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reciprocation stokers present situation
reciprocation types stoker its own structure superiority
1) structure simple, the service quantity is small In the reciprocation type stoker, the electric motor and thereduction gear use the standard letter, other majorities are theweldments, the vulnerable part are few, uses under the coal mineextreme condition, its serviceability deeply measure unit to be used'shigh praise.
2) the performance is stable The reciprocation type stoker to the coal trademark, the sizecomposition, request and so on moisture content, physical property islax, when comes to expect the non-uniformity, the moisture contentdoes not stabilize also clamps has the big lump coal, Rubber Belt, thewood and the steel wire isochronism, still could the normal work.
3) the noise is low The reciprocation type stoker right and wrong Vibration has thesource for material equipment. its noise only to have the electricmotor and the reduction gear, but these two noises very are all low.Especially in the mine shaft or Bunker and so on the enclosed place,the noise is unable to proliferate, this point is electricallyoperated is unable for the material machine to achieve.
4) installs conveniently, is highly small The reciprocation type stoker generally installs in Bunker thewarehouse mouth, does not need other configuration warehouse mouthstrobe distill trough and the support of motor, the installment mayreach one's goal instantly, the adjustment work load is small, butelectrically operated stoker because cannot directly withstand thewarehouse pressure, needs moreover to place the warehouse mouthtransition Chute under, compares, the reciprocation type stoker holdshighly slightly, has saved the floor space and the investment.
developments large-scale reciprocation type stoker necessity Is precisely because the reciprocation type stoker has theabove characteristic, we believed, in the coal mine mine shaft and theground production system pharynx and larynx link, and in other needcontrol noises links, should the first choice reciprocation typestoker. The expanded series reciprocation type stoker should satisfythe following request.
1) satisfies the large-scale mine pit productivity the request Along with the our country coal mine pit unceasing expansion,the hour productivity also is increasing, for example: The well is 2.4million t/a, 3 million t/a. 4 (XI ten thousand t/a mine pit, hourproductivity separately for 42 "h, 928t/h, 1238t/h. The mine pit hourproductivity increase, the request enhances the stoker theproductivity. At present, the mine pit mine shaft raw coaltransportation more and more many uses the adhesive tape conveyer, inother words, the mine shaft used the stoker the link to increase.Although may use many small models stoker jointly to arrange satisfiesthe big productivity the request, but arranges many stokers to need toexpand Weighed the room, the increase project investment moreover manyarrangement, the system reliability reduces, the noise increases, hasthe problem the probability also relatively to increase. brings thecertain trouble to the service. Loads a car the system in the useadhesive tape conveyer, is in the ground production system uses stokermost places, moreover the request gives the coal ability quite to bebig. Loads a car the system if uses Electric vibrator for the material machine,not only increased has loaded a car moreover the noise very to behighly big. Installs the large-scale reciprocation type stoker, notonly causes the hour productivity to increase, moreover also forloaded a car the system equipment shaping to provide has been biggermay choose the scope.
2) loads the belt type necessary with the host well bottom of the well(beat) the conveyer The main well bottom of the well loads the belt type (beat)the quota conveyer type bottom of the well charging gear developmenttendency, lists as the coal key scientific research item, when thequota conveyer idling speed loading is requested for the coalequipment ability 801) above ttb, the existing K series stoker cannotmeet this requirements. Although also may use for the material strobe^ material, but for the material strobe for estimated easily the rawcoal moisture, the granularity influence, causes for the materialnon-uniformity. But the large-scale reciprocation type stoker maysatisfy this request
large-scale reciprocation types deceive the coal machinestructural style characteristic We through carry on the analysis to the former stokerinvestigation, has carried on the thorough computation to thestructure pattern, to the essential stress spot like tank, the doubleconnecting rod, the base held the roller and so on to carry on thestress analysis, carried on the examination computation using thefinite element principle. Altogether has following fivecharacteristics.
