KR20140028440A - The self assembly in tower for wind generater - Google Patents

Abstract

The present invention relates to an assembly type tower for wind power generators and its purpose is to ease the transportation of a wind power generator to an installation place while reducing cost for transportation. The present invention with the purpose relates to the assembly type tower for wind power generators. The assembly type tower includes a plurality of connection flanges installed at both ends at equidistant intervals in a length direction, a plurality of reinforcing frames installed in a radial type around an outer surface of the connection flanges placed in a symmetric type, and a tower body formed of a cover plate included in the outside of the reinforcing frames. According to this, by the assembly type tower for wind power generators, cost for transporting a wind power generator tower is reduced while the transportation of a wind power generator to an installation site is eased.

Description

Prefabricated tower for wind power generators {THE SELF ASSEMBLY IN TOWER FOR WIND GENERATER}

The present invention relates to a wind turbine, and more particularly to a prefabricated tower for a wind turbine that is easy to move to the production site and installation by assembling the pre-fabricated tower in the installation site.

In general, many things are known about wind turbines.

For example, a typical wind turbine generator as shown in Fig. 1 is as follows.

As shown in the figure, the wind turbine generator WG is provided with a tower TW to which a lower end is fixed on the ground, and a nacelle (not shown) which rotates in accordance with a wind direction by a yaw NC).

The nacelle NC is a device that can be called the heart of a wind power generator WG and includes a rotor RT at one end and a plurality of blades BD at the outer periphery of the rotor RT.

Therefore, a rotational force is generated by the wind generated naturally by the blade (BD), and this rotational force rotates the rotor (RT).

As described above, electric power is generated in the generator (not shown) provided inside the nacelle NC by the rotation of the rotor RT.

As such, the wind turbine WG should have a long length of the tower TW because the blade BD should be provided at a high position of about 30 m or more from the ground in order to extinguish more air volume.

Therefore, as described above, by using a specially made trailer to move the long formed tower (TW) to the site where the wind power generator is to be installed, there is a problem that excessive logistics costs occur.

In addition, according to the Road Traffic Law, in order to carry more than 20M of cargo, it is difficult to transfer it to the installation site by making a report to the competent police station in advance and transporting it under the presence of the traffic police at night time when the traffic is not much. .

The present invention has been made to solve the conventional problems as described above, an object of the present invention in transporting a wind turbine tower, while reducing the logistics cost and easy to transport to the installation site of the wind turbine. .

The present invention made for this purpose;

Regarding the wind turbine tower,

The wind turbine tower,

A tower body comprising a connecting flange provided symmetrically at both ends provided at equal intervals in the longitudinal direction, a reinforcing frame provided radially on the outer circumference of the connecting flange provided symmetrically, and a cover plate provided outside the reinforcing frame. Include.

In addition, the wind turbine tower;

It further comprises a packing member provided between the connecting flange.

In addition, the connection flange, the reinforcement frame and the cover plate, a plurality of bolt holes are formed to facilitate the bolt fastening.

In addition, the tower body is formed in a circular or square or more polygons.

As described above, according to the present invention, in carrying the wind turbine tower, there is an effect of reducing the logistics cost and facilitating the transport of the tower.

1 is a view showing an outline of a wind turbine generator,
2 is a view showing a prefabricated tower according to the present invention,
3 is an enlarged detailed view of the line “A” of FIG. 2.
Figure 4 is a cross-sectional view taken along the line "B"-"B" of Figure 3, showing a connection method of the prefabricated tower according to the present invention.

2 to 4, the prefabricated tower 100 (hereinafter, referred to as "tower") for a wind power generator according to the present invention is composed of a plurality of tower bodies 110 provided at equal intervals in the longitudinal direction.

As shown, the tower body 110 is composed of a connecting flange 111, the reinforcement frame 113 and the cover plate 115.

The connecting flange 111 is provided symmetrically at both ends of the tower body 110 provided with a plurality of longitudinal equal intervals.

As shown in the drawing, the connecting flange 111 is formed in a polygonal shape having a "┓" shape in cross section, and bolt holes 111a and 111b are formed in each surface to facilitate bolt fastening.

