn)系統(tǒng)中品種和合理的目標
市場調查執(zhí)行時,建立,翻新和規(guī)范生產(chǎn)系統(tǒng),以便更多地了解客戶,設立實際的目標和規(guī)范的規(guī)格,提高產(chǎn)量和加快產(chǎn)品的生產(chǎn)速度。幾個品種和合理的原因如下顯示:
(1)隨著經(jīng)濟的發(fā)展,消費者已將注意力轉移到各種商品和他們熱衷于那些奇特的有效率及時髦的東西;
早期的目標 轉遞的目標 現(xiàn)代的目標
高效率
低成本
高效率
高品質
低成本
高效率
高品質
低成本
短期交付期限
安全生產(chǎn)
單產(chǎn)品
大批量的大小
多產(chǎn)品
中小批量大小
(2)新商品的產(chǎn)生造成舊商品失去了他們市場和被迅速淘汰。在這圈子,產(chǎn)品的壽命周期是非常短的,許多產(chǎn)品必須及時更新和生產(chǎn);
(3)由于嚴重的競爭,如何增加在市場上的股份成為一個重要的因素。要起帶頭作用,企業(yè)必須生產(chǎn)更多的新商品。
2.3生產(chǎn)系統(tǒng)的靈活性
裝配線生產(chǎn)和大規(guī)模生產(chǎn)曾經(jīng)是低成本,但因為該品種,多變性和短期的壽命,他們受到了限制。因此,“規(guī)模經(jīng)濟”的法律在其申請時受到挑戰(zhàn)。在運作的企業(yè),單一產(chǎn)品生產(chǎn)系統(tǒng)無法適應市場的變化進行調整。因此,隨著轉向品種和大量生產(chǎn),GT, FMS,IMI,AM和柔性制造系統(tǒng)式很容易適應的。特別是,鞏固制造業(yè)離島的基礎上,就整體而言,集成制造系統(tǒng)與計算機和IMI的技術,增加了靈活性和應變性。
2.4生產(chǎn)系統(tǒng)的自動化和完整性
物質和技術條件準備充足的自動化技術,電除塵器,信息技術,計算機技術和系統(tǒng)技術,帶來了先進制造業(yè)的繁榮。第5次技術革命的開始,在20世紀70年代,在微型電子技術和計算機技術上其實是一個突破。從他們兩個開始,意味著先進制造技術和信息技術的誕生。這樣一來,原材料和燃料的低成本,以及高效率和適應性,在現(xiàn)代企業(yè)中成了可能。從理論上講,利潤來源,規(guī)模經(jīng)濟是可以實現(xiàn)的。
(1)在傳統(tǒng)的模式中,花了高昂的代價,以獲得知識和信息,因此,大規(guī)模生產(chǎn)是解決問題的方法。當計算機集成制造系統(tǒng),如MRP的ⅱ , ERP系統(tǒng),互聯(lián)網(wǎng),內聯(lián)網(wǎng)之間企業(yè)信息的交流,,軟件存儲信息設計和管理。成本的使用和規(guī)范的信息是如此之低,大規(guī)模生產(chǎn)是不解決任何更多問題。
(2)智力和自動生產(chǎn)設備的矛盾意味著不一定能提高工作效率。效率,如果只以下的順序,從中央計算機。累積的經(jīng)驗,并不意味著很多在這里,所謂的大規(guī)模生產(chǎn)的經(jīng)驗和學習過程將不再存在。
(3)在傳統(tǒng)的模式,專門和有效率的生產(chǎn)設備和工具,是適合大規(guī)模生產(chǎn),以增加生產(chǎn)力和降低成本。但現(xiàn)代設備的,往往不是多功能的。他們是許多制造業(yè)相適應的程序,確保高生產(chǎn)力,沒有大規(guī)模生產(chǎn); ( 4 )在現(xiàn)代先進制造技術,生產(chǎn)一種商品在一定量的費用幾乎高達同樣數(shù)量的其他品種,但在同一個工廠制造它的成本比在不同的工廠會少得多; ( 5 )與技術的CAE技術,計算機輔助設計, CAPP系統(tǒng), CAM和柔性制造系統(tǒng),設計和制造的新商品,可于短期內完成并隨著質量的提高交付期限也在縮短。
2.5在生產(chǎn)系統(tǒng)中側重于人的主要因素
負責制造業(yè)的人在活動中對于他們的作用,地位,知識和能力正面臨著新的要求。這是由于改變生產(chǎn)方式和擴大生產(chǎn)活動的原因。
(1)在制造業(yè)活動中的最終因素-人:自動化制造系統(tǒng)是曾經(jīng)國際制造中心的研究“沒有人的工廠”模式,即自動操作的工廠。估計早期的計算機集成制造系統(tǒng)是在此基礎上想象的。但只有少數(shù)企業(yè)達到了他們的預期。在一些發(fā)達工業(yè)國家,他們大多未能在履行達到他們的目標。在比較大的投資,利潤也遠遠不能令人滿意。最后, CIMS在許多國家已淘汰。人的作用,在現(xiàn)代制造系統(tǒng)不是削弱了而是加強。它引起了不同尋常的關注,許多發(fā)達國家培養(yǎng)能主管這個行業(yè)技術工人和行政人員。因此,甚至是一套為工人和行政人員的更高的標準;
(2)加強人們的知識和能力:從綜合技術上發(fā)展現(xiàn)代制造技術。它的特點是多學科,所以技術是為了有一個堅實的專業(yè),不只是專業(yè)知識,但也有很多的知識,關注先進的研究。在同一時間內,了解所涉及的科目,以及擴大來看,刷新知識和接受新觀念是非常重要的。倡議的定義和能力的完整性,是被預計的。
