KR20120002184A - Sea wind power generator - Google Patents

Abstract

PURPOSE: A sea wind power generation device, which performs the stable operation of a wind turbine in spite of weather aggravation, is provided to maintain the stable state of a wind turbine on water by using wire. CONSTITUTION: A sea wind power generation device comprises base foundation, a tower fixing structure(200), a plurality of wind turbines(400), and a wire(300). The base foundation is built in the bottom of the sea. The tower fixing structure is installed in the form covering the base foundation. The wind turbine is installed in the tower fixing structure. The wire connects the tower fixing structure to the base foundation and clinches the tower fixing structure.

Description

Offshore wind power generators {SEA WIND POWER GENERATOR}

The present invention relates to an offshore wind turbine, and more particularly, it is possible to stably secure a wind turbine even in a bad weather such as a typhoon by fixing a tower fixed structure in which a plurality of wind turbines are installed and floating on the foundation structure installed on the seabed. It relates to an offshore wind turbine that enables operation.

Wind power is a source of pollution-free energy naturally occurring on the earth. Since the 20th century, global winds have resulted in the depletion of fossil fuels, such as coal and oil, and the environmental pollution caused by the use of fossil fuels. The power generation method is getting more attention.

Wind power generation is a technology that generates electricity by turning a generator with the rotational force of a wind turbine that is rotated by the force of wind.The wind power source is powered by unlimited clean energy, so unlike the existing generation method using fossil fuel or uranium, There is an advantage that does not cause problems of environmental pollution such as thermal pollution, air pollution and radioactive leakage.

Conventionally, the technology for generating power by installing support structures on land and offshore and installing wind turbines on the support structures has been put into practical use. There is an active research on wind power generation.

These offshore wind power generation can be divided into fixed and floating (浮游 式) according to the method of installing the power plant on the sea. The fixed type is a method of installing the power plant, including the wind turbine 400 after the foundation work in the water below the sea level of the sea not deep water, and installing the structure on the foundation work, floating floating (浮游 物) on the sea surface ) And install the power plant on the float.

Since the fixed offshore wind power generation method requires a lot of costs for the foundation work for installing the power generation facilities including the wind turbine, it is difficult to install several wind turbines or close to a certain area, which may limit the power generation efficiency and the generation amount. There is no choice but to.

In addition, the floating offshore wind power generation is generated by floating the wind power generation facilities on the sea surface without the need for foundation work, it does not have the problems of the above-described fixed offshore wind power generation method, but because it is floating on the sea When strong wind blows like this, the force applied to the blades of the wind turbine is large, which causes a big problem in the safety of the entire structure.

The present invention is a foundation structure that is constructed on the seabed; A tower fixing structure installed to float on the sea in a form surrounding the foundation structure; A plurality of wind turbines installed on the tower fixing structure; In addition, the tower fixing structure is connected to the base structure to provide an offshore wind turbine comprising a wire for fixing the tower fixing structure floating on the sea.

The base structure may be formed of a cylindrical concrete structure or a steel structure, the tower fixing structure has a rectangular frame shape surrounding the base structure, it can be produced using a steel plate, synthetic resin, concrete and the like.

In addition, a separate buoyancy material such as a rubber tube may be additionally installed in the tower fixing structure to increase buoyancy.

In addition, the tower fixing structure may be fixed to the sea bottom by an anchor connected by a rope.

On the other hand, another embodiment of the tower fixing structure may be composed of a plurality of floating structures each one wind turbine is installed, and a connection frame for interconnecting each floating structure.

The offshore wind turbine generator according to the present invention forms a structure for fixing a tower fixed structure in which a plurality of wind turbines are installed on a base structure installed on a seabed using a wire. Therefore, it is possible to install a plurality of wind turbines on the sea without installing a plurality of costly foundation structures. Also, by fixing the tower fixing structures to the foundation structures using wires, the wind turbines can be stably fixed at sea. It can maintain and solve the problems of the conventional fixed offshore wind turbine and the floating offshore wind turbine at the same time.

That is, the problem of difficult to install a number of wind turbines, which is a problem of the conventional fixed offshore wind power generator or close to a certain area can be solved by using a tower fixed structure in which a plurality of wind turbines are installed, and also floating wind power generation The problem of difficulty in fixing the wind turbine floating on the sea, which is a problem of the device, can be solved by tying the tower fixing structure to the foundation structure using wires.

