WO2014014226A1

WO2014014226A1 - Power generation system using pillar, tidal current power, and wind power

Info

Publication number: WO2014014226A1
Application number: PCT/KR2013/006070
Authority: WO
Inventors: 손근호; 손상철; 손세욱
Original assignee: Son Gun Ho; Son Sang Cheol; Son Se Uk
Priority date: 2012-07-14
Filing date: 2013-07-09
Publication date: 2014-01-23
Also published as: KR20140009936A

Abstract

The present invention provides a power generation system, wherein: a pillar is erected in the sea, and vertical cylindrical rotary wings are inserted into the pillar in an assembling manner such that the power generation system can be easily installed; the vertical cylindrical rotary wings are extended and installed under and above the sea surface, thereby using both tidal current power and wind power; and the rotary wings rotate only in one direction according to an angular direction of the rotary wings regardless of the flowing or blowing direction of tidal current spower or wind power, such that a large amount of electricity can be produced from a power generation device installed on an upper end portion of the pillar by using a rotational force generated from the vertical cylindrical rotary wings and the electricity is transmitted to land by using an electrical cord or a wireless transmission device, thereby enabling low installation costs, minimal malfunctions, and easy repair. Furthermore, according to the structure of the present invention, main facilities are basically blocked from the seawater, and thus bearings or main rotating parts do not have to be waterproof or watertight, thereby enabling the facilities to be conveniently installed, and since there is minimal malfunctions, the power generation system can be used for lengthy periods and this power generation system is an environmentally-friendly power generation system which does not pollute seawater.

Description

Power generation system using pillars, tidal force and wind power

The present invention can produce a stable electricity by using a power generation apparatus by changing the flow energy and the force of the wind to the rotational movement by using the force and wind power of the sea water, such as ocean currents and tidal currents.

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 flow of algae or wind blows. Since these are inherently blocked from seawater, there is no need for special waterproofing or watertightening of the bearings or the main rotating parts, which makes it easy to install the facility.

A pillar is placed in the sea, and a vertical cylindrical rotary wing is installed on the pillar, and using the tidal force and the wind power of the sea, it provides a method of transmitting power to the power generator installed at the upper end of the vertical cylindrical rotary wing. do.

According to the present invention, the pillar is placed in the sea, the vertical cylindrical rotary wing that combines the functions of the aberration and the windmill is fitted into the column, and installed below the surface of the water and above the surface of the water, and using the tidal force and the force of the wind, It is intended to produce electricity by passing it to the generator installed in the upper end.

It is easy to install as it is assembled because only the column is erected in the sea, and the vertical cylindrical rotary wing is inserted in the column. When the vertical cylindrical rotary wing is installed below the surface of the water and above the surface of the water, it is possible to use not only tidal force but also wind power at once. It rotates in only one direction regardless of tidal force or wind flow according to the direction of the angle of the rotary blades, so it can produce a lot of electricity by transmitting the rotational force generated from the vertical cylindrical rotor blades to the generator installed at the top of the column. Therefore, the installation cost is low, breakdown is easy and repair is easy. The length of the vertical cylindrical rotor blade can be adjusted freely long or short, and the part above the surface can be adjusted freely long or short. In addition, since the main component of the pillar of the present invention does not directly contact the sea water because the failure is less, it can be used for a long time, and does not pollute the sea water is an environmentally friendly power generation system.

1 is a view in which a power generating device is installed on an upper end of a double cylindrical column by using a double cylindrical column and a double cylindrical vertical rotating blade to which the technique of the present invention is applied.

Figure 2 is a vertical cylindrical rotary wing of the double cylinder type pillar and double cylinder form to which the technique of the present invention is applied.

3 is a view using a multi-stage stage type pillar and a vertical cylindrical rotary blade to which the technique of the present invention is applied, and a power generation device is installed at the upper end of the multi-stage stage type pillar.

Figure 4 is a column and vertical cylindrical rotary wing of the multi-stage stage type to which the technique of the present invention is applied.

The present invention is easy to install, because there are only a variety of bearings and vertical cylindrical rotary blades as if assembled on a column, there is only one gear device that transmits rotational force is not only high rotational force transmission efficiency, the generator is installed at the top of the column The whole system is made in one piece, so it is less expensive to manage and easier to manage. And since it is difficult to penetrate seawater to the main rotating part or bearing in structure, it is durable, does not break well, does not need special waterproofing or watertight device, and does not have any concern about environmental pollution by oil leakage.

