機(jī)械外文翻譯外文文獻(xiàn)英文翻譯軸、聯(lián)軸器和滾動(dòng)軸承

1、荿蚇附錄二 外文原文和翻譯 shafts、 couplings and rolling contact bearings key words: shafts、 couplings、bearingsVirtually all machines contain shafts.The most common shape for shafts is circular and the cross section can be either solid or hollow (hollow shafts can result in weight savings ).Rectangular shafts ar

2、e sometimes used ,as in screwdriver blades,socket wrenches and control knob stems .A shaft must have adequate torsional strength to transmit torque and not be overstressed. It also be torsionally stiff enough so that one mounted component does not deviate excessively from its original angular positi

3、on relative to a second component mounted on the same shaft. Generally speaking ,the angle of twist should not exceed one degree in a shaft length equal to 20 diameters.Shafts are mounted inbearings and transmint power through such devices as gears, pullerys, cams and clutches. These devices introdu

4、ce forces which attempt to bend the shaft; hence, the shaft must be rigid enough to prevent overloading of the supporting bearings. In general, the bending deflection of a shaft should not exceed 0.01 in. per ft of length between bearing supports.In addition, the shaft must be able to sustain a comb

5、ination of bending and torsional loads. Thus an equivalent load must be considered which takes into account both torsion and bending. Also, the allowable stress must contain a factor of safety which includes fatigue, since torsional and bending stress reversals occur.For diameters less than 3 in. ,

6、the usual shaft material is cold-rolled ateel containing about 0.4 percent carbon. Shafts are either cold-rolled or forged in sizes from 3 in. to 5 in. ,shafts are forged and machined to size .Pleastic shafts are widely used for light load applications. One advantage of using plastic is safety in el

7、ectrical applications ,since plastic is a poor conductor of electricity.Components such as gears and pulleys are mounted on shafts by means of key .The design of the key and the corresponding keyway in the shaft must be prperly evaluated. For example ,stress concentrations occur in shafts due to key

8、ways ,and the material removed to form the keyway further weakens the shaft.If shafts are run at cirtical speeds ,severe vibrations can occur which can seriously damage a machine. It is important to know the magnitude of these critical speeds so that they can be avoided. As a general rule of thumb,t

9、he difference between the operating speed and the critical speed should be at least 20 percent .Another important aspect of shaft design is the method of directly connecting one shaft to another. This is accomplished by devices such as rigid and flexible couplings.A coupling is a device for connecti

10、ng the eds of adjacent shafts. In machine construction, ouplings are used to effect a semipermanent connection between adjacent rotating shafts. The connection is permanent in the sense that it is not meant to be broken during the useful life of the machine, but it can be broken and restored in an e

11、mergency or when worn parts are replaced.There are several types of shaft couplings, their characteristics depend on the purpose for which they are used. If an exceptionally long shaft is required in a manufacturing plant or a propeller shaft on a ship, it is made in sections that are coupled togeth

12、er with rigid couplings. A common type of rigid coupling consists of two mating radial flanges(disks) that are cttached by key-driven hubs to the eds of adjacent shaft sections and bolted together through the flanges to form a rigid connection. Alignment of the connected shafts is usually effeted by

13、 means of a rabbet joint on the face of the flanges.In connecting shafts belonging to separate devices (such as an electric motor and a gearbox ),precise aligning of the shafts is difficult and a flexible coupling is used. This coupling connects theshafts in such a way as to minimize the harmful eff

14、ects of shaft misalignment. Flexible couplings also permit the shafts to deflect under their separate systems of with one another. Flexible couplings can also serve to reduce the intensity of shock loads and vibrations transmitted from one shaft to another.Virtually all shafts contain rolling contac

15、t bearings.The concern of a machine designer with ball and roller bearings is fivefold as follows:(a) life in relation to load; (b) stiffness ,i.e. deflections under load; (c) friction; (d) wear; (e) noise. For moderate loads and speeds the correct selection of a standard bearing on the basis of loa

16、d rating will usually secure satisfactory performance. The deflection of the bearing elements will become important where loads are high, although this is usuallyof less magnitude than that of the shafts or other components associated with the bearing. Where speeds are high special cooling arrangeme

