KR102045581B1 - Tower for wind power generator using multiple pipe - Google Patents

Abstract

The present invention provides a tower of a wind power generator using a plurality of steel pipes.
The tower of the wind power generator using the plurality of steel pipes includes a plurality of unit modules stacked up and down, wherein the unit modules are horizontally arranged to connect the plurality of steel pipe members having the same height and the plurality of steel pipe members. It may be composed of a connecting portion provided to adjust the spacing between the plurality of steel pipe members.

Description

Tower of wind power generator using plural steel pipes {TOWER FOR WIND POWER GENERATOR USING MULTIPLE PIPE}

The present invention relates to a tower of a wind power generator using a plurality of steel pipes, and more particularly to a tower of a wind power generator using a plurality of steel pipes to minimize the influence of wind load.

In general, wind turbines are generators that generate electrical energy using wind. Such a wind turbine is installed to be spaced apart from the ground by the tower because the rotation efficiency is increased by the wind speed increases as the rotor rotates by the wind away from the surface, the height of the tower is increasing recently.

1 is a perspective view showing a tower of a conventional wind power generator.

Referring to FIG. 1, the tower 10 of the conventional wind power generator may be completed by stacking a plurality of tower modules 11 vertically in multiple stages and stacking them in the form shown in FIG. 1. In this case, the tower module of each layer may be manufactured by modularizing the cross section into a cylindrical shape or a curved cross section. And, each tower module is transported from the factory to the site can be stacked in the field.

The wind turbine is installed at a higher position in order to obtain a high quality wind and increase the radius of rotation of the blade provided in the rotor as the wind turbine for higher capacity.

Accordingly, the required diameter of the steel pipe constituting the tower of the wind power generator is increasing, the height of the tower is also increasing.

However, when the diameter of the tower of the wind generator is increased and enlarged, the wind load received by the wind generator is also increased, so that the foundation is enlarged, thereby increasing the required area and required material cost when installing the wind generator.

In addition, when the tower is enlarged, it is difficult to mass-produce the tower module constituting each floor of the tower, and there is a problem in that the efficiency of the transport operation is lowered because the volume of the loaded material is increased during transportation. In particular, it is difficult to load a unit module and export it overseas because the transportation volume becomes larger.

The present invention has been proposed in order to solve the conventional problems as described above, an object of the present invention is to provide a tower of a wind power generator using a plurality of steel pipes to minimize the influence of the wind load acting on the tower by reducing the cross-sectional area of the unit module Is in.

In another aspect, an object of the present invention is to provide a tower of a wind power generator using a plurality of steel pipes, which are easy to load in a vehicle and the loading volume is reduced, so that the unit module can be easily transported to the site where the tower is installed. .

In another aspect, the present invention is to provide a wind turbine tower using a plurality of steel pipes to securely support the structure installed on the tower even when the external force in the horizontal direction by dispersing the wind load acting on the wind turbine The purpose.

In another aspect, an object of the present invention is to provide a tower of a wind power generator using a plurality of steel pipes, which is easy to standardize the components constituting the unit module, and improved in workability and workability.

As a technical aspect for achieving the above object, the present invention includes a plurality of unit modules stacked up and down, the unit module, a plurality of steel pipe members having the same height; and connecting a plurality of steel pipe members It is disposed horizontally so as to provide a tower of the wind power generator using a plurality of steel pipes including; connecting portion which is provided to adjust the interval between the plurality of steel pipe members.

Preferably, the connection portion, the central portion disposed between the plurality of steel pipe members, the central portion having a plurality of extensions extending in a direction corresponding to the plurality of steel pipe members from the central portion; And a connection member connected to the extension part and the steel pipe member to connect the central member and the steel pipe member.

Preferably, the connection member, the coupling portion coupled to the plurality of steel pipe members; And a connecting arm formed integrally with the coupling part and coupled to overlap with an extension of the central portion.

Preferably, the connection portion, a plurality of first bolt holes formed through the extension portion in the longitudinal direction of the central portion; and formed in the longitudinal direction of the connection arm to correspond to the plurality of first bolt holes in the connection arm And a second bolt hole; and a fastening member penetrating through the first bolt hole and the second bolt hole to fasten the central member and the connection member.