1) entire machine uses the frame Themselves to be possible to unload thetype Because considered the mine shaft transportation theconvenience and the mine shaft industry and mining limit, entiremachine uses a minute writing style, moreover considered the mineshaft welding inconvenient, uses the bolt vice- joint, the side bar toconsider the external drum the possibility and the endophragm wear theneed, lays down in the flank Reinforced inside Lining, strengthened thewhole rigidity and the intensity.
2) increases Daoban the guidance and the blocking In makes the reciprocal motion under Daoban to additionallybuild several groups of requests rollers wheel, on the one handchanges Daoban the sliding friction for to roll the friction, reducedthe attrition, on the other hand also causes Daoban the rigidityenhancement. Moreover, for prevented Daoban is transporting Moves in the process to have runs the leaning phenomenon, inDaoban two sides installments guidance wheel.
3) uses the hyperbolic trough drive type The stoker drive uses the hard tooth face reduction gear,ordinary plug shaft coupling (but non- fluid strength coupler), doubleoutput shaft form, like this, not only reduced the cost moreover tocause the unilateral Axis radial direction load only is the bottomsurface thrust force one half, is carried the condition bigimprovement, moreover, further enhanced the stability which Daobanmoved.
4) carries on the optimization to the Daoban structure Formerly K series stoker plate strobe, the material had manyproblems in shipping, for estimated could not enhance the key also layin this. Therefore, we have carried on the optimization to Daoban,designs for the steps and ladders, Not only caused the material process load to enlarge, moreoverthe Daoban itself intensity also obtained further enhances.
5) changes the fan strobe for the manual plate strobe Controls expects how many the key to be decided by the strobe,the strobe always uses the fan structure in the former K series, butdiscovered from the field use, the fan strobe and the warehouse wallfrequently bump, the scene often when installs the strobe can not butknock the warehouse wall a part, causes the warehouse wall theintensity to weaken, based on, we uses the manual plate strobe,matches the guidance wheel under the damper plate, simultaneously hasthe positioning device on the axis.
economic efficiency analysis In needs 2000t/under the h transport capacity condition,arranges two University of Taiwan stoker with simultaneously toarrange four K 14 stokers or four Electric vibrator stokers its economicefficiency quite is as follows.
1) Weighed proclaims the mining quantity The big Weighed room not only causes the mining quantity toincrease, moreover can bring many negative effects along with it, fourreciprocation types stoker union arrangement, should consider betweenthe equipment must remain has the overhaul space, holds Zuo the space,like this, its Weighed room resilience is bigger than two University ofTaiwan reciprocation type stoker; But if uses four vibrations todeceive the material machine, needs the height difference in a bigway, moreover because its noise is big, the small Weighed room cannotsatisfy its request. Speaking of this parameter, arranges twoUniversity of Taiwan stoker the plan is most economical.
2) power consumption comparison The large-scale reciprocation type stoker power is notcertainly big, two University of Taiwan stoker power consumption andfour K 14 stokers or Electric vibrator the stoker is nearly impartial.
3) equipment operating cost comparison Large-scale stoker vulnerable very few, moreover because usesthe standard hard tooth face reduction gear, causes the servicequantity minimum, but four stokers because number increasing, themaintenance cost also is corresponding is large-scale stoker twotimes, Electric vibrator the stoker is unable in this point with it to compare. Develops the large-scale reciprocation type stoker, met our countrycoal need to develop, expanded in the coal mine production systemdesign to give the coal equipment the shaping scope. In particular inJining two mine pits success uses, for me The country provided has been new large-scale for the coalequipment, should give the vigorously promoted use.
