KR200476725Y1 - Support for wind power equipment stabilizer tower - Google Patents

Abstract

The bottom section is rotatably provided at a flange which is fixedly coupled to the joint section of the bottom section and the section so that the bottom section and the bottom section at the bottom of the tower can have high responsiveness against compression load and buckling, Wherein at least three support members are radially provided on the outer circumferential surface of the flange.
Accordingly, it is possible to ensure a long period of use by securing not only the safety of the tower but also the high stability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a support fixture for a wind turbine tower and, more particularly, to a support fixture for a wind turbine tower capable of having a high response force against compression loads and buckling applied to a bottom section at the lowermost portion of the tower will be.

Generally, a wind power generator is a wind power generator that converts the energy of a wind into a mechanical energy (torque) through a main shaft and converts the mechanical energy into electric energy to drive the generator .

Such wind power generation is the most economical among the renewable energy sources that have been developed so far, and has been developed with a focus on the whole world because of advantages of being able to develop by using winds which are infinite and costless and clean energy. It can be divided into onshore and offshore depending on environmental conditions.

Thus, a typical wind turbine generator 100 used for wind power generation includes a high-rise tower 110 in which a plurality of sections 112 are installed on a ground or a platform as shown in FIG. 5, And a nacelle 130 rotatably supporting the rotor blade 122 at an upper end of the rotor blade 122. In the nacelle 130, a drive device such as a speed reducer, a power generation device, and a control device are provided, and the nacelle 130 is configured to be transmitted to the generator via the main shaft via the rotational force of the rotor blades. And is joined and fixed to the joint portion between the section 112 of the tower 110 and the section 112 by a flange 114.

Meanwhile, the tower 110 of the wind power generator 100 supports the heavy rotor blade 122, the driving device, the power generator, and the like at the upper part of the tower 110 so that the center of gravity becomes high, The possibility of quality becomes high. In addition, the risk of buckling due to the self-weight of the nacelle and the tower is increased.

In order to minimize the risk of buckling, it is necessary to increase the stiffness of the tower by thickening the material and thickness when building the tower.

When the tower 110 is installed on the ground, a concrete foundation structure 130 for supporting the tower 110 is installed on the ground, and an anchor cage bolt 140 or the like is installed on the foundation structure 130 Thereby fixing the tower 110. [

Here, the tower 110, which is constructed as a high-rise building in order to obtain a desired power, is divided into a plurality of sections 112, and in particular, the bottom section 115 installed on the upper part of the foundation structure 130 is designed to overcome compression load and buckling It is designed to be thickest. The bottom section 115 is also engaged and fixed by a flange 114 and a section 112 stacked on top.

The bottom section 115 and the foundation structure 130 are mounted and fixed to the foundation structure 130 by the anchor cage bolts 140 with the bottom flange 115a formed at the lower end of the bottom section 115.

However, it has a weak point due to compressive load and buckling applied to the bottom section located at the lowest position among the towers.

Conventional prior art for stably supporting the tower as described above includes a structure in which the base portion of the tower is supported by a support portion (not shown) to improve the structural stability of the tower, as disclosed in Korean Patent Application No. 10-2012-0133689 A technique has been proposed that is formed in the inside of a semiconductor device.

Also, as disclosed in Korean Patent Laid-Open Publication No. 10-2012-0101890 (hereinafter referred to as "Prior Patent Document 2"), a technique of supporting a lightweight and stable tower by supporting a tower with a plurality of cables together with a fixing member .

In addition, as disclosed in Korean Patent No. 10-0999723 (hereinafter referred to as "Prior Patent Document 3"), it is possible to improve the structure of a pedestal of a tower to secure a structural stability suitable for a large wind turbine Techniques have also been proposed.