Preferably, the coupling portion, the connecting ring which is inserted into the inside of the steel pipe member; may include.

Preferably, the coupling portion may include a welding end portion welded to the outer circumferential surface of the steel pipe member.

According to the tower of the wind power generator using a plurality of steel pipes according to an embodiment of the present invention, a plurality of unit modules are stacked using a plurality of small steel pipes, so that the load transmitted from the top of the tower is distributed and supported. As the bearing capacity for the structure installed on the top of the tower is increased, the cross-sectional area of the unit module is reduced, thereby minimizing the influence of the wind load on the tower.

In addition, according to an embodiment of the present invention, since the parts constituting the unit module is made of a plurality of small steel pipe, it is easy to load in the transportation means and the loading volume is reduced, to transport the unit module to the site where the tower is installed It can provide an easy effect.

In addition, according to one embodiment of the present invention, by connecting the plurality of steel pipe members through the connection portion provides an effect of dispersing the impact or external force transmitted to some of the plurality of steel pipe members to other steel pipe members, so that the external force in the horizontal direction Even if it works, it can provide an effect of firmly supporting the structure installed on the tower.

In addition, according to one embodiment of the present invention, since the connecting portion is provided to adjust the interval between the plurality of steel pipe members, there is an advantage that the mass production is easy to modularize the connecting portion and the steel pipe member into a standardized part. , Since the distance between the plurality of steel pipe members can be adjusted to suit the environment in which the tower is installed, it is possible to obtain the effect of improving the field construction and workability.

1 is a perspective view showing a tower of a conventional wind turbine.
Figure 2 is a perspective view of the tower of the wind turbine according to an embodiment of the present invention.
3 is a perspective view of a portion "A" of FIG.
Figure 4 is an exploded perspective view showing a connecting portion of the connecting portion applied to an embodiment of the present invention.
5 is an exploded plan view showing a connection portion applied to an embodiment of the present invention.
Figure 6 (a) is a coupling state of the connection applied to the top of the tower of the wind turbine according to an embodiment of the present invention, Figure 6 (a) is a lower portion of the tower of the wind turbine according to an embodiment of the present invention The top view which shows the connection state of the connection part applied.
Figure 7 is an exploded plan view showing another embodiment of the connecting portion applied to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, the embodiments described below are embodiments suitable for understanding the technical features of the tower of the wind turbine generator using a plurality of steel pipes of the present invention. However, the technical features of the present invention are not limited by the embodiments described or applied to the embodiments described below, and various modifications are possible within the technical scope of the present invention.

Tower 1 of the wind turbine generator using a plurality of steel pipes according to an embodiment of the present invention, as shown in the embodiment shown in Figures 2 and 3, a plurality of unit modules 100 can be completed by stacking up and down. .

In this case, the unit module 100, the unit module 100 is arranged horizontally to connect the plurality of steel pipe members 200 and the plurality of steel pipe members 200 having the same height, the plurality of It may be configured to include a connecting portion 300 is provided so that the interval between the steel pipe member 200 is adjusted.

The steel pipe member 200 may be formed at a height corresponding to the one unit module 100. The diameter of the steel pipe member 200 may be smaller than that of the conventional steel pipe, in which the unit module 100 is formed of one circular steel pipe. In addition, the steel pipe member 200 is provided in plurality, preferably, the cross-sectional area of the plurality of steel pipe members 200 can be formed smaller than the one steel pipe constituting the unit module 100 generally used in the past. have.

Accordingly, the tower 1 of the wind power generator using a plurality of steel pipes according to an embodiment of the present invention, the cross section of the unit module 100 constituting each layer is reduced, thereby minimizing the influence of the wind load acting on the tower. Can provide an advantage.

That is, in one embodiment of the present invention, the unit module 100, by using a plurality of small steel pipes, rather than a single steel pipe to distribute the load transmitted from the top of the tower for the structure installed on the top of the tower At the same time as the bearing capacity is increased, the cross-sectional area of the unit module 100 is reduced, thereby minimizing the influence of the wind load acting on the tower.

