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河南理工大學萬方科技學院
本科畢業(yè)設計(論文)中期檢查表
指導教師: 職稱: 副教授
所在院(系): 機械與動力工程學院 教研室(研究室):機械制造系
題 目
鋼管去毛刺技術研究及專用裝備設計
學生姓名
專業(yè)班級
10專升本—2班
學號
選題質(zhì)量:(主要從以下四個方面填寫:1、選題是否符合專業(yè)培養(yǎng)目標,能否體現(xiàn)綜合訓練要求;2、題目難易程度;3、題目工作量;4、題目與生產(chǎn)、科研、經(jīng)濟、社會、文化及實驗室建設等實際的結合程度)
(1)該題將機械、去毛刺加工、材料學相關原理與直縫鋼管加工的原理、結構相結合,具有一定的理論性與操作性。通過完成該論文可以對機械學有基本了解,掌握一些機械學基本理論知識。
(2)該題難度適中,既有理論的研究又有試驗操作,同時在生產(chǎn)實習的設計又可以增強動手能力,提高綜合素質(zhì)。
(3)周查閱畢業(yè)設計材料,整理適合自己的畢業(yè)設計信息并完成設計初稿,并對畢業(yè)設計進行完善。
(4)對高頻直縫焊管的內(nèi)外毛刺進行清除,是生產(chǎn)高檔次高頻直縫焊管的一個重要工藝過程和手段,對于內(nèi)毛刺清除精度要求較高的產(chǎn)品,如果內(nèi)毛刺清除質(zhì)量滿足不了標準或用戶要求,將無法實施批量生產(chǎn)。相比外毛刺的清除工作,內(nèi)毛刺的清除是一項復雜工作。在實際生產(chǎn)過程中的許多因素均會影響到內(nèi)毛刺清除質(zhì)量,即內(nèi)毛刺清除的精度和清除過程的穩(wěn)定性。采用在線去毛刺裝置,除了改善去毛刺質(zhì)量,還可以提高生產(chǎn)質(zhì)量,在實現(xiàn)鋼管成型及去毛刺同步時,也穩(wěn)定了輸出質(zhì)量。因此,有必要對各種影響因素進行分析,采取相應的措施,以改善高頻直縫焊管內(nèi)毛刺的清除效果和提高產(chǎn)品檔次,在線去毛刺裝置的設計對于提高生產(chǎn)質(zhì)量和節(jié)約生產(chǎn)成本有著重要意義。
二、開題報告完成情況:
開題報告已如期按要求完成,并上交審核。
三、階段性成果:
1.在資料的收集與整理過程中,對磨粒加工有初步了解,掌握部分相關磨粒加工學原理。
2.認真學習關于機械學、磨粒加工、材料學等有關理論知識,為下一階段的工作打
下堅實的基礎。
3.完成開題報告。
4.列出論文題綱,著手理論部分。
5.同時搜集噴油嘴去毛刺的相關資料,有待進一步分析整理。
四、存在主要問題:
1.資料收集還不全面,一些理論與應用相結合的實踐做的還不好
2.部分公式推導還不熟練
3. Word文字排版、公式編輯不太熟練
4.CAD、Proe軟件操作不熟練
五、指導教師對學生在畢業(yè)實習中,勞動、學習紀律及畢業(yè)設計(論文)進展等方面的評語
指導教師: (簽名)
年 月 日
河南理工大學萬方科技學院
本科畢業(yè)設計(論文)開題報告
題目名稱
鋼管去毛刺技術研究及專用裝備設計
學生姓名
尚磊
專業(yè)班級
10專升本—2班
學號
0816101038
一、 選題的目的和意義:
