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河南理工大學(xué)萬(wàn)方科技學(xué)院本科畢業(yè)論文
附錄:
外文資料與中文翻譯
外文資料:
Common Fault Analysis For Belt Conveyer
Ir. G. Lodewijks, Delft University of Technology, The Netherlands
Belt conveyers as continuous bulk material conveying machinery have been widely used in the world, electric power plants, metallurgical industry and? foodstuff industry as well as in bulk material conveying machinery such as ship loader and bucket-wheel stacker-reclaimer. In the purchase, design, manufacture, erection and operation of this kind of equipment, some of new users are not familiar with them. Common fault causes and their handling methods of this kind of equipment are analyzed and described herein as a matter of experience in the past years and from the point of view of users.
1. Handling of belt deviation of belt conveyer: The belt deviation of belt conveyer during operation is the most common fault. To handle this type of fault, emphasis should be placed on the dimensional accuracy of erection and the routine maintenance. There are several kinds of causes. The differential treatment should be made according to the different causes.
1.1?? Adjustment of carrying roller set: If the belt of belt conveyer is deviated in the middle of the whole belt conveyer, the position of carrying roller set is adjusted. During the manufacture, the mounting holes on both sides of carrying roller set are machined to slots for the convenience of adjustment. For the specific adjusting methods, see Fig. 1. The specific method is that when the belt is deviated from the side, that side of carrying roller set should be moved forwards the direction of travel, or the other side moved backward the direction of travel. If the belt is deviated from the upper direction as shown in Fig. 1, the bottom position of carrying roller set should be moved to the left side and the upper position of carrying roller set is moved to the right side.
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1.2 Installation of self-aligning carrying roller set: There are many types of self-aligning carrying roller sets such as intermediate rotating shaft type, four-link type and edging roll type. The principle is that by utilizing blocking or rotating the rollers in the direction of horizontal plane, the rollers are blocked by rotating or the lateral thrust is produce to make the belt be automatically aligned so as to attain the object of adjustment of belt deviation. It is feasible, in general, to use this method when the whole length of belt of belt conveyer is shorter or the belt conveyer is operated in the bidirection. The causes are that the shorter belt conveyer is easier to be deviated and it is not easily adjusted. Therefore, this method is not used for the longer belt conveyers because use of self-aligning carrying roller sets can have certain influence on the service life of belt.
1.3 Adjustment of positions of head roll and bend pulley: Adjustment of head roll and bend pulley is a key link of adjustment of belt deviation. Since there are at least 2 to 5 pulleys in one belt conveyer, the mounting position of all the pulleys must be perpendicular to the central line along the length of belt conveyer. If the deviation is too large, the belt deviation occurs of necessity. The adjusting method is similar to that of carrying roller set. For head pulleys, if the belt is deviated from the right side of pulley, the bearing block at the right side should be moved forward and if the belt is deviated from the left side of pulley, the bearing block at the right side should be moved forward. For corresponding pulleys, the bearing block at the left side can be also moved backward or the bearing block at the right side moved backward. The adjusting method of tail pulleys is just opposite from that of head pulleys. For the adjusting method, see
Fig. 2. The pulleys are repeatedly adjusted till the belt is adjusted to the expected position. It is preferable to make the mounting position accurate before adjustment of head rolls or bend pulleys.
1.4 Adjustment of belt tensioning device: Adjustment of belt tensioning device is a very important link of adjustment of belt deviation of belt conveyer. Two bend pulleys on the top of counterweighted tensioning device should be not only perpendicular to the direction of the belt along length but also to the gravity vertical, i.e. it is ensured that the shaft center line is horizontal. When the screw tensioning device or hydraulic tensioning device is used, two bearing blocks of tensioning pulley should be synchronously translated so as to ensure that the axial line of pulley is perpendicular to the longitudinal direction of belt. The specific adjusting method of belt deviation is similar to the adjusting method of pulleys.
?1.5 Influence of material receiving position at the transfer point on the belt deviation: The material receiving position at the transfer point has a great influence on the belt deviation, especially when the projection of two belt conveyers in the horizontal plane. The relative height of the upper belt conveyer and lower belt conveyer at the transfer point should be normally taken into consideration. The lower the relative height the greater the horizontal velocity component of material and also the greater the lateral impact on the lower layer of belt. In addition, the material is difficult to center so as to make the material at the cross section of belt be skew and finally lead to belt deviation. If the material is deviated from the right side, the belt will be deviated from the left side, vice versa. In the course of design, the relative height of two belt conveyers is increased as practically as possible. The form and dimension of the upper hopper and the lower hopper, chute etc. of bulk material mobile conveying machinery which are limited by space should be more carefully taken into consideration. In general, it is applicable for the width of chute being? about 2/3 of that of belt. In order to reduce or avoid the belt from being deviated, the baffles can be increased to block the material and change the falling direction and position of material. For the uncentering of material on the belt, see Fig. 3.
