KR101420981B1 - Earthquake-resistant equipment of link type wind power generator - Google Patents

Abstract

The present invention relates to an earthquake resisting device of a wind power generator and, more specifically, to an earthquake resisting device of a wind power generator which has a cover in the lower part of a flange and a pillar for installing the wind power generator at a predetermined height to be spaced from the ground; and a link formed in the cover. The earthquake resisting device can prevent damage by absorbing vibrations due to an earthquake and allow the flange to move as much as a fixed amount when strong impact is applied. The earthquake resisting device using the link in a wind power generator of the present invention is installed under the pillar and the flange of an existing wind power generator, thereby promptly absorbing vibrations regardless of the direction of the vibration. Furthermore, a buffer bushing is formed outside a damping bolt coupled to the link, thereby promptly absorbing vibration of the radial direction of the pillar.

Description

Earthquake-resistant equipment of link type wind power generator

The present invention relates to an earthquake-resistant apparatus for a wind power generator, and more particularly, to an earthquake-resistant apparatus for a wind power generator, which comprises a column and a lower portion of a flange formed to provide a constant height from the ground, This is an earthquake-proof device of a link-type wind turbine generator that absorbs vibration due to earthquake and prevents damage due to a certain amount of flow of the flange when a strong impact is applied.

Generally, a wind power generator is a device that generates electricity by rotating a wing using wind power. Such a wind power generator needs to have a wing installed at a certain distance from the ground in order to meet more winds and prevent safety accidents. , A pillar is installed on the ground, and a wing is installed thereon.

Particularly, in the case of a small wind turbine generator of about 5 to 10 kW class installed on the road, it is used in combination with a solar cell to illuminate a street lamp. The present invention can be applied to a small- .

On the other hand, seismic waves due to earthquakes are represented by P wave, which is a longitudinal wave, and S waves, which are transverse waves. The present invention is a seismic resistant device for a wind turbine capable of absorbing all of such seismic waves.

In other words, the street lamp of a typical street light is connected to the concrete foundation. Most of the foundation is installed in the ground, and the foundation in the ground is fixed with stone, soil, sand, etc., Since the transmitted residual vibration can also be transmitted to the streetlight, an earthquake-proof device is needed for the streetlight.

There is a solar power generation system having an earthquake-proof device disclosed in Japanese Patent Application Laid-Open No. 10-2012-0029293, which is related to a conventional earthquake-proof device.

The solar panel includes a plurality of solar panels, a structure for supporting the solar panels, an inverter for converting electricity generated in the solar panel to transmit the electric power to the load, an electric panel for connecting the electric wires connected to the solar panel to the inverter, And a seismic isolation device installed between the support and the structure, wherein the seismic isolation device comprises: a body having a space part in the upper part or the lower part and having coupling means for connection with a connection target structure; A fastening means for fastening the fastening means of the fastening means to the body to be connected while compressing the buffer member by being fastened to the body to be connected through the body while passing through the body; And a damper for buffering between the body and the body to be connected, The solar cell module is disposed between the upper part of the solar cell platform or the lower structure of the photovoltaic power generation facility and the coupling means of the body is coupled with the upper or lower structure, and the coupling means is combined with the structure connected to the opposite side of the coupling means, And the vibration energy in the lateral direction is absorbed through the buffer member.

In the case of the above-mentioned patent, a new structure is required separately from the existing fixed parts of the column, which causes a rise in cost.

That is, a rectangular-shaped body having an empty space is required, a support plate is required inside the body, a separate buffer rod is to be constructed between the support plate and the inner side, and an anchor bolt and nut, The number of components such as compression springs becomes considerably large.

Despite these many configurations, the above patent has a problem that it is difficult to absorb longitudinal vibrations, that is, vibrations applied to the top and bottom of the column.

Accordingly, it is an object of the present invention to provide an earthquake-resistant apparatus for a link-type wind turbine generator that can be quickly absorbed regardless of a direction in which vibration is generated by providing a seismic device using a link under a column and a flange of an existing wind turbine .

Another object of the present invention is to provide a vibration-damping device for a link-type wind power generator that can absorb vibration in a radial direction of a column by forming a shock absorbing bushing outside the vibration-damping bolt combined with the link.

