KR20140013953A - Electricity generation system use of modular pillar and current force and wind force - Google Patents

Abstract

The present invention relates to a power generation system using a prefabricated column, a current force, and a wind force. The power generation system using a prefabricated column, a current force, and a wind force generates power by simultaneously using the current force and the wind force so that the present invention can be installed at a low cost and be conveniently repaired by generating a large amount of electricity. The present invention can be vertically positioned by directly inserting a column into an artificial structure installed under the sea, and the column can be directly and strongly fixed to the sea bottom, a crack of a rock, or a sunken rock without a support structure.

Description

Electricity generation system use of Modular Pillar and Current Force and Wind Force}

The present invention can produce stable electric power by using the power generation device to convert the flow energy of the water and the wind power into rotational motion by using the force of the sea water such as sea currents and algae and the wind power.

Existing invention is difficult to find the place to install the facility to generate power by using the power of the current and wind power of seawater such as currents and tidal currents. Special waterproof or watertight treatment must be performed to withstand, but the present invention can be easily installed in any sea where the current flows or wind, so it can be easily installed prefabricated regardless of the installation place, the installation cost is low and the present invention Due to its structure, the main rotating facilities are basically blocked from the sea water, so there is no need for special waterproofing or watertight treatment on the bearings or the main rotating part, which makes it easy to install the facility.

After installing a solid support structure in the sea, and then assembling it in the support structure, a pillar with an empty center is inserted, and then a vertical cylindrical rotary wing is installed in the column. It provides a method of transmitting the force to the power generator installed in the upper end of the pillar.

According to the present invention, after installing the support structure firmly in the sea, assembling a pillar with an empty center, and installing a vertical cylindrical rotary wing that combines the functions of aberration and a windmill on the pillar as long as it is installed below the water surface and above the water surface. And by using the force of the tidal force and wind, to transmit the generated rotational force to the generator installed on the top of the pole to produce electricity.

It is easy to install by inserting a pillar with an empty center and assembling a vertical cylindrical rotary blade on the column as if it is assembled after installing the support structure firmly in the sea.If the vertical cylindrical rotary blade is installed above and below the water, In addition to the tidal force at the same time, there is an advantage that can also be used with wind power, and the rotational force generated from the vertical cylindrical rotary wing is rotated only in one direction regardless of the direction of the tidal force or wind flow depending on the direction of the angle of the rotor blades Since it can produce a lot of electricity by transferring it to the generator installed in the upper part, it is less installation cost, less trouble and easy to repair. It is possible to adjust the length of the water-immersed part freely in the entire length of the vertical cylindrical rotating blades. Choose from a variety of support structures that are suitable for the bottom of the sea and to secure them by covering them in the reefs below the sea, or by inserting them into deep cracks, or by anchoring to the bottom of the sea, Digging and fixing the floor, or by selecting from a variety of ways to secure the support structure is easy to install because you can fit like a pillar. Since the center is hollow, it is easy to process the lower part of the column so that it can be easily inserted into natural objects or artificial structures. Therefore, the column can be directly mounted on artificial structures installed in the sea. There is an advantage in that the pillars can be directly fixed and installed by digging or driving the reef or cracked rock crevice or the bottom of the sea. In addition, since the center of the present invention is empty in the center, the installation cost is low and easy to install, and the main structure of the pillar does not come in direct contact with the sea water, so it can be used for a long time because there is less trouble, and it does not pollute the sea water. It is an environmental power generation system.

Representative drawing is a drawing using a central hollow pillar and a vertical cylindrical rotary wing made integral with the staircase cylinder to which the technique of the present invention is applied, and a power generation device is installed in the upper end of the pillar.
1 is a vertical hollow pillar and vertical cylindrical rotary wing made integral with a stepped cylinder to which the technique of the present invention is applied.
Figure 2 is a columnar hollow column and a polygonal and circular columnar hollow form made of a cascading cylinder and cylinder integrated with the technique of the present invention.
Figure 3 is a type of uneven support structure and polygonal and circular support structure of various types to which the technique of the present invention is applied.

In the configuration of the power generation system using the prefabricated column and the vertical cylindrical rotary wing of the present invention,

In the representative drawing and the drawing 1, the convex support structure (2) is firmly fixed to the bottom of the sea, and the seawater does not penetrate the main rotating part and the bearing by the waves or the wind through the hollow center column (1) formed integrally with the cascading cylinder. Vertically made by integrating the axial bearings (4) and bearings (5,6) integrally with the hollow center to reduce them during celebration and rotational friction by fitting them to the support structure (2) by raising them above the water surface. It is installed in the cylindrical portion (1-2) to support the cylindrical rotary blade, and the vertical cylindrical rotary blade (3) is inserted into the center hollow column (1) made integral with the cascading cylinder. Installation is very simple because it fits like an assembly, and it is easy to repair when it is broken or checked.

