KR100972965B1 - A support apparatus for a tower of a wind turbine - Google Patents

Abstract

PURPOSE: A support apparatus for a wind turbine tower is provided to reduce vibration and noises through a plurality of vibration reduction structures. CONSTITUTION: A support apparatus for a wind turbine tower comprises a tower, a base member(20), and a plurality of vibration reducing members(30). The tower is vertically formed to support a wind turbine body. The base member supports the tower. The vibration reduction members are radially connected to the base member in order to reduce the vibration of the tower, wherein each vibration reduction member includes an I-beam with a side connected to the base member, a lower support member located separate under the I-beam, a vibration absorber connected to the I-shaped beam and the lower support member, and a weight control panel for receiving a weight control member on the other side of the I-beam.

Description

A Support Apparatus for a Tower of a Wind Turbine

The present invention relates to a wind turbine tower support device that can be easily assembled and disassembled, and can reduce the transmission of wind turbine loads and vibrations transmitted from a tower to a building, thereby facilitating rooftop installation.

In general, the wind power generation system is generally composed of a generator, such as a rotor, a gearbox, such as a turbine or a propeller, a blade, a speed increase and a power transmission. Such wind power generation systems generally have towers that support the rotor to be installed at some height above the ground to provide wind speeds above 4 m / s on average, since power generation efficiency is greatly affected by wind speed.

Conventional wind turbine towers are installed on the ground to prevent overturning by wind speed. As an example of such a prior art, the vertical wind generator of the Republic of Korea Patent Publication No. 10-2008-0079847 is a support shaft which is erected vertically from the ground to be fixed to the ground in order to prevent the bending of the support shaft, and the support shaft inside Disclosed is a configuration including a support shaft housing accommodated in the hollow portion, and a support fixed to the inside of the upper end of the support shaft housing and formed in a circular ring shape.

Such a conventional wind turbine tower fixed to the ground is limited to carry parts for installation, and due to problems such as vibration and noise, it is difficult to apply to a building roof where wind load conditions are relatively favorable. Unlike the general ground surface, the building roof has a weak ground structure, and because it is a structure in which a person resides, there is a problem that can cause anxiety due to vibration loads flowing to the building.

Therefore, the wind turbine tower installed on the roof of a building should be applied to a structure that can reduce vibration as compared to the wind turbine tower installed on the ground. In addition, the assembly and disassembly should be easy to transport and install the wind turbine parts to the upper part of the building, and a design with sufficient margin should be applied to the damage of the structure due to wind load or self-weight.

Therefore, the present invention has been devised to solve the problems of the prior art as described above, the object of the present invention is designed to be carried by one or two personnel to facilitate assembling and detachment, so that it is convenient to transport to parts, In consideration of the mutual interference between the fastening structure is possible to assemble only by tightening bolts to provide a wind power generator tower support device that anyone can easily install on the roof or roof of the building.

In addition, another object of the present invention is to have a sufficient stability for the roof surface of the building made of weak ground due to the vibration reduction concept, and to prevent the overturning by performing a structural analysis to have a sufficient margin even for extreme loads (typhoon wind speed) An optimum design is to provide a wind generator tower support device that is easy to install on the rooftop of the building.

As a means for solving the above technical problem, the present invention is a vertical tower formed to support the wind turbine body (10); A base member 20 installed at a lower end of the tower 10 to support the tower 10; And a plurality of vibration reducing members 30 radially connected to the base member 20 to reduce vibrations of the tower 10.

In addition, each of the plurality of vibration reducing members 30 includes a lower I-shaped beam 31 having one end connected to the base member 20 and a lower portion of the lowered I-shaped beam 31. A member 32, a vibration absorbing member 36 having one end connected to the I-shaped beam 31 and the other end connected to the lower support member 32, and an I-shaped beam having one end connected to the base member ( And a weight adjustment panel 38 formed to receive the weight adjustment member 39 on the upper end of the other end 31.

In addition, the vibration absorbing member 36 is constituted by an air spring, and a plurality of vibration absorbing members 36 are disposed at regular intervals in the longitudinal direction of the vibration reducing member 30 formed radially.

In addition, the base member 20 is formed of a polygon and connected to the first base plate 22 connected to the tower 10, and a plurality of connection beams connected to a lower portion of the polygonal side of the first base plate 22 ( Each of the plurality of vibration reduction members 30 is connected to one surface of the plurality of connection steels 24 including a plurality of connection members 24, which extends downwardly from the first base plate 22.