?1.6 Adjustment of belt deviation of bi-directional belt conveyer: Adjustment of belt deviation of bi-directional belt conveyer is relatively more difficult than that of belt deviation of one-way belt conveyer. During the specific adjustment, the adjustment should be done from one direction, and then from the other. During adjusting, it must be carefully observed to the relationship between the travel direction of belt and the tendency of belt deviation. The adjustment should be done one by one. Firstly emphasis should be placed on adjustment of head rolls and bend pulleys. Secondly emphasis is placed on adjustment of the carrying rollers and the material receiving point. In addition, it should be noted that the load is uniformly distributed at the section of the belt along the length when the belt is at the vulcanized joints. When the leading chain is used for traction, the load at both sides should be distributed as equally as possible.
2. Material spillage on belt conveyer: Material spillage on the belt conveyer is a general character. The causes are embodied in several aspects. Therefore, emphasis is placed on strengthening the routine maintenance.
2.1 Material spillage at transfer point: Material spillage occurs mainly at the transfer points such as material receiving hopper and chute. If serious overload occurs on the belt conveyer, the rubber skirt plate of chute of belt conveyer can be damaged. Since the steel plate of chute is far from the rubber skirt plate in the design, the material will be flown out of the chute. The problem can be solved by controlling the conveying capacity and strengthening the routine maintenance.
?2.2 Material spillage at the concave section of belt during hanging: The belt at the concave section is floated when the radius of curvature is smaller. At this tome the belt in the form of trough has been changed because the belt has been deviated from the trough carrying roller set. In that case, the angle of trough becomes small so as to make part of the material be split out. Therefore, the bigger radius of curvature at the concave section is used as practically as possible in the design in order to avoid the material spillage. If the concave section is designed according to the section of transition without arc in the mechanical traveling ship loader or stacker-reclaimer in order to shorten its tail car, the material spillage may easily occur when there is less room for selection of belt width.
?2.3 Material spillage during the belt deviation: The material spillage occurs during the belt deviation because two edges of belt have changed in height during operation, i.e. one edge is higher and the other is lower. The material is split out from the lower edge. The handling method is to adjust the belt deviation.
?3. Abnormal noise: When the belt conveyer is operated, it could sound abnormally from its drive, head roll, bend pulley or carrying roller set. The failure of equipment can be determined according to the abnormal noise.
?3.1 Noise occurs when the carrying roller being seriously deviated: When the belt conveyer is operated, the abnormal noise could be produced and accompanied by periodic vibration, especially in the return rolls. The longer the roll and the heavier the deadweight, the higher the noise. There are mainly two causes for noise: one is that the wall thickness of seamless pipe made of carrying roller is non-uniform so as to produce the greater centrifugal force and the other is that during machining, the center of holes of bearing at both ends is greatly deviated from the center of top circle so as to produce the greater centrifugal force. The rolls can continue to use in case the bearings have not been damaged and the noise is allowed to exist.
3.2 Noise occurs when two shafts of coupling being not coaxial: The abnormal noise is produced from the coupling between the high-speed shaft of motor in the drive and that of reducer or from the coupling with brake wheel, it is also accompanied by the vibration that is identical with the rotational frequency of motor. If the noise is produced, the position of motor or reducer is adjusted in time in order to avoid the rupture of input shaft of reducer.
3.3 Abnormal noise of bend pulley and head roll: When the bend pulleys and head rolls are operated normally, the noise is very low. If the abnormal noise is produced, the bearing, in general, may be damaged. If the cackle is produced from the bearing block, the bearing must be replaced.
?4. Rupture of shaft of reducer: The rupture of shaft of reducer generally occurs at the high-speed shaft of reducer. The usual fault is that the first-stage shaft of reducer is used as the high-speed shaft of vertical bevel gear shaft. There are mainly two causes for shaft rupture as follows.
?4.1 Inadequate design strength of high-speed shaft of reducer: This fault, in general, occurs at the shaft shoulder. Because the transient round angle exists at this place, it is subjected to fatigue damage. If the round angle is too small, the rupture of shaft of reducer can occur in the short time. After shaft rupture, the fracture is generally flush. If this fault is found out, the reducer should be replaced or the design of reducer should be modified.
