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1、<p><b> 附錄一</b></p><p><b> 翻譯部分</b></p><p> 英文原文(見參考文獻[19].P157)</p><p> SELF-ADVANCING HYDRAULIC POWERED SUPPORTS</p><p> Modern long
2、wall mining employs hydraulic powered supports at the face area. The support not only holds up the roof, pushes the face chain conveyor, and advances itself, but also provides a safe environment for all associated mining
3、 activities. Therefore its successful selection and application are the prerequisite for successful longwall mining. Furthermore, due to the large number of units required, the capital invested for the powered support us
4、ually accounts for more than half of the initial </p><p> The application of modern powered supports can be traced back to the early 1950’s. Since then, following its adoption in every part of the world, th
5、ere have been countless models designed and manufactured in various countries. But unfortunately, there still is no uniform system of classification.</p><p> A simplified classification is used in this sect
6、ion. Since a powered support consists of four major components (I. e., canopy, caving shield, hydraulic legs or props, and base plate), the ways by which they are interrelated are used for classification. In this respect
7、 , two factors are most important : (1) presence or absence of a caving shield - if a caving shield is included , the support is a “ shield ” type , otherwise , a frame or a chock ; (2) number and type of arranging the h
8、ydraulic leg</p><p> Based on this concept, there are four types of powered support, that is, the frame, chock, shield, and chock shield, in order of evolution of their development. However, it must be note
9、d that the trend of development in each type is such that it becomes less distinguishable in terms of application.</p><p> The four types of roof supports can be obtained for either longwall retreating or a
10、dvancing systems, and they are available in standard, one-web-back, and immediate forward support (IFS) versions.</p><p> With the standard system, the winning machine takes a cut or a slice, and the armore
11、d face conveyor is pushed over by the hydraulic rams that are fixed to the support units. The support units then are advanced sequentially to the conveyor. With the one-web-back system, a support is set back from the con
12、veyor by a device that automatically keeps the leading edge of the support at a fixed distance from the conveyor .This allows easy access through the face and employs the standard method of advanc</p><p> W
13、ith the IFS system , the support unit is advanced to the conveyor immediately after the cutting machine has passed , and the forward canopy of the support unit is long enough to support both the recently and newly expose
14、d roof sections . After the supports have been advanced, the conveyor is pushed over.</p><p><b> FRAME</b></p><p> The frame support is an extension of the single hydraulic props c
15、onventionally used underground. Thus it is the first type developed in modern self-advancing hydraulic powered supports .It involves setting up two hydraulic props or legs vertically in tandem that are connected at the t
16、op by a single or two segmented canopies .The two segmented canopies can be hinge-jointed at any point between the legs or in front of the front leg .The base of the two hydraulic legs may be a circular steel shoe w</
17、p><p> Generally, a frame support consists of two or three sets of hydraulic legs. The set moving first is the secondary set; the set moving later is the primary set .There is a double-acting ram installed bet
18、ween each set. The piston of the ram is connected to the secondary set and the cylinder to the primary set. During support advance (Fig. 8. 9), the primary set is set against the roof while the secondary set is lowered a
19、nd pushed forward by the piston. Having reached the new position, the secondar</p><p> Fig. 8.8 Frame support</p><p> A-primary set b-secondary set</p><p> A
20、 B C</p><p> Fig. 8.9 Method of advancing the frame support</p><p> The frame support is very simple, but more flexible or less stable structurally. There are considerable uncov
21、ered spaces between the two pieces of canopy which allows broken roof rock to fall through. Consequently, the frame support is not suitable for a weak roof. Frames have become seldom used because they are less stable and
22、 require frequent maintenance.</p><p><b> CHOCK</b></p><p> In a chock support, the canopy is a solid piece and the base may be either a solid piece or two separate parts connected
23、 by steel bars at the rear and / or the front ends. In both cases a large open space is left at the center for locating the double-acting hydraulic ram which is used to push and pull the chain conveyor and the chock in a
24、 whole unit, respectively, a distinctive difference from the frame support. This setup designed for thin seams with two legs in the front and four legs in the r</p><p> Again, all hydraulic legs are install
25、ed vertically between the base and the canopy (Fig. 8. 10). The number of legs ranges from three to six, but the four-leg chocks are by far the most popular ones. The six-leg chocks are y (Fig. 8.10c). For the six-leg ch
26、ocks, the canopy is generally hinge-jointed above the walkway. Most chocks are also equipped with a gob window hanging at the rear end of the canopy. The gob window consists of several rectangular steel plates connected
27、horizontally at both en</p><p> A B C</p><p> Fig. 8.10 Schematics of various chock support</p><p> In most chock supports, there are hinge j
28、oint connections between the legs and the canopy and between the legs and the base. But in order to increase the longitudinal stability, it is reinforced mostly with a box-shaped steel frame between the base and each leg
29、. A leg restoring device is installed around each leg at the top of the box-shaped steel frame.</p><p> The chocks are suitable for medium to hard roof. When the roof overhangs well into the gob and require
30、s induced caving, the chocks can provide access to the gob.</p><p><b> SHIELD</b></p><p> Shields, a new entry in the early seventies, are characterized by the addition of a caving
31、 shield at the rear end between the base and the canopy. The caving shields, which in general are inclined, are hinge-jointed to the canopy and the base making the shield a cinematically stable support, a major advantage
32、 over the frames and the chocks. It also completely seals off the gob and prevents rock debris from getting into the face side of the support. Thus the shield-supported face is generally cle</p><p> The hyd
33、raulic legs in the shields are generally inclined to provide more open space for traffic. Because the canopy, caving shield, and base are interconnected, it can well resist the horizontal force without bending the legs.