近年來,通過引進國外先進技術及對引進技術的消化吸收,我國高頻直縫焊管的生產(chǎn)技術裝備水平不斷提高,高頻直縫焊管的產(chǎn)品質(zhì)量和檔次也有了很大的提升,產(chǎn)品的用途越來越廣泛。對高頻直縫焊管的內(nèi)外毛刺進行清除,是生產(chǎn)高檔次高頻直縫焊管的一個重要工藝過程和手段,對于內(nèi)毛刺清除精度要求較高的產(chǎn)品,如果內(nèi)毛刺清除質(zhì)量滿足不了標準或用戶要求,將無法實施批量生產(chǎn)。相比外毛刺的清除工作,內(nèi)毛刺的清除是一項復雜工作。在實際生產(chǎn)過程中的許多因素均會影響到內(nèi)毛刺清除質(zhì)量,即內(nèi)毛刺清除的精度和清除過程的穩(wěn)定性。采用在線去毛刺裝置,除了改善去毛刺質(zhì)量,還可以提高生產(chǎn)質(zhì)量,在實現(xiàn)鋼管成型及去毛刺同步時,也穩(wěn)定了輸出質(zhì)量。因此,有必要對各種影響因素進行分析,采取相應的措施,以改善高頻直縫焊管內(nèi)毛刺的清除效果和提高產(chǎn)品檔次,在線去毛刺裝置的設計對于提高生產(chǎn)質(zhì)量和節(jié)約生產(chǎn)成本有著重要意義。
二、 國內(nèi)外研究綜述:
在焊管剛剛開始興起的19 世紀40~50 年代,人們對電焊管內(nèi)毛刺的清除是沒什么要求的。后來由于工業(yè)的發(fā)展, 如汽車、鍋爐、石油等行業(yè)需要比較精密的焊管, 強調(diào)要求清除焊管內(nèi)毛刺, 這才開始電焊管內(nèi)毛刺清除裝置的研制與開發(fā)。
20 世紀60 年代, 我國絕大部分焊管生產(chǎn)企業(yè)的焊管機組都是Φ101.6 mm ( 4 in) 以下的, 到了70 年代中期才開始研制電焊管內(nèi)毛刺清除裝置。原首鋼焊管廠首先開始使用固定式刀架, 先由人工調(diào)整, 將刀架上的刀片對準需要切削的毛刺。雖然試生產(chǎn)石油管已達到一個較高的水平, 內(nèi)毛刺殘留高度僅為0~0.2 mm, 但由于原料、成型、焊接、合格率等因素的影響, 還需要做進一步的研究。后來又采用了浮動式( 彈簧或氣動) 刀架, 如我國在20 世紀80年代初從日本引進的Φ90 mm 焊管機組就是采用了彈簧浮動式刀架。我國采用的是螺旋彈簧, 而國外采用的是板式彈簧。這種刀架存在需要熟練工人操作, 起動動作要慢, 彈簧必須調(diào)至合適壓力等不利因素, 從而影響其進一步發(fā)展。
當時國外的刀架由3 個部件組成, 如美國Nelson 工具公司的清除內(nèi)毛刺刀架采用了板式彈簧, 通過其支承力使刀頭伸入毛刺中, 利用刀削原理刮削毛刺。其優(yōu)點是結構簡單, 制造方便; 其缺點是彈簧經(jīng)常處于高溫、潮濕的空氣以及氧化鐵皮飛揚的環(huán)境下很容易失效, 彈力消失, 刮出的毛刺常常達不到要求。
21 世紀初,江蘇徐州某鋼管公司引進了Φ139.7mm、Φ73 mm 兩種規(guī)格的液壓式內(nèi)毛刺清除裝置,用于Φ219 mm 焊管機組ERW油套管的開發(fā)生產(chǎn)。該裝置的刀頭為環(huán)形刀, 刀座和刀座架可在垂直方向上相對調(diào)整, 下支承輥輪的脹縮通過液壓管路在操作臺上進行調(diào)整, 固定架具有沿垂直方向調(diào)整的功能, 沿中心桿軸線調(diào)整和旋轉(zhuǎn)的功能。其刀頭使用壽命長, 調(diào)整方便、精確, 液壓壓力穩(wěn)定, 大大提高了ERW直縫焊油套管內(nèi)毛刺的清除質(zhì)量和焊管機組的作業(yè)率, 保證了焊縫狀態(tài)的穩(wěn)定性。
三、 畢業(yè)設計(論文)所用的主要技術與方法:
1.在學校圖書館查閱相關資料;
2.在工廠的進行畢業(yè)實習;
3.通過老師和工程師的指導;
4.通過對相關資料和數(shù)據(jù)的理論計算和分析;
5.用AotuCAD進行畫圖。
四、 主要參考文獻與資料獲得情況:
[1] 劉志儉.ERW直縫焊管內(nèi)毛刺清除裝置的發(fā)展[J].鋼管2006(3):7-12
[2] 雷建德. 提高高頻直縫焊管內(nèi)毛刺清除質(zhì)量的措施[J].鋼管2005(4):17-20
[3] 秦宗旺等. 去毛刺技術手冊[M]. 北京:宇航出版社,1995.
