KR101295811B1 - Jacket fastening type ocean generator - Google Patents

Abstract

The present invention relates to a jacket-attached offshore power generation apparatus, comprising: a pair of binding members each having a semicircle with a flange formed at both ends thereof so as to be fastened to an underwater column of a jacket structure installed in the ocean; A fixing bolt which fixes the pair of binding members to each other by being fastened to a fixing nut through the flange; An ocean current generator fixed to an outer circumferential surface of the binding member; It is configured to include a propeller blade fixed to the rotating shaft of the current generator.

The present invention is easy and simple to install, low installation cost, and reinforces the jacket structure itself by using the existing structure as it is without installing a separate offshore structure for fixing the current generator for offshore power generation using the current In addition, it is possible to prevent the buckling of the jacket structure, and provides the advantage of building the offshore power plant in a short time.

Jacket, Offshore Power Generation, Current Generator, Blade

Description

JACKET FASTENING TYPE OCEAN GENERATOR}

1 is an exemplary cross-sectional view showing an offshore power generation apparatus according to the present invention;

Figure 2 is an exemplary view showing an installation state of the marine power generation apparatus according to the present invention.

DESCRIPTION OF REFERENCE NUMERALS

10 .... Jacket structure 22 .... Flange

24 .... Binding member 26 .... Rubber packing

30 .... current generators 34 .... blades

The present invention relates to an offshore power generation apparatus, and more specifically, by using an existing jacket structure installed in the sea as it is, it is possible to efficiently use natural energy resources by enabling power generation using the current without installing a separate support structure for offshore power generation. And a jacketed offshore power plant.

Generally, typical types of power generation for generating electricity include thermal power generation using fossil fuel as an energy source and nuclear power generation using nuclear power.

However, thermal power generation has a problem of enormous construction costs along with the pollution caused by the use of energy generated by the combustion of fossil fuels, and nuclear power generation is advantageous in producing a large amount of electricity. Due to the enormous cost of facilities to block the damage, the danger of radiation leakage is expected, and the strong resistance of local residents is expected. Furthermore, waste disposal is not easy, and even minor accidents always present a risk of serious environmental damage. There is a problem.

Accordingly, studies are being actively conducted to utilize natural energy such as wind, tidal, hydro, and solar heat as energy sources as a permanent energy source that is free from exhaustion or pollution and is free from exhaustion.

However, the traditional form of hydroelectric power generation does not cause pollution, but it requires enormous construction costs for water barriers, and changes in ecosystems and, in severe cases, even the climate of the region after the dam is constructed. There are problems such as a secondary environmental problem may occur, and since wind power and solar power are governed by the influence of the weather conditions, there is a problem that power generation is impossible when there is no wind or the solar radiation energy is blocked.

Because of these shortcomings, marine power generation has emerged as an alternative in recent years in that it is possible to continuously develop regardless of weather changes and use a clean energy source without pollution.

However, the offshore power generation using these currents has the disadvantage of having to install a separate jacket structure, that is, a support such as a support for fixing the current generator, in the sea separately, and the disadvantage of the facility investment cost increase.

The present invention has been made in view of the above-mentioned problems of the prior art, and has been created to solve this problem, and propeller-type blades and a current current driven by a part of its body by using a jacket structure installed in the ocean for various purposes as it is. Its main purpose is to provide a jacketed offshore power plant that combines a generator to facilitate offshore power generation, thus simplifying installation and enabling offshore power generation facilities to be built in a short time at low cost.

The present invention, in order to achieve the above technical problem, a pair of binding members having a semicircle with a flange formed at both ends to be fastened to the underwater pillar of the jacket structure pre-installed in the ocean; A fixing bolt which fixes the pair of binding members to each other by being fastened to a fixing nut through the flange; An ocean current generator fixed to an outer circumferential surface of the binding member; Technical features of providing a jacket-mounted offshore power generation apparatus comprising a propeller-type blade fixed to the rotating shaft of the current generator.

At this time, there is a feature in that the rubber packing is interposed between the binding member and the pillar of the jacket structure.

