KR102068128B1 - Wind power generation module and wind power generation system - Google Patents

Abstract

The present invention relates to a wind power generation module and a wind power generation system, and more specifically, to a wind power generation module and a wind power generation system, which control the flow of air by a first guide and a second guide, can increase wind power generation efficiency by increasing the speed of air through a structure having an air discharge part having a smaller area than an air inlet, and can effectively perform wind power generation even if a wind direction is changed due to the formation of a multi-sided frame.

Description

Wind power generation module and wind power generation system {WIND POWER GENERATION MODULE AND WIND POWER GENERATION SYSTEM}

The present invention relates to a wind power generation module and a wind power generation system, and in more detail, through the structure to control the flow of air by the first guide and the second guide, forming an air discharge portion having a smaller area than the air inlet By increasing the air, the wind power generation efficiency can be increased, and a multi-faceted frame is formed to provide a wind power generation module and a wind power generation system that can effectively perform wind power even if the wind direction is changed.

In general, the wind power generation system is a technology for producing electric power by converting the wind force into rotational force, a system for converting wind energy into mechanical energy and driving the generator to produce power. The wind power generation system has the advantage of more efficient use of the site compared to other power generation systems and eco-friendliness with no pollution and waste, whereas wind energy is not possible in the regions where wind speed is low or even if power generation is made. There is a disadvantage in that the efficiency of converting to electrical energy is very low.

Such a conventional wind power generation system is being developed in a structure that can maximize the efficiency of natural wind, and as the Korean Patent No. 10-0810990, by effectively concentrating the wind blowing from various directions to accelerate the wind speed even at low speed wind There is a need for a technology capable of realizing and inducing an optimum wind angle to increase wind power generation efficiency.

Conventional wind power generation system as described above is not possible to install a steady electricity by using the wind caused by natural phenomena and not easy to attach and detach, in order to increase the efficiency of wind power to increase the height of the tower or the size and number of blades In order to increase the problem, the entire structure must be changed.

Accordingly, there is a demand for a wind power generator having a simple structure and effectively concentrating wind to increase wind power generation efficiency and improving stability.

Republic of Korea Patent Registration 10-1571766 (Invention name: wind power generation module and modular vertical axis wind power generation device having the same)

The present invention has been made to solve the problems described above, the object of the present invention is to control the flow of air by the first guide and the second guide, and to form an air outlet having a smaller area than the air inlet It is to provide a wind power generation module and a wind power generation system that can increase the wind power through the structure to increase the wind power generation efficiency, and even if the wind direction is changed by forming a frame having a multi-sided wind power generation.

In addition, the object of the present invention is that the first guide is provided with the blade in the region between the end of the first guide from the frame, the guide is formed so that the air exhaust portion is biased in the direction of the blade rotation, as the guide goes from the outside to the inside It is to provide a wind power generation module and a wind power generation system that can improve the wind power generation efficiency by smoothing the rotation of the blade, including the separation guide, two plates that are separated from each other.

In addition, an object of the present invention is the air inlet and the air outlet is in the form of a square, the guide is connected to the plate form, it is easy to manufacture, the mounting portion and the guide plate for mounting the electrical components on one side of the frame is provided and the rest Guides are formed on all sides to provide wind power modules and wind power generation systems in which the electrical components required for power generation can be mounted with the frame minimized to block air inflow.

In addition, an object of the present invention is to provide a wind power generation module and a wind power generation system that is provided with a solar power generation unit on the upper side of the frame and solar power generation with wind power generation.

In addition, an object of the present invention is that the wind power generation module can be stacked in two or more in the height direction, one layer or two or more stacked laminates in the height direction is located adjacent to each other and fixed through the fixing portion can significantly increase the amount of power generated It is yet to provide a wind power generation module and a wind power generation system capable of securing structural stability.

Wind power generation module (M) of the present invention has a polyhedral cross-section cross-section frame 100 is formed with an air inlet 101 is a flow air; The first guide 111 and the end of the first guide 111 is formed in the form of a plate extending inclined inwardly from the edge of the frame 100, the air discharge portion 102 is hollowed a predetermined area A guide (110) including a second guide (112) extending inwardly from an edge of the frame (100); It includes a blade 200 including a rotating shaft 210 formed in the height direction in the center of the cross section of the frame 100, and a plurality of rotary blades 220 protruding in the circumferential direction from the rotating shaft 210 It features.

In addition, the air discharge portion 102 is characterized in that the first guide 111 is formed to be biased in the rotation direction of the blade (200).