中文譯文
往復(fù)給煤機(jī)現(xiàn)狀
一、往復(fù)式給煤機(jī)其自身結(jié)構(gòu)的優(yōu)越性
1) 結(jié)構(gòu)簡單,維修量小
在往復(fù)式給煤機(jī)中,電動機(jī)和減速器均采用標(biāo)準(zhǔn)件,其余大部分是焊接件,易損部件少,用在煤礦惡劣條件下,其適用性深受使用單位的好評。
2 )性能穩(wěn)定
往復(fù)式給煤機(jī)對煤的牌號,粒度組成,水分、物理性質(zhì)等要求不嚴(yán),當(dāng)來料不均勻,水分不穩(wěn)定且夾有大塊煤、橡膠帶、木頭及鋼絲等時,仍能正常工作。
3 )噪音低
往復(fù)式給煤機(jī)是非振動式給料設(shè)備.其噪音發(fā)生源只有電動機(jī)和減速器,而這兩個的噪音都很低。尤其在井下或煤倉等封閉型場所,噪音無法擴(kuò)散,這一點是電動給料機(jī)所無法達(dá)到的。
4 )安裝方便、高度小
往復(fù)式給煤機(jī)一般安裝在煤倉倉口,不需另外配制倉口閘門餾槽及電動機(jī)支座,安裝可一步到位,調(diào)整工作量小,而電動給煤機(jī)由于不能直接承受倉壓,需要另外安放倉口過渡溜槽,相比之下,往復(fù)式給煤機(jī)占有高度小,節(jié)省了建筑面積和投資。
二、研制大型往復(fù)式給煤機(jī)的必要性
正是由于往復(fù)式給煤機(jī)具有上述的特點,我們認(rèn)為,在煤礦井下和地面生產(chǎn)系統(tǒng)的咽喉環(huán)節(jié),及在其他需要控制噪音的環(huán)節(jié),應(yīng)首選往復(fù)式給煤機(jī)。擴(kuò)大系列的往復(fù)式給煤機(jī)應(yīng)滿足下列要求。
1 )滿足大型礦井生產(chǎn)能力的要求
隨著我國煤礦井型的不斷擴(kuò)大,小時生產(chǎn)能力也在增加,例如:井型為240萬t/a,300萬t/a。4(Ⅺ萬t/a的礦井,小時生產(chǎn)能力分別為了42“h,928t/h,1238t/h。礦井小時生產(chǎn)能力的增加,要求提高給煤機(jī)的生產(chǎn)能力。目前,礦井井下原煤運(yùn)輸越來越多地采用膠帶輸送機(jī),也就是說,井下使用給煤機(jī)的環(huán)節(jié)增加了。雖然可以采用多臺小型號給煤機(jī)聯(lián)合布置來滿足大生產(chǎn)能力的要求,但布置多臺給煤機(jī)需要擴(kuò)大硐室,增加工程投資 況且多臺布置,系統(tǒng)可靠性降低,噪音增大,出問題的機(jī)率也相對增多.給維修帶來一定的麻煩。在使用膠帶輸送機(jī)的裝車系統(tǒng),是地面生產(chǎn)系統(tǒng)中使用給煤機(jī)最多的地方,而且要求給煤能力比較大。裝車系統(tǒng)若采用電振給料機(jī),不但增加了裝車的高度而且噪音很大。安裝大型往復(fù)式給煤機(jī),不僅使小時生產(chǎn)能力增大,而且也為裝車系統(tǒng)設(shè)備的選型提供了更大的可選范圍。
2) 與主井井底裝載帶式(板式)輸送機(jī)配套
主井井底裝載帶式(板式)定量輸送機(jī)式井底裝載設(shè)備的發(fā)展趨勢,被列為煤炭重點科研項目,定量輸送機(jī)慢速裝載時要求給煤設(shè)備的能力801)ttb以上,現(xiàn)有的K系列給煤機(jī)達(dá)不到這一要求。雖然也可采用給料閘門^料,但給料閘門的給料量易受原煤的水份、粒度影響,使給料不均勻。而大型往復(fù)式給煤機(jī)可滿足這一要求
三、 大型往復(fù)式紿煤機(jī)的結(jié)構(gòu)形式特點
我們通過對以往給煤機(jī)的調(diào)查進(jìn)行分析,對結(jié)構(gòu)型式進(jìn)行了周密的計算,對關(guān)鍵受力部位如槽箱、雙連桿、底部托輥等進(jìn)行了受力分析,利用有限元原理進(jìn)行校核計算。共有以下五個特點。
1)整機(jī)采用框袈可卸式
由于考慮到井下運(yùn)輸?shù)姆奖愫途鹿さV的限制,整機(jī)采用分體式,而且考慮到井下焊接的不便,盡 用螺栓副聯(lián)接,側(cè)板考慮到外鼓的可能與內(nèi)壁磨損的需要,在外側(cè)加筋內(nèi)側(cè)鋪設(shè)襯板,加強(qiáng)了整體的剛度和強(qiáng)度。