Korean Patent Publication No. 10-2012-0133689 Korean Patent Publication No. 10-2012-0101890 Korean Patent No. 10-0999723

However, the prior art documents 1 and 3 described above have disadvantages in that they can not sufficiently cope with the compressive load and the buckling applied from the upper part. In the prior patent document 3, the high-rise towers are supported by wires, Is not only inconvenient and inconvenient, but also has a disadvantage that it does not have a high responsiveness to compressive load and buckling.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a support fixture for a wind turbine tower capable of having a high response force against a compression load applied to a bottom section have.

Another object of the present invention is to have a higher responsiveness to compressive loads and buckling.

According to an aspect of the present invention, there is provided a wind power plant comprising: a bottom section supported and fixed to a foundation structure of a tower of a wind turbine; a flange connected and fixed to a joint between the plurality of sections, Wherein a support member having one end rotatably mounted on the flange and the other end fixed to the foundation structure is supported on the outer circumferential surface of the flange by at least three Or more.

The rotation of the support member includes a fastening ring formed on the flange, a connecting part formed at one end of the supporting member so as to be rotatable with the fastening ring, and a fastening member for fastening the fastening ring and the connecting part.

The fixing of the support member to the foundation structure is achieved by fastening the end of the support member to the foundation structure by a plurality of anchor cage bolts.

The supporting member has a connecting portion formed at one end thereof, and the other end thereof is formed with a fixed end fixed to the base structure.

The fixing of the supporting member to the base structure is formed such that the end of the supporting member is embedded in the base structure.

And further comprises a support post fixed to the foundation structure on one side or both sides of the support.

The present invention has the effect of ensuring not only the safety of the tower but also the stability, by allowing the tower to have a high response force against the compression load and buckling applied to the bottom section at the bottom of the tower.

In addition, by reinforcing the strength so as to have higher responsiveness against compression load and buckling, it is possible to secure the maximum safety and maximize the stability.

1 is a partially exploded perspective view for explaining the present invention,
Fig. 2 is a longitudinal sectional view in the installed state according to Fig. 1,
3 is a partial cross-sectional view for explaining another embodiment of the present invention;
4 is a partial cross-sectional view for explaining another embodiment of the present invention;
5 is a front view for explaining a general wind turbine installation.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, and the present invention is not limited to or limited by the embodiments.

Fig. 1 is a partially exploded perspective view for explaining the present invention, and Fig. 2 is a longitudinal sectional view of the installed state according to Fig.

A bottom section 115 where a bottom flange 115 is supported and fixed by a plurality of anchor cage bolts 140 to a base structure 130 of a tower 110 of a wind power facility and a plurality of sections 112 (1) which is fixedly coupled to a joint of a bottom section (115) by a flange (114) so as to have a high counterforce against buckling and compression load generated in the bottom section (115)

The design is intended to provide a high level of responsiveness to compressive loads and buckling applied to the bottom section at the bottom of the tower.

The supporting and fixing device 1 according to the present invention is rotatably provided on the flange 114 which is fixed to one end of a bottom section 115 and a joint part of a section 112 connected to the bottom section 115, At least three or more radial support members 10 are provided on the outer circumferential surface of the flange 114 so that the support member 10 fixed to the foundation structure 130 without fluidity can have a high response force against compression load or buckling.

In other words, in the present invention, the bottom flange 115a formed at the lower end of the bottom section 115 is fixed to the anchor cage bolt 140 by the anchor cage bolt 140, The flange 114 connecting the section 112 directly above the bottom section 115 can be used to have high responsiveness.

That is, one end of the flange is rotatably provided, and the other end thereof is fixed to the foundation structure. Thus, the support structure of the secondary reinforcement concept is applied to the primary fixation force by the vamp flange, It is possible to secure a high level of stability with sufficient responsiveness to the above.

The rotation of the support member 10 is achieved by a coupling ring 12 in the form of a ring formed in the flange 114 and a coupling ring 12 rotatably supported on the support member 10 in a shape corresponding to the coupling ring 12 And a fastener 15 such as a bolt and a nut or the like for fastening the fastening ring 12 and the connecting portion 14 to each other.