In addition, the connection steel 24 is formed with a plurality of first connection member 24a connected to the lower portion of the polygonal side of the first base plate 22, and a predetermined distance apart from the first connection member 24a. A second connection member steel 24b and an elastic member 24c installed between the first connection member steel 24a and the second connection member steel 24b, wherein one surface of the plurality of first connection member steels 24a is provided. Each of the I-shaped beams 31 is connected to each other, and each of the lower supporting members 32 is connected to each of one surface of the second connection steel 24b.

In addition, a hinge protrusion 42 is formed on an upper surface of the first base plate 22, and a tower plate 12 is coupled to a lower portion of the tower 10, from one side of the tower plate 12. A protruding hinge bracket 44 is formed, and the hinge protrusion 42 and the hinge bracket 44 are hinged to pivot the tower plate 12 around the hinge axis.

In addition, the lower support member 32 includes a "c" shaped support shape steel 33 having the opening 33a facing downward, and a second base plate 34 coupled to the opening 33a side. do.

According to the present invention, the wind turbine tower and the supporting parts for supporting the tower are separately manufactured to be convenient to be transported to a structure such as a rooftop, and are easy to install after transporting the parts, separated as necessary to repair, replace parts Work and the like can be easily performed.

In addition, the vibration, the noise can be reduced through a number of structures for reducing vibration, such as air spring, vibration reduction plate, it is easy to install on the roof of the building sensitive to vibration, noise.

In addition, it is easy to install in a region where the wind speed is relatively higher than the surface, and the structure is designed so that it does not fall by high wind speed, it is possible to increase the efficiency of the wind power generator driven by high wind speed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a perspective view of a wind turbine tower support device according to the present invention, Figure 2 is a perspective view of a vibration reducing member for reducing the vibration of the wind turbine tower support device according to the invention, Figure 3 is a wind turbine according to the invention 4 is a detailed view illustrating a coupling relationship between a tower and a base member, and FIG. 4 is an exploded perspective view of a wind turbine tower support device according to the present invention.

As shown in FIG. 1, the wind turbine tower supporting apparatus according to the present invention includes a tower 10 upright from the ground or a roof top of a building to support a wind turbine body such as a rotor and a power transmission device, and a tower 10. It is composed of a base member 20 which is installed at the lower end of the tower 10 to support the, and a plurality of vibration reducing members 30 radially connected to the base member 20 to reduce the vibration of the tower 10 .

The tower 10 may be composed of one pillar or several pillars may be combined according to the size of the wind power generator. A tower plate 12 is formed below the tower 10 to be coupled to the tower 10 to connect the tower 10 to the base member 20.

The base member 20 is formed to withstand the load transmitted from the tower 10 while supporting the tower 10 at the bottom of the tower 10. The base member 20 includes a first base plate 22 connected to the tower plate 12, and a plurality of connection steels 24 connected to a lower portion of the polygonal side of the first base plate 22.

A plurality of vibration reducing members 30 are formed radially, and each of them is coupled to the connecting section steel 24 of the base member 20. In FIG. 1, although the structure in which eight vibration reduction members 30 are formed is illustrated, three or four vibration reducing members 30 may be formed in various numbers according to the polygonal shape of the base member 20. In addition, even if the base member 20 is formed in an octagon, the vibration reducing member 30 may be mounted less than eight such as four, six, or the like so that the vibration reduction member 30 is formed only in a right angle or a diagonal direction depending on the installation conditions.

Referring to FIG. 2, the tower plate 12 formed below the tower 10 is coupled to the first base plate 22 of the base member 20 by a coupling means such as a screw 13. The first base plate 22 is formed in a polygon, and is formed in an octagon according to the embodiment shown in FIG. 2.

The connection steel 24 is composed of a first connection steel 24a, a second connection steel 24b and an elastic member 24c. A first connection steel 24a formed in a “c” shape is disposed at each lower portion of the polygonal side of the first base plate 22, and the first base plate 22 and the first connection steel 24a are screws ( 23a, 23b) is coupled so as to be fastened and separated from each other by a coupling means. The second connection steel 24b is formed in a “c” shape and may be spaced apart from the first connection steel 24a by a predetermined distance. The elastic member 24c is disposed between the first connection steel 24a and the second connection steel 24b to reduce the load and vibration of the wind turbine transmitted from the tower 10 through the base member 20. . The elastic member 24c according to the exemplary embodiment of the present invention is composed of an air spring, but may be configured in various ways to reduce vibrations such as a damper or a dustproof rubber including a viscous fluid. The plurality of elastic members 24c may be arranged at regular intervals along the longitudinal direction.