[4] 機械零件去毛刺工藝[J] 中國農(nóng)業(yè)機械出版社 1998(1)
[5] 陳靜剛. 機械式直縫焊管內(nèi)毛刺清除裝置[J].機械制造與自動化2006(3):70-71,74
[6] 康霞明. 直縫焊管內(nèi)毛刺清除裝置結構原理分析[J].焊管2005(5):54-55
[7] 杭情. 直縫焊管內(nèi)毛刺刨刀[J].焊管2005(4):31-31
[8] 王文瀚. 焊接技術手冊[M]. 鄭州: 河南科學技術出版社, 1999
[9] 曹福永.新型高頻焊接鋼管制造工藝的開發(fā)[J] .冶金設備. 2002(6):78-78
[10] 關振中. 激光加工工藝學手冊[M]. 北京:中國計量出版社,1998.
[11] 熊有倫等.去毛刺技術[M]. 北京:機械工業(yè)出版社,1993.
[12] 王承義. 機械手及其應用[M]. 北京:機械工業(yè)出版社,1981.
五、 畢業(yè)設計(論文)進度安排(按周說明)
1-4周進行并完成畢業(yè)實習報告;
5周完成開題報告;
6-9周查閱畢業(yè)設計材料,整理適合自己的畢業(yè)設計信息并完成設計初稿;
10-12周對畢業(yè)設計進行完善;
13-14周完成畢業(yè)設計;
15周 畢業(yè)設計上交導師準備答辯;
16周 進行畢業(yè)答辯。
六、 指導教師審批意見:
指導教師: (簽名)
年 月 日
3
河南理工大學萬方科技學院
本科畢業(yè)設計
外文資料與中文翻譯
院(系部) 機械與動力工程系
專業(yè)名稱 機械設計制造及其自動化
年級班級
學生姓名
指導教師
2011年 5月 15日
NC Technology
1、Research current situation of NC lathe in our times
Research and development process to such various kinds of new technologies as numerical control lathe , machining center , FMS , CIMS ,etc. of countries all over the world, linked to with the international economic situation closely. The machine tool industry has international economy to mutually promote and develop, enter 21 alert eras of World Affairs, the function that people's knowledge plays is more outstanding , and the machine tool industry is regarded as the foundation of the manufacturing industry of the machine, its key position and strategic meaning are more obvious. Within 1991-1994 years, the economic recession of the world, expensive FMS, CIMS lowers the temperature, among 1995-2000 years, the international economy increases at a low speed, according to requisition for NC lathe and the world four major international lathes exhibition in order to boost productivity of users of various fields of present world market (EMO , IMTS , JIMTOF , China CIMT of Japan of U.S.A. of Europe), have the analysis of the exhibit, there are the following several points mainly in the technical research of NC lathe in our times:
(1)、Pay more attention to new technology and innovation
Worldwide , are launching the new craft , new material , new structure , new unit , research and development of the new component in a more cost-effective manner, developmental research of for instance new cutter material , the new electric main shaft of main shaft structure , high speed , high-speed straight line electrical machinery ,etc.. Regard innovating in improvement of the processing technology as the foundation, for process ultra and hard difficult to cut material and special composite and complicated part , irregular curved surface ,etc. research and develop new lathe variety constantly.
(2)、Improve the precision and research of machine tooling
In order to improve the machining accuracy of the machining center , are improving rigidity of the lathe , reduction vibration constantly, dispel hotly and out of shape, reduce the noise , improve the precision of localization of NC lathe , repeat precision , working dependability , stability , precision keeping, world a lot of country carry on lathe hot error , lathe sport and load out of shape software of error compensate technical research, take precision compensate , software compensate measure improve , some may make this kind of error dispel 60% already. And is developing retrofit constantly, nanometer is being processed.
(3)、Improve the research of the machine tooling productivity
World NC lathe, machining center and corresponding some development of main shaft , electrical machinery of straight line , measuring system , NC system of high speed, under the prerequisite of boosting productivity.