2) 增加導(dǎo)板的導(dǎo)向與支撐裝置
在做往復(fù)運(yùn)動的導(dǎo)板下增設(shè)幾組托輥輪,一方面變導(dǎo)板的滑動摩擦為滾動磨擦,減少了磨損,另一方面也使導(dǎo)板的剛度提高。另外,為防止導(dǎo)板在運(yùn)
動過程中有跑偏現(xiàn)象,在導(dǎo)板兩側(cè)安裝導(dǎo)向輪。
3) 對導(dǎo)板結(jié)構(gòu)進(jìn)行優(yōu)化
以往K系列給煤機(jī)的平板閘門,物料在運(yùn)送中存在不少問題,給料量一直不能提高的關(guān)鍵也在于此。為此,我們對導(dǎo)板進(jìn)行了優(yōu)化,設(shè)計為階梯型,
不但使物料處理量加大了,而且導(dǎo)板本身的強(qiáng)度也得到進(jìn)一步地提高。
4) 變扇型閘門為手動平板閘門
控制來料多少的關(guān)鍵取決于閘門,閘門在以往的K系列中一直采用扇型結(jié)構(gòu),但從現(xiàn)場使用中發(fā)現(xiàn),扇型閘門與倉壁經(jīng)常相碰,現(xiàn)場往往在安裝閘門時不得不把倉壁敲去一部分,使倉壁的強(qiáng)度削弱,基于次,我們采用手動平板閘門,在閘板下配導(dǎo)向輪,同時在軸上配有定位裝置。
四、經(jīng)濟(jì)效益分析
在需要2000t/h運(yùn)輸能力的條件下,布置兩臺大型給煤機(jī)與同時布置四臺K一4給煤機(jī)或四臺電振給煤機(jī)其經(jīng)濟(jì)效益比較如下。
1) 硐宣開采量
大硐室不僅使開采量增大,而且會隨之帶來許多負(fù)效應(yīng),四臺往復(fù)式給煤機(jī)聯(lián)合布置,應(yīng)考慮設(shè)備之間要留有檢修空間,操作空間,這樣,其硐室工程量大于兩臺大型往復(fù)式給煤機(jī);而若采用四臺振動給料機(jī),需要高度差大,而且由于其噪音大,小的硐室也不能滿足其要求。就這一參數(shù)而言,布置兩臺大型給煤機(jī)的方案是最經(jīng)濟(jì)的。
2) 耗電量比較
大型往復(fù)式給煤機(jī)的功率并不大,兩臺大型給煤機(jī)的耗電量與四臺K一4給煤機(jī)或電振給煤機(jī)幾乎持平。
3) 設(shè)備運(yùn)行費用比較
大型給煤機(jī)的易損件很少,而且由于采用標(biāo)準(zhǔn)硬齒面減速器,使維修量極小,而四臺給煤機(jī)由于臺數(shù)的增多,維修費也相應(yīng)是大型給煤機(jī)的兩倍,電振給煤機(jī)在這一點上更無法與之相比。
研制大型往復(fù)式給煤機(jī),適應(yīng)了我國煤炭發(fā)展的需要,擴(kuò)大了煤礦生產(chǎn)系統(tǒng)設(shè)計中給煤設(shè)備的選型范圍。尤其是在濟(jì)寧二號礦井的成功使用,為我
國提供了新的大型給煤設(shè)備,應(yīng)予大力推廣使用。
畢業(yè)設(shè)計說明書(論文)中文摘要
防竄倉往復(fù)式給煤機(jī)
摘 要 往復(fù)式給煤機(jī)安裝在煤倉下口處,在煤礦井下生產(chǎn)中,設(shè)置一定容量的煤倉對于保證消峰平谷和高產(chǎn)、高效是十分必要的。
往復(fù)式給煤機(jī)由機(jī)架、底板(給煤槽)、傳動平臺、漏斗、閘門、托輥等組成。當(dāng)電機(jī)開動后經(jīng)彈性聯(lián)軸器、減速機(jī)、曲柄連桿機(jī)構(gòu)拖動傾料13°的底板在輥上作直線往復(fù)運(yùn)動,煤均勻地卸到其他設(shè)備上。它可以有效地提高工作面采掘設(shè)備的利用率,充分發(fā)揮運(yùn)輸系統(tǒng)的潛力,保證連續(xù)均衡生產(chǎn)。但是,煤倉竄倉事故在我國煤礦經(jīng)常發(fā)生。竄倉事故常造成設(shè)備嚴(yán)重?fù)p壞,井下停產(chǎn),當(dāng)竄倉煤量較大時,還會阻塞巷道,造成運(yùn)輸巷通風(fēng)不暢,引起瓦斯爆炸等事故。
為了防止和降低煤礦井下煤倉竄倉造成的設(shè)備損壞、人員傷亡、阻塞巷道和影響生產(chǎn)等危害,設(shè)計了一種用于往復(fù)式給煤機(jī)的防竄倉裝置,從而為煤倉竄倉的防治提供了一個新的途徑。
