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封面樣式
湖 南 科 技 大 學
英文文獻翻譯
學 生 姓 名:
學 院: 機電工程學院
專業(yè)及班級: 機械設計制造及其自動化四班
學 號:
指導教師:
2015 年 6 月 6 日
國內外帶式輸送機動力學與控制
宋偉剛
摘要:分析國內外帶式輸送機動力學的研究進展與方法,進而給出動力學分析的基本方法與過程。
關鍵詞:帶式輸送機;動力學模型;動態(tài)分析
1 .帶式輸送機的設計計算方法與動力學問題
帶式輸送機是當代最重要的散狀物料輸送設備,廣泛地應用于煤炭、鋼鐵、電力、建材等工業(yè)領域,也是港口、料場等物流系統(tǒng)中散料存儲、輸送的重要裝備。
帶式輸送機的設計計算方法的發(fā)展經歷了漫長的歷史,作為機械設備的帶式輸送機其設計計算方法和其他機械系統(tǒng)類似地,計算式可以從基本的力學定理、物理學法則所得出。其進展隨著理論研究的深入,計算手段的進步越來越細致與精確。最早可以見到的計算方法是德國HETZL方法,另外,一些公司也提出了較有影響的計算方法,如美國的GOODYEAR公司、GOODRICH公司和日本的阪東橡膠公司等計算方法,這些計算方法的主要阻力計算都屬于概算法。20世紀的50年代,德國的LACHMANN和VIERLING教授提出了精確計算主要阻力中各個分項的計算方法、80年代以后荷蘭的SPAANS教授、美國的CDI公司進一步發(fā)展了精確計算主要阻力中各個分項的計算方法,他們都是從帶式輸送機主要阻力的構成角度得出相應的各個分項。然而精確計算方法當前仍然極少采用,即使在德國標準中。
從功率和張力計算過程看,出現(xiàn)過兩種不同的方法:一種方法是根據輸送帶垂度條件確定傳動滾筒奔離點張力,再采用逐點張力計算方法計算出傳動滾筒相遇點張力,滾筒上的張力差就是所要求的驅動功率。早期的蘇聯(lián)計算方法和TD75、DX帶式輸送機設計手冊[7-9]主要是采用此類方法;另一種是直接將各種阻力疊加在一起得出輸送機總的功率需求,進而通過輸送帶和滾筒不打滑條件和垂度限制條件按逐點計算方法計算輸送帶各特征點張力。在當前帶式輸送機設計計算的主導方法德國標準DIN22101-2002和CEMA(第5版)帶式輸送機功率和張力計算方法。DIN22101計算方法屬于上述的第2類、而CEMA計算方法介乎第1和第2類之間,這是由于該方法考慮到運行阻力和張力相關。從上述方法的分析可以看出,計算結果的是否準確的關鍵問題并不取決于計算次序,而在于輸送機運行過程中的阻力計算是否準確。
帶式輸送機的運行過程由啟動-穩(wěn)定運行-停機構成,盡管一條輸送機在絕大部分時間處于穩(wěn)定運行或停機狀態(tài),但是由于在啟動和停機過程會有加速或減速產生慣性載荷,因而在輸送機的設計中需要考慮動載荷的影響。傳統(tǒng)的設計計算方法(如DIN22101)是將輸送機上所有運動部件看成剛性聯(lián)結在一起,同時加速或減速(可以看作“準靜態(tài)”),不考慮輸送帶的粘彈性性質以及在啟動、停機過程中驅動的輸入力(矩)隨時間變化的作用,從而不能給出輸送機在啟動、停機過程的瞬態(tài)過程。從帶式輸送機的瞬態(tài)過程角度來看,在下列幾個方面存在動力學問題:
(1)輸送機的啟動、停機過程的輸送機縱向的速度和應力(張力)的傳播
帶式輸送機(特別是大型帶式輸送機)的結構特點體現(xiàn)在:輸送帶、托輥和物料是散布在輸送線上,輸送帶本質上是粘彈性體,因而驅動裝置的啟動過程是逐漸地將驅動力和速度傳播到整個輸送帶上,輸送機的啟動是一個漸進的過程,輸送帶的張力由靜止狀態(tài)下的張力變化到穩(wěn)定運行下的張力,張力的變化導致輸送帶的變形量的變化,由拉緊裝置的伸長或縮短和輸送帶的撓度變化所吸收。另一個特點是多驅動單元與多點驅動。當沒有考慮到縱向動力學瞬態(tài)過程的影響可能出現(xiàn)的問題包括:
1)選擇過大的驅動設備的投資費用過高,造成啟動和停機過程中的輸送帶的張力過大;
2)變坡線路的帶式輸送機停機過程中造成輸送帶的局部張力過?。?
3)拉緊裝置的位移設計的不準確,出現(xiàn)拉緊行程不夠或拉緊反應滯后,不能滿足系統(tǒng)的傳動要求;
4)驅動裝置、制動裝置和拉緊裝置的配置與位置布置不合理;
5)在多驅動單元系統(tǒng)中啟動或制動過程中由于加載次序與時間控制上的問題產生振蕩,造成各驅動單元的輸出無法實現(xiàn)同步與功率平衡。
(2)輸送帶在橫截面上的垂直于輸送帶面的振動
輸送帶在張力、載荷和輸送帶固有特性下,當托輥的激振頻率與固有頻率接近或一致時,在輸送帶的橫截面的鉛垂面方向存在振動問題,此振動將會使輸送機機架甚至建筑物發(fā)生破壞[12-14]。
(3)輸送帶在輸送機橫向的跑偏
輸送帶跑偏是廣泛存在的問題,跑偏是引起輸送機停機、撒料、機架堵塞、輸送帶使用期限縮短等后果的主要原因,跑偏的調整是非常麻煩的事情,從理論上對跑偏分析方法是建立輸送帶橫用運動動力學方程,進而應用穩(wěn)定性理論進行分析。
(4)輸送物料量的變化引起的運行狀態(tài)的變化
輸送物料量的變化會引起運行狀態(tài)的變化,然而這種變化相對于輸送帶的波動周期要長得多,因而一般不會單獨對此問題進行研究,研究的關注點是不同物料載荷分布下的縱向波動問題。
(5)受料過程物料對托輥和輸送帶的沖擊
輸送帶受料處物料沖擊(特別是大塊物料)的沖擊直接危害帶式輸送機的正常使用,是輸送帶損壞的重要原因,導致輸送帶發(fā)生磨損、上覆蓋層、帶芯、甚至是整個輸送帶的擊穿,致使輸送帶的損壞和撕裂,增加托輥的沖擊載荷。
(6)輸送帶經過托輥的輸送帶覆蓋層的擠壓變形與恢復輸送帶下覆蓋層在輸送帶的擠壓變形是產生輸送機主要阻力中的壓陷阻力的原因。
從帶式輸送機的控制角度來說,除滿足帶式輸送機滿足工藝要求的順序控制與不同輸送量下的速度改變以及對帶式輸送機的保護控制外,主要的控制要求僅體現(xiàn)在對輸送機瞬態(tài)過程的控制。
從上述的分析可見,帶式輸送機動力學問題涉及帶式輸送機系統(tǒng)的各個方面,本文將重點討論上面所列問題的第(1)方面,而對其他5個方面的問題僅做簡要探討。首先分析國內外的研究進展與方法;進而給出動力學分析的基本方法與過程,包括:數(shù)學模型、求解技術、軟件的發(fā)展;典型帶式輸送機系統(tǒng)的動力學分析、動態(tài)分析的作用及其應用范圍等。
動力學研究的主要內容與方法:
帶式輸送機的動力學分析與動態(tài)設計方法的研究與應用之所以受到廣泛的關注,是由于隨著帶式輸送機系統(tǒng)的大型化,傳統(tǒng)的半靜態(tài)設計計算方法已經不能滿足工程實際應用的需求。另一方面,動態(tài)設計方法的采用有助于提高設計水平,達到提高企業(yè)競爭力。動態(tài)設計與動態(tài)優(yōu)化設計也是面向產品廣義質量的綜合設計方法[96]的重要組成部分。因而,帶式輸送機的動力學與動態(tài)設計方法涉及到帶式輸送機的所有方面,即:
1)帶式輸送機各個運動部件的力學性能,特別是輸送帶;
2)輸送機運行阻力的計算方法及其規(guī)律性問題;
3)驅動、制動、拉緊、傳動裝置的結構與特性以及控制方法;
4)帶式輸送機各運動部件的數(shù)學模型以及由各個部件的數(shù)學模型所構成的整機模型;
5)所建立的動力學模型的求解方法與軟件開發(fā);
6)各種驅動裝置、制動裝置和拉緊裝置動態(tài)響應對啟制動特性的影響;
7)復雜帶式輸送機系統(tǒng)各種運行工況下動態(tài)行為研究,包括啟動、制動、上運、下運等;
8)各種工況下的現(xiàn)場測試分析,控制系統(tǒng)的動態(tài)調整。
Dynamics and Control of Belt Conveyor at Home and Abroad
SONG Wei-gang
Abstract: analysis of the belt conveyor dynamics both at home and abroad research progress and the method, and dynamics analysis of the basic method and the process is given.
Key words: belt conveyor; Dynamic model; A dynamic analysis
1. The belt conveyor and the design method of dynamic problems
Belt conveyor is the most important contemporary material conveying equipment, widely used in industrial area, such as coal, steel, power, building material, port, yard logistics system such as releasing the importance of materials storage, transportation and equipment.