Since the vertical cylindrical rotary wing (3) is installed long below the surface of the sea and above the surface of the water, the vertical cylindrical rotary wing (3) functions as an aberration using tidal force under the water, and has the advantage of the windmill using the wind power on the water surface. When the vertical cylindrical rotary vanes 3 are rotated by the tidal force, the wind power can be used by adding the wind force to the tidal force.

The vertical cylindrical rotor blade (3) inserted into the center hollow column (1) made integrally with the cascading cylinder is a bevel gear (7) connected to the upper portion of the vertical cylindrical rotor blade (3) by converting the tidal force and wind power flowing through the sea water (3) To pass). The bevel gear rotation shaft support 9 and the bearing 10 are installed on the hollow hollow column 1 made of a stepped cylinder and a single body to reduce the rotating friction while supporting the bevel gear rotation shaft 8. The rotating force of the bevel gear (7) is transmitted to the generator shaft (14) of the generator (15) installed on the upper end of the center hollow column (1) made integral with the stepped cylinder through the bevel gear rotating shaft (8).

In this way, the flywheel 13 scales the rotational force transmitted by the generator shaft 14 with a stable force, and uses a pedestal 11 and a generator support 12 to integrally form a stepped cylinder and a hollow column (1). When delivered to the power generation device 15 is installed at the upper end, the power generation device 15 is to stably produce electricity with the rotational force transmitted via the vertical cylindrical rotary blade (3). The electricity thus produced transmits electricity to land by using the electric line 16. If a wireless transmission technology that can later transmit electricity farther without an electric wire is commercialized, the current of the ocean current and the current of the sea water far away from the coast using the wireless transmission device 17 is more useful electricity. There are advantages available for power generation.

In addition, the structure of the hollow pillar (1) made integral with the staircase cylinder is not in direct contact with the sea water, so the main rotating part or bearing does not require a special waterproof or watertight device, as well as fewer failures It is economical to use and does not pollute the sea water, so it is an environmentally friendly power generation system.

In addition, in the above description of the construction of the power generation system using the column and the vertical cylindrical rotary vane of the present invention, as well as the diameter and length of the central hollow column 1 integrally formed with the convex support structure 2 and the stepped cylinder, as well as The diameter and length of the vertical cylindrical rotary blade (3) can be made as large as desired, and the number of rotary blades (3-2) and the angle of the rotary blades (3-2) of the vertical cylinder (3-1) are also varied and configured. Can be installed. If the direction of the rotor blades is to the left, the direction of rotation is to the right. If the angle of rotor is to the right, the direction of rotation is to the left. Because it is constant, you can use tidal force and wind power at the same time.

In the configuration of the power generation system using the prefabricated column and the vertical cylindrical rotary wing of the present invention,

Polygon and circle support, which firmly secures the staircase cylinder and the hollow center column (1, 18) integrally formed with the cylinder in Figures 2 and 3 with the hollow center column type (20). Uneven support structure (2, 2-1, 2-2, 2-3) using structure type (21) and uneven support structure (19, 19-1, 19-2, 19-3) with hollow center It is possible to select and install a supporting structure suitable for the environment of the sea bottom. That is, the shape of the support structures can be made in a polygonal or circular form, and the columns can also be made in a polygonal or circular form.

Choose a support structure from the various types of supporting structures that are suitable for the bottom of the sea and cover the supporting structures on the reef under the sea and fix them with concrete or filling, or fix them by inserting them into deep cracks or driving to the bottom of the sea. If you fix the support structure firmly by selecting from various ways to fix it by digging or fixing the bottom of the sea, it is easy to install because the pillar is inserted as if it is assembled.

In particular, the lower part of the hollow unsupported support structure (2-2, 2-3, 19-2, 19-3) can be widened, narrowed or thinned as needed to cover natural or artificial structures. It is convenient to process for easy insertion and it can be easily fixed by supplying concrete or filling to the bottom of the sea to the center of empty support structure. Centered hollow cylinders (1, 18), which are integral with cascading cylinders and cylinders, are also empty in the center, making it easy to cover or embed natural objects or artificial structures. It can be easily fixed by supplying a filling material, and it is convenient to process the bottom part (1-1, 18-1) of the hollow column at the center, or to make it very narrow or thin.

It is easy to widen, narrow or thin the hollow part below the center (1-1, 18-1) as needed, so that the artificial structure installed in the sea can be directly covered or inserted without the support structure. There is an advantage that can be installed by fixing the pillars directly to the reef or cracked rock crevice, or digging or driving the sea bottom without using the support structure.

In addition, in the above description of the construction of the power generation system using the pillar and the vertical cylindrical rotary vane of the present invention, the hollow center pillar (1, 18) and the supporting structure (2, 2-1, 2-2, 2-3, 19, 19-1, 19-2, 19-3) You can make the diameter and length as big as you want or adjust it. Not only can be easily inserted into various types of supporting structures made of polygons or circular shapes, but also different types of columns can be easily inserted using concrete or fillers to various types of supporting structures made of polygons or circles. There is this.

