KR101360283B1 - Install structure of wind-power generation device for marine - Google Patents

Abstract

The present invention relates to an installation structure of an offshore wind turbine, and is intended to be used to convert wind energy into electrical energy while being stably settled on a tidal flat without a separate fixing member.
The installation structure of the offshore wind turbine generator according to the present invention is inserted into the mud flat of the coast by its own weight, but both sides are formed with a horizontal portion formed with a connecting groove in the longitudinal direction, and is formed stepped upward from the horizontal portion. A base portion consisting of a vertical portion formed with a fixing groove; Inserted into the fixing groove of the base portion, a plurality of passing holes in the direction of the high and low tide in the direction of the high and low tide so as to pass smoothly through the support portion consisting of a closed vessel A plurality of wind power generators spaced apart from each other at an upper portion of the support part; and a protrusion part inserted into a connection groove of the horizontal part is formed at one side, and a friction area increasing member having a recessed part having a size corresponding to the protrusion part is formed at the other side thereof. It features.

Description

INSTALL STRUCTURE OF WIND-POWER GENERATION DEVICE FOR MARINE}

The present invention relates to an installation structure of an offshore wind power generator that can be used to convert wind energy into electrical energy while being stably installed on a tidal flat without a separate fixing member.

Wind power generation is a technology that generates electricity by turning the generator by the rotational power of a windmill rotating by wind power. Unlike the existing fossil fuel and uranium generation methods, which uses wind, which is an infinite clean energy, There is an advantage that the problem of environmental pollution such as heat pollution, air pollution and radiation leakage does not occur.

Conventionally, the registered patent "No. 10-0995667" which is developed by installing a support structure on the sea for wind power generation and installing the windmill generator on the support structure, and a buoyant body on the sea and the windmill generator on this buoyant body The published patent "10-2010-0077903" has been proposed to develop by installing a.

However, the fixed offshore wind power generation method is disadvantageous compared to onshore wind power in that it requires a lot of construction costs because it must be based on the water. In other words, as the location of the wind power generation facility moves away from the land, the influence of the land terrain becomes smaller as the distance from the land increases. However, the increase of the construction cost due to deepening of water depth is inversely related to this advantage.

In addition, in the problem of foundation work, the geological below sea level is not constant, which is more problematic in that the foundation work should be changed according to the ground. In addition, since shallow coasts not far from land are usually used as fishing grounds, noise, a problem inherent in wind power plants, may affect nearby villages and cause civil complaints.

On the other hand, since the offshore floating wind power generation system is generated by floating the wind power generation facilities on the sea surface without the need for foundation work, the problems of the above-described fixed offshore wind power generation method, especially subsurface foundation construction and structure production The cost and cost of land can be solved by increasing the cost of construction. In addition, the offshore floating wind power generation solves the problem of the foundation work and subsurface structure installation according to the difference of the seabed ground.

The present invention has been made in order to solve the above problems of the prior art, the installation structure of the offshore wind power generator to be used to convert the wind energy into electrical energy while being stably settled on the tidal flat without a separate fixing member The purpose is to provide.

Means of the present invention for achieving the above object, the horizontal portion is inserted into the mud flat of the shore by its own weight, both sides are formed with a horizontal groove formed in the longitudinal direction in the longitudinal direction, and is formed stepped upward from the horizontal portion A base portion consisting of a vertical portion formed with a fixing groove; Inserted into the fixing groove of the base portion, a plurality of passing holes in the direction of the high and low tide in the direction of the high and low tide so as to pass smoothly through the support portion consisting of a closed vessel ; A plurality of wind power generators spaced at the upper portion of the support; Protruding portion is inserted into the connection groove of the horizontal portion on one side, the friction area increase member formed on the other side of the size corresponding to the projection portion, comprising: By increasing the friction area of the foundation against the tidal flat by allowing the friction area increasing member to be coupled successively. To be a so characterized.

The installation structure of the offshore wind turbine generator according to the present invention, the base portion is inserted in such a way that a predetermined length is buried in the tidal flat by its own weight, the upper portion of the foundation by inserting the support portion installed with the wind turbine, the support portion based on its own weight By pressing the part to be inserted deeper into the tidal flat, the foundation can be stably settled on the tidal flat, the horizontal part constituting the foundation is the load of the support portion transmitted from the upper part and the load and waves of the offshore wind generator in the state inserted into the tidal flat When the coarse positive pressure and the coarse horizontal pressure are transmitted, friction with the tidal flat causes resistance, so that the wind energy can be converted into electric energy in a stable manner in the tidal flat without using a separate fixing member.

In addition, when the support portion is used as a waste ship, there is an effect of eliminating the need to dismantle the waste ship and improving the utilization of the waste ship.

In addition, according to the site conditions there is an effect that can easily install the friction area increase member in the support portion to further strengthen the resistance to conduction and activity.

1 is a side view showing the installation structure of the offshore wind turbine generator according to a preferred embodiment of the present invention.
Figure 2 is a front view showing the installation structure of the offshore wind turbine generator according to a preferred embodiment of the present invention.
Figure 3 is a front view showing the installation structure of the offshore wind power generator according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

1 is a side view showing the installation structure of the marine wind power generator according to a preferred embodiment of the present invention, Figure 2 is a front view showing the installation structure of the marine wind power generator according to a preferred embodiment of the present invention, Figure 3 Is a front view showing the installation structure of the offshore wind power generator according to another embodiment of the present invention.

As shown in Figure 1 and 2, the installation structure of the offshore wind turbine generator according to a preferred embodiment of the present invention is composed of a base portion 10, the support portion 20, the wind turbine 30 do.