?4.2 High-speed shaft being non-axial: When the high-speed shaft of motor is non-axial, the radial load will be increased on the input shaft of reducer so as to increase the bending moment on the shaft. If the shafts are operated in such a way for a long time, the shaft rupture could occur. During installation and maintenance, the position of shaft should be carefully adjusted in order to ensure that the two shafts are aligned. In most cases, the rupture of motor shaft can not occur, because the material used for motor shaft is #45 steel, the motor shaft is thicker and has good stress concentration.
?4.3 Rupture of shaft in case two motors are used: The double-motor drive means that two reducers and two motors are installed on one head roll. When there is less room for design or selection of high-speed shaft of reducer, the shaft rupture easily occurs. In the past years the hydraulic coupling was not used in the drive of belt conveyer, so the failure easily occurred. The cause was that it was difficult to ensure that the speeds were synchronous and the loads uniformly distributed. Now the hydraulic couplings have been used in most of the belt conveyers, so the shaft rupture does not frequently occur, but it should be noted that the hydraulic coupling can not be filled with excess quantity of oil during operation so as to make it have an effect on limitation of moment of force and increase the service life of hydraulic coupling.
5. Shorter service life of belt: The service life of belt and the service modes are related to the quality of belt. It should be ensured that the cleaners are operated reliably and in good order when the belt is operated. There is not any material on the return belt. If the above can not be guaranteed, the material on the return belt will enters into the head roll or the bend pulley along with the return belt. The belt will be damaged due to the material on the surface of belt, resulting in damage of the vulcanized rubber layer on the surface of pulley, breach of the belt and decrease of the service life of belt. The manufacturing quality of belt is the problem the users relatively give attention to. After the selection of a model of belt, its manufacturing quality should be also taken into consideration. The belts can be inspected by the national specialized institution of quality determination. The appearance inspection is carried out conventionally to see whether the crazing and aging exist and the resting period is over long after manufacture. One of the above occurs, the belts should not be purchased. The fissured belt to be initially found will be, in general, damaged in a short time.
6. Influence of radius of curvature at the convex-concave section of belt on belt conveyer
6.1 Arch camber at the convex section of belt in the middle of cross section: The arch camber often occurs at the convex section in the middle of cross section and the belt will be pleated, see Fig. 4. After the overlapped?
belt enters into the bend pulley or head roll, the extent of damage of belt aggravated. The main causes for arch camber and overlapping are that the difference between the values of tensile force in a unit of length at the cross section of belt in the middle and on the outside is oversized so that the belt is slid into the middle to form the arch camber or overlapping. The magnitude of difference value of tensile force in a unit of length is related to the radius of curvature at the convex section and the trough angle of carrying roller. The bigger the trough angle, the smaller the radius of curvature at the convex section and the severer the arch camber and overlapping. When the trough angle of belt conveyer is equal to and more than 40 degrees, the arch camber and overlapping can occur even at the transition section of trough angle of head or tail roll which is run at the straight section. At this time the trough angle should be reduced or the length of transition section increased so as to make the trough angle of belt be transited. For the belt conveyer at the convex section, the radius of curvature at the convex section should be increased as practically as possible and the trough angle of roll reduced in the condition that the conveying capacity is met.?
?6.2 The belt at the convex section being seized between flat roll and web roll: The belt being seized between the flat roll and the web roll in the carrying roller set may generally occur in the bulk material mobile?
conveying machinery such as ship loader and stacker-reclaimer. The belt seizure may easily occur when the cantilever at the root position of cantilever beam of such equipment is pitched downward. At this time it corresponds to the convex section occurring on the belt. The size required for the radius of curvature at the convex transition section can not be easily met because it is limited by the size of geometric position. The belt being seized between the flat roll and the web roll in the carrying roller set can occur only when the belt at the root of cantilever is passed through one or two carrying roller sets to form the convex section. The method of resolution is that the convex section formed by the original one or two carrying roller sets is changed to that formed by four or five carrying roller sets. For example, the belt conveyer is horizontally arrange at its rear, the cantilever is pitched downward at the angle of 12 degrees at its fore and the convex section is changed at the angle of 12 degrees. If five carrying roller sets are used to transit the angle change in this place, the belt is just buckled six times to attain the object of pitching downward at the angle of 12 degrees. The belt is buckled once at the angle of 2 degrees. After modification, the belt being seized between the flat roll and the web roll in the carrying roller set can not occur no longer. The design of four-link lever or follow-up frame can be used for the base of roller carrier in the transition place which position of angle is changed.