(4)、What a lot of countries have already begun to the numerical control system melt intelligently, openly, study networkedly
A、 elligent research of the numerical control system
Mainly showing in the following aspects: It is intelligent in order to pursue the efficiency of processing and process quality, the self-adaptation to the processing course is controlled, the craft parameter produces research automatically; Join the convenient one in order to improve the performance of urging and use intelligently, to the feedback control , adaptive operation , discerning automatically load selects models automatically , since carries on research whole definitely ,etc. of the electrical machinery parameter; There are such research of the respect as intelligent automatic programming , intelligent man-machine interface , intelligence diagnosing , intelligent monitoring ,etc..
B、 The numerical control system melts and studies open
Mainly showing in the following aspects: The development of the numerical control system is on unified operation platform, face the lathe producer and support finally, through changing, increasing or cutting out the structure target(numerical control target ), form the seriation, and can use users specially conveniently and the technical know-how is integrated in the control system, realize the open numerical control system of different variety , different grade fast, form leading brand products with distinct distinction. System structure norm of the open numerical control system at present, norm , disposing the norm , operation platform , numerical control systematic function storehouse and numerical control systematic function software developing instrument ,etc. are the core of present research to pass through.
C、Meeting the manufacture system of the production line , demand for the information integration of the manufacturing company networkedly greatly of numerical control equipment, it is a basic unit of realizing the new manufacture mode too.
2、Classification of the machining center
(1)Process according to main shaft space position when it classifies to be as follows, horizontal and vertical machining center.
Horizontal machining center, refer to the machining center that the axis level of the main shaft is set up . Horizontal machining center for 3-5 sport coordinate axis, a common one three rectilinear motion coordinate axis and one turn the coordinate axis of sports round (turn the workingbench round), it can one is it is it finish other 4 Taxi processing besides installing surfaces and top surfaces to insert to install in work piece, most suitable for processing the case body work piece . Compared with strength type machining center it, the structure is complicated, the floor space is large, quality is large, the price is high.
Vertical machining center, the axis of the main shaft of the vertical machining center, in order to set up vertically, its structure is mostly the regular post type, the workingbench is suitable for processing parts for the slippery one of cross, have 3 rectilinear motion coordinate axis generally , can find a room for one horizontal numerical control revolving stage (the 4th axle ) of axle process the spiral part at workingbench. The vertical machining center is of simple structure, the floor space is small, the price is low, after allocating various kinds of enclosures , can carry on the processing of most work pieces .
Large-scale gantry machining center, the main shafts are mostly set up vertically, is especially used in the large-scale or with complicated form work piece , is it spend the many coordinate gantry machining center to need like aviation , aerospace industry , some processing of part of large-scale steam turbine.
Five machining centers, this kind of machining center has function of the vertical and horizontal machining center, one is it after inserting , can finish all five Taxi processing besides installing the surface to install in work piece, the processing way can make form of work piece error lowest , save 2 times install and insert working, thus improve production efficiency , reduce the process cost.
(2)Classify by craft use
Is it mill machining center to bore, is it mill for vertical door frame machining center , horizontal door frame mill the machining center and Longmen door frame mill the machining center to divide into. Processing technology its rely mainly on the fact that the door frame is milled, used in case body, shell and various kinds of complicated part special curve and large processes , curved surface of outline process, suitable for many varieties to produce in batches small.
Complex machining center, point five times and compound and process mainly, the main shaft head can be turned round automatically, stand, lie and process, after the main shaft is turned round automatically, realize knowing that varies in the horizontal and vertical direction.
(3)Classify by special function
Single workingbench , a pair of workingbench machining center;
Single axle , dual axle , three axle can change machining center , main shaft of case;
Transfer vertically to the tower machining center and transfer ;
One hundred sheets of storehouses adds the main shaft and changes one one hundred sheets of machining centers;
One hundred sheets of storehouses connects and writes hands to add the main shaft and change one hundred sheets of machining centers;
One hundred sheets of storehouses adds the manipulator and adds one pair of main shafts to transfer to the tower machining center.
3、Development trend of the current numerical control lathe
At present, the advanced manufacturing technology in the world is rising constantly, such application of technology as ultrafast cutting , ultraprecision processing ,etc., the rapid development of the flexible manufacturing system and integrated system of the computer one is constant and ripe, have put forward higher demand to the process technology of numerical control. Nowadays the numerical control lathe is being developed in several following directions.
