KR20090056498A - Nacelle cover of a wind generator - Google Patents

Abstract

A nacelle cover of a wind generator is provided to manufacture a nacelle protective structure in an integral type by preventing a conductive plate from being exposed by a fixed sheet when manufacturing a unit cover. A nacelle cover of a wind generator is broken into a plurality of unit covers to be joined together. The unit cover comprises an outer cover(110,120) forming an outer wall; a conductive plate(200) made from metal pushed against the inner wall surface of the outer cover; and a fixed sheet(300) surrounding the rest except for both ends of the conductive plate. The conductive plate is connected to at least one or more ground wires. The fixed sheet is fastened to an inner wall surface of the outer cover.

Description

Nucelle cover of a wind generator

The present invention relates to a wind power generator, and more particularly to a new type wind turbine generator shell structure configured to be safe from lightning.

In general, a wind generator is a power converter that converts kinetic energy of air, that is, energy obtained from wind resources, into rotational kinetic energy and then into electrical energy.

The wind generator is largely composed of a rotor (1), a nucelle (2) and a tower portion (3) as shown in FIG.

At this time, the rotor (1) is a blade that is rotated by the wind resources, the nussel (2) is a portion containing various components for converting the rotational kinetic energy obtained by the rotation of the rotor (1) into electrical energy. The tower unit 3 is configured to support the rotor 1 and the nussel 2 while being installed on the ground.

Since the wind generator is mainly installed in an area rich in wind and far from the private house, the height of the wind generator is higher than that of the surrounding structure, and the grounding structure is weak.

In particular, the blade 11 rotated by the rotor 1 of each configuration of the wind generator, and the nussel cover 21 forming the appearance of the nussel 2 is made of fiber glass reinforced plastic (FRP) and Not only is it vulnerable to lightning because it is composed of the same composite material, and in recent years, the possibility of the above-mentioned lightning strike is increasing due to the trend of larger wind turbines.

Of course, the conventional wind generator is a lightning rod 22 is installed on the upper rear of the nussel cover 21 to protect the various devices inside the nussel 2 from the risk of lightning, but the overall size of the nussel 2 Considering the large size, the lightning rod 22 protects only the portion of each portion of the nussel 2 where the installation is made from lightning, but does not protect the portion on the side relatively separated from the portion where the lightning rod 22 is installed. I couldn't.

The present invention has been made to solve the problems of the prior art described above, the object of the present invention is to configure the safety of the lightning strike as well as to the overall assembly work of the new type of wind turbine generator's nussel cover It is intended to provide.

The nussel cover of the wind power generator of the present invention for achieving the above object is divided into a plurality of unit covers which are coupled to each other, each unit cover is provided with a plurality of outer cover forming an outer wall, the inner cover of the outer cover It is tightly fixed along the wall, at least one or more includes a conductive plate of a metal material connected to the ground wire, and a fixing sheet fixed to the inner wall surface of the outer cover while wrapping the remaining portions except for both ends of each conductor plate, respectively. Characterized in that configured.

Here, the fixing sheet is characterized in that formed of a sheet (glass) glass fiber reinforced plastic (FRP) material.

In addition, the conductor plate is characterized in that the fixing between the fixing sheet and the inner wall surface of the outer cover using a liquid resin.

In addition, the outer cover is formed so that the end is bent inwardly to provide a coupling site, both ends of each of the conductor plate is bent to correspond to the end of the outer cover, characterized in that the through-bolt can be formed.

As described above, the nussel cover of the wind power generator according to the present invention has a flat plate-like conductor plate for protecting the nussel from lightning and is formed in a lattice shape along the inner wall surface of each outer cover, and the conductor plate is fixed by a seat. It is configured to be fixed in a state where the external exposure is prevented has an effect that the structure for the nussel protection is manufactured integrally during the manufacturing of each unit cover.

Accordingly, the installation of a separate structure for protecting the nussel from lightning strikes during the installation of the wind generator can be omitted, thereby reducing the work time for the installation of the wind generator as much as possible. Have additional.

In addition, the nussel cover of the wind generator according to the present invention can be achieved by the coupling between each conductor plate and the coupling between each conductor plate and the outer cover at the same time by the bolt coupling to minimize the working time, in particular the bolt of the conductor By performing the role, it has the effect that the energization between each conductor plate can be made smoothly.