17、nts become necessary which may increase frictional drag. Wear is primarily associatedwith the introduction of contaminants, and sealing arrangements must be chosen with regard the hostility of the environment.Becausethe high quality and low price of ball and roller bearings depends on quantity produ

18、ction, the task of the machine designer becomes one of selection rather than design. Rolling-contact bearings are generally made with ateel which is through-hardened toabout 900HV,although in many mechanisms special races are not provided and the interacting surfaces are hardened to about 600 HV. It

19、 is not surprising that, owing to the high stressesinvolved, a predominant form of failure should be metal fatigue, and a good deal of work is currently in progress intended to improve the reliability of this type of bearing. Design can be based on accepted values of life and it is generral practice

20、 in the bearing industry to define the load capacity of the bearing as that value below which 90 lpercent of a batch will exceed a lift of ane million revolutions.Notwithstanding the fact that responsibility for the basic design of ball and roller bearings rests with the bearing manufacturer, the ma

21、chine designer must form a correct appreciation of the duty to be performed by the bearing and be concerned not only with bearing selection but with the conditions for correct installation.The fit of the bearing races onto the shaft or onto the housings is of critical importance because of their com

22、bined effect on the internal clearance of the bearing as well as preserving the desired degree of interference fit. Inadequate interference can induce serious trouble from fretting corrosion. The inner race is frequently located axially by abutting against a shoulder. A radius at this point is essen

23、tial for the avoidance of stress concentration and ball races are provides with a radius or chamfer to allow space for this .Where life is not the determining factor in design, it is usual to determine maximum loading by the amount towhich a bearing will deflect under load. Thus the concept of “ sta

24、tic lo- caadrrying capacity” is understood to mean the load that can bealpplied to a bearing, which is either stationary or subject to slight swiveling motions, without impairing its running qualities for subsequent rotational motion. This has been determined by practical experience as the load whic

25、h when applied to a bearing results in a total deformation of the rolling element and raceway at any point of contact not exceeding 0.01 percent of the rolling-element diameter. This would correspond to a permanent deformation of 0.00025 mm for a ball 25mm in diameter.The successful functioning of m

26、any bearing depends upon providing them with adequate protection against their environment, and in some circumstances the enviroration of the bering surfaces. Achievement of the correct functioning of seals is an essential part of bearing design. Moreover, seals which are applied to moving parts for

27、 any purpose are of interest to tribologists because they are components of bearing systems and can only be designed satisfactorily on the basis of the approlpriate bearing theory. Notwithstanding their importance, the amount of research effort that has been devoted to the understanding of the under

28、standing of the behavior of seals has been small when compared with that devoted to other aspects of bearing technology.References:1 Erickson.Belt and Application for Engineers.Marcel Dekker.Inc,19972 South,Mancuso.Mechanical Power Transmission Components.1994軸、聯(lián)軸器和滾動(dòng)軸承關(guān)鍵詞：軸、聯(lián)軸器、軸承實(shí)際上，幾乎所有的機(jī)器中都裝有軸。

29、軸最常見的形狀是圓形， 其截面可以 是實(shí)心的，也可以是空心的（空心軸可以減輕重量） 。有時(shí)也采用矩形軸，例如， 螺絲起子的頭、套筒扳手和控制旋扭的桿。為了在傳遞轉(zhuǎn)矩時(shí)不發(fā)生過載， 軸應(yīng)該具有適當(dāng)?shù)目古?qiáng)度。 軸還應(yīng)該具有 足夠的抗扭剛度， 以使同一個(gè)軸上的兩個(gè)傳動(dòng)零件之間的相對(duì)轉(zhuǎn)角不回過大。 一 般來說，在軸的長(zhǎng)度等于其直徑的 20 倍時(shí)，扭轉(zhuǎn)角不應(yīng)該超過 1 度。軸安裝在軸承中，通過齒輪、皮帶輪、凸輪、和離合器等零件傳遞動(dòng)力。通 過這些零件傳來的里可能會(huì)使軸產(chǎn)生彎曲變形。 因此，軸應(yīng)該有足夠的剛度以防 止支撐軸承受力過大。 總而言之， 在兩個(gè)軸承支承之間， 軸在每英尺長(zhǎng)度上的彎 曲變形不應(yīng)該