2.6生產(chǎn)系統(tǒng)往往是勞動力密集型的
獲得類似的效果,在生產(chǎn),從一個固定的數(shù)量到大量,高效率和區(qū)域經(jīng)濟是目標。一個穩(wěn)定和均衡的生產(chǎn)是為了消除無效的工作和浪費,以縮短生產(chǎn)過程,降低成本,并避免囤積過久。勞動密集和彈性的勞動組織,應盡快執(zhí)行。因此,基于一個人,管理的轉換,是從一個由個人和部門到整個生產(chǎn)系統(tǒng)。
3結論
找出生產(chǎn)系統(tǒng)的規(guī)則演變,在某種意義上,有助于制度本身的建立,創(chuàng)新和推廣也支持功能所定的目標,為它和它的建設策略,為進步的素質和競爭力應變,在生產(chǎn)策略和競爭優(yōu)勢上,所有企業(yè)要遵守規(guī)則。
參考文獻:
[1] 張青山,姜國慶.現(xiàn)代生產(chǎn)管理.東北大學出版社, 1998
[2] 張聲.美國和日本的演變的制造模式.企業(yè)管理 1998年
[3] 陶瑛.外商投資企業(yè)的管理的新趨勢及其啟示.管理現(xiàn)代化 1997年
附錄2
英文原文
Hydraulic fluids
Hydraulic fluids are a large group of fluids used as the motive medium in hydraulic machinery. Fluid types include synthetic compounds, mineral oil, water, and water-based mixtures. The fluids are found in machinery and equipment ranging from brakes, power steering systems, and transmissions to backhoes, excavators, garbage trucks and industrial shredders. Hydraulic systems are very common in aircraft flight control systems.
Hydraulic systems like the ones mentioned above will work most efficiently if the hydraulic fluid used has low compressibility.
Because industrial hydraulic systems operate at hundreds to thousands of PSI and temperatures reaching hundreds of degrees Celsius, severe injuries and death can result from component failures and care must always be taken when performing maintenance on hydraulic systems.
Fire resistance is a property available with specialized fluids.
The use of hydraulic systems in aircraft almost certainly began with braking systems.[citation needed] As aircraft performance increased in mid-20th century, the amount of force required to operate mechanical flight controls became excessive, and hydraulic systems were introduced to reduce pilot effort. The hydraulic actuators are controlled by valves; these in turn are operated directly by input from the aircrew (hydro-mechanical) or by computers obeying control laws (fly by wire). See flight controls.
Hydraulic power is used for other purposes. It can be stored in accumulators to start an auxiliary power unit (APU) for self-starting the aircraft's main engines. Many aircraft equipped with the M61 family of cannon use hydraulic power to drive the gun system, permitting reliable high rates of fire.