Hereinafter, with reference to Figures 2 to 4 attached to the nussel cover of the wind generator according to an embodiment of the present invention.

First, as shown in FIG. 1, a nussel cover of a wind generator according to an exemplary embodiment of the present invention is divided into a plurality of unit covers, and each unit cover includes an outer cover 110 and 120 and a conductor plate 200. , It is characterized by including a fixing sheet 300 is presented.

This will be described in detail for each configuration as follows.

First, the outer covers 110 and 120 will be described.

The outer cover (110, 120) is a portion that forms the outer wall (or, the appearance) of each unit cover, is formed to be divided by each portion to fit the overall shape of the wind generator nussel.

In the embodiment of the present invention, for example, each of the outer covers 110 and 120 is provided as the first outer cover 110 forming the upper appearance of the nussel cover and the second outer cover 120 forming the lower appearance, respectively. Of course, depending on the need or the size of the nussel, each of the outer cover (110, 120) may be composed of three or more.

In particular, each of the outer cover (110,120) is formed so that the edge portion 111,121 forming the end thereof is bent inward to provide a coupling portion between each outer cover (110,120).

Next, the conductor plate 200 will be described.

The conductor plate 200 is a series of lightning to protect the nucleus of the wind generator from lightning strikes by allowing the lightning strike to be provided to the ground through the ground line (not shown) when the lightning strikes to each of the outer cover (110,120) Configuration.

In this case, the conductor plate 200 is formed in a flat metal shape and is provided in plural and closely adhered along the inner wall surfaces of the outer covers 110 and 120, and the liquid resin is formed on the inner wall surfaces of the outer covers 110 and 120. 510 is attached and fixed. In particular, the conductor plates 200 are more preferably configured to form a grid with each other.

In addition, at least one or more of each of the conductor plates 200 is connected to a ground line (not shown) connected to any one of the outer covers 110 and 120 of the outer cover 110 and 120 forming the exterior of each unit cover.

In particular, both ends 210 of each of the conductor plates 200 are bent to correspond to the shape of the bent edge portions 111 and 121 of the outer covers 110 and 120, and between the respective conductor plates 200 corresponding to each other. The silver bolt 400 is configured to be fastened through, so that the current flow between each other is possible.

Next, the fixing sheet 300 will be described.

The fixing sheet 300 is a series of configurations that are fixed to the inner wall surface of each of the outer cover (110, 120) while wrapping the remaining portions except for both ends 210 of each of the conductor plate 200, each of the conductor plate A number corresponding to 200 is provided.

The embodiment of the present invention suggests that the fixing sheet 300 is formed of a sheet glass fiber reinforced plastic (FRP) material.

At this time, the fixing sheet 300 is attached and fixed to the inner wall of the outer cover (110, 120) using the liquid resin 520 with the conductor plate 200 therebetween.

In the following, the assembly process for the nussel cover of the wind generator according to the embodiment of the present invention described above and to explain the operation of the manufactured nussel cover.

First, each outer cover 110 and 120 constituting each unit cover is formed.

The plurality of conductor plates 200 are mounted on inner wall surfaces of the outer covers 110 and 120 formed as described above.

In this case, the conductor plates 200 are bent so as to be in close contact with the inner wall surfaces of the corresponding outer covers 110 and 120, and cross-install the grids along the inner wall surfaces of the outer covers 110 and 120, respectively.

As described above, when a series of processes of installing the conductor plates 200 on the outer covers 110 and 120 are completed, the fixing sheet 300 is attached to the inner wall surfaces of the outer covers 110 and 120.

At this time, the fixing sheet 300 may be formed to surround all of the inner wall surface of each of the outer cover (110,120), in the embodiment of the present invention by forming so as to surround only the portion where each of the conductor plate 200 is installed It is suggested that each of the conductor plates 200 is configured to be prevented from being exposed to the outside.

That is, the fixing sheet 300 is fixed to the inner wall surface of the outer cover (110, 120) in the form of wrapping each of the conductor plate 200 along the portion where the conductor plate 200 is installed, wherein the fixing The sheet 300 is attached and fixed using the liquid resin 520.