In addition, since the unit module 100 is made of a plurality of small steel pipes, the unit module 100 is easy to load in a transportation means and the loading volume is reduced, thereby providing an effect of easily transporting the unit module 100 to the site where the tower is installed. can do.

On the other hand, the connecting portion 300 is disposed horizontally to connect the plurality of steel pipe members 200, it may be provided so that the interval between the plurality of steel pipe members 200 is adjusted.

That is, the connection part 300, by connecting the plurality of steel pipe members 200, the impact or external force transmitted to some of the steel pipe members 200 of the plurality of steel pipe members 200 to distribute to other steel pipe members 200. Since it provides an effect to make it have the advantage of firmly supporting the structure installed on the tower even when the external force in the horizontal direction is applied.

In addition, the connection part 300 is connected to the plurality of steel pipe members 200, but is provided to adjust the interval between the plurality of steel pipe members 200, to modularize the unit module 100 into a standardized component It is easy to provide the advantage of enabling mass production.

And, through the connecting portion 300, it is possible to adjust the interval between the plurality of steel pipe members 200 to suit the environment in which the tower is installed, it is possible to obtain the effect of improving the field workability and workability.

On the other hand, the connecting portion 300, as shown in the embodiment shown in Figures 3 to 5, disposed between the plurality of steel pipe members 200, the central portion 311 and the plurality of from the central portion 311 A core member 310 having a plurality of extension portions 313 extending in a direction corresponding to the steel pipe member 200, and connected to the extension portion 313 and the steel pipe member 200 and the core member 310. ) And a connection member 330 for connecting the connection member 330.

In this case, the central material 310 may be provided in a plate shape as shown in the embodiment, but is not limited thereto. The extension part 313 may extend radially from the central part 311 and be integrally formed with the central part 311.

On the other hand, the connection member 330 may be connected to the steel pipe member 200 and the central member 310, it may be connected to the central member 310 to adjust the length.

In detail, the connection member 330 is formed integrally with the coupling part 331 coupled to the plurality of steel pipe members 200 and the coupling part 331, and an extension part of the central member 310. It may be made of a connecting arm 333 coupled to overlap with (313).

If the coupling portion 331 can be firmly coupled to the steel pipe member 200, there is no limitation in the coupling method, for example, the coupling portion 331 and the steel pipe member 200 as described below It can be connected by welding or by insert coupling.

The connection arm 333 may be integrally formed with the coupling part 331, and may be coupled to overlap the extension part 313. In this case, the distance between the central portion 311 of the central portion 310 and the steel pipe member 200 may be adjusted according to the length of the extension portion 313 and the connecting arm 333 overlap.

That is, as shown in the embodiment shown in Figure 6 (a), if the length of the extension portion 313 and the connecting arm 333 overlaps long, the central portion 311 of the central portion 310 and the steel pipe member Since the distance between the 200 is narrowed, the distance between the plurality of steel pipe members 200 can be narrowed. Primarily the top of the tower can be combined in this way.

On the other hand, as shown in the embodiment shown in Figure 6 (b), if the length overlapping the extension portion 313 and the connecting arm 333 is short, the central portion 311 and the steel pipe member of the central member 310 As the distance between the 200 becomes longer, the distance between the plurality of steel pipe members 200 can be widened. Mainly the bottom of the tower can be combined in this way.

In this case, the connection part 300 may be bolted to the central member 310 and the connection member 330.

Specifically, as shown in FIGS. 5 to 7, the central portion 310 includes a plurality of first portions of the extension portion 313 and the central portion 311 in the longitudinal direction of the extension portion 313. The bolt holes 314 may be formed to be spaced apart by a predetermined interval.

In addition, the connection member 330 has the second bolt hole 334 in the longitudinal direction of the connection arm 333 at a position corresponding to the plurality of first bolt holes 314 on the connection arm 333. It can be formed as.

At this time, the central member 310 and the connection member 330 may be fixedly coupled by the fastening member 335 through the first bolt hole 314 and the second bolt hole 334. The fastening member 335 may be provided, for example, as a bolt, but is not limited thereto.

On the other hand, the coupling portion 331 can be applied without limitation as described above.

For example, the coupling portion 331, as shown in the embodiment shown in Figures 3 to 6, may be configured to include a connecting ring 331a is inserted into the steel pipe member 200.