In addition, the wind power generation module (M) further comprises a separation guide 120 for connecting the air inlet 101 and the first guide 111 to divide the air flow into two in the rotation direction of the blade 200. It is characterized by.

In addition, the separation guide 120 is a first separation guide 121, which is a plate that is separated from the air inlet 101 to the air discharge unit 102 side so that the two air discharge unit 102 region to be separated further narrower And a second separation guide 122, wherein the first separation guide 121 and the second separation guide 122 are inclined in the rotation direction of the blade 200, respectively, and have different inclinations. .

In addition, the second guide 112 is characterized in that the protrusion guide 130 is further formed to protrude inward from the end.

In addition, the wind power generation module (M) is characterized in that the mounting portion 300 for mounting electrical components in a predetermined region of one surface of the frame 100 is formed.

In addition, the wind power generation module M has the first guide 111 and the first separation guide 121 on one side in the rotational direction of the blade 200 of the surface on which the mounting portion 300 of the frame 100 is formed. It is formed, characterized in that the mounting portion 300 is provided adjacent to the first separation guide 121.

In addition, the wind power generation module (M) is characterized in that the solar power generation unit 500 is further provided on the upper side of the frame (100).

On the other hand, the wind power generation system 1000 of the present invention uses the wind power generation module (M) as described above, wherein the plurality of wind power generation modules (M) are located adjacent to each other, fixed through the fixing portion (T) It is characterized by.

In addition, the wind power generation system 1000 is characterized in that the wind power generation module (M) is stacked two or more in the height direction.

Accordingly, the wind power generation module and the wind power generation system of the present invention regulate the flow of air by the first guide and the second guide, and increase the air through the structure to form an air discharge portion having a smaller area than the air inlet It is possible to increase the wind power generation efficiency, even if the direction of the wind is changed to form a frame having a multi-sided, there is an effect that can effectively perform the wind power generation.

In addition, the wind power generation module and the wind power generation system of the present invention, the first guide is provided with the blade in the region between the end of the first guide from the frame, the guide is formed so that the air exhaust portion is biased in the direction of the blade rotation, guide Including the separation guide which is separated from the outer side to the inner side from the two plates, the rotation of the blade more smoothly has the effect of increasing the wind power generation efficiency.

In addition, the wind power generation module and the wind power generation system of the present invention, the air inlet and the air discharge unit has a rectangular shape, the guide plate is connected to the plate shape, easy to manufacture, the mounting portion for mounting the electrical components on one side of the frame And the guide plate is provided and guides are formed on all the other sides, the electrical components required for power generation has the effect that the frame can be mounted to minimize the air inlet block.

In addition, the wind power generation module and the wind power generation system of the present invention is provided with a solar power generation unit on the upper side of the wind power generation and there is an effect capable of solar power generation.

In addition, in the wind power generation module and the wind power generation system of the present invention, the wind power generation module may be stacked in two or more in the height direction, and one or two or more stacked laminates in the height direction are positioned adjacent to each other and fixed to each other through a fixing part. While the power generation amount can be significantly increased, there is an effect of ensuring structural stability.

1 and 2 are a perspective view and a cross-sectional view AA 'of the wind power generation module according to the present invention.
3 and 4 are another perspective view and the BB 'direction cross-sectional view of the wind turbine module according to the present invention.
5 is another perspective view of the wind power generation module according to the present invention.
6 and 7 are perspective views of the wind power generation module according to the present invention.

Hereinafter, the wind power generation module M and the wind power generation system 1000 having the characteristics as described above will be described in detail with reference to the accompanying drawings.

1 and 2 are a perspective view and a cross-sectional view along the AA 'direction of the wind power generation module according to the present invention, Figures 3 and 4 are another perspective view and a BB' direction cross-sectional view of the wind power generation module according to the invention, Figure 5 Another perspective view of the wind turbine module according to Figure 6 and Figure 7 is a perspective view of the wind turbine module according to the present invention.

The wind power generation module M of the present invention includes a frame 100, a guide 110, and a blade 200.

The frame 100 is a basic body forming the wind power generation module (M) of the present invention, in Figures 1 to 5, but has shown an example having a rectangular cross-section of the four sides, the wind power generation module (M) of the present invention Silver blade 200 may be in the form of having five or six surfaces in consideration of the size, etc., may include all of the cross-section polyhedral form. In addition, the frame 100 has only a portion forming a corner, and the air inlet portion 101 through which the air is introduced is formed in each side is hollow.

The guide 110 is a part which protrudes inwardly from the air inlet 101 of the frame 100 to guide the air, and includes a first guide 111 and a second guide in which an air discharge part 102 is formed. (112).