The base portion 10 is disposed on the tidal flat of the coast, is formed in a U-shape, the fixing groove 11 having a depth and a width is formed on the top.

The base portion 10 forms a state in which a lower portion of the base portion is inserted into and fixed to the mud flat of the shore by its own weight.

When the base portion 10 is manufactured through a steel sheet, a plurality of divided steel sheets are formed by combining them into a U-shape at the site, and the connecting portion of the steel sheet is integrally formed by welding, riveting, or bolting to form a base portion ( 10) can be produced.

On the other hand, when the foundation 10 is made of concrete in the field to form a U-shaped formwork (not shown), the concrete is poured into the interior of the form and curing and then release the formwork to remove the foundation (10) It can be manufactured or precast at the factory.

In addition, when the base portion 10 is manufactured in a precast method in a factory, the vertical portion 10a and the horizontal portion 10b are manufactured in a structure that is divided into a vertical portion constituting the base portion 10 when installed in the field ( 10a) and the horizontal portion (10b) to enable the installation can be easy to install and shorten the air, it is possible to improve the carrying capacity in transporting the base portion 10 to the site.

Subsequently, the base portion 10 may be formed in various shapes, but the reason why the horizontal portion 10b is formed in a U-shape wider than the vertical portion 10a in the present invention is the lower side of the horizontal portion 10b. When a certain length is inserted in a way that a part is buried in the tidal flat, the area rubbed with the tidal flat is widened, so that the load of the support part 20 transmitted from the upper part, the load of the wind generator, the strong positive pressure of the wave, and the coarse horizontal pressure of the wave are transmitted. By causing friction with the mud flats, it is possible to ensure the stability of the offshore wind turbine generator according to the present invention without installing a separate support (not shown) or anchor (not shown) on the base 10.

In addition, as shown in FIG. 3, a friction area increasing member 40 is installed in the horizontal portion 10b constituting the foundation portion 10 so that the foundation portion 10 is more resistant to conduction and activity. Can be strengthened.

In more detail, the connecting grooves 12 are formed on both sides of the horizontal portion 10b of the base portion 10 along the longitudinal direction, and the protrusions are formed on one side of the friction area increasing member 40. As the 41 is formed along the longitudinal direction, the projection 41 of the friction area increasing member 40 is inserted into the connecting groove 12 of the horizontal portion 10b, thereby the horizontal portion of the foundation portion 10. The friction area increasing member 40 may be coupled to the 10b, and the friction area of the tidal flat is widened due to the combination of the horizontal portion 10b of the foundation part 10 and the friction area increasing member 40. And resistance to activities can be strengthened.

In addition, the friction area increasing member 40 has a recess 42 formed in the longitudinal direction on the other side of the projection 41 opposite to the projection 41 to further increase the friction area 40 in the recess 42. By inserting and fixing the protrusion part 41 of), the area of the horizontal part 10b constituting the base part 10 can be expanded to increase the friction area, and thus, resistance to conduction and activity can be increased. Can be strengthened.

The support part 20 is inserted into the fixing groove 11 of the base part 10 and presses the base part 10 by its own weight, thereby allowing the base part 10 to be inserted deeper into the tidal flat, The coupling force between the portion 10 and the tidal flat is further improved.

The support 20 may be a known waste ship, and when the support 20 is used as a known waste ship, it is possible to eliminate the hassle of having to dismantle the waste ship.

In addition, the steering room installed on the deck of the closed vessel may be utilized as a substation room 50 or a living space.

In addition, the through hole 21 is formed in the support portion 20 at intervals so that the water flows into the mud flat and then flows back to the beach to naturally pass, thereby affecting the influence of the waves transmitted to the support portion 20. Minimization may prevent the support 20 from flowing by the sea water.

The wind generator 30 is installed at intervals above the support 20 to convert the wind energy into electrical energy, the wind generator 30 in the radially rotatable wing portion 31 to the shaft By installing a well-known generator (not shown) connected to the wing portion 31 while being coupled, when the wing portion 31 is rotated by wind, the generator generates electricity due to the rotation of the wing portion 31 The generator may be connected to a known capacitor (not shown) through a lead wire (not shown) so that electricity generated through the generator may be stored.

In addition, the electric energy generated through the wind generator 30 may be used to be transmitted to the land.

10: base portion 10a: vertical portion
10b: horizontal portion 11: fixing groove
12: connecting groove 20: support
21: through hole 30: wind power generator
31: wing portion 40: friction area increasing member
41: protrusion 42: groove
50: substation room

Claims (3)

The horizontal portion 10b is inserted into the tidal flat of the coast by its own weight, and both sides have a horizontal portion 10b having a connecting groove 12 formed in a longitudinal direction, and are formed to be stepped upward from the horizontal portion 10b, but have a fixed groove 11 at the upper portion thereof. A base portion 10 formed of the formed vertical portion 10a;
The support part is inserted into the fixing groove 11 of the base portion 10 and is formed through the plurality of passing holes 21 at intervals in the direction of the high and low tide so that the high and low tide can pass smoothly. 20;
A plurality of wind power generators 30 installed at intervals above the support portion 20;
One side is formed with a projection 41 is inserted into the connecting groove of the horizontal portion (10b), the other side is a friction area increasing member 40 is formed with a groove portion 42 of the size corresponding to the projection 41 Is composed by
Installation structure of the offshore wind turbine generator to increase the friction area of the foundation portion 10 to the tidal flat by allowing the friction area increasing member 40 to be coupled in series.
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