KR101303140B1 - Helideck with wind power generator - Google Patents

Abstract

A heli-deck installed on an offshore structure is disclosed. According to an exemplary embodiment of the present invention, a helix deck may be disposed between the upper deck and the lower deck, spaced in parallel, a guide member installed between the upper deck and the lower deck, and a wind between the upper deck and the lower deck to form a wind passage. It is installed in the moving passage is provided with a wind turbine generating power using the wind.

Description

Helideck with wind power generator

The present invention relates to a heli deck installed in an offshore structure, and more particularly, to a heli deck having a wind turbine.

Offshore structures such as large ships or special ships, such as drill ships, floating production storage and offloading (FPSO), are usually equipped with a helicopter deck for takeoff and landing of helicopters. These marine structures, despite the lack of space due to the various equipment is installed on the upper deck, the heli-deck has little utilization other than the use for takeoff and landing of the helicopter.

Meanwhile, as the necessity of the regulation of greenhouse gas emission and the suppression of environmental pollution increases, in recent years, interest and demand for renewable energy have increased. Renewable energy refers to energy produced in natural conditions such as solar, hydro, tidal, geothermal and wind power.

In marine structures such as ships, many studies are underway on using eco-friendly renewable energy as described above as a power source. Due to the characteristics of marine structures such as ships, power generation using solar heat, wind power, wave power, etc. is representative as eco-friendly renewable energy, and among these, wind power generation has an advantage of obtaining high efficiency energy with a small facility investment.

For example, Korean Patent Laid-Open Publication No. 10-2009-0086498 discloses a technique for mounting a wind power generator on a deck of a ship's bow and a stern, and producing electric energy therefrom to use as a power of a ship.

By the way, in the case of the prior art described above, a space for mounting the wind turbine on the narrow upper deck separately from the heli-deck has to be provided, which leads to a disadvantage of poor space utilization.

Patent Document 1: Korean Patent Publication No. 10-2009-0086498 (published Aug. 13, 2009)

Embodiments of the present invention, the use of the idle space and at the same time provides a heli- deck having a wind power generation device that can provide the power required for offshore structures such as ships.

In order to achieve the above technical problem, according to an aspect of the present invention, in the heli deck installed in the offshore structure, the upper deck and the lower deck arranged in parallel at intervals; A guide member installed between the upper deck and the lower deck to form a wind movement path; And a wind power generation device installed in the wind movement path between the upper deck and the lower deck to generate power by using wind power.

The wind turbine generator may include a plurality of first wind turbines installed at equal intervals along the edge of the heli-deck.

The first wind turbine includes a blade rotated by wind, a main shaft rotated by the rotation of the blade, a speed reducer connected to the other end of the main shaft, and a generator connected to the output shaft of the speed reducer. can do.

In addition, the blade is installed perpendicular to the direction of the wind, the main shaft is installed horizontally in the direction of the wind, the first wind turbine may be a horizontal wind turbine.

The wind turbine may further include a second wind turbine installed at the center of the heli-deck.

In addition, the second wind power generation device, a blade rotated by wind, a vertical main shaft rotated by the rotation of the blade, a gear box for transmitting the rotational force of the vertical main shaft in the horizontal direction, and the gear box A horizontal main shaft connected to one end of the horizontal main shaft, a speed increaser connected to the other end of the horizontal main shaft, and a generator connected to an output shaft of the speed increaser.

In addition, the blade is installed horizontally in the direction of the wind, the vertical main shaft is installed perpendicular to the direction of the wind, the second wind turbine may be a vertical wind turbine.

In addition, the guide member may be installed to form a cross shape that crosses the wind movement passage between the upper deck and the lower deck at the center of the heli-deck.

In addition, the plurality of first wind turbines may be disposed at four inlet sides of the wind passage, and the second wind turbine may be disposed at the center of the wind passage.

According to the embodiments of the present invention, by installing a wind power generator in the heli-deck in addition to the take-off and landing of the helicopter, it is possible to produce power required for marine structures such as ships using environmentally friendly renewable energy, Since there is no need for a separate space for the installation of the wind turbine, there is an advantage to increase the space utilization.

1 is a side view schematically showing the configuration of the heli-deck according to an embodiment of the present invention.
FIG. 2 is a plan view illustrating a configuration and arrangement of a wind turbine generator in a state in which the upper deck of the heli deck shown in FIG. 1 is removed.
FIG. 3 is a side view illustrating a configuration of a wind power generator disposed at the center of the heli-deck in FIG. 2.