(1). The speed and precision at a high speed , high accuracy are two important indexes of the numerical control lathe , it concerns directly that processes efficiency and product quality. At present, numerical control system adopt-figure number, frequency high processor, in order to raise basic operation speed of system. Meanwhile , adopt the super large-scale integrated circuit and many microprocessors structure, in order to improve systematic data processing ability , namely improve and insert the speed and precision of mending operation. Adopt the straight line motor and urge the straight line of the lathe workingbench to be servo to enter to the way directly, it is quite superior that its responds the characteristic at a high speed and dynamically. Adopt feedforward control technology , make it lag behind error reduce greatly , thus improve the machining accuracy cut in corner not to track.
For meet ultrafast demand that process, numerical control lathe adopt main shaft motor and lathe structure form that main shaft unite two into one, realize frequency conversion motor and lathe main shaft integrate , bearing , main shaft of electrical machinery adopt magnetism float the bearing , liquid sound pigeonhole such forms as the bearing or the ceramic rolling bearing ,etc.. At present, ceramic cutter and diamond coating cutter have already begun to get application.
(2). Multi-functional to is it change all kinds of machining centers of organization (a of capacity of storehouse can up to 100 of the above ) automatically to furnished with, can realize milling paring , boring and pares , bores such many kinds of processes as paring , turning , reaming , reaming , attacking whorl ,etc. to process at the same time on the same lathe , modern numerical control lathe adopt many main shaft , polyhedron cut also , carry on different cutting of way process to one different position of part at the same time. The numerical control system has because adopted many CPU structure and cuts off the control method in grades, can work out part processing and procedure at the same time on a lathe , realize so-called " the front desk processes , the backstage supporter is an editor ". In order to meet the needs of integrating the systematic one in flexible manufacturing system and computer, numerical control system have remote serial interface , can network , realize data communication , numerical control of lathe, can control many numerical control lathes directly too.
(3). Intelligent modern numerical control lathe introduce the adaptive control technology, according to cutting the change of the condition, automatic working parameter, make the processing course can keep the best working state , thus get the higher machining accuracy and roughness of smaller surface , can improve the service life of the cutter and production efficiency of the equipment at the same time . Diagnose by oneself , repair the function by oneself, among the whole working state, the system is diagnosed, checked by oneself to CNC system and various kinds of equipment linking to each other with it at any time. While breaking down , adopt the measure of shutting down etc. immediately , carry on the fault alarm, brief on position , reason to break down ,etc.. Can also make trouble module person who take off automatically , put through reserve module , so as to ensure nobody demand of working environment. For realize high trouble diagnose that requires , its development trend adopts the artificial intelligence expert to diagnose the system.
(4). Numerical control programming automation with the development of application technology of the computer, CAD/CAM figure interactive automatic programming has already get more application at present, it is a new trend of the technical development of numerical control. It utilize part that CAD draw process pattern , is it calculate the trailing punishing to go on by cutter orbit data of computer and then, thus produce NC part and process the procedure automatically, in order to realize the integration of CAD and CAM. With the development of CIMS technology , the full-automatic programming way in which CAD/CAPP/CAM integrates has appeared again at present, it, and CAD/CAM systematic programming great difference their programming necessary processing technology parameter needn't by artificial to participate in most, get from CAPP database in system directly.
(5). The dependability of the dependability maximization numerical control lathe has been the major indicator that users cared about most all the time . The numerical control system will adopt the circuit chip of higher integrated level , will utilize the extensive or super large-scale special-purpose and composite integrated circuit, in order to reduce the quantity of the components and parts , to improve dependability . Through the function software of the hardware, in order to meet various kinds of demands for controlling the function, adopt the module , standardization , universalization and seriation of the structure lathe noumenonn of the hardware at the same time , make not only improve the production lot of the hardware but also easy to is it produce to organize and quality check on.. Still through operating and starting many kinds of diagnostic programs of diagnosing , diagnosing , diagnosing off-line online etc. automatically, realize that diagnoses and reports to the police the trouble to hardware , software and various kinds of outside equipment in the system. Utilize the warning suggestion, fix a breakdown in time; Utilize fault-tolerant technology, adopt and design the important part " redundantly ", in order to realize the trouble resumes by oneself; Utilize various kinds of test , control technology , exceed Cheng , one one hundred sheets of damages , interfering , cutting out ,etc. at the time of various kinds of accidents as production, carry on corresponding protection automatically.