In this case, the connecting ring 331a may be inserted into the steel pipe member 200, and more preferably, the outer diameter of the connecting ring 331a may be installed to correspond to the inner diameter of the steel pipe member 200. have. Accordingly, the connecting ring 331a may be firmly coupled to the fitting by being fitted inside the steel pipe member 200.

In addition, the connection arm 333 integrally coupled to the connection ring 331a is protruded to the outside of the steel pipe member 200, wherein the connection arm 333 is formed at the end of the steel pipe member 200. An insertion groove 210 to be inserted may be formed.

On the other hand, more preferably, the connection part 300 may be connected between the unit module 100 and the unit module 100 stacked up and down. Accordingly, it is not necessary to cut the steel pipe member 200 in order to insert the connecting ring 331a.

On the other hand, as shown in the embodiment shown in Figure 7, the coupling portion 331, may be configured to include a welding end portion 331b is welded to the outer peripheral surface of the steel pipe member 200.

That is, the welding end 331b is easily welded to the outer circumferential surface of the steel pipe member 200 so that the connection part 300 can be easily connected to the steel pipe member 200.

According to the tower of the wind power generator using a plurality of steel pipes according to an embodiment of the present invention, a plurality of unit modules are stacked using a plurality of small steel pipes, so that the load transmitted from the top of the tower is distributed and supported. As the bearing capacity for the structure installed on the top of the tower is increased, the cross-sectional area of the unit module is reduced, thereby minimizing the influence of the wind load on the tower. And, since the parts constituting the unit module is made of a plurality of small steel pipe, it is easy to load in the transportation means and the loading volume is reduced, it can provide an easy effect to transport the unit module to the site where the tower is installed.

In addition, since the connecting portion is provided to adjust the interval between the plurality of steel pipe members, there is an advantage that it is easy to modularize the connecting portion and the steel pipe member into a standardized part to enable mass production, suitable for the environment in which the tower is installed Since the distance between the plurality of steel pipe members can be adjusted, it is possible to obtain the effect of improving the workability and workability.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1: Tower of a wind power generator using a plurality of steel pipes 100: A plurality of unit modules
200: a plurality of steel pipe member 300: connection portion
310: core material 311: core
313: extension portion 314: first bolt hole
330: connecting member 331: coupling portion
331a: connecting ring 331b: welded end
333: connecting arm 334: second bolt hole
335: fastening member

Claims (6)

Including a plurality of unit modules stacked up and down,
The unit module includes a plurality of steel pipe members having the same height; and a connecting portion disposed horizontally to connect the plurality of steel pipe members and provided with an adjustable spacing between the plurality of steel pipe members.
The connecting portion
A center member disposed between the plurality of steel pipe members and having a central portion and a plurality of extension portions extending from the central portion in a direction corresponding to the plurality of steel pipe members; And,
A connection member connected to the extension part and the steel pipe member to connect the central member and the steel pipe member;
Characterized in that it comprises
Tower of wind power generator using plural steel pipes.
delete The method of claim 1, wherein the connecting member
A coupling part coupled to the plurality of steel pipe members; And,
A connecting arm formed integrally with the coupling part and coupled to overlap with an extension of the central material;
Tower of the wind turbine generator using a plurality of steel pipes, characterized in that it comprises a.
The method of claim 3, wherein the connection portion
A plurality of first bolt holes formed through the central member in the longitudinal direction of the extension part;
A second bolt hole formed in the connecting arm in a longitudinal direction of the connecting arm so as to correspond to the plurality of first bolt holes; And,
A fastening member penetrating through the first bolt hole and the second bolt hole to fasten the central member to the connection member;
Tower of the wind turbine generator using a plurality of steel pipes, characterized in that it comprises a.
The method according to claim 3 or 4,
The coupling part, a tower of the wind turbine generator using a plurality of steel pipes, characterized in that it comprises a; connecting ring is inserted into the inside of the steel pipe member.
The method according to claim 3 or 4,
The coupling part of the tower of the wind turbine generator using a plurality of steel pipes, characterized in that it comprises a; welding end is welded to the outer peripheral surface of the steel pipe member.

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