Hereinafter, with reference to the accompanying drawings will be described for the heli-deck having a wind power generator according to embodiments of the present invention. In the drawings, the same reference numerals denote the same elements.

1 is a side view schematically showing the configuration of the heli-deck according to an embodiment of the present invention, Figure 2 is a view showing the configuration and arrangement of the wind turbine generator in a state in which the upper deck of the heli-deck shown in FIG. Top view.

1 and 2 together, the heli-deck 100 according to an embodiment of the present invention is installed in a marine structure, for example, a ship 10 is used for takeoff and landing of a helicopter, as well as a wind power generator ( Installed 140 is used for the purpose of producing the power, that is, power required in the vessel (10).

The heli-deck 100 is typically installed in the bow portion or stern portion of the vessel 10, but may be installed in various places according to the type of vessel 10. In FIG. 1, as an example, a heli-deck 100 is shown installed in a deck house 14 installed on an upper deck 12 of a ship 10, and the residence 14 is a vessel 10. Although illustrated as being installed at the stern of the ship, depending on the type of vessel 10 may be installed in the bow portion or the middle portion.

The heli deck 100 includes an upper deck 110 and a lower deck 120 disposed parallel to each other at predetermined intervals, and a support frame 130 for supporting the upper deck 110 and the lower deck 120. And, it is provided with a wind turbine (140, 150) installed between the upper deck 110 and the lower deck (120).

Specifically, the upper deck 110 is a circular or polygonal plate shape, the helicopter is to land on the upper surface.

The lower deck 120 is disposed in parallel with the upper deck 110 at predetermined intervals below the upper deck 110. Therefore, a passage 115 through which wind moves is formed between the upper deck 110 and the lower deck 120. Like the upper deck 110, the lower deck 120 has a circular or polygonal plate shape, and the wind power generator 140 is installed between the upper deck 110, that is, in the wind movement path 115, 150).

The support frame 130 supports the upper deck 110 and the lower deck 120, and may be installed in, for example, the inlet 14 of the vessel 10.

The wind power generators 140 and 150 are installed between the upper deck 110 and the lower deck 120 to generate electric power using the wind passing through the wind movement path 115.

Winds are blown from the heli-deck 100 from all directions, and the wind turbines 140 and 150 may be installed in plurality along the edge of the heli-deck 100 so as to cope with various wind directions. It may also be installed in the center of the heli-deck 100. For example, the first wind turbine 140 among the wind turbines 140 and 150 is a device that primarily generates electric power by using winds from all directions, along the edge of the heli-deck 100, and the like. Multiple pieces can be installed at intervals. In addition, the second wind turbine 150 is a device that generates electric power by using the wind passing through the four first wind turbines 140, one in the center of the heli-deck 100. Can be installed.

In addition, the wind movement path 115 may be formed in a cross shape to cross at the center of the heli-deck 100. To this end, a guide member 118 may be installed between the lower deck 120 and the upper deck 110 to form the wind movement path 115 in a cross shape. In this case, each of the first wind turbines 140 is installed at four inlet sides of the cross wind passage 115, and the second wind turbine 150 is formed at the center of the cross wind passage 115. Is installed.

Each of the four first wind turbines 140 includes a blade 141 rotated by wind power, a power transmission unit 143 that transmits rotational force of the blade 141, and the power transmission unit 143. It includes a generator 147 for producing power from the rotational force transmitted through.

Specifically, the blade 141 is rotated by the wind in a state coupled to the hub 142 installed at one end of the main shaft 144. The blade 141 is installed perpendicular to the direction of the wind, the main shaft 142 is installed horizontally in the direction of the wind is a horizontal wind power generator that rotates by the wind blowing horizontally. In an embodiment of the present invention, although four blades 141 are illustrated around the hub 142, two or more blades may be installed.

The power transmission unit 143 includes a main shaft 144 that is rotated by the rotation of the blade 141 and an increaser 145 connected to the other end of the main shaft 144. The speed increaser 145 is for increasing the rotational speed of the main shaft 144, and consists of a plurality of gear groups. The generator 147 is connected to the output shaft 146 of the speed increaser 145 to produce electric power from the rotational force transmitted through the power transmission unit 143.