One surface of the first connection member steel 24a may be coupled to a lower portion of the first base plate 22 and the other surface may be coupled to an upper end of the elastic member 24c. The lower end of the elastic member 24c is coupled to one of two surfaces facing each other of the second connecting section 24b, and the other surface is supported by a floor surface such as a rooftop of a building. An I-shaped beam 31 is coupled to a surface connecting the two facing surfaces of the first connecting steel 24a, and a surface connecting the two facing surfaces of the second connecting steel 24b to each other. The lower support member 32 is coupled. The I-shaped beam 31 is coupled to be coupled to and detachable from the first connection member steel 24a by coupling means such as screws 31a and 31b, and the lower support member 32 is connected to a screw (not shown). The coupling means is coupled to the second connection member 24b so as to be fastened and separated.

In addition, a hinge member 40 is formed between the tower plate 12 and the first base plate 22 so that the tower 10 is easily upright at the installation place. The hinge member 40 includes a hinge protrusion 42 formed on an upper surface of the first base plate 22, a hinge bracket 44 protruding from one side of the tower plate 12, and a hinge protrusion 42. And a hinge shaft 46 for coupling the bracket 44 for the hinge. According to one embodiment of the present invention shown in Figure 2, the hinge member 40 is formed in two, the hinge projection 42 is sandwiched between the hinge bracket 44 composed of two surfaces facing each other hinge Combined. The coupling structure and the number of the hinge member 40 may be configured in various ways to increase the rotational effect of the hinge member 40.

Referring to FIG. 3, each of the plurality of vibration reducing members 30 may include an I-shaped beam 31 and a lower support member 32 spaced apart from the lower portion of the I-shaped beam 31 on the base member 20. , The vibration absorbing member 36 having one end connected to the I-shaped beam 31 and the other end connected to the lower supporting member 32, and disposed between the I-shaped beam 31 and the lower supporting member 32. It consists of a weight adjustment panel 38 formed to receive the weight adjustment member 39 on the upper end of the shaped beam (31).

The lower support member 32 is a "c" shaped support beam 33 arranged so that the opening 33a faces the floor surface such as a roof of the building, and the second base plate 34 coupled to the opening 33a side. It is composed. The second base plate 34 is composed of a member having elasticity to finally prevent the vibration load transmitted by the wind power generator from being transmitted to the building, and an elastic rubber material or a vibration absorbing pad may be used.

The vibration absorbing member 36 is disposed between the I-shaped beam 31 and the lower support member 32 to reduce the load and vibration of the wind turbine transmitted from the tower 10 through the base member 20. Vibration absorbing member 36 according to an embodiment of the present invention is composed of an air spring, but may be configured in various ways to reduce the vibration, such as a damper or vibration-proof rubber containing a viscous fluid. The vibration absorbing member 36 may be bolted to a lower surface of the I-shaped beam 31 by using a mount (not shown), and bolted to an upper surface of the lower support member 32 by a lower end thereof. . A plurality of vibration absorbing members 36 are disposed at regular intervals along the radial length direction of the vibration reducing member 30 with respect to the base member 20.

The weight control panel 38 is formed on top of the radially longitudinal end of the I-shaped beam 31. The weight control panel 38 has a shape in which the upper part is opened in the hexahedron to accommodate the weight control member 39. The weight control member 39 is composed of a plastic bucket or a sandbag, and the like, to prevent the vibration of the vibration reduction member 30 itself, which receives the vibration of the wind power generator by weight, and prevents the wind power generator from being rolled over due to the high wind speed. prevent. As a modification of the present invention, the weight control panel 38 and the weight control member 39 may be each made of a metal and a magnet so as to be coupled and separated as necessary without being separated by a high speed wind speed.

Hereinafter, with reference to Figure 4 will be described in the installation method of the wind turbine tower support device according to the present invention.

The tower plate 12 formed at the bottom of the tower 10 is formed parallel to the horizontal plane before installation of the wind turbine, and is hinged by the hinge member 40 formed between the tower plate 12 and the first base plate 22. The wind turbine is installed by the tower 10 standing upright about the shaft 46. When the tower 10 is upright, the tower plate 12 interviews the first base plate 22. In this state, the tower plate 12 is connected to the first base plate 22 by a coupling means such as a screw 13 or the like. It can be fixed to.

In the lower portion of the polygonal side of the first base plate 22, eight first connecting steel 24a is disposed according to an embodiment of the present invention, and the first connecting steel 24a is formed of screws 23a and 23b. It is fixed to the first base plate 22 by the coupling means. An elastic member 24c is connected to a lower end of the first connection steel 24a, and a second connection steel 24b is installed at a lower end of the elastic member 24c.