6.3 Bouncing and deflection of belt by the wind at the concave section when starting: If there is not any material on the belt when the belt conveyer is started, the belt will be bounced at the concave section and displaced by the wind in windy weather. Therefore, it is preferable that the pressure rollers are provided at the concave section to avoid the belt from being bounced or displaced by the wind.
7. Slipping of belt
?7.1 Slipping of belt of belt conveyer with counterweighed tensioning device: When the belt is slid in the belt conveyer with counterweighted tensioning device, it can be solved by adding the balance weights till the belt can not be slid. However, the balance weights should not be excessive in order to avoid the belt from being subjected to unnecessary oversized tensile force, thus resulting in decrease of the service life of belt.
7.2 Slipping of belt of belt conveyer with screw tensioning device or hydraulic tensioning device: The tensioning travel can be adjusted to increase the tensile force when the belt is slid in the belt conveyer with screw tensioning device or hydraulic tensioning device. At this time, however, a section of the belt can be cut out for re sulfurzation when the tensioning travel is not enough or the belt is permanently deformed.
Brief summary: The belt conveyers are general-purpose mechanical equipment. They have been operated by the users for many years. However, the maintenance of belt conveyers must be done at regular intervals. Because of limitation of the length of a piece of writing, it is difficult indeed to include all contents in one article. The experience with operation and maintenance of belt conveyer can be gradually accumulated through routine work. We hope that this text will be helpful for the users of belt conveyer.
中文翻譯:
懸臂皮帶輸送機(jī)常見(jiàn)故障分析及處理
伊. 基. 勞德維加克斯,代爾夫特科技大學(xué),荷蘭
帶式輸送機(jī)作為連續(xù)散裝物料的機(jī)械已廣泛用于世界,發(fā)電廠,冶金工業(yè),食品工業(yè)以及散裝物料的輸送,如裝船機(jī)斗輪堆料機(jī)。在采購(gòu),設(shè)計(jì),制造,安裝和運(yùn)行這種設(shè)備,一些新用戶還不熟悉他們。從過(guò)去幾年的經(jīng)驗(yàn)和用戶的觀點(diǎn)和意見(jiàn)中,對(duì)這種設(shè)備常見(jiàn)故障原因和處理方法進(jìn)行了分析和描述。
1 皮帶輸送機(jī)皮帶跑偏處理:在操作中,皮帶輸送機(jī)皮帶跑偏是
常見(jiàn)的故障。為了解決這種類(lèi)型的故障,重點(diǎn)應(yīng)放在安裝尺寸精度和日常維護(hù)。有幾種原因,應(yīng)根據(jù)不同原因區(qū)別對(duì)待。
1.1 托輥的設(shè)置調(diào)整:如果皮帶輸送機(jī)皮帶在輸送機(jī)中間跑偏食,
需要對(duì)托輥的位置進(jìn)行調(diào)整。在制造中,托輥上加工的雙面安裝孔是為了方便托輥的調(diào)整。對(duì)于具體的調(diào)整方法,見(jiàn)圖1.具體的方法是,當(dāng)帶是從側(cè)面偏離時(shí),偏離一面的托輥運(yùn)動(dòng)方向應(yīng)向前運(yùn)動(dòng),而另一方面向后移動(dòng),如圖1所示,如果皮帶是向上跑偏,托輥底部位置設(shè)置應(yīng)移動(dòng)至左側(cè)并且托輥上不移動(dòng)至右側(cè)。
1.2 自調(diào)心托輥的安裝設(shè)置:自調(diào)心托輥的種類(lèi)有許多,如:中間
轉(zhuǎn)軸式,四連桿式和邊輥式。其原理是在水平面內(nèi)利用封鎖或旋轉(zhuǎn)的滾輪。滾輪式有旋轉(zhuǎn)或產(chǎn)生橫向推力使皮帶自動(dòng)對(duì)齊以達(dá)到對(duì)皮帶跑偏的調(diào)整。這是可行的,在一般情況下,使用這種方法時(shí)皮帶輸送機(jī)皮帶整體長(zhǎng)度較短或皮帶輸送機(jī)是雙向操作。其原理是較短的皮帶輸送機(jī)易跑偏并且不易調(diào)整。因此這種方法不用于較長(zhǎng)的帶式輸送機(jī),因?yàn)樽哉{(diào)心托輥的使用對(duì)皮帶的使用有一定的影響。
1.3 頭部彎曲輥及滑輪的位置調(diào)整: