JP4896784B2 - Wind turbine tower nacelle mounting method and apparatus - Google Patents

Description

  The present invention relates to a method and apparatus for mounting a nacelle of a tower for wind power generation, and more particularly, to a technique for mounting a nacelle or a blade on the top of a tower without using a crane.

  In recent years, wind power generation systems have attracted attention as an alternative energy supply system for oil. In the wind power generation system, it is necessary to select a location in a favorable wind condition and to increase the size of the power generation facility in order to secure the amount of power generation commensurate with the development cost. Recently, wind power generation towers with a height of 70 to 80 m have been built.

  In the construction of this type of large wind power tower, a large crane is used to stack the tower modules sequentially from the tower base. Finally, the nacelle and blades are lifted by the large crane, and the wind turbine generator is installed at the top of the tower. It is attached to.

Moreover, as a prior art for constructing a tower for large-scale wind power generation, Patent Document 1 discloses a construction method using a climbing crane instead of using a large crane.
JP-A-10-205430

  In conventional towers for wind power generation, the capacity of the crane becomes a problem as the tower becomes taller. In other words, the crane that lifts the tower module, nacelle, and blades is required to have a greater capacity. In particular, since the nacelle has a weight of several tens of tons and a large one of 60 tons, a large crane is required to mount the nacelle on the top of the tower, which is very expensive.

  Moreover, when the height of the tower for wind power generation reaches nearly 80 meters as in recent years, the limit of the capacity of the crane is approached, and it is difficult to lift the nacelle to a height higher than that. For this reason, with the current technology, in the construction of a tower for wind power generation having a height of 100 meters, it is a great obstacle that a heavy nacelle cannot be mounted due to insufficient crane capacity.

  Therefore, an object of the present invention is to solve the problems of the prior art, which can be performed without using a crane on the nacelle, and contribute to the construction of a wind power tower exceeding 100 meters. The object is to provide a nacelle mounting method and apparatus.

  In order to achieve the above object, the present invention provides a method for installing a nacelle containing a generator at the top of the tower after the tower is completed. Lifting materials and equipment necessary for the installation of the structure, assembling the nacelle overhead structure at the top of the tower, and lifting the lifting jig from the lifting device installed on the nacelle overhead structure. The nacelle is attached to a hanging jig, and the hoisting device lifts the nacelle and blades sequentially to the uppermost nacelle structure on the tower, and uses the nacelle overhead structure to lift the raised nacelle and blades. And a step of disassembling the nacelle overhang structure and suspending materials and equipment on the ground using the crane. And wherein the door.

  The present invention also provides a nacelle overhead device installed at the top of the tower in order to install a nacelle and a blade containing a generator at the top of the tower after the tower is completed. A nacelle overhead structure installed on the upper part, a nacelle that is installed movably on the nacelle overhead structure, and a suspension carriage that conveys blades, and is installed in the suspension carriage, the nacelle, A lifting device that lifts a blade from the ground, a suspension jig that is suspended from the lifting device via a wire and that suspends the nacelle, blade, material, equipment, and the like; And a lateral movement drive device that laterally moves on the object.

  According to the present invention, even in the construction of a tower for wind power generation having a height of 100 meters or more, a heavy nacelle or blade is relatively simple without being restricted by a lack of crane capacity as in the past. It is possible to mount it with simple equipment.

DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment of a method and apparatus for mounting a nacelle of a tower for wind power generation according to the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a front view showing a nacelle suspension apparatus according to an embodiment of the present invention. FIG. 2 shows a tower for wind power generation in which the nacelle overhead device 10 of FIG. 1 is installed.

  As the order of construction, after completing the tower 12 for wind power generation, materials are lifted on the top of the tower 12 for wind power generation, and the nacelle mounting apparatus 10 is assembled. Then, using the nacelle suspension device 10, the nacelle 54 and the blade (the rotor head 62 is shown in FIG. 1) are lifted as shown by a one-dot chain line in the drawing, and the wind turbine generator is assembled.

  In FIG. 1, the nacelle overhead device 10 has a truss structure overhead structure assembled at the top of the tower 12 for wind power generation as a main body. A suspension carriage 14 is installed in the upper structure. A suspension jig 16 for suspending nacelles and blades is suspended from the suspension carriage 14.

First, the overhead structure of the nacelle overhead device 10 will be described.
In FIG. 1, reference numeral 17 indicates the top of the wind power generation tower 12. A bracket 18 for installing the upper structure is attached to the uppermost portion 17. A base beam 19 is fixed to the bracket 18. A main frame constituting the upper structure is a horizontal frame 20. The horizontal frame 20 is horizontally supported by a plurality of support columns whose base ends are coupled to the base beam 19. The support includes an oblique support 21 and a vertical support 22.

FIG. 3 is a plan view of the horizontal frame 20.
The horizontal frame 20 has a rectangular frame structure with four sides, and a walkway 23 is provided in the longitudinal direction. In addition, a traveling rail 24 that guides the lifting carriage 14 is laid in the frame 20 in the longitudinal direction.

  FIG. 4 is a right side view of the upper structure. As shown in FIG. 4, by supporting the horizontal frame 20 in combination with the oblique column 21 and the vertical column 22, a large space is provided below the horizontal frame 20 so that the nacelle can be drawn in and accommodated. Is formed.

Next, the suspension carriage 14 installed on the horizontal frame 20 will be described.
In FIG. 1, the lifting cart 14 is supported by a roller bearing 25, and the lifting cart 14 can travel while the rollers of the roller bearing 25 (trade name chill tank) roll on the traveling rail 24. .

The lifting carriage 14 is provided with a hydraulic lifting jack 26 that constitutes a lifting device for lifting the lifting jig 16 by hanging a nacelle 54 and a blade on the lifting jig 16. .
In this embodiment, the lifting jacks 26 constituting the lifting device are installed at four locations on the lifting carriage 14, and the strands 27 are suspended from the lifting jacks 26, and the lifting jigs are suspended. 16 is supported at four points. The suspension carriage 14 is provided with a hydraulic pump unit 28 that sends pressure oil to the hydraulic jack. The hydraulic pump unit 28 includes a hydraulic tank, a hydraulic operation unit, and the like, and the hydraulic system itself that controls the hydraulic jack 26 is mounted on the suspension carriage 14.

  Two lateral movement jacks 30 are provided as a drive device for laterally moving such a lifting carriage 14 on the horizontal frame 20 in the longitudinal direction thereof. The lateral movement jack 30 is a jack that laterally moves the suspension carriage 14 while moving along with the suspension carriage 14 along the traveling rail 24, and is a known transverse jack that is used for lateral movement of this type of heavy object. . The hydraulic pump unit 28 also supplies pressure oil to the lateral movement jack 30, and the hydraulic pump unit 28 is shared by the lifting jack 26 and the lateral movement jack 30.

  Hereinafter, a series of steps until the wind turbine generator is installed will be described in order.

  First, FIG. 5 shows a process of assembling the tower 12 for wind power generation. First, the leg part 50 is built, and the modules 51 constituting the tower are suspended and stacked one by one with a crane 52. The joint portion of each module 51 is a bolt joint.

Next, FIG. 6 shows the assembly process of the nacelle overhead device after the tower 12 for wind power generation is completed.
The nacelle overhead device 10 lifts materials and equipment necessary for assembling the upper structure constituting the nacelle overhead device 10 using the crane 52 used for the construction of the tower 12 for wind power generation. As shown in FIG. Installed at the top of the tower. In assembling the nacelle suspension apparatus 10, each material and equipment is not heavy, so the boom is high for the crane 52, but it can be handled even if it is not special in terms of ability. Is possible.

  FIG. 7 shows the process of assembling the nacelle. In this embodiment, as shown in FIG. 7, the nacelle 54 is divided into three knitting modules 54 a, 54 b, 54 c and is lifted using the nacelle suspension device 10.

  FIG. 7 shows a state in which the lifting jig 16 in which the nacelle knitting module 54b is hung is lifted halfway after the nacelle knitting module 54a is lifted to the top of the tower.

  When lifting the nacelle knitting modules 54 a, 54 b, 54 c, the lifting carriage 14 is at the rear end of the horizontal frame 20. In the state where the lifting carriage 14 is stopped at this position, the lifting jack 26 operates to slowly lift the nacelle knitting module 54b suspended in the lifting jig 16.

  Next, FIG. 8 shows a state in which the nacelle knitting module 54b is lifted up to the top of the tower. With the nacelle knitting module 54b suspended, the traveling carriage 14 moves right as the lateral movement jack 30 operates in FIG. 8, and moves the nacelle knitting module 54b above the installed nacelle knitting module 54a. Assembling work is performed while hung. Adjustment and positioning of the nacelle knitting module 54b during the assembly process may be performed while operating the lateral movement jack 30 and the lifting jack 26.

  Thereafter, in order to lift the remaining nacelle knitting module 54c, the traveling carriage 14 again travels left on the horizontal frame 20 to the rear end. Thereafter, suspension and assembly are performed in the same manner.

  Next, FIGS. 9 and 10 show a blade lifting process. The three blades 60 are lifted at a time while being attached to the rotor head 62.

  Unlike the position where the nacelle is lifted, the position where the blade 60 is lifted is the front end of the horizontal frame 20. The traveling carriage 14 moves to the front end of the horizontal frame 20, and from this position, the lifting jig 16 is lowered to the ground.

  As shown in FIG. 9, at the initial stage where the blade 60 is lifted from the ground, one blade is supported by the auxiliary crane 66. Since this auxiliary crane 66 is only supported in an auxiliary manner, a small crane can sufficiently cope with it. Each blade 60 is regulated by a backup wire 67 for preventing shaking.