The development of the design and calculation method of belt conveyor has experienced a long history, as the belt conveyor design calculation methods of mechanical equipment and other mechanical systems similarly, calculation formula can be from basic mechanics theorem, obtained from the laws of physics. Its progress with the deepening of theoretical research, the calculation method of progress more and more detailed and accurate. Is the earliest can meet the calculation method of German HETZL method, in addition, some companies are put forward and the calculation method of influential companies, such as America's GOODYEAR GOODRICH and Japan e. calculation methods, such as east rubber company, the main resistance calculation of these calculation methods are approximate method. The 50 s of the 20th century, the German professor LACHMANN and VIERLING presented the calculation method of precise calculation of the main resistance of each component, SPAANS professor after the Netherlands in the 80 s, the United States of CDI company in the further development of the precise calculation of the main resistance and the calculation method of each item they are from the Angle of the composition of the main belt conveyor resistance of the various disciplines. Accurate method to calculate the current still rarely used, however, even in the German standa
From the power and tension calculation process, there have been two different methods: a method is based on a conveyor belt sag condition determine the transmission drum ran away from the point of tension, then use point by point tension calculation method to calculate the transmission drum meet some tension, tension difference of the roller is the driving power required. The calculation method of the Soviet union and early TD75, DX belt conveyor design manual [7-9] is mainly adopted such methods; Another kind is the superposition of all kinds of resistance directly together conveyor total power demand, and then through the conveyor belt and roller not skid and sag restriction conditions according to the point by point calculation method to calculate the conveyor belt tension of the feature points. In the current belt conveyor design and calculation the dominant method of Germany and CEMA standard DIN22101-2002 (fifth edition) power belt conveyor, and tension calculation method. DIN22101 calculation method belongs to the second class, and CEMA calculation method between 1 and 2 class, this is due to the method considering the running resistance and tension. Can be seen from the analysis of the above methods, the calculated results are accurate sequence does not depend on the key problems in the calculation, but in the conveyor running resistance in the process of calculation is accurate.