(6). Control system miniaturization systematic miniaturization of numerical control benefit and combine the machine , electric device for an organic whole. Adopt the super large-scale integrated component , multi-layer printed circuit board mainly at present, adopt the three-dimensional installation method , make the electronic devices and components must use the high density to install, narrow systematic occupying the space on a larger scale. And utilize the new-type slim display of colored liquid crystal to substitute the traditional cathode ray tube, will make the operating system of numerical control miniaturize further. So can install it on the machine tool conveniently, benefit the operation of the numerical control lathe correctly even more.
本文出自:Shigley J E. Mechanical Engineering Design. New York: McGraw-Hill, 1998
數(shù)控技術
1、當前世界NC機床的研究現(xiàn)狀
世界各國對數(shù)控機床、加工中心以至FMS、CIMS等各種新技術的研究與發(fā)展進程,是與世界經(jīng)濟形勢緊密相連的。機床工業(yè)有世界經(jīng)濟相互促進和發(fā)展,進入21世界知識機警時代,人們的知識所起的作用更加突出,而機床工業(yè)作為機器制造業(yè)的基礎,其重點地位與戰(zhàn)略意義也更加明顯。在1991—1994年間,世界經(jīng)濟衰退,昂貴的FMS,CIMS降溫,1995—2000年間,世界經(jīng)濟在低速增長,根據(jù)當前世界市場各方面用戶為提高生產(chǎn)率對NC機床的要求以及世界四大國際機床展(歐洲的EMO、美國的IMTS、日本的JIMTOF、中國的CIMT)上展品的分析,當前世界NC機床的技術研究主要有以下幾點:
(1)、更加重視新技術和創(chuàng)新
在世界范圍內(nèi),對新工藝、新材料、新結構、新單元、新元件的研究開發(fā)工作正在大力開展,如新的刀具材料、新的主軸結構、高速電主軸、高速直線電機等的開發(fā)研究。以加工工藝的改進創(chuàng)新為基礎,為加工超硬、難切削材料及特殊復合材料及復雜零件、不規(guī)則曲面等在不斷研究開發(fā)新機種。
(2)、提高機床加工的精度和研究
為了提高加工中心的加工精度,不斷提高機床的剛度、減少振動,消除熱變形,降低噪聲,提高NC機床的定位精度、重復精度、工作可靠性、穩(wěn)定性、精度保持性,世界很多國家都在進行機床熱誤差、機床運動及負載變形誤差的軟件補償技術研究,并采取精度補償、軟件補償?shù)却胧┘右愿纳?,有的已?jīng)可以使此類誤差消除60%。并在不斷開發(fā)精細加工,納米加工。
(3)、提高機床加工生產(chǎn)率的研究
世界NC機床、加工中心及相應的高速點主軸、直線電機、測量系統(tǒng)、NC系統(tǒng)的開發(fā),均以提高生產(chǎn)率為前提。
(4)、許多國家都已經(jīng)開始對數(shù)控系統(tǒng)的智能化、開放化、網(wǎng)絡化研究
A、數(shù)控系統(tǒng)的智能化的研究