Although the connection flange 111 has been described only for being formed in an octagonal shape, it is a matter of course that the object of the present invention can be achieved even if formed in a square or more polygon or circle.

In addition, only the connection flange 111 provided at the end of the tower body 110 provided at the bottom and the top of the tower 100 according to the present invention, as shown in Figure 2, protrudes to the outside, the rest from the inside Although only the thing provided to the inside for easy bolt fastening was described, all may be protruded outward.

The reinforcement frame 113 is provided radially on the outer circumference of the connection flange 111 provided symmetrically, in the direction shown to connect each corner portion ("C" mark) of the connection flange 111 shown. It is provided in the vertical direction on the basis of the reference, the edge of the cover plate 115, which will be described later is interviewed and mounted.

The reinforcing frame 113 includes reinforcing members 113a in the longitudinal direction at equal intervals in the longitudinal direction.

   The reinforcing member 113a reinforces the reinforcing frame 113 in a lattice shape, thereby preventing buckling of the tower 100 according to the present invention.

As such, the cover plate 115 is provided on the outer side of the reinforcing frame 113 and the reinforcing member 113a.

The cover plate 115 has a bolt hole 115a formed at the connecting flange 111 and the reinforcing frame 113 so as to be interviewed at each edge and to be easily mounted.

The bolt hole 115a is formed at a portion where the center of the bolt hole 111b formed in the connection flange 111 coincides with the bolt to facilitate bolting.

As described above, the cover plate 115 can achieve the object of the present invention even if it is mounted by welding in addition to the above-mentioned bolt fastening.

On the other hand, the packing member 130 is provided between the connecting flanges 111, which are the respective connecting portions of the tower body 110, the packing member 130 is preferably used with a rubber material having elasticity.

It describes the working method of the tower body 110 of the tower 100 according to the present invention.

First, the connecting flange 111 is provided at both ends in a symmetrical manner, and then both ends of the reinforcing frame 113 are mounted at each corner portion (“C” mark portion) of the connecting flange 111.

Then, when the reinforcing member 113a is mounted at equal intervals in the longitudinal direction of the reinforcing frame 113, the primary production of the tower body 110 is completed.

In this way, after the interview of the edge of the cover plate 115 to the reinforcing frame 110 and the connecting flange 111 of the completed tower body 110, each matching bolt hole (111a) (111b) (115a) When the bolt BT penetrates and the nut NT is firmly fastened, the tower body 110 is manufactured.

As described above, the length of the completed tower body 110 is formed to a length of 2.5m or more and less than 6m according to the size of the wind power generator to facilitate transport even with a general cargo truck, the tower body 110 is completed production ) Even if the length is 6m or more, it can be easily transported by a cargo truck (ultra long axis).

Thus, the completed tower main body 110 may be installed in the vertical direction after moving to the installation site and connecting each tower main body 110 in the longitudinal direction, or may be installed while laminating in the vertical direction.

As described above, according to the prefabricated tower 100 for a wind power generator according to the present invention, in transporting a wind power generator tower, it is possible to reduce the logistics cost and facilitate the transport of the tower.

It is to be understood that the present invention is not limited to the specific exemplary embodiments described above and that various modifications may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. And such modified embodiments are within the scope of the claims of the present invention.

100: prefabricated tower for wind power generator 110: tower body
111: connection flange 113: reinforcement frame
115: cover plate

Claims (4)

In the wind turbine tower,
The wind turbine tower,
A tower body comprising a connecting flange provided symmetrically at both ends provided at equal intervals in the longitudinal direction, a reinforcing frame provided radially on the outer circumference of the connecting flange provided symmetrically, and a cover plate provided outside the reinforcing frame. Prefabricated tower for wind turbines comprising a. The method of claim 1,
The wind turbine tower,
Prefabricated tower for a wind turbine further comprises a packing member provided between the connection flange. The method of claim 1,
The connection flange, the reinforcement frame and the cover plate, prefabricated tower for a wind turbine, characterized in that a plurality of bolt holes are formed to facilitate bolt fastening. In addition, the tower body,
Prefabricated tower for wind turbines, characterized in that formed in a polygonal shape, circular or square or more.

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