30、超過 0.01 英寸。此外，軸還必須能承受彎矩和扭矩的組合作用。 因此， 要考慮扭矩與彎矩的 當(dāng)量載荷。 因?yàn)榕ぞ睾蛷澗貢?huì)產(chǎn)生交變應(yīng)力， 在許用應(yīng)力中也應(yīng)該有一個(gè)考慮疲 勞現(xiàn)象的安全系數(shù)。直徑小于 3 英寸的軸可以采用含碳量大約為 0.4%的冷軋鋼，直徑在 35 英 寸之間的軸可以采用冷軋鋼或鍛造毛坯。 當(dāng)直徑大于 5 英寸大，則要采用鍛造毛 坯，然后機(jī)械加工到所要求的尺寸。輕載時(shí)，廣泛采用塑料軸。由于塑料是電的 不良導(dǎo)體，在電器中用它做軸比較安全。齒輪和皮帶輪等零件通過鍵聯(lián)接在軸上。 在對(duì)鍵及軸上與之相應(yīng)的鍵槽進(jìn)行 設(shè)計(jì)時(shí)，必須進(jìn)行認(rèn)真的計(jì)算。例如，軸上的鍵槽會(huì)引起應(yīng)力集中，由于鍵槽的 存在

31、使軸的橫截面積間隙哦啊，會(huì)進(jìn)一步減弱軸的強(qiáng)度。如果軸以臨界速度轉(zhuǎn)動(dòng)， 將會(huì)發(fā)生強(qiáng)烈的振動(dòng)， 可能會(huì)毀壞整臺(tái)機(jī)器。 知道 這些臨界速度的大小是很重要的， 因?yàn)檫@樣可以避開它。 一般憑經(jīng)驗(yàn)來說， 工作 速度與臨界速度之間至少應(yīng)該相差 20%。軸的設(shè)計(jì)工作的另一個(gè)重要方面是軸與軸之間的直接聯(lián)接方法。 這是有剛性 或者彈性聯(lián)軸器來實(shí)現(xiàn)的。聯(lián)軸器是用來把兩個(gè)相鄰軸端聯(lián)接起來的裝置。 在機(jī)械結(jié)構(gòu)中， 聯(lián)軸器被用 來實(shí)現(xiàn)相鄰的兩根轉(zhuǎn)軸之間的半永久性聯(lián)接。 在機(jī)器的正常使用期間內(nèi)， 這種聯(lián) 接一般不必拆開， 在這種意義上， 可以說聯(lián)軸器的聯(lián)接是永久性的。 但是在緊急 情況下，或者需要更換以磨損的零件時(shí)，可以先

32、把聯(lián)軸器拆開，然后再聯(lián)接上。聯(lián)軸器有幾種類型， 它們的特性隨其用途而定。 如果制造工廠中或者船舶的 螺旋漿需要一根特別長(zhǎng)的軸， 可以采用分段的方式將其制造出來， 然后采用剛性 聯(lián)軸器將各段聯(lián)接起來。一種常用的聯(lián)軸器是由兩個(gè)配對(duì)的法蘭（盤）組成，這 兩個(gè)法蘭盤借助靠鍵傳動(dòng)的軸套聯(lián)接到相鄰兩節(jié)軸的兩端， 然后用螺栓穿過法蘭 聯(lián)接起來形成剛性接頭。相互聯(lián)接的兩根軸通常是靠法蘭面的槽口來對(duì)準(zhǔn)的。在把屬于不同的設(shè)備 （例如一個(gè)個(gè)電動(dòng)機(jī)和一個(gè)變速箱） 的軸聯(lián)接起來的時(shí) 候，要把這些軸精確地對(duì)準(zhǔn)是比較困難的， 此時(shí)可以采用彈性聯(lián)軸器。 這種聯(lián)軸 器聯(lián)接軸的方式可以把由于被聯(lián)接的軸之間的軸線不重合所造成的有害