主要表現(xiàn)在:為追求加工效率和加工質(zhì)量的智能化,對加工過程的自適應控制,工藝參數(shù)自動生成進行研究;為提高驅(qū)動性能及使用連接方便的智能化,對反饋控制、電機參數(shù)的自適應運算、自動識別負載自動選定模型、自整定等進行研究;還有智能化的自動編程、智能化的人機界面、智能診斷、智能監(jiān)控等方面的研究。
B、數(shù)控系統(tǒng)開放化研究
主要表現(xiàn)在:數(shù)控系統(tǒng)的開發(fā)在統(tǒng)一的運行平臺上,面向機床廠家和最終擁護,通過改變、增加或剪裁結構對象(數(shù)控對象),形成系列化,并可方便地將用戶的特殊應用和技術訣竅集成到控制系統(tǒng)中,快速實現(xiàn)不同品種、不同檔次的開放式數(shù)控系統(tǒng),形成具有鮮明個性的名牌產(chǎn)品。目前開放式數(shù)控系統(tǒng)的體系結構規(guī)范、通行規(guī)范、配置規(guī)范、運行平臺、數(shù)控系統(tǒng)功能庫以及數(shù)控系統(tǒng)功能軟件開發(fā)工具等是當前研究的核心。
C、數(shù)控裝備的網(wǎng)絡化將極大地滿足生產(chǎn)線制造系統(tǒng)、制造企業(yè)對信息集成的需求,也是實現(xiàn)新的制造模式的基礎單元。
2、加工中心的分類
(1)按主軸加工時的空間位置分類有:臥式和立式加工中心。
臥式加工中心,是指主軸軸線水平設置的加工中心。臥式加工中心一般具有3—5個運動坐標軸,常見的是三個直線運動坐標軸和一個回轉(zhuǎn)運動坐標軸(回轉(zhuǎn)工作臺),它能在工件一次裝夾完成除安裝面和頂面以外的其余4個面的加工,最適合加工箱體類工件。它與力式加工中心相比,結構復雜,占地面積大,質(zhì)量大,價格高。
立式加工中心,立式加工中心主軸的軸線為垂直設置,其結構多為固定立柱式,工作臺為十字滑臺,適合加工盤類零件,一般具有3個直線運動坐標軸,并可在工作臺上安置一個水平軸的數(shù)控轉(zhuǎn)臺(第4軸)來加工螺旋類零件。立式加工中心結構簡單,占地面積小,價格低,配備各種附件后,可進行大部分工件的加工。
大型龍門式加工中心,主軸多為垂直設置,尤其使用于大型或形狀復雜的工件,像航空、航天工業(yè)及大型汽輪機上的某些零件的加工都需要用這類多坐標龍門式加工中心。
五面加工中心,這種加工中心具有立式和臥式加工中心的功能,在工件一次裝夾后,能完成除安裝面外的所有五個面的加工,這種加工方式可以使工件的形狀誤差降到最低,省去二次裝夾工作,從而提高生產(chǎn)效率,降低加工成本。
(2)按工藝用途分類有:
鏜銑加工中心,分為立式樘銑加工中心、臥式樘銑加工中心和龍門樘銑加工中心。其加工工藝以樘銑為主,用于箱體,殼體以及各種復雜零件特殊曲線和曲面輪廓的多工序加工,適合多品種小批量生產(chǎn)。
復合加工中心,主要指五面復合加工,主軸頭可自動回轉(zhuǎn),進行立,臥加工,在主軸自動回轉(zhuǎn)后,在水平和垂直方向?qū)崿F(xiàn)知道變換。
(3)按特殊功能分類有:
單工作臺、雙工作臺加工中心;
單軸、雙軸、三軸及可換主軸箱的加工中心;
立式轉(zhuǎn)塔加工中心和臥式轉(zhuǎn)塔加工中心;
刀庫加主軸換刀加工中心;
刀庫接寫手加主軸換刀加工中心;
刀庫加機械手加雙主軸轉(zhuǎn)塔加工中心。
3、當今數(shù)控機床的發(fā)展趨勢:
目前,世界先進制造技術不斷興起,超高速切削、超精密加工等技術的應用,柔性制造系統(tǒng)的迅速發(fā)展和計算機集成系統(tǒng)的不斷成熟,對數(shù)控加工技術提出了更高的要求。當今數(shù)控機床正在朝著以下幾個方向發(fā)展。
(1).高速度、高精度化速度和精度是數(shù)控機床的兩個重要指標,它直接關系到加工效率和產(chǎn)品質(zhì)量。目前,數(shù)控系統(tǒng)采用位數(shù)、頻率更高的處理器,以提高系統(tǒng)的基本運算速度。同時,采用超大規(guī)模的集成電路和多微處理器結構,以提高系統(tǒng)的數(shù)據(jù)處理能力,即提高插補運算的速度和精度。并采用直線電動機直接驅(qū)動機床工作臺的直線伺服進給方式,其高速度和動態(tài)響應特性相當優(yōu)越。采用前饋控制技術,使追蹤滯后誤差大大減小,從而改善拐角切削的加工精度。
