• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:

    公开号:DK201200383A1
    申请号:DK201200383
    申请日:2012-06-04
    公开日:2015-05-04
    发明作者:Per E Fenger
    申请人:Liftra Aps;
    IPC主号:
    专利说明:

    The present invention relates to a method of establishing access for removing and mounting the main shafts, gearbox, generator and other main parts located in the nacelle on a wind turbine, where the nacelle's convertible remains located on the nacelle, and lifting mechanisms for carrying out the invention.
    When performing servicing and repair work on large wind turbines, there is a need to be able to access and remove vital and relatively heavy parts of the wind turbine located in the interior of the nacelle. These include, for example, the main shaft, gearbox, generator, and other major parts that cannot be carried up and down through the tower of the wind turbine, and where either mobile cranes or crane games are used between the nacelle and a station on the ground, for handling said parts, which requires access to the nacelle from above. This access has so far been achieved by simply dismantling the nacelle's convertible (roof) and hoisting it down to the ground using a mobile crane, and hoisting the convertible into place after completion of service / repair of the wind turbine. However, this requires the presence of a mobile crane, which is relatively expensive to operate, with the crane being paid at hourly rates. In cases where crane games are used for transporting said heavy parts between the nacelle and the ground surface, handling of the nacelle's convertible will be a difficult operation, due to the convertible's relatively voluminous design, which is why there is reason to operate with alternative solutions.
    An alternative option could be to mount the convertible on the nacelle with a hinge connection, and with hydraulically driven pistons, for example in combination with exchange mechanisms, whereby the convertible could be opened as seen in smaller wind turbine types. However, such a solution would require the establishment of fixed installations in a nacelle where there are already sparse space conditions, and the solution is relatively expensive in relation to the number of times such an installation is to be used.
    Thus, there will be a need for an alternative solution to the above-mentioned problem, which is at once flexible and which is also universally applicable in connection with convertibles on different sized nacelles and wind turbine types.
    It is an object of the invention to provide a solution in which the convertible remains at the top of the nacelle, but at the same time, access to disassembly and mounting is established, as well as the lifting and lifting of the main shaft, gearbox, generator and other large parts arranged in the nacelle. on wind turbines.
    This object is achieved by a method of establishing access to disassembly and reassembly of the main shaft, gearbox, generator and other main parts located in the nacelle on a wind turbine where the nacelle's convertible remains on the nacelle, and comprises the following operations; -mounting of at least two sets of mutually opposed lifting mechanisms whose upwardly free ends comprise at least one running roller, on the inside of the nacelle near the front (shaft end) and the rear end respectively, - displacement of the free ends of the lifting mechanisms to the abutment with the cab flange's bottom flange, by jack or play, displacement of a restraining roller located at a level above the runner roll (s) and over the convertible's flange in position into the convertible's flange at each lifting mechanism, - displacement of the convertible in the rearward direction, away from the front end to a position where a portion of the convertible is overhanging the back of the nacelle.
    Hereby, it is possible to make a rearward displacement of the nacelle's convertible to an extent which provides sufficient access to remove large parts of the nacelle's interior by means of crane winches, without the use of an actual mobile crane.
    A lifting mechanism for lifting and displacing cabriolets on nacelles on wind turbines for use in the practice of the invention may comprise a bracket with mounting facilities for mounting the bracket on the inside of the nacelle and / or for statically stable portions of the wind turbine arranged in the nacelle, said bracket comprising a first horizontally oriented frame member, and a second, integrally vertically oriented tubular member for receiving and controlling a vertically displaceable cooperating first member, the first lower end of which is adapted to cooperate with lifting means for displacement of the first member, and the second upper end of which comprises at least a first roller, or roller set, whose upwardly supporting surface is located in the same horizontal plane and mounted on a horizontally oriented / oriented shafts.
    This gives the advantage that the lifting mechanisms used for lifting and displacing the convertible can be mounted on any wind turbine and removed again after use, that is, the universal application principle is ensured. The advantage is further that by displacing the vertically oriented displaceable first member in an upward direction by means of a jack, winch, waist pad or other suitable means, the roller or roller set at the upper free end of the displaceable member is brought into contact with the downward side of the convertible's flange, and with continued upward displacement of the member, the convertible will rest on the roll / roll set, or straighten the rollers at each of the four support points whereby the convertible can be displaced a little backwards, away from the wind turbine hub , in a carefully controlled movement, possibly controlled by hoists, winches, lashing straps, or similar equipment, to ensure that the convertible does not run off the rollers and is dropped. The lifting mechanisms, which can be transported from the ground surface to the nacelle inside the tower of the wind turbine, can be designed in light metal or in composite material in order to reduce their weight, which will facilitate handling and mounting thereof. In order to ensure that the displacement of the convertible is not exaggerated so that it is lost, the lifting mechanism may further comprise a second roller, or restraints, mounted on a horizontally oriented shaft located at a level above the first roller or roller set, which second roller or restraint is displaceable between a passive retracted position where the roller or restraint is located outside the support surface of the first roll, and an advanced active lockable position where the second roll or restraint is positioned at a level above the support surface of the first roll or roll set.
    By placing the retainer or roller in the active advanced locked position, it is achieved that the displacement of the convertible is limited by the second roller or the retainer, so that the displacement is limited to the point where the roller or retainer comes into contact with the inner side of the front of the convertible, and at the same time, the displacement of the convertible is controlled parallel to the nacelle. In addition, it is ensured that the convertible does not tilt over its center of gravity and thus lose. The head restraint or roller also secures the convertible against the wind. In order to obtain the greatest possible stability during the displacement of the convertible, the lifting mechanism according to the invention may comprise means of arrangement between the vertically oriented tubular member and the vertically displaceable first member, for securing the vertically displaceable first member in a preferred position.
    Hereby it is achieved that vertically displaceable members can be locked with the roller or roller set at a preferred level, thereby providing a stable support for the rollers or the roller sets on which the convertible is to be displaced. The arresting means may, for example, consist of through-holes in the vertical tubular part and in the displaceable member which can be made to overlap by adjusting the displacement of the member with jack, winch, waist blocks etc. and then a locking bolt is inserted through the overlapping holes that are secured with a fuse ring, split or the like. Thereafter, the means used for displacement of the member are released and the roller / roller set is carried by the locking bolt. In order to further stabilize the rear lifting mechanisms, the first horizontally oriented frame member may further comprise with cooperating mounting facilities on the first end of horizontally oriented, and relative to the longitudinal axis of the first frame member, inclined projecting support beams, whose second end includes mounting facilities for attachment an interior adjacent side of the nacelle.
    This provides better stability of the rear lifting mechanisms against torsion if the cabriolet is affected by winds or other forces that do not run parallel to the longitudinal axis of the nacelle during the displacement. In a particular embodiment of the lifting mechanism according to the invention, the vertically displaceable cooperating first member may comprise a jack for displacing the first member, vertically, guided in the vertically oriented tubular member.
    Everything else, the embodiment will result in the lifting mechanism being heavier to handle, but may in some cases be advantageous. In a further embodiment of the lifting mechanism according to the invention, the first lower end of the vertically displaceable cooperating first member may comprise a groove wheel cooperating with a winch, waist pad or lashing strap whose ends are fastened to the bracket and passed through it. grooved wheels for displacing the first member in the vertical direction guided in the vertically tubular member.
    The invention is explained in more detail below with reference to the drawing, wherein; FIG. 1 is a top view of a nacelle on a wind turbine where the convertible is closed; FIG. 2 is a top view of the embodiment of FIG. 1, but with the convertible displaced backwards according to the method according to the invention, fig. 3 is a perspective view of the embodiment of FIG. 2; FIG. 4 is a perspective detail sectional view of the nacelle shown in FIG. 2 and FIG. Fig. 3 is an oblique view from the rear, where the convertible is transparent. Figure 5 shows a first embodiment of a lifting mechanism for mounting to static stable structural members mounted near the front end of the nacelle, for carrying out the method according to the invention; 6 is a detail perspective view of the embodiment of FIG. 5 shows a lifting mechanism, FIG. 7 shows another embodiment of a lifting mechanism for mounting on the nacelle sides mounted near the rear end thereof; FIG. 8 is a first perspective view of the embodiment of FIG. 7 shows the embodiment of the lifting mechanism; FIG. 9 is another perspective view of the one shown in FIG. 7 and FIG. 8 illustrates the lifting mechanism shown in FIG. 10 is a detail perspective view of the other upper end of the lifting mechanism of the invention.