The hydraulic power itself comes from pumps driven by the engines directly, or by electrically driven pumps. Electric pumps can provide both redundancy and the means of operating hydraulic systems without starting the engines, which can be very useful during maintenance.
Aircraft hydraulic fluids fall under various specifications:
Exposure to hydraulic fluids occurs mainly in the workplace. Drinking certain types of hydraulic fluids can cause death in humans, and swallowing or inhaling certain types of hydraulic fluids has caused nerve damage in animals. Contact with some types of hydraulic fluids can irritate your skin or eyes. These substances have been found in at least 10 of the 1,428 National Priorities List sites identified by the Environmental Protection Agency (EPA).
What is hydraulic fluids?
Hydraulic fluids are a large group of liquids made of many kinds of chemicals. They are used in automobile automatic transmissions, brakes, and power steering; fork lift trucks; tractors; bulldozers; industrial machinery; and airplanes. The three most common types of hydraulic fluids are mineral oil, organophosphate ester, and polyalphaolefin. Some of the trade names for hydraulic fluids include Durad?, Fyrquel?, Skydrol?, Houghton-Safe?, Pydraul?, Reofos?, Reolube?, and Quintolubric?. (Use of trade names is for identification only and does not imply endorsement by the Agency for Toxic Substances and Disease Registry, the Public Health Service, or the U.S. Department of Health and Human Services.)
Some hydraulic fluids have a bland, oily smell and others have no smell; some will burn and some will not burn. Certain hydraulic fluids are produced from crude oil and others are manufactured.
What happens to hydraulic fluids when it enters the environment?
Hydraulic fluids can enter the environment from spills, leaks in machines that use them, or from storage areas and waste sites.
If spilled on soil, some of the ingredients in hydraulic fluids will stay on top and others will sink into the groundwater.
In water, some hydraulic fluids' ingredients will transfer to the bottom and can stay there for more than a year.
Certain chemicals in hydraulic fluids may break down in air, soil, or water, but how much breaks down isn't known.
Fish may contain some hydraulic fluids if they live in contaminated water.
How might I be exposed to hydraulic fluids?
Touching or swallowing hydraulic fluids.
Breathing hydraulic fluids in the air near machines where hydraulic fluids are used.
Touching contaminated water or soil near hazardous waste sites or industrial manufacturing facilities that use or make hydraulic fluids.
How can hydraulic fluids affect my health?
Little is known about how hydraulic fluids can affect your health. Since hydraulic fluids are actually mixtures of chemicals, some of the effects seen may be caused by additives in the hydraulic fluids.
In people, the effects of breathing air with high levels of hydraulic fluids are not known. Drinking large amounts of some types of hydraulic fluids can cause pneumonia, intestinal bleeding, or death in humans. Weakness of the hands was seen in a worker who touched a lot of hydraulic fluids.
Rabbits that inhaled very high levels of one type of hydraulic fluid had trouble breathing, congested lungs, and became drowsy. The nervous systems of animals that swallowed or inhaled other hydraulic fluids were affected immediately with tremors, diarrhea, sweating, breathing difficulty, and sometimes several weeks later with weakness of the limbs, or paralysis. The immediate effects are caused because hydraulic fluids stop the action of certain enzymes, called cholinesterases, in the body. There are no reports of people swallowing or breathing the types of hydraulic fluids that cause these effects. When certain types of hydraulic fluids were put into the eyes of animals or allowed to touch the skin of people or animals for short periods of time, redness and swelling occurred. It is not known whether hydraulic fluids can cause birth defects or reproductive effects.
Is there a medical test to show whether I've been exposed to hydraulic fluids?
Hydraulic fluids can't be measured in blood, urine, or feces, but certain chemicals in the hydraulic fluids can be measured. Some of the hydraulic fluids stop the activity of certain enzymes, called cholinesterases, in blood and this activity can be measured. However, many other chemicals also cause this effect. This test isn't available at most doctors' offices, but can be done at special laboratories that have the right equipment.
Has the federal government made recommendations to protect human health?
There are no federal government recommendations to protect humans from the health effects of the major hydraulic fluids. However, mineral oil, the major chemical ingredient of one type of hydraulic fluid, is part of the petroleum distillate class of chemicals and there are regulati