The operation process of belt conveyor consists of start-up - stable operation - stop, although in most of the time in the stable operation of a conveyor or stop state, but the process at the start and stop will have inertia load produced by the acceleration or deceleration, and therefore need to be considered in the design of the conveyor dynamic load. Traditional design and calculation methods (such as DIN22101) are all moving parts on the conveyor as rigid connection together, at the same time accelerate or decelerate (which can be seen as a "quasi static"), regardless of the viscoelastic properties of conveyor belt and drive in the process of start-up, stop input force (torque) change over time, and so cannot be given conveyor in transient process in the process of start-up, stop. From the Angle of the transient process of belt conveyor, the dynamic problems in the following aspects:
(1) the start of the conveyor, stop the conveyor in the process of the longitudinal stress (strain) and the speed of transmission
especially large belt conveyor belt conveyor structure characteristics embodied in: conveyor belt, roller, and material is spread on the transmission line, conveyor belt is essentially a viscoelastic body, thus drive the boot process is gradually will spread to the whole conveyor belt, driving force and speed of the conveyor start is a gradual process, conveyor belt tension by static state changes to stable operation under tension, change of the amount of deformation of the conveyor belt tension, the tension device of elongation or shortening and absorbed by the deflection of conveyer belt change. Another characteristic is more drive unit and multi-points driving. When there is no considering the influence of the longitudinal dynamic transient process possible problems include:
1) choose too driven equipment investment cost is too high, cause in the process of start and stop the conveyer belt tension is too large;
2) changing slope line of the belt conveyor downtime caused the conveyor belt in the process of local tension is too small;
3) displacement of the tension device design is not accurate, appear taut enough or pull tight schedule response lag, cannot satisfy the requirement of the system transmission;
4) drive, brake and tension device configuration and location layout is unreasonable;
5) in a multiple drive unit in the system to start or braking process due to the loading sequence and time control on the oscillation problem, caused by the drive unit of output cannot realize synchronization and power balance.
(2) the conveyor belt on cross section perpendicular to the conveyor belt surface vibration
Intrinsic properties in tension, the load and conveyor belt conveyor belt, when the vibration frequency and inherent frequency of roller close to, or agreement, conveyor belt of the cross section in the direction of the vertical surface vibration problems, the vibration will make the conveyor frame buildings destroyed even [12-14].
(3) the conveyor belt running deviation in horizontal conveyor
Conveyor belt running deviation is widespread problem, running deviation is conveyor downtime, and materials, frame jam, conveyor belt use shortened the main reason for the consequences, such as running wide adjustment is very troublesome, theoretically analyzing the running deviation method is to establish a dynamics equation of movement of the conveyor belt cross use, and application of the theory of stability was analyzed.
(4) conveying material quantity changes caused by changes in the running state
Conveying material quantity change will cause the change of running state, but the change relative to the conveyor belt is much longer, and the volatility of the cycle and generally will not separate study on this question, the research focus is on different materials under the load distribution of longitudinal wave problem.
(5) materials by the process of material on the roller and the impact of the conveyor belt
Conveyor belt is impacted by the material in the material (especially the big materials) impact directly endanger the normal use of belt conveyor, is the important reason for the damage of conveyor belt, conveyor belt leads to wear, covering layer, core, and even the breakdown of the whole conveyor belt, cause the damage of the conveyor belt and tear, increase the impact load of roller.
(6) after a roller conveyor belt conveyor belt cover extrusion deformation and recovery
Conveyor belt under extrusion deformation of cover on the conveyor belt is conveyor main drag in the sag resistance.
From the point of view, the control of belt conveyor in addition to meet the meet the technological requirements of belt conveyor under different throughput sequence control and the speed of change and the protection of a belt conveyor control, the control requirements of main lies only in the conveyor of the transient process control.
Visible from the above analysis, the belt conveyor dynamic problems involved in all aspects of the belt conveyor system, this article focuses on the first (1) aspects of listed above, and the other five aspects of the problem only briefly discussed in this paper. First analysis of the domestic and foreign research progress and the method; , in turn, dynamics analysis is given of the basic method and process, including: the development of mathematical models, solving technology, software; Dynamics analysis of a typical belt conveyor system, function and application scope of dynamic analysis, etc.