    FIG. 1 is a top view of the nacelle 2 on a wind turbine 4 with the convertible 6 closed. The nacelle has a front end 8, a rear end 10, and a center axis 12. In the picture, the convertible is made transparent. In FIG. 2 is a view of the embodiment of FIG. 1, the convertible is displaced rearwardly over the rear end of the nacelle 10, so that the main shaft 14 of the wind turbine 14, gearbox 16, m.m. is exposed. In FIG. 3 is a perspective side view of the nacelle shown in FIG. 1 and FIG. 2, where the nacelle 2 and the convertible 6 are made transparent, it is seen how the convertible 6 is raised and supported on a set of first lifting mechanisms 18, 18 ', respectively, mounted on statically stable structural members 20 in the nacelle 2 closest to the front end of the nacelle 8 and a second set of lifting mechanisms. 22, 22 ', mounted on the parallel extending longitudinal sides 24, 24' of the nacelle, and with support beams 26 mounted on the rear side of the nacelle. 4, which is a perspective cross-sectional view of the nacelle 2 seen from the rear view in greater detail, shows how the first lifting mechanisms 18, 18 'are mounted to mechanically stable structural members 20 near the front end 8 of the nacelle, and how the second set of lifting mechanisms 22, 22 'is mounted on the parallel sides 24, 24' of the nacelle 2. In FIG. 5 is a detail view of how the first lifting mechanism 18 is mounted on a mechanically stable structural member 20 in the nacelle 2. The mounting facilities 28 are in the illustrated embodiment of a stiffened angular frame 30 whose vertically oriented legs 32 are in contact with a first horizontally oriented frame member. 34 near the wall 24 of the nacelle, and whose horizontally oriented angular legs 36 pass through spacers 38 and bolts 40 through pass holes 41 in the angular leg 36, are secured to the mechanically stable structural member 20.
    As further shown in FIG. 5, but more clearly of FIG. 6, there is a perspective view of an embodiment of the first lifting mechanism 18, 18 ', the structure thereof being seen in more detail. The lifting mechanism 18, 18 'comprises the first horizontally oriented frame member 34 connected to the angular frame 30. In FIG. 7, another embodiment 22, 22 'of the lifting mechanism intended for mounting on the inner long sides 24, 24' of the nacelle 2 and to the inner rear wall of the nacelle 28 is shown, respectively. This embodiment of the lifting mechanism comprises, in addition to the first horizontally oriented frame member 34 with mounting facilities 66 for mounting on the sides of the nacelle, 24, 24, further an oblique protruding frame portion 68, the free end of which 70 includes mounting facilities 71 on the rear wall 28 of the nacelle 2. This will give this second embodiment 22, 22 'of the lifting mechanism the necessary stability. to withstand the forces to be transferred to the sides of the nacelle as the convertible 2 is shifted backwards and forwards. Common to the illustrated embodiments of the lifting mechanisms 18, 18 'and 22, 22' is that from there the first horizontally oriented frame portion 34 is seen a downwardly extending second, integrally, vertically oriented tubular portion 42 for receiving and controlling a vertical portion thereof. displaceable cooperating first member 44, the first lower end 46 of which shown in the illustrated embodiment is provided with a groove wheel 48 adapted to cooperate with lifting means (not shown) for displacement of the first member 44, guided within the vertically oriented tubular part 42. In connection with the embodiment shown, the lifting means can be constituted by a waist block, a lashing with a tightening mechanism, the ends of which are fixed to cross bolts 50 located on each side of the tubular part 42, on the frame 34. By carrying the wire, chain, or lashing strap down around the groove wheel 48, and subsequently tighten the wire, chain or lashing strap with the appropriate tightening mechanisms , a vertical displacement of the first member 44 is made.
    The second upper end 52 of the vertically displaceable member 44 comprises in the illustrated embodiment a set of rollers consisting of three rollers 54, whose upwardly supporting carrier 55 is located in the same horizontal plane and mounted on horizontally oriented shafts 56. It is the upwardly supporting carrier 55 of the rollers. which, by an upwardly directed displacement of the vertically displaceable member 44, is brought into contact with the flange 58 on the underside 60 of the convertible 6 (see also Fig. 10), and by continued displacement of the means 44 upwardly by means of the lifting means, the convertible 6 is lifted free of the nacelle edge and can subsequently be displaced carried on the rollers 54.