34、Thus, unlike the solid constraint in the frame/ chock supports, the pin connections between the legs and the canopy and between the legs and the base in a shield support make it possible that the angle of inclination of
35、the hydraulic legs varies with the mining heights. Si</p><p> There are many variations of the shield supports. In the following, six items are used to classify the shields, which enable a unified terminolo
36、gy to be developed for all kinds of shields. The types of motional traces of the canopy tip, leg positions and orientation, number of legs, canopy geometry, and other optional designs and devices can be clearly specified
37、 by the terminology.</p><p> TYPES OF MOTIONAL TRACES FOR THE LEADING EDGE OF THE CANOPY.</p><p> This is the most commonly recognized way of classifying the shield. Based on this criterion, t
38、here are three types, lemniscates, caliper, and ellipse (Fig. 8. 11).</p><p> A. Lemniscate.L B. Caliper.C C. Ellipse.E</p><p> Fig. 8.11 Three types of motional traces f
39、or leading edge of the shield canopy</p><p> A. Lemniscate. This is the most popular type. The caving shield and the base are jointed by two lemniscates bars which have a total of four hinges. As the hydrau
40、lic legs are raised and lowered, the dimensions of the lemniscates bars are selected such that the leading edge of the canopy moves up and down nearly vertically, thus maintaining a nearly constant unsupported distance b
41、etween the face-line and the leading edge of the canopy .This is a feature that is widely considered most desirable for</p><p> B. Caliper. In a caliper shield , the caving shield and the base are connected
42、 by a single hinge .When the hydraulic legs are raised , the leading edge of the canopy moves in an arc away from the face , thus increasing the unsupported area This is considered by most users the least desirable featu
43、re of the caliper shield But in practice if the seam thickness varies little , the dimensional and positional arrangement of canopy , caving shield , and the base can be so designed that the distance ch</p><p&
44、gt; C. Ellipse. In this type the caving shield and the base are so connected that when the hydraulic legs are moved up and down, the leading edge of the canopy follows an elliptical trace. This type is seldom used.</