In addition, the binding member provided with the current generator and the blade has a technical feature in that a plurality of in parallel from the water surface along the pillar of the jacket structure.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

1 is an exemplary cross-sectional view showing a marine power generation apparatus according to the present invention, Figure 2 is an exemplary view showing an installation state of the marine power generation apparatus according to the present invention.

As shown in Figures 1 and 2, the present invention uses the same as the conventional jacket structure 10 installed in the sea (ocean) to supply electricity to other uses, such as islands (islands). The jacket structure 10 is to be provided with a marine power generation unit of the bracket type that can be easily installed.

To this end, a binding member 24 fixed to the jacket structure 10 is provided.

The binding member 24 is provided with two semi-circular members provided with flanges 22 at both ends, since the pillars of the existing jacket structure 10 are mostly circular. It is preferable to configure to be fixed.

At this time, the rubber packing 26 made of a rubber material between the binding member 24 and the jacket structure 10 in order to maximize the friction between the binding member 24 and the jacket structure 10 to further improve the fixing property. More preferably).

In addition, the binding member 24 is preferably fastened to each other by the fixing bolt 28a and the fixing nut 28b, for example, the fixing bolt through the flange 22 of the binding member 24 up and down 28a is fitted, and the fixing nut 28b is firmly fastened to the lower end of the fixing bolt 28a to tightly and stably fix the binding member 24 to the jacket structure 10.

The current generator 30 is fixed to an outer circumferential surface of the binding member 24. The rotation shaft 32 protrudes from the current generator 30, and a blade 34 having a propeller shape is formed on the rotation shaft 32. Is installed.

Here, the electricity generated through the current generator 30 is configured to be collected as a current collector along a cable (not shown) wired to be drawn along the jacket structure 10 through the inside of the binding member 24. Can be.

In addition, of course, the blade 34 can vary the number of the wings to 2 to 4 depending on the state of the current (current).

The working relationship of the present invention having such a configuration is as follows.

The binding member 24 having the above-described structure including the current generator 30 is fastened in consideration of the direction of the tidal current in the pillar position of the jacket structure 10 previously installed in the ocean.

That is, the binding member 24 is interposed with the pillar of the jacket structure 10 via the rubber packing 26 and then through the flange 22 of the binding member 24 to fix the fixing bolt 28a By disposing the fastening nut 28b at the lower end thereof, the installation of the simple current current generator is completed.

At this time, the binding member 24 is to be installed in the water of the jacket structure 10, in consideration of the direction of the bird to be installed in a plurality of intervals along the longitudinal direction of the jacket structure 10 from the water surface to the water. Can be.

In this way, by simultaneously installing a plurality of binding members 24 having the current generator 30 in one jacket structure 10 it is possible to maximize the power generation capacity.

In addition, there is no need to install a separate jacket structure for installing the current generator 30, it is easy to install and maintenance because only the binding member 24 to the pre-installed jacket structure.

In addition, the binding member 24 of the present invention also serves as a reinforcing material to reinforce the jacket structure 10 itself, thereby also performing a function of preventing buckling of the jacket structure 10.

As described in detail above, the present invention is easy and simple to install, low installation cost by using a structure that is already installed without separately installing the offshore structure for fixing the current generator for offshore power generation using the ocean current, The advantage of reinforcing the jacket structure itself is to prevent the buckling of the jacket structure and to provide the advantages of building offshore power generation facilities in a short time.

Claims (3)

A pair of binding members each having a semicircle with a flange formed at both ends thereof to be fastened to the underwater pillar of the jacket structure installed in the ocean; A rubber packing interposed between the binding member and the pillar of the jacket structure; A fixing bolt which fixes the pair of binding members to each other by being fastened to a fixing nut through the flange; An ocean current generator fixed to an outer circumferential surface of the binding member; Including a propeller-type blade fixed to the rotating shaft of the current generator, The binding member provided with the current generator and the blade is a jacket-attached marine power generation apparatus, characterized in that a plurality of parallel to the water from the water along the pillar of the jacket structure. delete delete

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