    As shown in FIG. 5, FIG. 6 FIG. 7, FIG. 8 fig.9 and fig. 10, the lifting mechanisms further comprise a second roller or headrest 62 mounted on a horizontally oriented shaft 64 located at one level of the first roller set 54, which second roller or headboard 62 is slidable between a passive retracted position where the roller / headrest 62 is located. outside of the first roller set carrier surface 55, and an advanced active position, where the second roller / head restraint 62 is positioned at a level above the carrier surface 55 of the first roller set 54. Common to the illustrated embodiments of the lifting mechanism 18, 18'and 22, 22 It also applies that they comprise arresting means 70 between the vertically oriented tubular member 42 and the vertically displaceable first member 44, for securing the vertically displaceable first member 44 in a preferred position. The arresting means 70 consist in the illustrated embodiments in that in the vertically tubular member 42 and in the displaceable member 44, through holes 72, 74 are provided which can be overlapped by adjusting the displacement of the member 44 by jack, winch, waist blocks, etc. (not shown) after which a locking bolt 76 is inserted through the overlapping holes 72, 74 secured by a fuse ring, split or the like (not shown). Thereafter, the means used for displacing the member are extinguished and the roller set 54 is carried by the locking bolt 76.
    Access to the disassembly and mounting of main shafts 14, gearbox 16, generator and other main parts located in the nacelle 2 of a wind turbine, without removing the convertible 2 of the nacelle 2 from the nacelle 2, and comprises the following operations; -mounting at least two sets of pairwise opposed lifting mechanisms 18, 18 ', 22, 22' whose upwardly free ends 52 comprise at least one running roller 54, on the inside of the nacelle near the front (shaft end) and rear end, respectively, of the free ends 52 of the lifting mechanisms 18, 18 ', 22, 22' for abutment with the convertible flange 58 with the base of the nacelle, by jack or play displacement of a restraining roll or retainer 62 located at level above the runner roll (s) 54 and above the convertible's abutment flange 58 in position over the abutment flange 58 of the convertible at each lifting mechanism 18, 18 ', 22, 22', displacement of the convertible 2 in the rearward direction away from the front end 8 of the nacelle 2 to a position where a portion of the convertible 2 is overhanging back of the nacelle 10.
    After completion of the work on the nacelle, the convertible 2 on the rollers 54 is moved back to the starting position, after which the vertically displaceable member 44 on the lifting mechanisms 18, 18 ', 22, 22 is lowered to the starting position, after which the convertible is attached to the nacelle and finally the lifting mechanisms 18 are removed. 18 ', 22, 22'.
    Finally, it should be noted that the inventor has recognized that the lifting mechanisms can take on other embodiments than those described above and shown in the drawing. For example, each of the lifting mechanisms 18, 18 ', 22, 22' could be provided with an integral jack, just as the number of rollers 54 and retaining 62 may be more or less than the number shown, but this does not change the crucial inventive aspect of , being able to provide access to the disassembly and mounting of the main shafts, gearbox, generator and other main parts located in the nacelle on a wind turbine, without removing the nacelle convertible from the nacelle, by providing the nacelle 2 with a plurality of lifting mechanisms 18, 18 ', 22, 22' with support rollers 54 on which the convertible 2 can be displaced sufficiently rearwardly to establish the necessary access, and with lockable retainers 62, for holding and controlling the displacement of the convertible.
    权利要求:
    Claims (7)
    [1]
    A method of establishing access to dismantle and mount main shafts (14), gearbox (16), generator and other main parts located in the nacelle (2) on a wind turbine (4) where the nacelle's convertible (6) remains on the nacelle ( 2), and comprising the following operations; -mounting at least two sets of pairs of opposed lifting mechanisms (18, 18 ', 22, 22') whose upwardly free ends (52) comprise at least one running roller (54), on the inside of the nacelle (24, 24 ') , 28) near the front end (8) (shaft end) and rear end (10), respectively, displacement of the free ends (52) of the lifting mechanism for contact with the convertible flange (58) with the base of the nacelle, by jack or winch displacement of a restraining roll or restraint (62) located at a level above the runner roll (s) (54) and over the convertible flange (58) in position over the convertible flange (58) at each lifting mechanism (18, 18 ', 22, 22') displacement of the convertible (6) ) in the rearward direction, away from the front end (8) to a position where a portion of the convertible (6) is hanging over the rear edge of the nacelle (10).