45、p><p> CHOCK SHIELD</p><p> The chock shield combines the features of the chocks and the shields. As such it possesses the advantages of both.</p><p> If all of the four or six legs
46、 are installed between the canopy and the base, it is called a chock shield. There are regular four or six-leg chock shields in which all legs are vertical and parallel. Others form V or X shapes. Some canopies are a sin
47、gle piece and some are two pieces with a hydraulic ram at the hinge joint. The chock shield has the highest supporting efficiency. They are suitable for hard roof.</p><p><b> 中文譯文</b></p>
48、<p><b> 自移式液壓支架</b></p><p> 液壓支架廣泛應用于現(xiàn)代長壁采煤工作面上。它不但能夠支撐頂板、推進工作面刮板輸送機、自行前移,而且能夠為井下聯(lián)合采煤作業(yè)提供一個安全的環(huán)境。因此,正確、合理地選擇液壓支架架型是長壁工作面采煤成功的前提和關鍵。此外,井下采煤需要大量的液壓支架,通常對液壓支架的資金投入占整個長壁采煤工作面初期投入的一半還要多。因此,從技術
49、和經(jīng)濟的角度來看,液壓支架在長壁工作面采煤中占據(jù)著非常重要的位置。</p><p> 現(xiàn)代液壓支架的應用可以追溯到上個世紀50年代。從那時開始,支架在世界各個角落得到了廣泛應用,各個國家都相繼設計和制造了大量的液壓支架。不過始終沒有形成統(tǒng)一的分類體系。</p><p> 現(xiàn)在通常采用一種簡化的方法對液壓支架進行分類。由于液壓支架主要有四個主要部分組成,即頂梁、掩護梁、液壓立柱(支柱)和
50、底座,因此常根據(jù)它們之間的相互連接方式進行分類。鑒于此,對液壓支架的分類通常采用下列兩種標準:</p><p> 根據(jù)掩護梁的有無分類,如果有掩護梁則屬于掩護式支架,否則屬于框架式或垛式支架;</p><p> 根據(jù)液壓立柱的數(shù)量和安裝方式分類,支架所能承受的負載一般與立柱的數(shù)量成比例,因此在介紹液壓支架時指明其所具有的立柱的數(shù)量是非常有必要的。此外,液壓立柱的安裝方式也是非常重要的。
51、例如,底座和頂梁垂直安裝時,支架具有最高的工作效率,而底座和掩護梁傾斜安裝時,工作效率比較低。</p><p> 基于上述思想,根據(jù)支架的發(fā)展歷程,可將其分為四類,即框式支架、垛式支架、掩護式支架和支撐—掩護式支架。然而,有必要指出的是,隨著液壓支架的應用越來越廣泛,各種類型支架的差別正逐漸縮小。</p><p> 上述四種支撐頂板的液壓支架可以應用于長壁工作面的回采和推進,常用的支護
52、方式主要有標準支護、滯后支護和IFS(即時支護)支護三種類型。</p><p> 對于標準支護方式,采煤機通過截齒切割煤層,工作面輸送裝置通過安裝在支架里的液壓千斤頂向新的煤壁推近,然后支架一架一地向輸送機連續(xù)移近。對于滯后支護方式,支架不可能靠近輸送機,因為有一個裝置自動地使支架前端與輸送機保持一定的距離,使得能夠較容易地通過采煤工作面,并且能夠運用標準化推進方法,即先推移工作面輸送機,再推移液壓支架。對于I
53、FS(即時支護)支護方式,隨著采煤機向上采煤,液壓支架迅速地向刮板輸送機推近,支架的前端頂梁的長度足以支撐原有的和新裸露出的巖石頂板,液壓支架向前推進后輸送機再向前推移。</p><p><b> 框式支架 </b></p><p> 框式支架是井下用常規(guī)單體液壓支柱的延伸,也是現(xiàn)代自移式液壓支架中最早出現(xiàn)的一種類型。它裝有一前一后兩個液壓支柱,頂梁通常有整體式和
54、鉸接式兩種。對于絞接式頂梁,頂梁由兩塊頂梁板在支架頂部連接而成,這兩塊頂梁板可以在兩根立柱之間或前端支柱前面的任意位置處鉸接。支架的底座可以是焊接在兩個支柱底部的圓形鋼板底靴,也可以是在兩根立柱之間形成的牢固連接。(圖8.8)</p><p> 圖 8.8 框式液壓支架</p><p> 通常,框式支架含有兩根或三根液壓立柱。支架移動時,首先動的是副架,然后是主架。在主架和副架之間裝
55、有一雙作用液壓缸,活塞桿固定在副架上,而缸體固定在主架上。支架推移時(圖8.9),雙作用液壓缸活塞腔進液,主架支撐頂板而副架降柱被活塞桿推動前移,到達新的位置后,副架開始升柱支撐頂板,雙作用液壓缸活塞桿腔進液而活塞腔回液,主架降柱被液壓缸缸體向前拉動至新的位置,從而完成一次移架操作。液壓支架每次推移的距離在20—36英寸 (合0.5—0.91m)。</p><p> a—前支架
