KR20110133707A - Floating structure for constructing wind power plant - Google Patents

Abstract

PURPOSE: A floating structure for the installation of a wind power plant is provided to reduce costs and time required for the precise-processing of multiple legs. CONSTITUTION: A floating structure for the installation of a wind power plant comprises a ship body(110), multiple legs(120), and a lifting unit. A wind power plant is installed in the ship body. The legs are vertically moved in the ship body. When the legs are fixed to a sea bottom, the lifting unit ascends or descends the ship body along the legs. Multiple guide rollers are installed in the contact parts of the ship body and the legs and guide the movement of the ship body.

Description

Floating structure for installation of wind power facilities {FLOATING STRUCTURE FOR CONSTRUCTING WIND POWER PLANT}

The present invention relates to a ship for installation of a wind power plant, which prevents a decrease in strength of a leg, does not require a high capacity motor facility, and has excellent operation reliability.

In general, interest in environmentally friendly renewable energy is increasing by causing environmental pollution by the continuous increase of fossil fuel and combustion gas caused by the consumption of fossil fuel, and much effort has been made to increase the ratio of such renewable energy.

Among these renewable energy, the wind power generator using the wind energy generates electricity by directly driving the wind turbine mounted on the post (post) by the wind or by transferring the power of the wind turbine to the generator to produce electricity.

These wind turbines are usually horizontal axis turbines, which require relatively long wings to obtain sufficient energy from the wind, and are installed on top of relatively high posts because they must be installed without disturbing the airflow. For this reason, it is not suitable to install in a densely populated area or a remote place with beautiful scenery. For these reasons, interest in offshore wind power has recently increased.

Offshore wind power can be divided into fixed type and floating type. Fixed type is a method of installing foundations on the sea bottom of the sea without deep water, and installing structures on the foundation and installing power generation facilities including wings. The equation is to float the float on the sea level and to install the power plant on the float.

The conventional floating structure for installing a wind power installation has a method using a hydraulic cylinder and a rack-pinion for the relative vertical movement of the leg and the hull.

However, in the case of the conventional wind turbine installation vessel, the hydraulic cylinder is used to form holes in the legs, thereby lowering the strength of the legs, and manufacturing the jack-up frame and the legs require precision machining. This is not easy, and because the sliding block for guiding the vertical movement of the hull moves along the leg integrally with the jack-up frame has a problem that a large guide frame is used, which takes a lot of cost and time for installation.

In addition, when the rack-pinion is used in a floating structure for installing a conventional wind turbine, it is difficult to secure the reliability of the operation by concentrating the load on the rack and the pinion and requires a high capacity motor facility to overcome the load of the hull. By having a problem that costs a lot.

The present invention is to solve the conventional problems as described above, to prevent the lowering of the strength of the leg, does not require precision machining on the leg, and does not require a frame for a guide or a high capacity motor equipment To provide a floating structure for the installation of wind power plants that can ensure the reliability of the operation.

According to the present invention for achieving the above object, in the floating structure for installing a wind power installation on the sea, the hull is installed, the plurality of legs installed to move up and down in the hull, and the leg Is fixed to the bottom of the sea is provided a floating structure for installation of a wind turbine, characterized in that it comprises a lifting means for raising or lowering the hull along the leg.

The hull is preferably provided with a plurality of guide rollers for guiding the movement of the leg in the contact portion with the leg.

Preferably, the elevating means includes a first pulley installed on the leg, a second pulley installed on the hull, and a drum for winding or unwinding a rope connecting the first pulley and the second pulley. .

Here, the drum is preferably installed in the hull.

The leg is preferably moved by the rack gear installed on the leg and the pinion gear provided on the hull.

According to another aspect of the present invention, in the floating structure for installing a wind turbine on the sea, the hull is the leg by using a rope connecting the hull on which the wind turbine is installed and the legs installed on the hull to each other According to the present invention, there is provided a floating structure for installing a wind power plant, including a lifting means for vertically moving.

According to the present invention, the frame does not require the formation of holes or precision processing, thereby reducing the strength of the legs and reducing the cost and time for manufacturing, and the frame or hull for guiding the relative movement of the legs and the hull. By eliminating the need for a high-capacity motor facility to bear the weight of the operator, the cost and time required for installation can be reduced, and the operation reliability can be improved by the rope lifting method applying the pulley principle.

1 is a conceptual diagram showing a floating structure for installing a wind power plant according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples may be modified in many different forms, and the scope of the present invention is not limited to the following examples.

1 is a conceptual diagram showing a floating structure for installing a wind power plant according to the present invention.

As shown in FIG. 1, the floating structure 100 for installing a wind power plant according to the present invention includes a hull 110 and a leg installed at the hull 110 to install a wind power plant at sea. 120, a plurality of pulleys 132 and 133 for vertical movement of the hull 110 along the leg 120, and a drum 134 for winding or unwinding a rope connected to the pulleys 132 and 133. It includes.

The hull 110 has a structure for floating on the sea, and is installed on the top of the wind turbine (not shown), such as a thruster (thruster), a generator, to sail using a self-propelled device, or to sail by a tugboat And, a plurality of legs 120 are installed for fixing at sea.