In addition, since the column supports the rotating body rotating in the center, the diameter and length of the column and the vertical cylindrical rotating blade can be made as large as desired, as well as the number of rotating blades and the angle of the rotating blade of the vertical cylinder. You can also vary, configure and install. Vertical cylindrical rotor can use the tidal force and wind power at the same time because it can rotate the rotation direction of the rotor blade in one direction regardless of the direction of the flow or blowing of the tides or wind.

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

In Fig. 1 and Fig. 2, the double cylindrical column (1) is firmly fixed to the bottom of the sea, and raised high above the surface of the sea so that the seawater does not penetrate the main rotating parts and bearings by waves or wind, reducing celebration and rotational friction. Axial bearings (3,4) and bearings (5,6) are installed in the double cylindrical column (1), and the double cylindrical vertical cylindrical rotary wing (2) is a double cylindrical column (1) Insert in. Installation is very simple because it fits like an assembly, and it is easy to repair when it is broken or checked.

Since the double cylindrical vertical cylindrical rotary wing (2) is installed long below the water surface and above the surface of the water, the double cylindrical vertical cylindrical rotary wing (2) functions as an aberration using tidal force under the water surface and uses wind power on the water surface. It has the advantage of combining the functions of windmills, and mainly uses the powerful force of tidal force, and when the dual cylindrical vertical cylindrical rotary wing (2) rotates by the tidal force, the wind power to the tidal force as a secondary means of tidal force It can be used in addition.

Bevel gear connected to the upper portion of the double cylindrical vertical cylindrical rotary blade (2) inserted into the double cylindrical column (1) is connected to the upper portion of the double cylindrical vertical cylindrical rotary blade (2) by converting the tidal force and wind power flowing through the sea water (7) to pass. The bevel gear rotary shaft support 9 and the bearing 10 are installed on the double cylindrical column 1 to reduce the rotating friction while supporting the bevel gear rotary shaft 8. It transmits the rotational force of the bevel gear 7 to the generator shaft 14 of the generator 15 installed in the upper end of the double cylindrical column (1) through the bevel gear rotating shaft (8).

Thus, the flywheel 13 scales the rotational force transmitted by the generator shaft 14 to a stable force, and the power generator installed on the upper end of the double cylindrical column 1 using the pedestal 11 and the generator support 12. If it is transmitted to (15), the power generation device 15 is to produce electricity stably with the rotational force transmitted via the vertical cylindrical rotary blade (2) of the double cylindrical form. 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, since the double cylinder-shaped column 1 has a double structure, the main component does not directly contact the sea water, so the main rotating part or the bearing does not need a special waterproof or watertight device, and there is less trouble. 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 configuration of the power generation system using the column and the vertical cylindrical rotary vane of the present invention, the diameter and length of the double cylindrical column 1, as well as the diameter of the vertical cylindrical rotary vane 2 of the double cylindrical form And length can be made as large as you want, and the number of rotating blades (2-2) and the angle of the rotating blades (2-2) of the double cylinder-shaped vertical cylinder (2-1) can also be variously made and 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 Figures 3 and 4, the multi-stepped pillars 18 are firmly fixed to the bottom of the sea and raised above the water so that the seawater does not penetrate the main rotating parts and bearings by waves or wind, reducing celebration and rotational friction. The axial bearing 21 and the bearings 20 and 22 are installed in the column 18 having the multi-stage stage, and the upper portion of the column 18 having the multi-stage stage with the axial bearing 21 is rotated vertically. The vertical cylindrical rotary blade 19 is inserted into the pillar 18 of the multi-stage shape so as to support the wings 19. It is easy to install because it is assembled in the form of assembly and easy to repair in case of failure or inspection.

Since the vertical cylindrical rotary wing 19 is installed below the surface of the water and above the surface of the water, the vertical cylindrical rotary wing 19 functions as the aberration using a tidal force under the water, and the wind turbine uses the wind power on the water. When the vertical cylindrical rotary vanes 19 are rotated by the tidal force, the wind power may be used by adding the wind force to the tidal force.

The vertical cylindrical rotary wing 19 inserted into the multi-stage stage pillar 18 is converted to a tidal force and wind power flowing through the sea water is transmitted to the bevel gear 23 connected to the upper portion of the vertical cylindrical rotary wing (19). The bevel gear rotary shaft support 25 and the bearing 26 are installed on the multi-stage stage pillar 18 to reduce the rotating frictional force while supporting the bevel gear rotary shaft 24. It transmits the rotational force of the bevel gear 23 to the generator shaft 30 of the generator 31 installed in the upper end of the multi-stage step-shaped pillar 18 through the bevel gear rotating shaft 24.