33、影響減 少到最低程度。彈性聯(lián)軸器也允許被聯(lián)接的軸在它們各自的載荷系統(tǒng)作用下產(chǎn)生 偏斜或在軸線方向自由移動(dòng) （浮動(dòng)） 而不至于相互干擾。 彈性聯(lián)軸器也可以用來 減輕從一根軸傳到另一根軸上的沖擊載荷和振動(dòng)的強(qiáng)度。而幾乎所有的軸都裝有滾動(dòng)軸承。 對(duì)于球軸承和滾子軸承， 一個(gè)機(jī)器設(shè)計(jì)人 員應(yīng)該考慮下面五個(gè)方面：（a）壽命與載荷的關(guān)系；（b）剛度，也就是在載荷作 用下的變形；（c）摩擦；（d）磨損；（e）噪音。對(duì)于中等載荷和轉(zhuǎn)速，根據(jù)額定 負(fù)荷選擇一個(gè)標(biāo)準(zhǔn)軸承， 通常都可以保證其具有令人滿意的工作性能。 當(dāng)載荷較 大時(shí)，軸承零件的變形， 盡管它通常小于軸和其他與軸承一起工作的零部件的變 形，將會(huì)變得重要

34、起來。 在轉(zhuǎn)速高的場(chǎng)合需要有專門的冷卻裝置， 而這可能會(huì)增 大摩擦阻力。 磨損主要是由于污染物的進(jìn)入引起的， 必須選用密封裝置以防止周 圍環(huán)境的不良影響。因?yàn)榇笈可a(chǎn)這種方式?jīng)Q定了球軸承和滾子軸承不但質(zhì)量高，而且價(jià)格 低，因而機(jī)器設(shè)計(jì)人員的任務(wù)是選擇而不是設(shè)計(jì)軸承。 滾動(dòng)接觸軸承通常是采用 硬度大約900HV、整體淬火的鋼來制造的。但在許多機(jī)構(gòu)上不使用專門的套圈， 而將相互作用的表面淬硬到大約 600HV。滾動(dòng)軸承由于在工作中會(huì)產(chǎn)生高的應(yīng) 力，其主要失效形式是金屬疲勞， 這一點(diǎn)并不奇怪， 目前正在進(jìn)行大量的工作以 求改進(jìn)這種軸承的可靠性。軸承設(shè)計(jì)可以基于能夠被人們所接受的壽命值來進(jìn) 行。在軸

35、承行業(yè)中， 通常將軸承的承載能力定義為這樣的值， 即所承擔(dān)的載荷小 于這個(gè)值時(shí)，一批軸承中將會(huì)有 90%的軸承具有超過一百萬轉(zhuǎn)的壽命。盡管球軸承和滾子軸承的基本設(shè)計(jì)責(zé)任在軸承制造廠家， 機(jī)器設(shè)計(jì)人員必須 對(duì)軸承所要完成的任務(wù)做出正確的評(píng)價(jià)， 不僅要考慮軸承的選擇， 而且還要考慮 軸承的正確安裝條件。軸承套圈與軸或軸承座的配合非常重要， 因?yàn)樗鼈冎g的配合不僅應(yīng)該保證 所需要的過盈良， 而且也應(yīng)該保證軸承的內(nèi)部間隙。 不正確的過盈量會(huì)產(chǎn)生微振 腐蝕磨損從而導(dǎo)致嚴(yán)重的故障。內(nèi)圈通常是通過緊靠在軸肩上進(jìn)行軸向定位的。 軸肩處的圓弧半徑重要是為了避免應(yīng)力集中。 在軸承內(nèi)圈上加工出一個(gè)圓狐或者 倒角，用

36、來提供容納軸肩處圓弧半徑的空間。在使用壽命不是設(shè)計(jì)中的決定因素的場(chǎng)合， 通常根據(jù)軸承受載荷時(shí)產(chǎn)生的變 形量來確定其最大載荷。 因此，“靜態(tài)承載能力 ”這個(gè)概念可以理解為對(duì)處于靜止 狀態(tài)的或者進(jìn)行緩慢轉(zhuǎn)動(dòng)的質(zhì)量沒有不利影響。 按照實(shí)踐經(jīng)驗(yàn)確定， 靜態(tài)承載能 力是這樣一個(gè)載荷， 當(dāng)它作用在軸承上時(shí)， 滾動(dòng)體與滾道在任何一個(gè)接觸點(diǎn)處的 總變形量不超過滾動(dòng)體直徑的 0.01%。這相當(dāng)于直徑位 25mm 的球產(chǎn)生 0.0025mm 的永久變形。只有將軸承與周圍環(huán)境適當(dāng)?shù)馗綦x開，許多軸承才能成功地實(shí)現(xiàn)它們的功 用。在某些情況下， 必須保護(hù)環(huán)境， 使其不受潤(rùn)滑劑和軸承表面磨損生成物的污 染。軸承設(shè)計(jì)的一個(gè)重