The earthquake-proof apparatus of a wind turbine generator for generating electricity by rotation of a wing, the earthquake-proof apparatus comprising: a concrete foundation installed on the ground; a lower plate coupled to the concrete foundation; A cover fixedly coupled to the lower plate and coupled with a flange formed with a space formed therein and fixed to the column, a fixed block and a fixed ring formed on the lower plate, and a vibration-proof bolt And a nut, a link formed between the vibration-proof bolt and the fixed block, and a spring formed between the link and the fixed ring.

The present invention provides a seismic isolation device for a link type wind power generator which is provided with an earthquake-proof device using a link under a column and a flange of a conventional wind power generator so that quick absorption can be achieved regardless of a direction in which vibration is generated, By forming a buffer bushing on the outside of the bolt, the radial vibrations of the column can be quickly absorbed.

Fig. 1 is a diagram showing an entire configuration example of the present invention
FIG. 2 is a schematic view
Fig. 3 is a cross-

The present invention relates to an earthquake-resistant apparatus for a wind power generator, and more particularly, to an earthquake-resistant apparatus for a wind power generator, which comprises a column and a lower portion of a flange formed to provide a constant height from the ground, This is an earthquake-proof device of a link-type wind turbine generator that absorbs vibration due to earthquake and prevents damage due to a certain amount of flow of the flange when a strong impact is applied.

The earthquake-proof apparatus of a wind turbine generator for generating electricity by rotation of a wing, the earthquake-proof apparatus comprising: a concrete foundation installed on the ground; a lower plate coupled to the concrete foundation; A cover fixedly coupled to the lower plate and coupled with a flange formed with a space formed therein and fixed to the column, a fixed block and a fixed ring formed on the lower plate, and a vibration-proof bolt And a nut, a link formed between the vibration-proof bolt and the fixed block, and a spring formed between the link and the fixed ring.

The link includes a first link coupled to the fixed block and the first hinge, a second link coupled to one end of the spring and the second hinge, a third hinge coupled to the vibration-proof bolt, and a second hinge coupled to the second hinge, And a third link coupled thereto.

In addition, a buffer bushing is further formed on one side of the vibration-proof bolt in such a manner as to partially surround the outer diameter of the vibration-proof bolt.

Also, when an external force due to an earthquake acts on the column, the column and the flange move toward the spring, and when the external force is removed, the column and the flange are returned to the initial state due to the elasticity of the spring, Is attenuated.

The earthquake-proof apparatus of a wind turbine generator for generating electricity by rotation of a wing, the earthquake-proof apparatus comprising: a concrete foundation installed on the ground; a lower plate coupled to the concrete foundation; A cover fixedly coupled to the lower plate and coupled with a flange formed with a space formed therein and fixed to the column, a fixed block and a fixed ring formed on the lower plate, and a vibration-proof bolt And a nut, a link formed between the vibration-proof bolt and the fixed block, and a spring formed between the link and the fixed ring, wherein the link is composed of a total of three links.

In addition, two of the links are free ends that can be pivoted by the hinge and movable together with the hinge, while the other link is pivoted on both sides And is a free state that can be moved together with the hinge.

Further, the fixing member is a fixing block 13 and a fixing ring 14, and the free end is characterized in that the link is rotatable by the hinge and can be moved together with the hinge.

The earthquake-proof apparatus of a wind turbine generator for generating electricity by rotation of a wing, the earthquake-proof apparatus comprising: a concrete foundation installed on the ground; a lower plate coupled to the concrete foundation; A cover fixedly coupled to the lower plate and coupled with a flange formed with a space formed therein and fixed to the column, a fixed block and a fixed ring formed on the lower plate, and a vibration-proof bolt And a spring formed between the link and the fixed ring, wherein a buffer bushing is formed on one side of the vibration-damping bolt so as to partially cover the outer diameter of the vibration-damping bolt And the buffer bushing is formed by mixing rubber and plastic.

Further, the buffer bushing is characterized in that a rubber material is constituted inside and a plastic material is constituted by an outer cover.

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

3 is a cross-sectional view of the wind turbine of FIG. 2; FIG. 3 is a cross-sectional view of the wind turbine of FIG. 2; (1), a lower plate (11) coupled with the concrete foundation (1), and a lower plate (11) connected to the concrete foundation (1) A cover 12 fixedly coupled to the lower plate 11 and coupled with a flange 3 formed with a space therein and fixedly coupled to the column 2, a fixing block 13 formed on the lower plate 11, A vibration isolating bolt 15 and a nut 16 for fixing the flange 3 and the cover 12 to each other and a link 17 formed between the vibration isolating bolt 15 and the fixing block 13, And a spring 19 formed between the link 17 and the stationary ring 14.