After completing the coupling of the tower 10 and the base member 20, the vibration absorbing member 36, such as an air spring, is disposed at regular intervals between the I-shaped beam 31 and the lower support member 32. Let's do it. The I-shaped beam 31 and the lower support member 32, to which the vibration absorbing member 36 is coupled, are composed of eight sets according to one embodiment of the present invention, and the eight first connection steels of the base member 20 ( It is fixed to 24a) and the 2nd connection type steel 24b through coupling means, such as screws 31a and 31b, respectively.

As described above, in the weight control panel 38 formed at the end of the I-shaped beam 31 of the wind turbine in which the installation is completed, a weight control member 39 such as a bucket and a sandbag having a necessary weight according to the size of the wind turbine is accommodated. do. If it is necessary to dismantle the wind turbine for repair of the wind turbine, the wind turbine can be separated in the reverse order of the above-mentioned method. If the wind turbine body is in need of repair, the tower plate 12 and the first base can be removed. Repair and replacement of parts are possible by disassembling the coupling means such as the screw 13 that couples the plate 22 and rotating the tower 10 horizontally to the floor surface such as the rooftop floor by the hinge member 40.

Preferred embodiments of the present invention have been described in detail above with reference to the drawings. The description of the present invention is for illustrative purposes, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. .

Therefore, the scope of the present invention is represented by the following claims rather than the detailed description, and all changes or modifications derived from the meaning, scope, and equivalent concepts of the claims are included in the scope of the present invention. Should be interpreted as

1 is a perspective view of a wind turbine tower support device of the present invention

Figure 2 is a perspective view of a vibration reducing member for reducing the vibration of the wind turbine tower support device of the present invention

Figure 3 is a detailed view showing a coupling relationship between the wind turbine tower and the base member of the present invention

Figure 4 is an exploded perspective view of the wind turbine tower support device of the present invention

<Description of the symbols for the main parts of the drawings>

10: tower 12: tower plate

20: base member

22: first base plate 24: connection section steel

24a: first connection section steel 24b: second connection section steel

24c: elastic member

30: vibration reduction member 31: I-shaped beam

32: lower support member 33: "c" shaped support section steel

33a: opening 36: vibration absorbing member

38: weight control panel 39: weight control member

40: hinge member 42: hinge protrusion

44: hinge bracket

Claims (7)

delete A tower 10 vertically formed to support the wind turbine body; A base member 20 installed at a lower end of the tower 10 to support the tower 10; And It includes a plurality of vibration reducing member 30 is radially connected to the base member 20 to reduce the vibration of the tower 10, The plurality of vibration reducing members 30 may include an I-shaped beam 31 having one end connected to the base member 20 and a lower support member 32 spaced apart from the lower portion of the I-shaped beam 31. ), A vibration absorbing member 36 having one end connected to the I-shaped beam 31 and the other end connected to the lower support member 32, and an I-shaped beam 31 having one end connected to the base member. Wind turbine tower support device characterized in that it comprises a weight control panel (38) formed to receive the weight control member (39) on the other end. The method of claim 2, The vibration absorbing member 36 is composed of an air spring, a plurality of wind generator tower support device, characterized in that a plurality of radially arranged at regular intervals in the longitudinal direction of the vibration reducing member (30). The method according to claim 2 or 3, The base member 20 is formed of a polygon and connected to the first base plate 22 connected to the tower 10, and a plurality of connection sections 24 connected to a lower portion of the polygonal side of the first base plate 22. Including, The wind turbine tower support device, characterized in that each of the plurality of vibration reduction member (30) is connected to each of the one surface of the plurality of connection member steel (24) extending below the first base plate (22). The method of claim 4, wherein The connection steel 24 is formed of a plurality of first connection steel 24a connected to a lower portion of the polygonal side of the first base plate 22 and a first spaced apart from the first connection steel 24a by a predetermined distance. 2 connection member steel 24b and an elastic member 24c provided between the first connection member steel 24a and the second connection member steel 24b, Each of the I-shaped beams 31 is connected to each of one surface of the plurality of first connection steels 24a, and each of the lower support members 32 is connected to each of one surface of the second connection steels 24b. A wind turbine tower support device. The method of claim 4, wherein A hinge protrusion 42 is formed on an upper surface of the first base plate 22, A tower plate 12 is coupled to a lower portion of the tower 10, and a hinge bracket 44 protruding from one side of the tower plate 12 is formed. The tower plate 12 is centered around a hinge shaft 46 to which the hinge protrusion 42 and the hinge bracket 44 are hinged to couple the hinge protrusion 42 and the hinge bracket 44. Wind turbine generator support device characterized in that the rotatable. The method according to claim 2 or 3, The lower support member 32 includes a "c" shaped support shape steel 33 with the opening 33a facing downward, and a second base plate 34 coupled to the opening 33a side. A wind turbine tower support device.

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