    [2]
    Lifting mechanism (18, 18 ', 22, 22') for lifting and displacing cabriolet (6) on nacelles (2) on wind turbines (4) for use in the practice of claim 1, characterized in that it comprises a bracket (34, 42) with mounting facilities (32, 36, 38, 40, 66, 68, 71) for mounting the bracket on the inside of the nacelle (2) and / or for static stable parts (20) of the wind turbine arranged in the nacelle (2), which comprises a first horizontally oriented frame member (34) and a second, integrally vertically oriented tubular member (42) for receiving and controlling a vertically displaceable cooperating first member (44), the first lower end (46) being adapted to cooperate with lifting means for displacing the first member (44), and the second upper end (52) comprising at least a first roller (54), or roller set whose upward facing support surface (55) is located in the same horizontal plane and mounted on a horizon all oriented / oriented shafts (56).
    [3]
    Lifting mechanism (18, 18 ', 22, 22') according to claim 2, characterized in that it further comprises a second roller or counter (62), mounted on a horizontally oriented shaft (64) located at a level above said first roller (54) or roller set, said second roller or retainer (62) being displaceable between a passive retracted position, said roller / retainer (62) being located outside the support surface (55) of said first roller or roller set (54), and an advanced active position, wherein the second roller / head restraint (62) is positioned at a level above the support surface (55) of the first roller or roller set (54).
    [4]
    Lifting mechanism (18, 18 ', 22, 22') according to claim 1 or 2, characterized in that it comprises means (72, 74, 76) between the vertically oriented tubular member (42) and the vertically displaceable first member ( 44), for securing the vertically displaceable first member (44) in a preferred position.
    [5]
    Lifting mechanism (18, 18 ', 22, 22') according to any one of claims 2-4, characterized in that the first horizontally oriented frame member (34) further comprises cooperating mounting facilities on the first end of horizontally oriented, and, relative to the longitudinal axis of the first frame member, obliquely projecting support beams (68), the other end of which (70) includes mounting facilities (71) for attachment to an interior adjacent side (28) of the nacelle (2).
    [6]
    Lifting mechanism (18, 18 ', 22, 22') according to any one of claims 2 to 5, characterized in that the vertically displaceable cooperating first member (44) comprises a jack for displacing the first member, in vertical direction, guided in the vertically oriented tubular portion (42).
    [7]
    Lifting mechanism (18, 18 ', 22, 22') according to any one of claims 2-6, characterized in that the first lower end (46) of the vertically displaceable cooperating first member (44) comprises a groove cut. wheels (48) cooperating with a winch, waist block or lashing strap associated with the lifting mechanism, the ends of which are fixed to the bracket and guided via the groove wheel (48), displacement of the first member (44) in a vertical direction guided in the vertical tubular part (42).
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    同族专利:
    公开号 | 公开日
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    DK178900B1|2017-05-08|
    WO2013182198A1|2013-12-12|
    EP2855924B1|2019-10-09|
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    EP2855924A4|2016-02-24|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DKPA201200383A|DK178900B1|2012-06-04|2012-06-04|Methods and means for establishing access to the main parts of the nacelle on a wind turbine|
    DK201200383|2012-06-04|DKPA201200383A| DK178900B1|2012-06-04|2012-06-04|Methods and means for establishing access to the main parts of the nacelle on a wind turbine|
    ES13801100T| ES2763955T3|2012-06-04|2013-06-04|Procedure and means to establish access to the main parts of the nacelle in a wind turbine|
    US14/405,569| US9845791B2|2012-06-04|2013-06-04|Method and means for establishing access to the main parts in the nacelle on a wind turbine|
    PCT/DK2013/050170| WO2013182198A1|2012-06-04|2013-06-04|Method and means for establishing access to the main parts in the nacelle on a wind turbine.|
    EP13801100.2A| EP2855924B1|2012-06-04|2013-06-04|Method and means for establishing access to the main parts in the nacelle on a wind turbine.|
    DK13801100.2T| DK2855924T3|2012-06-04|2013-06-04|METHOD AND MEANS FOR ESTABLISHING ACCESS TO THE MAIN PARTS IN THE NACELLE ON A WIND TURBINE.|
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