KR101138496B1 - Hybrid method of wave power gererator with water collector and wind power generator with wind collector and sun photocell generator - Google Patents

Abstract

Securing clean energy domestically and internationally is a very important issue, requiring the development of new domestic technologies and preoccupation of international technologies.
The present invention is to install a buoyant structure on the sea surface of the sea, install a wave generator having a water collector on the bottom of the sea surface, install a wind generator having a wind blower on the structure, and install a solar generator above the wind blower There are three types of hybrid systems.
In addition, the new collection and the collector has a hexagonal pillar shape, the rotation axis rotates in a certain direction even in the flow of fluid in various directions, and has the feature to increase the speed of the fluid.
This result solves the problem of installation on land due to the advantage of not having wind and solar generators installed on land, and uses a new type of collector and blower. It is a hybrid system of a wave generator with a collector, a wind generator with a collector, and a solar generator with a collector, which can increase efficiency and bring about a reduction in installation cost.

Description

Hybrid method of wave power gererator with water collector and wind power generator with wind collector and sun photocell generator}

The development and acquisition of clean energy domestically and internationally is an important issue that can be recognized as a matter of human survival. It is necessary to develop new technologies and preempt new technologies that can be used universally internationally.

Renewable energy can be largely divided into wind, solar, and wave power, wind power generation must meet the wind strength conditions of the year, solar power generation should be rich in the amount of sunshine in the year, and current wave power generation is an empirical experiment. Step level.

Moreover, solar and wind power plants are difficult to select sites, and controversy over the environmental degradation and natural landscape of installations continues, and new methods are needed to continuously increase solar and wind power production. .

Principle of wave power generation includes rotating the turbine by air compression expansion in the enclosed space by the tidal flow or rotating the turbine by the inflow of the sea water into and out of the narrow space. Increasing construction costs are in the testing stage and are not yet widely available.

The present invention is to solve the problem of the site of the installation of wind and photovoltaic power generation, and to develop a new method that can be used universally by reducing the facility investment cost for the power generation of wave power generation.

The new method of the present invention is to install a wave generator having a water collector under the sea level of the buoyant structure, a wind generator having a vertical shaft blower is installed on the structure, a hybrid method of installing a solar generator above the wind generator to be.

The vertical axis wind collector and collector used in the above are hexagonal pillars, and have new features to increase the direction and speed of the fluid.

Wind generators in Korea are mainly installed on windy high mountains and beaches, while solar generators prefer a sunshine-rich region facing south and southeast-west.

As a result, the installation of wind generators will damage mountains or beaches, and the installation of solar generators will result in a reduction of farmland.

According to the present invention, if the wave generator is installed below the sea level and the wind and solar generators are installed above, there is no reduction in natural damage or farmland by the existing installation method.

The rotation axis of the wind wave and the collector used in the wave power and wind power generation used in the present invention is rotated in one direction irrespective of the flow direction of the fluid, increasing the speed of the fluid to increase the efficiency.

The present invention eliminates the natural and landscape damage caused by the installation of wind and photovoltaic generators on the ground, and reduces the design burden for power generation reduction conditions according to the surrounding environment of the power generation site, and reduces the economic burden of purchasing the power generation site.

In addition, the problem to be solved by the present invention is to improve the efficiency of the vertical axis wind power generator and wave generator, to give a feature that can be used universally by reducing the investment cost to capacity, to make a large contribution to the production of clean energy. .

To build a buoyant structure on the sea surface of the sea, install a wave generator with a hexagonal collector in the downward direction of the seawater, and install a wind generator with a vertical shaft blower on the structure. It is a hybrid method of wave power, wind power, and photovoltaic power generation by installing a solar generator on the upper side of the airflow.

The hexagonal collector and collector are provided with a partition to allow the fluid coming from six sides to collide with a portion of the wing tip that is always inside, so that the partition is collected and blower irrespective of the direction of fluid movement. The problem is solved by the feature that allows the rotating shaft to rotate in a constant direction.

The hybrid system installed on the sea according to the present invention can solve most of the problems such as securing the site of wind and solar power facilities, environmental damage, wind and solar conditions at the same time, and the installation of vertical axis wind power generation for wave power generation. The property is still applied.

The use of a vertical column blower in the form of a hexagonal column in wind power solves the problem of the adjustment of the vane angle in a horizontal generator and the need for a heavy generator to be placed on the tower, thus lowering the center of gravity. It improves and efficiency is expected because it uses wind in all directions.

1 is a perspective view of a hybrid of a wave generator with a collector and a wind generator with a collector and a solar generator according to the present invention.
FIG. 2 is a cross-sectional view between A and B of FIG. 1.

The inventors of the present invention hybrid wave power generation with hexagonal collectors and wind power generators with hexagonal pillars and solar power float the buoyant structure on the sea surface, the hexagon connected to the structure below the sea surface A wave generator having a collector in the form of a column is installed. A wind generator having a hexagonal pillar in the form of a hexagonal collector is installed on the structure, and a solar generator is installed above the collector.

The hexagonal column has a top surface and a bottom surface, and six partitions are formed so that the fluid coming from the six side surfaces of the hexagonal column faces each wing, and the six side fluids flowing through the partition of 6 are inside the partition. It is designed to collide with the wing tip.

Between the top and bottom centers of hexagonal columns, the rotary shaft of the catchment or blower is fitted, and the rotary shaft is attached with a square plate-shaped wing with curved ends, and the rotary shaft receives the fluid from six sides through the partition. Will collide with and rotate.