The main content and method of dynamics research
Belt conveyor's dynamic analysis and dynamic design method of research and application are widely attention, is because with the large-scale of belt conveyor system, traditional half static design calculation methods have been can't meet the needs of engineering application. On the other hand, the adoption of the dynamic design method is helpful to improve the design level, to improve enterprise competitiveness. Dynamic design and dynamic optimization design is a comprehensive design method of generalized quality oriented products is an important part of the [. Therefore, the dynamics of belt conveyor and dynamic design method involves all aspects of belt conveyor, namely:
1) all the moving parts of belt conveyor mechanical properties, especially the conveyor belt;
2) the calculation method of conveyor running resistance and its regularity problem;
3) driving, braking, taut, the structure and characteristic of transmission device and control method;
4) the mathematical model of the moving parts and belt conveyor consists of mathematical model of the parts of the whole machine model;
5) the established dynamic model of solving method and software development;
6) all kinds of drive, brake and tension device to rev braking characteristics of dynamic response;
7) complex belt conveyor system dynamic behavior under various operating conditions, including starting, braking, on delivery and shipment, etc.;
8) all kinds of conditions of the site test and analysis, dynamic adjustment of the control system.
湘潭大學興湘學院
畢業(yè)設計說明書
題 目:
專 業(yè): 機械設計制造及其自動化
學 號: 2006183821
姓 名: 樂紅衛(wèi)
指導教師: 李 衛(wèi)
完成日期: 2010年05月20日
湘潭大學興湘學院
畢業(yè)論文(設計)任務書
設計(論文)題目: 生產線皮帶運輸機控制系統(tǒng)設計
學 號: 2006183821 學生姓名 樂紅衛(wèi) 專 業(yè): 機械設計制造及其自動化
指導教師: 李 衛(wèi) 系主任:
1、檢索皮帶運輸機及其控制系統(tǒng)的發(fā)展動態(tài),分析發(fā)展現(xiàn)狀;
2、完成皮帶運輸機控制系統(tǒng)方案選擇設計;
3、完成系統(tǒng)中主電路控制系統(tǒng)的設計;
4、完成系統(tǒng)中PLC接線系統(tǒng)的設計;
5、總結生產線皮帶運輸機控制系統(tǒng)設計的體會和收獲;
6、完成畢業(yè)論文的文稿工作,要求:總字數(shù)不低于一萬字,使用A4編輯及打印裝訂成冊;
7、技術圖紙:控制系統(tǒng)原理圖1張(0號)、控制系統(tǒng)程序流程圖1張(0號)
8、翻譯英文技術資料:翻譯皮帶機PLC控制系統(tǒng)的(或相關課題)開發(fā)及研究的英文資料。要求:3000單詞,復印原稿與翻譯(打印)稿同冊裝訂。
二、重點研究的問題:
1、 生產線皮帶運輸機控制系統(tǒng)方案選擇設計;