56、 b—后移支架</p><p> 圖8.9 框式支架的移架方式</p><p> 框式支架結構簡單、靈活,但是穩(wěn)定性較差。相互連接的兩塊頂梁板之間有相當大的未遮蓋空間,這使得破碎的頂板巖石冒落。因而,框式支架對松軟頂板的適應性較差??蚴街Ъ艿慕Y構不穩(wěn)定并且需要較頻繁的維護和保養(yǎng),這使得它的應用正變得越來越少。</p><p><b> 垛式支架
57、.</b></p><p> 在垛式支架中,頂梁是整體式,底座可能是整體式,也可能是對分式,由兩個分離的底座箱在前端或后端通過(彈簧)鋼板或銷軸相連接。支架底座無論是整體式還是對分式,支架中部都會留出足夠的空間用來放置雙作用液壓千斤頂,該千斤頂能夠使刮板輸送機向前推進(推溜),還能使垛式支架向前推移(移架)。這也是垛式支架明顯不同于框式支架的地方,這一推移千斤頂裝置也廣泛應用于掩護式支架和支撐—掩護
58、式支架當中。</p><p> 另外,在垛式支架中,所有的液壓立柱都在底座和頂梁之間垂直安裝(圖8.10)。垛式支架通常采用3—6根立柱,但目前絕大多數(shù)垛式支架裝有4根立柱。六柱垛式支架廣泛應用于薄壁煤層的開采,其布置方式為前部2根立柱,后部4根立柱,前后兩部分被一通道隔開。對六柱垛式支架來說,頂梁通常是在通道上方處鉸接的。大部分垛式支架都在頂梁后端開有通向采空區(qū)的窗口,這些窗口是由很多矩形鋼板在頂梁兩端水平低
59、連接而成的。</p><p> 大多數(shù)垛式支架的立柱和頂梁以及立柱和底座之間都是鉸接的,但為了增加支架的縱向穩(wěn)定性,通常在支架底座和各根立柱之間安裝箱形鋼式框架,鋼式框架的上端(立柱四周)裝有立柱復位裝置。</p><p> 垛式支架對硬質頂板的適應性較強。當頂板在采空區(qū)上方被支撐好并且需要進行采掘時,支架可以提供通向采空區(qū)的通道。</p><p> 圖8.1
60、0 垛式支架的各種結構</p><p><b> 掩護式支架</b></p><p> 掩護式支架作為上世紀70年代初剛出現(xiàn)的產(chǎn)品,其顯著特征是在頂梁末端和底座之間附加有掩護梁。掩護梁一般是傾斜的,鉸接在頂梁和底座之間。從運動學講,它是穩(wěn)定的,這是掩護式支架最優(yōu)于框式支架和垛式支架的一點,掩護梁也完全封閉了采空區(qū),從而能夠防止破碎頂板巖石掉入支撐工作面。因此,一
61、般來說,掩護式支架的支撐工作面是較清潔的。</p><p> 為了給井下運輸提供較大的開放空間,掩護式支架里的液壓立柱一般都是傾斜的。由于這種支架的頂梁、掩護梁和底座間是互相緊密連接的,這使得掩護式支架能承受水平方向的外加載荷而不使立柱發(fā)生彎曲變形。掩護式支架里的立柱和頂梁以及立柱和底座之間的銷釘聯(lián)接使得立柱的傾斜角度隨采煤高度的變化而變化,而框式支架和垛式支架中的固定約束則不具有這些優(yōu)點。因為只有液壓立柱所受
62、壓力的豎直分量才能夠支撐頂板,而立柱的傾斜角度是不斷變化的,這使得支架所承受的實際載荷隨采煤高度的變化而變化。</p><p> 掩護式支架有很多種類型,通常根據(jù)以下六個項目對其進行分類,即頂梁前端的運動軌跡、立柱的位置和安裝方向、立柱的數(shù)量、頂梁的幾何形狀、以及其它附屬裝置,這使得應用這些統(tǒng)一的術語對掩護式支架進行分類成為可能。</p><p> 頂梁前端的運動軌跡的類型</p
63、><p> 通常,根據(jù)頂梁前端的運動軌跡來對掩護式支架進行分類是最常見的一種方法,其軌跡有三種,即雙扭線軌跡、圓形軌跡和橢圓形軌跡。(圖8.11)</p><p> 圖8.11 頂梁前端的三種運動軌跡</p><p> A.雙扭線軌跡 這是最常見的一種類型。掩護梁和底座之間通過兩個搖桿在四處鉸接。如果雙搖桿的尺寸選擇適當,則隨著液壓立柱的伸縮,頂梁前端的運
64、動軌跡將沿豎直方向運動近似成一條直線。因而能夠在煤壁和頂梁前端之間保持一段近似常數(shù)的無需支撐的距離。人們普遍認為這一特征對更好地控制頂板是很有好處的。但這種支架也存在明顯的缺點,即頂梁前端內的采煤高度只能夠近似的在豎直方向內變化,而這一缺點可以通過頂梁、掩護架、雙搖桿和底座的相互位置來嚴格控制。除此之外,頂梁前端可以從采煤工作面開始移動以產(chǎn)生一較大的無需支撐的空間。</p><p> B.圓形軌跡 在圓形
65、軌跡的掩護式支架里,掩護梁和底座之間通過單鉸鏈連接。液壓立柱舉升時,頂梁前端從采煤工作面開始以弧形軌跡運動從而增加無須支撐空間,大多數(shù)人認為這是這類掩護式支架的最大缺點。但是實際上如果煤層厚度變化很小,掩護式支架可以設計成這種形式,如此一來,采空區(qū)的高度變化不會太明顯;另一方面,當立柱降落時,采空區(qū)會變小。</p><p> C、橢圓形軌跡 這種類型支架掩護梁和底座之間的連接能在液壓立柱上下運動時,使得頂
66、梁前端沿橢圓軌跡運動,這種類型的支架較少使用。</p><p><b> 支撐—掩護式支架</b></p><p> 支撐—掩護式支架兼有垛式(支撐式)支架和掩護式支架的特點,同時兼有這兩種支架的優(yōu)點。</p><p> 如果在支架的頂梁和底座之間裝有4根或6根立柱,則所有的立柱都是平行并且垂直放置的,而其他的則是排列成V型或X型。支撐—
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