Since the second wind turbine 150 is disposed at the center of the cross wind passage 115, the second wind turbine 150 may pass through the four first wind turbines 140 to correspond to winds from all directions. . This will be described below with reference to FIG. 3.

FIG. 3 is a side view illustrating a configuration of a wind power generator disposed at the center of the heli-deck in FIG. 2.

Referring to FIG. 3, the second wind turbine 150 includes a blade 151 that is rotated by wind, a power transmission unit 153 that transmits rotational force of the blade 151, and the power transmission unit. And a generator 157 that generates power from the rotational force transmitted through 153.

Specifically, the blade 151 is rotated by the wind in a state coupled to the hub 152 installed on the top of the vertical main shaft 154a. The blade 151 is installed horizontally in the direction of the wind, the vertical main shaft 154a is installed vertically in the direction of the wind is a vertical wind turbine is rotated by the wind blowing horizontally. In an embodiment of the present invention, although two blades 151 are installed around the hub 152, two or more blades may be installed.

The power transmission unit 153, a vertical main shaft 154a rotated by the rotation of the blade 151, a gear box 154c for transmitting the rotational force of the vertical main shaft 154a in the horizontal direction, A horizontal main shaft 154b, one end of which is connected to the gear box 154c, and an increaser 155 connected to the other end of the horizontal main shaft 154b. The speed increaser 155 is to increase the rotational speed of the horizontal main shaft 154b, and consists of a plurality of gear groups. The generator 157 is connected to the output shaft 156 of the speed increaser 155 to produce electric power from the rotational force transmitted through the power transmission unit 153.

As described above, according to the heli deck 100 according to the embodiments of the present invention, the wind movement path 115 is formed between the upper deck 110 and the lower deck 120, the wind movement passage 115 By installing the wind power generators 140 and 150 in, it is possible to produce power required for offshore structures such as the vessel 10 using environmentally friendly renewable energy.

In addition, by installing the wind turbines 140 and 150 in the helicopter deck 100, which has insufficient utilization other than the takeoff and landing of the helicopter, the space does not need a separate space for the installation of the wind turbines 140 and 150. It can increase the utilization.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Accordingly, the true scope of protection of the present invention should be defined by the appended claims.

100 ... Helly Deck 110 ... Top Deck
115 ... wind path 118 ... without guide
120 ... lower deck 140 ... first wind turbine
150 ... second wind turbine ... 141,151 ... blade
142,152 ... hub 143,153 ... power transmission unit
Main shaft 145,155 ...
146,156 ... output shaft 147,157 ... generator
154a ... vertical main shaft 154b ... horizontal main shaft
154c ... gear box

Claims (9)

In the heli deck installed in offshore structures,
An upper deck and a lower deck disposed parallel to each other at intervals;
A guide member installed between the upper deck and the lower deck to form a wind movement path; And
And a wind power generator installed in the wind moving passage between the upper deck and the lower deck to generate electric power using wind power.
The wind turbine includes a plurality of first wind turbines installed at equal intervals along the edge of the heli-deck, and a second wind turbine installed at the center of the heli-deck,
And the guide member is installed to form a cross shape that crosses the wind movement passage between the upper deck and the lower deck at the center of the heli-deck. delete The method of claim 1,
The first wind power generator,
And a generator rotated by wind power, a main shaft rotated by the rotation of the blade, a speed reducer connected to the other end of the main shaft, and a generator connected to the output shaft of the speed reducer. The method of claim 3, wherein
The blade is installed perpendicular to the direction of the wind, the main shaft is installed horizontally in the direction of the wind, the first wind turbine is characterized in that the horizontal wind turbine generator. delete The method of claim 1,
The second wind power generator,
A blade rotated by wind power, a vertical main shaft rotated by the rotation of the blade, a gear box transmitting a rotational force of the vertical main shaft in a horizontal direction, a horizontal main shaft having one end connected to the gear box, and And a generator connected to the other end of the horizontal main shaft, and a generator connected to the output shaft of the speed reducer. The method according to claim 6,
The blade is installed horizontally in the direction of the wind, the vertical main shaft is installed vertically in the direction of the wind, the second wind turbine is characterized in that the vertical wind turbine. delete The method of claim 1,
And the plurality of first wind turbines are disposed at four inlet sides of the wind passage, and the second wind turbine is disposed at the center of the wind passage.

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