In particular, in the process of wrapping each fixing sheet 300 in the conductor plate 200, so as to correspond to the bent edge portions 111 and 121 of the outer cover (110, 120) of each portion of the conductor plate 200. Both ends of the bent 210 to be exposed to the outside. This is to allow the connection between the respective conductor plates 210 and the respective conductor plates 200 to be fixed to the outer covers 110 and 120 through both ends 210 of the respective conductor plates 200.

Therefore, when the attachment of each of the fixing sheets 300 described above is completed, each of the conductor plates 200 is kept in the exposed state of only both ends 210, and the manufacturing of each unit cover is completed by this process.

Each unit cover manufactured by the above-described series of processes is individually transported to the installation position of the corresponding wind generator, and then the nucleus cover is formed by coupling to the top of the tower unit of the wind generator.

The coupling between each unit cover is made by fastening the bolts 400 through the overlapping edge portions 111 and 121 after overlapping the outer covers 110 and 120.

In this case, when the outer cover 110 and 120 overlap each other, the two conductive plates 200 corresponding to each other with the edge portions 111 and 121 of the two outer covers 110 and 120 interposed therebetween are positioned correspondingly. The bolt 400 is coupled to each other by fastening the bolts 400 through the edge portions 111 and 121 of the two conductor plates 200 and the two outer covers 110 and 120.

In particular, when the bolt 400 is fastened as described above, the conductive plates 200 corresponding to each other may be electrically energized through the bolt 400.

At this time, since the conductor plates 200 are formed in a flat shape, fastening of the bolts 400 to each other can be easily performed, thereby improving workability.

In addition, at least one conductor plate of each of the conductor plates 200 is connected to a ground line (not shown) connecting the nussel and the ground of the wind generator.

As a result, all the conductor plates are in a state capable of energizing each other by the above-described series of operations, and are also in a state capable of energizing the ground wires, and each of the outer covers 110 and 120 is integral with each other by fastening the bolt 400. This completes the overall nussel cover.

Next, the operation of the nussel cover manufactured as described above will be described.

First, when a lightning strike occurs, it is usually provided by a lightning rod provided in the nussel.

In this case, the current according to the lightning flows through any one of the conductor plates 200 connected to the lightning rod, and is then transmitted to the ground line through the other conductor plates connected to the conductor plate 200 and then provided to the ground. .

If the lightning strike is not provided to the lightning rod but directly to the nussel, current flows due to the lightning strike to each of the conductor plates 200 installed in the outer covers 110 and 120 of the corresponding portion. As described above, the conductive plate 200 is transferred to the ground line through the other conductive plates connected to the conductive plate 200 and then provided to the ground.

As a result, the nussel is secured from lightning due to the structure of the nussel cover of the wind generator according to the present invention described above.

1 is a schematic state diagram showing the external structure of a conventional wind generator in the related art

Figure 2 is an exploded perspective view showing for explaining the nussel cover of the wind power generator according to an embodiment of the present invention

Figure 3 is a perspective view of the main portion shown to explain the coupling relationship of the nussel cover of the wind power generator according to an embodiment of the present invention

Figure 4 is a cross-sectional view of the main portion shown to explain the coupling relationship of the nussel cover of the wind power generator according to an embodiment of the present invention

Claims (5)

It is divided into a plurality of unit covers that are mutually coupled to each other, Each unit cover is An outer cover forming an outer wall, While being provided in plurality and tightly fixed along the inner wall surface of the outer cover, at least one or more of the conductive plate and the metal material is connected to the ground wire, Nussel cover of the wind generator comprising a fixing sheet fixed to the inner wall surface of the outer cover while respectively wrapping the remaining portions except for both ends of each conductor plate. The method of claim 1, The fixing sheet is a nucleus cover of a wind generator, characterized in that formed of a sheet (glass) glass fiber reinforced plastic (FRP) material. The method according to claim 1 or 2, And the conductor plate is fixed between the fixing sheet and the inner wall surface of the outer cover by using a liquid resin. The method of claim 1, The outer cover is formed so that the end is bent inwardly to provide a binding site, Both ends of each of the conductor plate is bent corresponding to the end of the outer cover while being formed so as to be able to penetrate with a bolt. The method of claim 1, Lightning rod is installed on any one of the outer cover of each of the outer cover, An end of the lightning rod penetrates the outer cover and is connected to one of the conductor plates fixed to the inner wall surface of the outer cover of the conductor plate of the wind generator, characterized in that the electricity supply.

Images