1 is a perspective view showing an offshore wind power generator according to the present invention.
2 is a view schematically showing a state in which an offshore wind power generator according to the present invention is installed.
3 is a view showing another embodiment of the structure for fixing the tower according to the present invention.

Hereinafter, preferred embodiments of the present invention, in which the above object can be specifically realized, are described with reference to the accompanying drawings. In describing the present embodiment, the same name and the same reference numerals are used for the same configuration and additional description thereof will be omitted below.

1 is a perspective view showing an offshore wind power generator according to the present invention, Figure 2 is a view schematically showing a state in which the offshore wind power generator according to the present invention is installed.

As shown in Figure 1 and 2, the offshore wind power generator according to the present invention is a tower structure that is installed to be floating on the sea in a form surrounding the foundation structure 100, the foundation structure 100 is constructed on the seabed (200), a plurality of wind turbines 400 installed in the tower fixing structure 200, and the tower fixing structure floating on the sea by connecting the tower fixing structure 200 to the base structure 100 ( It comprises a wire 300 for fixing the 200.

The foundation structure 100 is a kind of pillar standing on the sea floor, the lower part of which is fixed to the sea floor, and the upper part of which is exposed on the water. The foundation structure 100 is installed through the foundation work in the water below the sea level of the deep sea, similar to the structure used for the fixed wind power generation already described. Specifically, the base structure 100 may be a cylindrical concrete structure or a steel structure.

The tower fixing structure 200 has a rectangular frame shape surrounding the base structure 100 as a portion where the wind turbine 400 is installed. The tower fixing structure 200 is a kind of buoyancy material for floating the wind turbine 400 on the surface, as shown in Figure 2, part of the submerged in water and part is floating on the water using a steel plate, synthetic resin, concrete, etc. Is produced. Here, a separate buoyancy material such as a rubber tube (not shown) may be additionally installed in the tower fixing structure 200 so that the tower fixing structure 200 can easily float on the water.

The wind turbine 400 is a circular tower 410 installed on the tower fixing structure 200, a plurality of blades 420 installed on the top of the circular tower 410 and rotated by wind, and It is composed of a generator housing 430 is built-in generator (not shown) for generating electric power by receiving the rotational force of the blade 420. Here, the wind turbine 400 may further include a capacitor for storing and using power obtained by power generation, or may further include a power transmitter for transmitting the generated power to another place.

Since the wind turbine 400 is installed on the tower fixing structure 200 floating on the water, as shown, the tower fixing structure 200 forms a square frame shape, the wind turbine 400 is fixed to the tower for weight balance. It is preferable that four units are installed at the corners of the structure 200 for each one. Of course, the shape of the tower fixing structure 200 may be manufactured to have a variety of forms, such as a circular ring or a triangle, pentagon, and accordingly, the number of wind turbines 400 installed in the tower fixing structure 200 is adjusted Can be. For example, if the shape of the tower fixing structure 200 is made of a triangle, it is preferable that three wind turbines 400 are installed for weight balance, and if the tower fixing structure 200 forms a pentagon, the weight balance is achieved. For this purpose, five wind turbines 400 are preferably installed.

The wire 300 binds the tower fixing structure 200 to the foundation structure 100 to prevent the risk that the tower fixing structure 200 is floated or rolled over by a strong tidal current or wind. Enable stable operation. In more detail, when the tower fixing structure 200 is connected to the base structure 100 by a wire 300, the external force applied to the tower fixing structure 200 is dispersed by the base structure 100, such as a typhoon Even when a strong wind blows by the tower fixing structure 200 can be stably floated on the sea, thereby enabling stable power generation by the wind turbine 400 even when the weather is not good due to typhoons.

That is, even when a typhoon or the like, the tower fixing structure 200 is fixed to the foundation structure 100, so even when there is a strong tidal current, wind or storm, the tower fixing structure 200 is not pushed to keep its original position. Wind turbine 400 also maintains a stable state is possible to continue to develop even if the weather worsens.