Accordingly, one end of the support member can be fastened with a flange easily and conveniently when fastened, and the other end can be easily fixed to the foundation structure due to the rotatable condition.

The fixing of the support member 10 to the foundation structure 130 is achieved by fastening the end of the support member 10 to the foundation structure 130 by a plurality of anchor cage bolts 140 which are conventional fixing means. A conventional fixing flange or the like for fixing the anchor cage bolt is formed at an end of the support member.

Whereby the support member can be firmly and tightly fixed to the base structure without fluidity.

The support member 10 has a connecting portion 14 formed at one end thereof for connection with a fastening ring formed on a flange and a fastening flange having the other end embedded in the base structure 130 or fixed with an anchor cage bolt, (11) in which the protrusions (16) are formed.

Thus, the present invention is based on the fact that the lowest bottom section of the tower is supported by the supporting structure, which is a supporting member provided radially on the flange connected to the bottom section and the upper section, By securing and securing it in the secondary, it has a condition for securing the tower safe and high stability from the compressive load applied from the upper portion or buckling.

3 is a partial cross-sectional view for explaining another embodiment of the present invention.

As shown in the drawings, in the above-described construction, the end of the support, which is a support member fixed to the foundation structure, is not fixed by the anchor cage bolt but the foundation structure can be fixed at the time of construction.

The fixing of the column 11 as the supporting member 10 to the base structure 130 is performed by fixing the end of the supporting member 10 to the base structure 130, that is, the fixing end 16 formed at the end of the column 11, As shown in Fig. That is, when the foundation structure 130 is installed, the fixed end 16, which is the end of the strut 11, is buried and fixed instead of being fastened with an anchor cage bolt.

Accordingly, since the anchor cage bolts are not used when the support member is fixed, a high fixation force can be maintained while omitting the fastening operation time due to the anchor cage bolt fastening.

4 is a partial cross-sectional view for explaining another embodiment of the present invention.

As shown in the drawings, in the above-described configuration, a higher rigidity can be maintained in the support member, which is the support member fixed by the flange and the foundation structure.

The support 11 further includes a support column 20 fixed to the foundation structure 130 on one side or both sides of the support column 11.

In other words, the auxiliary strut may be temporarily fixed to the strut by welding or bolt, and the other strut may be embedded in the foundation structure, as well as fastened with an anchor cage bolt.

Accordingly, the auxiliary strut can be fixed again to the bottom flange and the foundation structure, and the stiffness can be maximized due to the higher rigidity with respect to the concentrated load and buckling It is.

1:
10: Support member 11: Support
12: fastening ring 14: connection
15: fastener 16: fixed end
20: auxiliary support 110: tower
112: section 115: bottom section
115a: Bottom flange

Claims (6)

A bottom section supported and fixed to an underlying structure of a tower of a wind turbine, and a support fixture which is fixedly coupled to the joint between the plurality of sections by a flange and supports and fixes the compressive load and buckling generated in the bottom section, Wherein at least three support members are provided radially on the outer circumferential surface of the flange, one end of the support member is rotatably supported on the flange and the other end is fixed to the foundation structure,
Wherein the rotation of the support member includes a fastening ring formed on the flange, a connecting portion formed at one end of the supporting member so as to be rotatable with the fastening ring, and a fastening member for fastening the fastening ring and the connecting portion,
Wherein the support member has a connecting portion formed at one end thereof and a fixed end at which the other end is fixed by a base structure,
Further comprising an auxiliary strut fixed to the foundation structure on one side or both sides of the strut. delete The method according to claim 1,
Wherein the fixing of the support member to the foundation structure is such that an end of the support member is fastened and fixed to the foundation structure by a plurality of anchor cage bolts. delete The method according to claim 1,
Wherein the fixing of the support member to the foundation structure is formed such that an end of the support member is embedded in the foundation structure.
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