FIG. 10 shows a state in which the blade 60 with the rotor head 62 is lifted by the lifting jack 26 of the traveling carriage 14.
Eventually, the blade 60 is pulled up to the position of the rotor head 62 indicated by the one-dot chain line in FIG. 10 and attached to the already installed nacelle 54.

  Thus, using the nacelle suspension device 10, the nacelle 54 and the blade 60 can be lifted and assembled together without using a large crane as in the prior art. In this case, even in the construction of a tower for wind power generation with a height of 100 meters or more, there is no restriction of insufficient capacity of the crane as in the past, so that heavy nacelles and blades are installed with relatively simple equipment. It is possible to overhang.

  Finally, the nacelle overhead device 10 is disassembled, and materials and equipment are suspended from the ground by the crane 52 used in FIG.

The front view which shows the nacelle overhead mounting apparatus of the tower for wind power generation by one Embodiment of this invention. The front view of the tower for wind power generation in which the same nacelle installation apparatus was installed. The top view which shows the nacelle overhead mounting apparatus of the tower for wind power generation by one Embodiment of this invention. The right view which shows the nacelle overhead apparatus of the tower for wind power generation by one Embodiment of this invention. Explanatory drawing of the process which piles up the tower for wind power generation with a crane. Explanatory drawing of the process of installing a nacelle overhead apparatus in the uppermost part of the tower for wind power generation. Explanatory drawing of the process which lifts the formation module of a nacelle with a nacelle mounting apparatus. Explanatory drawing of the process of assembling the knitting module of a nacelle with a nacelle mounting apparatus. Explanatory drawing of the process of lifting a braid | blade from the ground with a nacelle overhead apparatus. Explanatory drawing of the process which lifts a braid | blade to the uppermost part of the tower for wind power generation with a nacelle overhead apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Nasser overhead apparatus 12 Wind power generation tower 14 Lifting carriage 16 Lifting jig 17 Tower top 19 Base beam 20 Horizontal frame 21 Diagonal support 22 Vertical support 26 Lifting jack 28 Hydraulic pump unit 30 Horizontal movement jack 54 Nacelle 60 Blade 62 Rotor head

Claims (8)

After the tower is completed, an overhead method of installing a nacelle containing a generator at the top of the tower,
Using a crane placed on the ground, lifting materials and equipment necessary for the installation of the nacelle structure, and assembling the nacelle structure on the top of the tower;
A lifting jig is lowered from a lifting device installed on the nacelle structure, the nacelle is attached to the lifting tool, and the nacelle and blade are sequentially connected to the uppermost nacelle structure of the tower by the lifting device. The process of lifting up objects,
Assembling the hoisted nacelle and blade together using the nacelle overhead structure; and
Dismantling the nacelle overhang structure and suspending materials and equipment on the ground using the crane;
A method for mounting a nacelle on a tower for wind power generation, comprising:   The nacelle overhead of a tower for wind power generation according to claim 1, wherein a bogie that can travel in the front-rear and left-right directions is installed in the nacelle overhead structure, and the lifting device is mounted on the bogie. Method.   2. The method according to claim 1, wherein the nacelle is divided into a plurality of knitting modules in advance, and these knitting modules are sequentially lifted and assembled by the nacelle overhead structure.   The above-mentioned blade is constructed by integrally assembling the rotor head and the blade on the ground, and suspending the blade with an auxiliary crane when the blade is lifted by the lifting device on the nacelle overhead structure. Nacelle mounting method. A nacelle overhead device installed at the top of the tower to install a nacelle and blades containing a generator at the top of the tower after the tower is completed,
A nacelle overhead structure installed at the top of the tower;
The nacelle that is movably installed on the overhanging structure of the nacelle and the hoisting carriage that conveys the blade, and
A lifting device that is installed in the lifting carriage and lifts the nacelle and blades from the ground; and
A suspension jig for hanging the nacelle, blade, material, equipment, etc., suspended from the lifting device via a wire,
A lateral drive device for laterally moving the suspension carriage on the nacelle overhead structure;
A nacelle overhead device for a tower for wind power generation, comprising:   The upper structure has a horizontal frame on which the lifting carriage travels, and a space for taking in the nacelle and blades suspended by the lifting jig is formed under the horizontal frame. The nacelle overhead device of the tower for wind power generation of Claim 5 characterized by the above-mentioned.   The said hoisting apparatus consists of the hydraulic system which controls a hydraulic hoisting jack and the said hoisting jack, The nacelle uppering apparatus of the tower for wind power generation of Claim 5 characterized by the above-mentioned.   6. The nacelle overhead device for a wind power generation tower according to claim 5, wherein the lateral drive device comprises a hydraulic lateral movement jack that shares the hydraulic system with a lifting jack.

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