In the center of the hollow cylinder (18), which is formed integrally with the cylinder, the bottom of the hollow cylinder (18-1) and the center of the hollow under the cylindrical portion (18-2) supporting the vertical cylindrical rotary wing The lower part (1-1) of the polygonal column can be replaced and installed to be used in various types of supporting structures. Even if the parts 1-1, 18-1 are interchanged with each other, or widened, narrowed, or thinned, the rotating parts that are above the column are not affected at all.

Since it can be used in any kind of sea and is installed as an assembly type, it costs less installation and repair costs, and the present invention can flow out of the rotating part or the bearing because the contact with sea water is blocked at the main rotating part or the bearing. Since the lubricants are blocked from entering the sea, it is a truly eco-friendly power generation system without the pollution of the sea due to the oil content.

1: Hollow column (polygon) made of integral cylinder with cascading cylinder, 1-1: Lower part of pillar (polygon) with empty center, 1-2: Cascading cylinder supporting vertical cylindrical rotor blade, 2: Convex support Structure (polygon), 2-1: concave support structure (polygon), 2-2: convex support structure with empty center (polygon), 2-3: concave support structure with empty center (polygon), 3. Vertical cylindrical rotary blade, 3-1: vertical cylinder, 3-2: rotary blade, 4: bearing, 5: axial bearing, 6: bearing, 7: bevel gear, 8: bevel gear rotation shaft, 9: bevel gear rotation shaft support , 10: bearing, 11: pedestal, 12: generator support, 13: flywheel, 14: generator shaft, 15: generator, 16: electric cable, 17: wireless transmission device, 18: central body integral with the cylinder Empty column (round), 18-1: Lower part of the column (round) with empty center, 18-2: Vertical cylindrical rotary blade Support cylinder, 19: convex support structure (circular), 19-1: concave support structure (circular), 19-2: convex support structure (circular), 19-3: concave hollow center Support structure (circle), 20: Column type with empty center of polygon and circle, 21: Support structure type with polygon and circle.

Claims (4)

In the power generation system using tidal force and wind power using prefabricated columns and vertical cylindrical rotor blades,
Concave-convex supports (2, 2-1, 2-2, 2-3) and hollow concave-convex supports (19) using polygonal and circular support structures (21) securely anchored to the bottom of the sea. , 19-1, 19-2, 19-3);
A central hollow polygonal column (1) formed integrally with a stepped cylinder that is set high above the water so that seawater does not penetrate the main rotating part and the bearing by waves or wind;
Vertical cylindrical rotary blades (3) for converting the tidal force and wind power of the sea water into rotational force and rotates in a constant direction;
An axial bearing 5 and bearings 4 and 6 which reduce frictional force due to the weight and rotational force of the vertical cylindrical rotary blade 3;
A bevel gear (7), a bevel gear rotation shaft (8), and a power generator rotation shaft (14) which are connected to the upper portion of the vertical cylindrical rotary blade (3) to transmit the generated rotational force;
A bevel gear rotating shaft support 9 and a bearing 10 for reducing the rotating frictional force while supporting the bevel gear rotating shaft 8;
A flywheel 13 which scales the rotational force transmitted via the bevel gear 7 to a stable rotational force;
A generator that generates electricity by being installed at the upper end of the center-empty polygonal column (1) made of a stepped cylinder and integrally by using a pedestal 11 and a generator supporter 12 based on the stable rotational force of the flywheel 13. 15;
A prefabricated pillar combined with an electric cable (16) and a wireless transmission device (17) for transmitting the produced electricity to land, and a power generation system for producing electricity using tidal force and wind power. The method according to claim 1,
Produces electricity by using prefabricated pillars and hollow power poles and wind power, which are integrated with the cylinder, which is made in one piece, with the cylinder standing high above the water so that sea water does not penetrate the main rotating parts and bearings by waves or wind. Power generation system. The method according to claim 1,
The hollow center column (1), which is made in one piece, with the cascading cylinder built high above the water so that the seawater does not penetrate the main rotating parts and bearings by waves or wind, A prefabricated column that uses the lower parts (18-1) of the empty circular pillars interchangeably installed and a power generation system that generates electricity by using the tidal force and wind power. The method according to claim 2,
The lower hollow center (1-1) and the lower hollow polygonal column (1-1) and the center are formed from the hollow center column (18), which is made in one piece with the cylinder standing high above the water surface, so that the seawater does not penetrate the main rotating parts and bearings by waves or wind. Prefabricated pillars used by swapping the lower parts (18-1) of empty round pillars with each other, and a power generation system that produces electricity using tidal force and wind power.

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