關(guān)鍵詞 曲柄滑塊機(jī)構(gòu) ;煤倉竄倉 ;防竄倉裝置 ;往復(fù)式給料機(jī)
畢業(yè)設(shè)計說明書(論文)外文摘要
Anti-channeling reciprocating coal feeder positions
Abstract
Reciprocating machines are installed on the coal bunker under the mouth, the production in the coal mine, set up some of the coal bunker capacity to ensure peak extinction Pinggu and high yield, high efficiency is essential.
The reciprocation type stoker by the rack, the ledger wall, the transmission platform, the funnel, the strobe, therequest roller and so on is composed. After the electrical machinerystarts after the flexible coupling, the speed reducer, the crank linkmotion gear drives leans the material 13° ledger wall to make thestraight reciprocating motion on the roller, the coal evenly unloadsto other equipment on. It may effectively enhance the working surfaceexcavation equipment the use factor, fully displays the transportationsystem the potential, guaranteed continuously balanced produces. But, bunker flees the warehouse accident frequently to occur in our countrycoal mine. Flees the warehouse matter same as ever to create theequipment major damage, the mine shaft suspends production, when fleesthe warehouse coal amount is bigger, but also can block the tunnel,creates transports the lane to ventilate impeded, causes accident andso on gas explosion.
In order to prevent and reduce coal mine coal bunker channeling the warehouse equipment damage, casualties, Roadway congestion and impact production, and other hazards, for the design of a reciprocating coal channeling anti-aircraft positions devices, for the coal bunker channeling warehouse control provides a new way. Key words : coal bunker channeling warehouse; Coal; Anti-channeling devices warehouse.
Key Words Crank slide organization;Bunker flees the warehouse;Guards againstflees the warehouse installment;The reciprocation type gives thematerial machine.