First of all, the wind turbine generator which can be used in the present invention includes all types of wind generators having one or more blades, that is, a horizontal type wind turbine in which a blade is rotated about a horizontal axis, or a vertical type wind turbine in which a blade is rotated around a vertical axis Can be used.

The column of the wind power generator is usually connected to a concrete foundation 1 installed on the ground. The concrete foundation 1 may be an iron structure which does not use concrete in some cases. In the case of a concrete foundation, That is, the wind power generator can be stably supported only if the portion buried in the wind power generator is larger than the portion exposed to the outside of the ground.

(Not shown) for storing the electricity produced by the wind power generator, a controller (not shown) for controlling the electricity of the produced electricity and the battery, and an inverter for converting the generated electricity are attached to the column 2 When a lamp is used as a streetlight, a lamp is attached, and a power generation means other than wind power generation, that is, a solar cell for solar power generation, can be attached.

A bottom plate 11 of a disc shape is coupled to the concrete foundation 1 and the bottom plate 11 is formed of various polygonal plates including a rectangular plate shape according to the shape of the concrete foundation 1. [ .

A cover 12 having a space is formed at one side of the lower plate 11. The cover 12 supports a flange 3 integrally formed with the column 2 and supports the column 2 and the flange 3 May be integrally formed as shown in the drawing, or they may be formed separately from the columns, and then fixedly coupled by a method such as welding, and the height of the columns is not limited, and a facility such as a wind turbine is fixed on the top It is natural that it should be a height that can maintain the rigidity.

A rib 4 is formed between the column 2 and the flange 3 in order to increase the coupling force with the flange 3 while supporting the column 2.

A fixing block 13 and a fixing ring 14 are formed on the lower plate 11. The fixing block 13 and the fixing ring 14 are configured to fix the link 17 and the spring 19 , The position can be changed according to the designed form.

The flange 3 and the cover 12 are coupled by a vibration-proof bolt 15 and a nut 16. The vibration-proof bolt 15 is named for distinction from the fixing bolt 5, 16 and the other side is coupled to the third hinge 18c to engage with the link 17. [

A link 17 is formed between the vibration-proof bolt 15 and the fixed block 13. A spring 19 is formed between the link 17 and the fixed ring 14, When the concrete foundation 1 is shaken, the vibrations are attenuated by the movement of the link 17 and the spring 19, and then transmitted to the column 2.

The link 17 includes a first link 17a coupled to the fixed block 13 and the first hinge 18a and a second link 17a coupled to one end of the spring 19 and the second hinge 18b. And a third link 17c coupled to the third hinge 18c and the second hinge 18b.

In the illustrated embodiment, one side of the first link 17a is coupled to the first hinge 18a formed on the fixed block 13, the other side is coupled to the second hinge 18b, and one side of the second link 17b One side of the third link 17c is coupled to the third hinge 18c coupled to the vibration-proof bolt 15 and the other side of the third link 17c is coupled to the second hinge 18b, 2 hinge 18b.

Therefore, when vibration due to earthquake is transmitted to the concrete foundation 1, vibration is attenuated by the first to third links 17a, 17b and 17c and the spring 19, and then the vibration is transmitted to the vibration-proof bolt 15 The vibration applied to the column 2 can be mitigated.

A shock absorbing bushing 20 may be further formed on one side of the anti-vibration bolt 15 so as to partially cover the outer diameter of the anti-vibration bolt 15.

That is, the cushioning bushing 20 is configured such that a part or the whole of the cushioning bushing 20 is inserted into the groove formed in the flange 3 so as to absorb vibration or shock when vibrations or shocks act in the axial direction or the radial direction of the column 2 will be.

The buffer bushing 20 may be made of only natural rubber or synthetic rubber as a raw material, but in this case, elasticity may be deteriorated by corrosion, so it is preferable to mix the rubber and the plastic. That is, since the rubber is good in elasticity, the vibration absorbing power is good, and the plastic can maintain the shape of the buffer bushing, and even when the vibration due to the seismic wave occurs, the damping force that is not rapidly compressed even when the compression force acts on the buffer bushing Absorption of vibration can be achieved.