In addition, the hull 110 may be provided with a plurality of guide rollers 111 for guiding the vertical movement of the hull 110 in contact with the legs 120 are arranged up and down along the leg 120.

Leg 120 is installed to move up and down on the hull 110, may have the form of a post (post), has a suitable length according to the seabed depth to be fixed to the hull 110, the hull 110 It is composed of a plurality of fixed to be spaced apart from the purified surface, for example, may be made of four so as to be located at each corner of the hull 110, respectively.

The drum 134 installed on the hull 110 may wind or loosen the rope 131 on the outer circumferential surface of the drum 134 using the rotational force of the motor. In addition, the pinion gear 135 installed on the hull 110 may be engaged with the rack gear 136 installed on the leg 120 to control the vertical movement of the leg 120.

The drum 134 may wind the rope 131 connecting the hull 110 and the leg 120 to each other to allow the leg 120 to descend from the hull 110. At this time, since the pinion gear 135 is engaged with the rack gear 136, the leg 120 can be prevented from descending to the sea bottom by its own weight.

When the legs 120 are fixed to the sea bottom and the lowering is completed, the hull 110 may be raised from the purified surface. The present invention may use a plurality of pulleys to raise the hull 110 from the purified surface or to lower the hull raised from the purified surface back to the purified surface while the legs 120 are fixed.

More specifically, the first pulley 132 is fixed to the upper end of the leg 120 and the second pulley 133 is fixed to the hull 110. A rope is wound around the first pulley 132 and the second pulley 133 to connect the hull 110 and the leg 120, and the rope is finally connected to the drum 134 and wound.

Since the first pulley 132 is installed at the upper end of the leg 120 fixed to the sea bottom, it may serve as a fixed pulley. Since the second pulley 133 is installed on the hull 110, the hull 110 moves together as the hull 110 moves up or down, and thus may serve as a moving pulley. In an embodiment of the present invention, since the pulley principle is used, an effect of producing a large force even with a small force can be obtained. Therefore, when the drum 134 is rotated to wind or unwind the rope, an efficient driving may be possible even if a motor having a smaller force than the conventional one is used.

When the hull 110 needs to be moved and the leg 120 fixed to the bottom of the sea is to be raised to the hull 110 again, the pinion gear 135 installed on the hull 110 is driven and the leg 120 As the rope rises, the rope 131 wound on the plurality of pulleys is released through the drum 134.

As described above, the operation of the ship for installing a wind power plant according to the present invention will be described.

When the hull 110 reaches the position where the wind turbine is to be installed, by winding the rope 131 by the drum 134, each of the legs 120 descends from the hull 110 and is supported on the sea bottom. After the leg 120 finishes descending, the hull 110 is fixed to the sea so as to be relatively raised from the leg 120 and spaced apart from the purified surface. Therefore, the wind turbine installed in the hull 110 to be installed on the desired sea, and to enable the power generation by using the wind energy by the thruster and generator constituting the wind turbine.

As such, the legs 120 are not required to be machined with holes for the transfer of the legs 120, thereby preventing the strength of the legs 120 from being lowered, and not requiring precision machining of the legs 120. This can reduce the time required for production.

In addition, the hull 110 does not need a separate frame for guiding the relative movement of the hull 110 and the leg 120 by the vertical movement is guided by the guide roller 111. Since the pulleys 132 and 133 can raise the hull 110 with a small force, it does not require a high-capacity motor facility, thereby reducing the time and cost required for installation and improving the reliability of the installation operation. You can.

In addition, according to the present invention, the rack gear 136 is installed only on a portion of the leg 120, the installation of the gear is significantly reduced compared to the conventional rack-pinion method.

As described above, the floating structure for installing a wind power plant according to the present invention has been described with reference to a preferred embodiment of the present invention. However, it should be understood that the present invention is not limited to the above-described embodiments and drawings, and various modifications and changes may be made by those skilled in the art without departing from the scope of the present invention.

100: floating structure for installation of wind power plant 110: hull
111: guide roller 120: leg
131: rope 132: first pulley
133: second pulley 134: drum
135: pinion gear 136: rack gear

Claims (6)

In the floating structure for installing wind power installations at sea,
A hull in which the wind turbine is installed;
A plurality of legs installed to move up and down in the hull; And
Lifting means for raising or lowering the hull along the leg when the leg is fixed to the sea bottom;
Floating structure for installing a wind turbine, characterized in that it comprises a. The floating structure of claim 1, wherein the hull is provided with a plurality of guide rollers for guiding the movement of the hull in contact with the legs. The method of claim 1, wherein the lifting means
A first pulley installed on the leg;
A second pulley installed on the hull; And
A drum for winding or unwinding a rope connecting the first pulley and the second pulley;
Floating structure for installing a wind turbine, characterized in that it comprises a. 4. The floating structure of claim 3, wherein the drum is installed on the hull. The floating structure for a wind turbine installation according to claim 1, wherein the leg is moved by a rack gear installed on the leg and a pinion gear installed on the hull. In the floating structure for installing wind power installations at sea,
And a lifting means for allowing the hull to vertically move along the leg by using a rope connecting the hull in which the wind power generator is installed and the leg installed in the hull to each other. .

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