Of course, as shown in Figure 2, the tower fixing structure 200 may be additionally used anchor 510, which is a separate mooring device to be fixed in one place without being pushed by birds, wind, storm. Specifically, the tower fixing structure 200 may be fixed to the sea bottom by an anchor 510 connected by a rope 500. A type of anchor 510 includes a buried anchor 510 fixed in position by excavating and embedding a rock on the sea bottom and a gravity anchor 510 that sinks and is fixed to the sea bottom by its own weight. There is. Anchoring of offshore wind turbines is an important part of offshore wind power, and the type of anchor to be used is determined by the conditions of the sea bottom. If the bottom is rock, the rock is excavated to plant the anchor 510 and connected with the tower fixing structure 200 with a rope 500. When the bottom is made of sand or sand, Gravity anchors 510 that sink by are suitable. When the tower fixing structure 200 is fixed to the sea floor using the anchor 510, the tower fixing structure 200 connected to the base structure 100 by the wire 300 may be more stably floated on the sea. do.

As described above, the offshore wind power generator according to the present invention not only secures the tower fixing structure 200 in which the plurality of wind turbines 400 are installed using the anchor 510 to the sea floor, but is installed on the sea floor using the wire 300. It forms a structure for fixing the tower fixing structure 200 in which a plurality of wind turbine 400 is installed on the base structure 100. Therefore, a plurality of wind turbines 400 may be installed on the sea without installing a plurality of costly foundation structures 100, and the tower fixing structure 200 is connected to the foundation structures 100 using wires 300. By tying, the wind turbine 400 can maintain a stable state at sea, thereby simultaneously solving the problems of the conventional fixed offshore wind turbine and the floating offshore wind turbine.

That is, it is difficult to install a plurality of wind turbines 400, which are problems of the conventional fixed offshore wind power generator, or to be installed in close proximity to a predetermined region, through the tower fixing structure 200 in which a plurality of wind turbines 400 are installed. The problem that it is difficult to fix the wind turbine 400 floating on the sea, which is also a problem of the floating offshore wind power generator is to tie the tower fixing structure 200 to the base structure 100 using the wire 300 Can be solved by

3 is a view showing another embodiment of the structure for fixing the tower according to the present invention.

On the other hand, as shown in Figure 3, another embodiment of the tower fixing structure according to the present invention is a plurality of floating structure 210, each of which is installed one wind turbine 400, and each floating structure 210 It may be made of a connecting frame 220 to be interconnected.

When the tower fixing structure is made of a plurality of floating structures 210 as described above, each floating structure 210 is manufactured as many as the number of wind turbines 400 to be installed, and then each floating structure 210 is connected to the connecting frame 220. The interconnection simplifies the installation and fabrication of tower anchoring structures.

In addition, when some of the wind turbine 400 is broken and needs repair or if the wind turbine 400 needs to be replaced, only the floating structure 210 in which the corresponding wind turbine 400 is required to be repaired or replaced is required. Separately can be removed and moved to the ground to do the necessary work can be carried out more easily, such as repair, replacement of the wind turbine (400).

The present invention described in detail above is not limited to the above-described range, and those of ordinary skill in the art may easily change or replace the scope of the present invention, as well as equivalents thereof. Also included within the scope of the present invention.

100: base structure 200: tower fixing structure
210: floating structure 220: connection frame
300: wire 400: wind turbine
410: circular tower 420: blade
430: generator housing

Claims (6)

Foundation structures constructed on the sea floor;
A tower fixing structure installed to float on the sea in a form surrounding the foundation structure;
A plurality of wind turbines installed on the tower fixing structure; And,
Offshore wind power generation device comprising a wire for fixing the tower fixing structure floating on the sea by connecting the tower fixing structure to the base structure. The method according to claim 1,
The base structure is an offshore wind turbine, characterized in that the cylindrical concrete structure or steel structure. The method according to claim 1,
The tower fixing structure has a rectangular frame shape surrounding the base structure, offshore wind power generator, characterized in that the production using a steel plate, synthetic resin, concrete and the like. The method according to claim 1,
The tower fixing structure is an offshore wind turbine, characterized in that additional buoyant material such as a rubber tube is additionally installed. The method according to claim 1,
The tower fixing structure is an offshore wind turbine, characterized in that fixed to the sea bottom by an anchor connected by a rope. The method according to claim 1,
The tower fixing structure is an offshore wind turbine, characterized in that consisting of a plurality of floating structures each one wind turbine is installed, and a connecting frame for interconnecting each floating structure.

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