The partition's function is to allow the rotation axis to rotate in a constant direction regardless of the direction of movement of the fluid outside the column and to make the fluid velocity larger when impinging on the wing than passing through the sides of the hexagonal column, Improvement is expected.

On the six sides above the six sides of the hexagonal column, shutters are mounted on each side, and by adjusting the opening and closing of the shutters, the force of the fluid coming from the inlet of the six side fluids is controlled and the rotation speed is controlled. It is characterized by the safety and safety of some functions of constant voltage generation.

Photovoltaic generators should be installed on the top of the wind blowers in order to receive sunlight well, and the robustness of the installation should be guaranteed, especially against storms.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings.

A wave generator (float) having a buoyant structure (24) above sea level (21) and having a hexagonal collector (1 below in FIG. 1) connected to structure (24) from sea level (21). 19 on the left side of 1 is installed.

On the buoyant structure 24, a wind generator (19 on the right side of FIG. 1) having a hexagonal pillar blower (top 1 of FIG. 1) is installed, and on the top of the blower, a solar generator 22 is mounted on a support ( 23) is supported and installed.

The vertical axis wind collector or collector 1 is in the form of a hollow hexagonal column with a top surface 3 and a bottom surface 10 parallel to a constant height 7, with a vertex point 4 on the top surface 3. There are six points, each of which is skipped one by one to draw a dotted line between the points, and the lower surface (10) has six vertices (8). Draw a dotted line on all of them.

Of the two dotted lines starting at the vertex points of the upper face (3), one-third of the dotted line facing in the counterclockwise direction is selected as the line segment (5) and the anticlockwise of the two dotted lines starting from the vertex points on the lower face (10). Select one third of the dotted line facing the direction.

When the partition 6 is blocked between the mating line segments at the same position above and below the upper surface 3 and the lower surface 10, six partitions are formed, and six side entrances 11 in the form of hexagonal columns are formed. The fluid that is pushed into causes the compartments to change the direction and speed of the fluid.

The rotary shaft 15 of the catchment or air blower is inserted into the center 13 of the upper surface 3 and the center 16 of the lower surface 10, and one side of the square plate-shaped wing 14 is attached to the rotation shaft 15. , End portion 12 of the wing 14 is bent to receive the force of the fluid flowing through the partition well.

Two or more wings 14 are attached to the rotary shaft 15 of the catchment or air blower, and are configured to effectively receive the force of the fluid flowing through the partitions, and on one side of the rotary shaft 15 beyond the length of the hexagonal column. The gear 17 is mounted, and the gear mounted on the rotary shaft of the collector or the blower rotates the gear 18 mounted on the shaft of the generator 19 so that electric power is generated, and the generated power is generated by the power cable 20. It is supplied to the outside through.

In addition, there are six sides (2) on the upper side, and each of the six hexagonal sides corresponding to the area formed by the side (9) of the lower side (10) and the height (7) of the hexagonal column at the positions of the six sides. It is equipped with an automatic shutter for opening and closing the fluid inlet 11, it is characterized by adjusting the force of the fluid impinging on the wing 14 by adjusting the height of the shutter.

The present invention floats the buoyant structure (24) on the sea surface 21, installs a wave power generator in the sea below the structure, installs a wind power generator in the space above the structure, the sun above the wind blower The new method of installing the photovoltaic device solves the problems of the wind and photovoltaic devices installed on land, and is expected to be widely used.

The modifications of the present invention are within the scope of those skilled in the art including the features of the present invention, and such modifications are considered to be within the scope of the claims of the present invention.

1. Vertical axis wind collecting device or catchment device in the form of hexagonal column.
2. One of the six sides on the top.
3. Top view in the form of a hexagonal column.
4. One vertex of the top six vertices.
5. One of the line segments on the top.
6. One of six partitions.
7. Constant height of hexagonal columns.
8. One vertex of the six bottom vertices.
9. One of the six lower sides.
10. Bottom surface in the form of a hexagonal column.
11. One of the six doors, which are the sides of a hexagonal column.
12. Tip of the wing.
13. Center of the top surface.
14. Wings.
15. Rotation axis.
16. Bottom center.
17. Gear mounted on the rotating shaft.
18. Gear mounted on the generator shaft.
19. Generator.
20. Power cable.
21. Sea level in the ocean.
22. Solar generator.
23. Support of solar generator.
24. Floating structures.

Claims (2)

Floating buoyant structures on the sea surface, wave generators with hexagonal collectors connected to the structures under the structure, wind generators with hexagonal collectors are installed above the structures. It's about a hybrid of wave power, wind power and solar power with a photovoltaic generator above the wind.
A dotted line is drawn between all the vertex points skipped by one vertex point at each of the six top vertex points in the hexagonal column shape, and all the dotted lines between the vertex points skipped by one vertex point at each six vertex points on the bottom surface of the hexagonal column shape. ,
If one of the two dotted lines coming from the vertices is selected as a line segment, one-third of the length of the counterclockwise direction is partitioned, and a partition is formed between the upper and lower paired segments and the line segments at the top and bottom of the hexagonal column. Six partitions are made up,
The rotation axis is sandwiched between the center and the center of the upper surface and the lower surface, one side of the wing of the square plate shape is attached to the rotation axis, the end of the wing is bent to receive the force of the fluid through the partition well,
Two or more blades are attached to the rotary shaft, the rotational force of the hexagonal pillar-shaped rotary shaft is transmitted to the rotary shaft of the generator, characterized in that the power is generated in the generator,
Hybrid of wave power generator with water collector and wind generator and solar generator with house blower.

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