37、要組成部分是使密封裝置起到應(yīng)有作用。 此外，對(duì)摩擦學(xué) 研究人員來說，為了任何目的而應(yīng)用于運(yùn)動(dòng)零部件上的密封裝置都是他們感興趣 的。因?yàn)槊芊庋b置是軸承系統(tǒng)的一部分， 只有根據(jù)適當(dāng)軸承理論才能設(shè)計(jì)出令人 滿意的密封裝置。 雖然它們很重要， 與軸承其他方面的研究工作相比， 到目前為 止在密封裝置的研究方面所做出的工作還是比較少的。參考文獻(xiàn)：1 Erickson.Belt and Application for Engineers.Marcel Dekker.Inc,1997 2 South,Mancuso.Mechanical Power Transmission Components.1994 莈

38、蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁 袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄 薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀 肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀 薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)?袀蒞蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈 螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊 肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄 螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆

39、螃袀蒞蕿蚈衿蒈莂羇 袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀 蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇 肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆 蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿 羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂 蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁 膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁 蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁 羅膄薄羀羄莆莇袆羃蒈

40、螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇 蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃 膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃 螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆 羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿 莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈 腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈 莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈 羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁

41、薈螁肅莄 莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀 膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀 莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂 肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅 莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂 袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁 荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄 肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀 莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈

42、蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇 袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆 莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿 肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié) 蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈 衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈 蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁 肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆 蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃

43、袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃 蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃 膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿 蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅 羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅 蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇 膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁 蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀 羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂

44、肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿 蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆 腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W 蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂 羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁 薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖 膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇 薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄 羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅 薇薃膃膅莀

45、袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆 袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂 薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈 聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋 薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁 袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄 薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀 肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀 薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈

46、袁袂肁蒁袇袁芃螆?bào)?袀蒞蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈 螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊 肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄 螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇 袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀 蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇 肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆 蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿 羇莂薆蚅羆肁荿薁羅膄

47、薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂 蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁 膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁 蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁 羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇 蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃 膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃 螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆 羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿

48、蒀罿肆腿 莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈 腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈 莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈 羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄 莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀 膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀 莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂 肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅 莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿

49、節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂 袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁 荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄 肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀 莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇 袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆 莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿 肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié) 蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈

50、衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈 蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁 肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆 蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃 袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃 蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃 膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿 蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅 羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈

51、羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅 蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇 膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁 蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀 羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿 蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆 腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W 蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂 羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁 薈螁肅莄莁

52、蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖 膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇 薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄 羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅 薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆 袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂 薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈 聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋 薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕

53、蚆袃艿蒃薂袃莁蚈袁 袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄 薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀 肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀 薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)?袀蒞蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈 螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊 肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄 螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇 袈膇薈袃袇芀莀蝿羇莂

54、薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀 蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇 肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆 蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿 羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂 蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁 膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁 蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁 羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅

55、蒂蚄肈芇 蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃 膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃 螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆 羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿 莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈 腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈 莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈 羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄 莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁

56、莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀 膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀 莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂 肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅 莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂 袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁 荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄 肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀 莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇

57、袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆 莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿 肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié) 蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈 衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈 蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁 肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆 蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃 袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆

58、羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃 蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃 膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿 蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅 羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅 蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇 膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁 蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀 羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿 蒀罿肆腿莃

59、裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆 腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W 蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂 羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁 薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖 膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇 薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄 羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅 薇薃膃膅莀袁膂羋薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆 袃艿蒃薂袃莁蚈袁袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂 薆蚅羆肁荿薁羅膄薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈 聿膅蒂蚄肈芇蚇薀肇葿蒀罿肆腿莃裊肅芁薈螁肅莄莁蚇肄肅薇薃膃膅莀袁膂羋 薅螇膁莀莈蚃膀膀薃蠆腿節(jié)蒆羈腿莄螞襖膈蕆蒄螀膇膆蝕蚆袃艿蒃薂袃莁蚈袁 袂肁蒁袇袁芃螆?bào)π偵W蕿蚈衿蒈莂羇袈膇薈袃袇芀莀蝿羇莂薆蚅羆肁荿薁羅膄 薄羀羄莆莇袆羃蒈螞螂羂膈蒅蚈羈芀蟻薄羈莃蒄袂肀肂蠆螈聿膅蒂蚄肈芇蚇薀 肇