The buffer bushing 20 may be formed of a rubber material inside and a plastic material outer cover.

In this case, the plastic cover can be absorbed by the rubber to absorb vibration.

In the above-described embodiment, a sealing treatment must be performed between the cover 12 and the flange 3 to prevent impurities from entering the inside. That is, if impurities such as water enter the cover 12, corrosion of the link 17 and the spring 19 may occur. If corrosion occurs, even if an external shock occurs, the flange 3 The movement may not occur or the shock absorbing action by the spring 19 may be attenuated so that the seismic effect against the vibration of the desired earthquake may be reduced.

Such a sealing process can be carried out by fastening with a separate seal between the flange 3 and the cover 12 or by other similar methods.

In the above-described embodiment, the present invention uses a total of three links.

That is, the two links of the link are fixed to the fixed member in a state in which one side is rotatable and the other side is free, while the other link is free and rotatable on both sides, And a stationary ring 14, which means that the link is pivotable by the hinge and moves with the hinge.

As a result, when an earthquake external force acts on the concrete foundation 1, the column 2 and the flange 3 move toward the spring 19 in the earthquake-proof apparatus of the link type wind power generator according to the present invention , The column (2) and the flange (3) are returned to the initial joined state by the elasticity of the spring (19) when the external force is removed, so that the vibration due to the earthquake can be attenuated.

1. Concrete foundation water 2. Column
3. Flange 4. Rib
5. Fixing bolts 6. Nuts
11. Lower plate 12. Cover
13. Fixing block 14. Fixing ring
15. Dust Bolt 16. Nut
17, 17a, 17b, 17c. Link 18, 18a, 18b, 18c. Hinge
19. Spring 20. Buffer Bushing

Claims (9)

CLAIMS 1. An earthquake-resistant apparatus for a wind turbine generating electricity by rotation of a wing,
The earthquake-proof apparatus comprises a concrete foundation 1 installed on the ground, a lower plate 11 coupled with the concrete foundation 1, a fixed portion coupled to the lower plate 11, A cover 12 coupled to the flange 3 fixedly connected to the column 2, a fixing block 13 and a fixing ring 14 formed on the lower plate 11, a flange 3 and a cover A link 17 formed between the vibration-proof bolt 15 and the fixed block 13 and a link 17 formed between the link 17 and the stationary ring 14, And a spring (19) formed therebetween,
The link 17 includes a first link 17a coupled to the fixed block 13 and the first hinge 18a and a second link 17a coupled to one end of the spring 19 and the second hinge 18b. And a third link 17c coupled to the second hinge 18b and the third hinge 18c coupled to the vibration-proof bolt 15. The present invention is not limited to the above embodiment.
delete The method according to claim 1,
Wherein a shock absorbing bushing (20) is further formed on one side of the vibration-proof bolt (15) so as to partially cover the outer diameter of the vibration-proof bolt (15).
The method according to claim 1,
The column 2 and the flange 3 move toward the tensioning of the spring 19 when an external force due to the earthquake acts on the concrete foundation 1. By the elasticity of the spring 19 when the external force is removed Wherein the column (2) and the flange (3) are returned to the initial joined state to attenuate vibration due to an earthquake.
CLAIMS 1. An earthquake-resistant apparatus for a wind turbine generating electricity by rotation of a wing,
The earthquake-proof apparatus comprises a concrete foundation 1 installed on the ground, a lower plate 11 coupled with the concrete foundation 1, a fixed portion coupled to the lower plate 11, A cover 12 coupled to the flange 3 fixedly connected to the column 2, a fixing block 13 and a fixing ring 14 formed on the lower plate 11, a flange 3 and a cover A link 17 formed between the vibration-proof bolt 15 and the fixed block 13 and a link 17 formed between the link 17 and the stationary ring 14, And a spring (19)
The link 17 is composed of a total of three links. Two of the links 17 are fixed to the fixing member in a state in which one side is rotatable, the other side is rotatable by the hinge, And the other one of the links is a free end which is rotatable on both sides and can be moved together with the hinge.
delete 6. The method of claim 5,
Wherein the fixed member is a fixed block (13) and a fixed ring (14), the free end being rotatable by a hinge and movable with the hinge. delete delete

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