為適應超高速加工的要求,數(shù)控機床采用主軸電動機與機床主軸合二為一的結構形式,實現(xiàn)了變頻電動機與機床主軸一體化,主軸電機的軸承采用磁浮軸承、液體動靜壓軸承或陶瓷滾動軸承等形式。目前,陶瓷刀具和金剛石涂層刀具已開始得到應用。
(2).多功能化配有自動換刀機構(刀庫容量可達100把以上)的各類加工中心,能在同一臺機床上同時實現(xiàn)銑削、鏜削、鉆削、車削、鉸孔、擴孔、攻螺紋等多種工序加工,現(xiàn)代數(shù)控機床還采用了多主軸、多面體切削,即同時對一個零件的不同部位進行不同方式的切削加工。數(shù)控系統(tǒng)由于采用了多CPU結構和分級中斷控制方式,即可在一臺機床上同時進行零件加工和程序編制,實現(xiàn)所謂的“前臺加工,后臺編輯”。為了適應柔性制造系統(tǒng)和計算機集成系統(tǒng)的要求,數(shù)控系統(tǒng)具有遠距離串行接口,甚至可以聯(lián)網(wǎng),實現(xiàn)數(shù)控機床之間的數(shù)據(jù)通信,也可以直接對多臺數(shù)控機床進行控制。
(3).智能化現(xiàn)代數(shù)控機床將引進自適應控制技術,根據(jù)切削條件的變化,自動調(diào)節(jié)工作參數(shù),使加工過程中能保持最佳工作狀態(tài),從而得到較高的加工精度和較小的表面粗糙度,同時也能提高刀具的使用壽命和設備的生產(chǎn)效率。具有自診斷、自修復功能,在整個工作狀態(tài)中,系統(tǒng)隨時對CNC系統(tǒng)本身以及與其相連的各種設備進行自診斷、檢查。一旦出現(xiàn)故障時,立即采用停機等措施,并進行故障報警,提示發(fā)生故障的部位、原因等。還可以自動使故障模塊脫機,而接通備用模塊,以確保無人化工作環(huán)境的要求。為實現(xiàn)更高的故障診斷要求,其發(fā)展趨勢是采用人工智能專家診斷系統(tǒng)。
(4).數(shù)控編程自動化隨著計算機應用技術的發(fā)展,目前CAD/CAM圖形交互式自動編程已得到較多的應用,是數(shù)控技術發(fā)展的新趨勢。它是利用CAD繪制的零件加工圖樣,再經(jīng)計算機內(nèi)的刀具軌跡數(shù)據(jù)進行計算和后置處理,從而自動生成NC零件加工程序,以實現(xiàn)CAD與CAM的集成。隨著CIMS技術的發(fā)展,當前又出現(xiàn)了CAD/CAPP/CAM集成的全自動編程方式,它與CAD/CAM系統(tǒng)編程的最大區(qū)別是其編程所需的加工工藝參數(shù)不必由人工參與,直接從系統(tǒng)內(nèi)的CAPP數(shù)據(jù)庫獲得。
(5).可靠性最大化數(shù)控機床的可靠性一直是用戶最關心的主要指標。數(shù)控系統(tǒng)將采用更高集成度的電路芯片,利用大規(guī)?;虺笠?guī)模的專用及混合式集成電路,以減少元器件的數(shù)量,來提高可靠性。通過硬件功能軟件化,以適應各種控制功能的要求,同時采用硬件結構機床本體的模塊化、標準化和通用化及系列化,使得既提高硬件生產(chǎn)批量,又便于組織生產(chǎn)和質(zhì)量把關。還通過自動運行啟動診斷、在線診斷、離線診斷等多種診斷程序,實現(xiàn)對系統(tǒng)內(nèi)硬件、軟件和各種外部設備進行故障診斷和報警。利用報警提示,及時排除故障;利用容錯技術,對重要部件采用“冗余”設計,以實現(xiàn)故障自恢復;利用各種測試、監(jiān)控技術,當生產(chǎn)超程、刀損、干擾、斷電等各種意外時,自動進行相應的保護。
(6).控制系統(tǒng)小型化數(shù)控系統(tǒng)小型化便于將機、電裝置結合為一體。目前主要采用超大規(guī)模集成元件、多層印刷電路板,采用三維安裝方法,使電子元器件得以高密度安裝,較大規(guī)模縮小系統(tǒng)的占有空間。而利用新型的彩色液晶薄型顯示器替代傳統(tǒng)的陰極射線管,將使數(shù)控操作系統(tǒng)進一步小型化。這樣可以方便地將它安裝在機床設備上,更便于對數(shù)控機床的操作使用。