2、 生產線皮帶運輸機電機主電路系統(tǒng)的設計;
3、PLC在皮帶運輸機控制系統(tǒng)中的運用及其設計;
三、進度安排
各階段完成的內容
起止時間
1
資料檢索、查詢
2010年2月20 日 ~ 3月5 日
2
系統(tǒng)總體方案構思及設計
2010年3月6日 ~ 3月20日
3
完成皮帶運輸機電控系統(tǒng)方案選擇設計
2010年3月 21日 ~ 4月10日
4
完成皮帶運輸機主電路及控制電路設計;
2010年4月11日 ~ 4月25日
5
完成皮帶運輸機軟件的設計
2010年4月26日 ~ 5月10日
6
畢業(yè)設計說明書撰寫和編輯
2010年5月11日 ~ 5月19日
7
交畢業(yè)設計說明書和圖紙,答辯準備
2010年5月 20 日 ~ 5月 25 日
四、應收集的資料及主要參考文獻
1.可編程控制器應用技術/田瑞庭/1994
2.PLC應用技術200例/曲非非/2003楊長能
3.MITSUBISHI三菱微型可編程控制器編程手冊/2000年
4.張運波. 工廠電氣控制技術. 北京:高等教育出版社,2001
5.余雷聲. 電氣控制與PLC應用. 北京:機械工業(yè)出版社,2001
6.王兆義. 小型可編程控制器實用技術. 北京:機械工業(yè)出版社,2002
7.鐘肇新. 可編程控制器原理及應用. 廣州:華南理工大學出版社,2002
8.李景學. 可編程序控制器應用系統(tǒng)設計及方法. 北京:電子工業(yè)出版社
9.可編程控制器(PLC)例題習題及實驗指導. 重慶:重慶大學出版社,1999
湘潭大學興湘學院
畢業(yè)論文(設計)評閱表
學號 2006183821 姓名 樂紅衛(wèi) 專業(yè) 機械設計制造及其自動化
畢業(yè)論文(設計說明書)題目: 生產線皮帶運輸機控制系統(tǒng)設計
評價項目
評 價 內 容
選題
1.是否符合培養(yǎng)目標,體現(xiàn)學科、專業(yè)特點和教學計劃的基本要求,達到綜合訓練的目的;
2.難度、份量是否適當;
3.是否與生產、科研、社會等實際相結合。
能力
1.是否有查閱文獻、綜合歸納資料的能力;
2.是否有綜合運用知識的能力;
3.是否具備研究方案的設計能力、研究方法和手段的運用能力;
4.是否具備一定的外文與計算機應用能力;
5.工科是否有經濟分析能力。
論文
(設計)質量
1.立論是否正確,論述是否充分,結構是否嚴謹合理;實驗是否正確,設計、計算、分析處理是否科學;技術用語是否準確,符號是否統(tǒng)一,圖表圖紙是否完備、整潔、正確,引文是否規(guī)范;
2.文字是否通順,有無觀點提煉,綜合概括能力如何;
3.有無理論價值或實際應用價值,有無創(chuàng)新之處。
綜
合
評
價
評閱人:
2010年6月 日
湘潭大學興湘學院
畢業(yè)論文(設計)鑒定意見
學 號: 2006183821 學生姓名: 樂紅衛(wèi) 專 業(yè): 機械設計制造及其自動化
畢業(yè)論文(設計說明書) 43 頁 圖 表 2 張
論文(設計)題目: 生產線皮帶運輸機控制系統(tǒng)設計
內容提要:
本畢業(yè)設計說明書主要介紹了生產線皮帶運輸機控制系統(tǒng)應用現(xiàn)狀和發(fā)展狀況,
同時介紹了生產線皮帶運輸機控制系統(tǒng)的工作原理及其具體應用。把PLC控制技術
融合入生產線皮帶運輸機控制系統(tǒng)中,使系統(tǒng)實現(xiàn)操作更加的簡單,維護保養(yǎng)更加的
容易,故障處理更加的直觀。
在對系統(tǒng)進行設計時充分考慮到設備的實際情況和工藝的具體要求,其中包括了
系統(tǒng)控制和系統(tǒng)設備的檢測保護兩個方面。
系統(tǒng)控制有包括以下幾點:運行方式的選擇本系統(tǒng)設有集中聯(lián)鎖及無聯(lián)鎖的就地控制
兩種方式;啟車NNNg-:啟車過程控制;正常停車;事故停車;緊急停車等各方面設計
最后討論了皮帶機運行過程中的跑偏問題以及應對措施。首先是對皮帶機在運行
過程中最常見的問題即跑偏的原因進行了分析,然后依次給出各種糾偏裝置應用的場
合,使得工程技術人員在處理類似問題時有據可依,從而加快處理問題的速度。
指導教師評語
樂紅衛(wèi)同學在畢業(yè)設計中,工作態(tài)度端正,能積極努力地學習與鉆研。畢業(yè)設計選題較合適,系統(tǒng)設計方案較合理,畢業(yè)說明書書寫、編輯較規(guī)范,論述較充分、通順、清晰,圖表及文獻引用較為規(guī)范,反映了該生具有一定的分析問題、解決問題的能力,文獻資料檢索、利用和外文閱讀翻譯能力得以提高,較好地完成了畢業(yè)設計任務要求。
建議評定畢業(yè)設計成績?yōu)椋毫己谩?
指導教師:
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答辯簡要情況及評語
答辯小組:
年 月 日
答辯委員會意見
答辯委員會主任:
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