Thus, the flywheel 29 scales the rotational force transmitted by the power generation device rotating shaft 30 to a stable force, and the power generation device installed at the upper end of the multi-stage stage type pillar 18 using the pedestal 27 and the power generating device support 28. If the transfer to 31, the power generator 31 is to produce electricity stably with the rotational force transmitted via the vertical cylindrical rotary blade (19). The electricity thus produced transmits electricity to the land using the electric line 32. If a wireless transmission technology that can later transmit electricity far more wirelessly without an electric wire is commercialized, the current of the ocean current and the strong current flow of the sea water far away from the coast using the radio transmitter 33 is more useful electricity. There are advantages available for power generation.

In addition, since the shape of the pillar 18 of the multi-stage step type is cascaded, since the main components do not directly contact the sea water, the main rotating parts or bearings do not require special waterproofing or watertight devices, and the breakdown is less, so that they are used for a long time. It is possible and economical and does not pollute the sea water, so it is an environmentally friendly power generation system.

In addition, in the above description of the configuration of the power generation system using the column and the vertical cylindrical rotary vane of the present invention, the diameter and length of the vertical cylindrical rotary vane 19 as well as the diameter and length of the multi-stage stage type pillar 18 It can be made as large as possible, the number of rotary blades (19-2) and the angle of the rotary blades (19-2) of the vertical cylinder (19-1) can also be variously made and 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.

It can be used in any kind of sea and cost less to install and repair, and the present invention is the main structure of the main part of the rotation or bearing because the contact with sea water is blocked, so that lubricants that can flow out of the rotation or the bearing to the sea Since the inflow is blocked, since it is a true eco-friendly power generation system without pollution of the sea due to the oil component, the industrial availability is sufficient.

Claims

In the power generation system using tidal force and wind power using pillars and vertical cylindrical rotor blades,

A pillar (1) having a double cylindrical shape that is firmly fixed to the bottom of the sea and raised high above the water so that seawater does not penetrate the main rotating parts and bearings by waves or wind;

A vertical cylindrical rotary blade 2 for converting tidal currents and wind power into a rotating force and rotating in a constant direction;

Axial bearings 3 and 4 and bearings 5 and 6 which reduce frictional forces due to the weight and rotational force of the vertical cylindrical rotary blade 2;

A bevel gear 7 and a bevel gear rotating shaft 8 and a power generator rotating shaft 14 which are connected to an upper portion of the vertical cylindrical rotary blade 2 to transmit a generated rotational force;

A bevel gear rotating shaft support 9 and a bearing 10 for reducing the rotating friction 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 15 installed on the upper end of the column 1 by using the pedestal 11 and the generator supporter 12 based on the stable rotational force of the flywheel 13 to produce electricity;

Electric power line (16) and radio transmission device (17) for transmitting the produced electricity to the land and the power generation system for producing electricity by using a tidal force and wind power.
In the power generation system using tidal force and wind power using pillars and vertical cylindrical rotor blades,

A multi-stage-stage pillar (18) firmly fixed to the bottom of the sea and set high above the water so that the sea water does not penetrate the main rotating parts and bearings by waves or wind;

Vertical cylindrical rotary blades 19 to convert the tidal force and wind power of the sea water into a rotational force and rotate in a predetermined direction;

An axial bearing 21 and bearings 20 and 22 which reduce frictional force due to the weight and rotational force of the vertical cylindrical rotary blade 19;

A bevel gear 23 and a bevel gear rotating shaft 24 and a power generating device rotating shaft 30 which are connected to an upper portion of the vertical cylindrical rotary blade 19 to transmit a generated rotational force;

A bevel gear rotating shaft support 25 and a bearing 26 for reducing the rotating friction while supporting the bevel gear rotating shaft 24;

A flywheel 29 which scales the rotational force transmitted via the bevel gear 23 to a stable rotational force;

A generator 31 installed on the upper end of the column 18 using the pedestal 27 and the generator support 28 based on the stable rotational force of the flywheel 29 to produce electricity;

Electric pole (32) and a radio transmission device (33) for transmitting the produced electricity to the land and a power generation system for producing electricity by using a tidal force and wind power.