山西農(nóng)業(yè)大學(xué) 工程技術(shù)學(xué)院
畢業(yè)設(shè)計說明書(論文)
題 目:防竄倉往復(fù)式給煤機(jī)
作 者:楊亞東 學(xué)號:36
專 業(yè):機(jī)械設(shè)計制造及其自動化
班 級:機(jī)制信052
指導(dǎo)教師:鄭德聰 (教授)
評 閱 者:
2009 年6 月 山西 太谷
目 錄
1.緒論 .....................................................1
1.1往復(fù)式給煤機(jī) ............................................1
1.2往復(fù)式給煤機(jī)防竄倉裝置的設(shè)計研究........................2
1.2.1 方案構(gòu)思....................................... .2
1.2.2 工作原理 ........................................ 2
1.3K4型給煤機(jī)的技術(shù)改造.................................. .3
1.3.1 存在的問題......................................3
1.3.2 改進(jìn)措施.......................................3
1.3.3 經(jīng)濟(jì)效益........................................5
2.電動機(jī)和減速器的選用.................................... . 6
2.1位移分析...............................................6
2.2 速度分析..............................................7
2.3 加速度分析............................................7
2.4往復(fù)式給煤機(jī)的工作簡述..................................9
2.4.1往復(fù)式給煤機(jī)的運(yùn)行阻力...........................10
2.4.2往復(fù)式給煤機(jī)的運(yùn)行阻力由以下公式計算.............10
2.4.3電動機(jī)功率的計算.................................11
2.5 電動機(jī)的選型...........................................12
2.6 減速器的傳動比.........................................13
2.7減速器的選用............................................13
3聯(lián)軸器的選型................................................15
3.1聯(lián)軸器的轉(zhuǎn)矩...........................................15
3.2聯(lián)軸器的理論轉(zhuǎn)矩計算...................................16
3.3聯(lián)軸器的計算轉(zhuǎn)矩計算...................................16
3.4強(qiáng)度驗算...............................................16
3.4.1抗剪強(qiáng)度驗算....................................17
3.4.2壓強(qiáng)驗算........................................17
4輥輪軸的設(shè)計計算............................................18
4.1輥輪軸的設(shè)計計算.......................................18
4.2輥輪軸強(qiáng)度的校核.......................................22
5液壓缸的設(shè)計................................................25
5.1 料倉口的尺寸設(shè)計.......................................25
5.2液壓缸的受力分析.......................................25
5.3液壓缸的推力和速度.....................................26
5.4液壓缸的主要尺寸計算...................................28
5.4.1液壓缸內(nèi)徑及活塞桿直徑的確定.....................28
5.4.2油液作用在單位面積上的壓強(qiáng)......................28
5.4.3液壓缸的理論作用力確定..........................29
5.4.4確定液壓缸的壁厚................................30
5.4.5缸筒壁厚驗算....................................30
5.5活塞桿的設(shè)計...........................................31
5.5.1活塞桿的結(jié)構(gòu)、尺寸的確定........................31
5.5.2活塞桿的直徑的強(qiáng)度校核..........................32
5.5.3活塞桿彎曲穩(wěn)定性驗算............................32
5.5.4活塞桿的結(jié)構(gòu)....................................33
5.5.5活塞桿的材料和技術(shù)要求..........................34
5.6活塞桿的導(dǎo)向套、密封和防塵.............................35
5.6.1結(jié)構(gòu)............................................35
5.6.2導(dǎo)向套的材料....................................36
5.6.3導(dǎo)向套長度的確定................................36
5.7活塞...................................................36
5.7.1活塞的結(jié)構(gòu)型式..................................36
5.7.2活塞與活塞桿的連接...............................37
5.7.3活塞的密封.......................................37
5.7.4活塞的材料.......................................37
5.7.5活塞的尺寸及加工精度.............................38
5.7.6活塞的最小導(dǎo)向長度H及液壓缸行程S的確定.........38
5.8液壓缸油口直徑的確定..................................38
5.9缸筒底部厚度計算........................................40
5.10液壓缸的流量的確定.....................................44
5.11液壓缸的密封...........................................45
6液壓泵站的設(shè)計...............................................48
6.1液壓泵的選用............................................48
6.2液壓系統(tǒng)圖的擬訂........................................52
6.2.1液壓回路的選擇...................................52
6.2.2油箱選型.........................................53
6.3箱壁、清洗孔、吊耳、液位計..............................56
6.4閥的選型................................................58
7小結(jié).........................................................60
7.1K式往復(fù)給煤機(jī)常見機(jī)械故障分析處理.....................60
7.1.l K式往復(fù)式給煤機(jī)構(gòu)造原理......................60
7.1.2 常見機(jī)械故障分析及處理措施.....................60
7.2 結(jié)語............................................. ....60
參考資料 ............................................... .....61
英文翻譯.....................................................62
致 謝 .............................................. ..... ...70