The first guide 111 is in the form of a plate extending inclined inward from the edge of the frame 100, the air discharge portion 102 is hollow is formed a predetermined area. At this time, the air discharge portion 102 is formed in a smaller area than the air inlet portion 101, is formed to be biased in the rotational direction of the blade (200). The inclination of the first guide 111 is positioned as close as possible within the range that does not prevent the mounting and rotation of the blade 200, guides the wind 110 to discharge the air formed in the first guide 111 It is preferable to be able to transfer air to the blade 200 through the portion (102).

The second guide 112 is a portion extending from an edge adjacent to an edge where the first guide 111 extends to support an end of the first guide 111.

At this time, the first guide 111 is preferably provided with the blade 200 in the region between the end of the first guide 111 from the frame 100. In other words, in the region where the first guide 111 is formed, that is, the area where the end of the first guide 111 is vertically connected from the frame 100 on the side where the first guide 111 extends. The blade 200 is provided, the air discharge portion 102 formed in the first guide 111 is formed to be inclined in the rotational direction of the blade 200 to increase the wind, and facilitate the rotation of the blade 200 Let's do it. Through this, the wind power generation module (M) of the present invention can significantly increase the amount of wind power.

In addition, the second guide 112 may further include a protrusion guide 130, as shown in FIGS. 3 and 4, in order to more easily transfer wind to the blade 200. The second guide 112 forms the same surface as the plate shape forming the second guide 112, and further protrudes inward from the side connected to the end of the first guide 111.

The guide 110 including the first guide 111 and the second guide 112 blocks one surface of the frame 100, but an air discharge part 102 is formed in the first guide 111. The flow of air is guided 110, and the portion to increase the wind, it is preferable that the formation height of the blade 200 or greater than.

In addition, the guide 110 may further include a third guide 113 supporting the upper side of the first guide 111 and the second guide 112 and a fourth guide 114 supporting the lower side. .

Meanwhile, the air discharge unit 102 may further include a separation guide 120 connecting the air inlet unit 101 and the first guide 111 to divide the air flow into two. At this time, the separation guide 120 may be in the form of a plate that is separated from the air inlet portion 101 toward the air discharge portion 102 so that the two air outlet portion 102 to be separated narrower. . More specifically, the first separation guide 121 and the second separation guide 122 are formed to be inclined in the rotation direction of the blade 200, respectively, from the side on which the air inlet 101 is formed, are formed to have different inclinations do.

In particular, when the plate located on one side in the rotation direction of the blade 200 is assumed as the first separation guide 121 and the plate located on the other side as the second separation guide 122, the second separation guide 122 is It is preferable that the blade 200 is formed to be inclined more than the first separation guide 121 (an angle based on a line perpendicular to the air inflow portion 101 is larger). Through this, the wind power generation module (M) of the present invention has the advantage of increasing the wind power generation efficiency by more smoothly the rotation of the blade 200.

The blade 200 is formed to include a rotary shaft 210 is formed long in the height direction in the center of the cross-section of the frame 100, and a plurality of rotary blades 220 protruding in the circumferential direction from the rotary shaft 210. .

On the other hand, in the wind power generation module (M) of the present invention, the mounting portion 300 may be formed on one surface of the surface of the frame 100. The mounting part 300 is a component in which electrical components for driving the wind power generation module M are mounted, and closes a predetermined region of the air inlet part 101 of the frame 100, according to the formation of the mounting part 300. The blade 200 is preferably formed in a minimum area so as not to disturb the rotation direction. In particular, the mounting portion 300 may be formed on one side in the blade 200 rotation direction to prevent the reverse rotation of the blade 200.

In the wind power generation module M of the present invention, when the mounting unit 300 is formed, the guides 110 are formed on all surfaces of the frame 100 except for the mounting surface 300. It is desirable to make it easy to generate power even when the wind direction changes.

In addition, the wind power generation module (M) of the present invention may be added to the configuration for guiding the air flow on one surface on which the mounting portion 300 is formed. In this case, as shown in Figures 1 to 4, the wind power generation module (M) of the present invention has the first guide 111 and the first separation guide 121 on one side in the rotation direction of the blade 200 The mounting unit 300 may be formed adjacent to the first separation guide 121.

Wind power generation module (M) of the present invention is not limited to that the mounting portion 300 is formed on one surface of the frame 100, separate for cost and easy operation when installing two or more wind power generation module (M) It can be installed in the place, at this time the mounting portion 300 can be installed a separate plate or space.

The wind power generation module M shown in FIG. 5 shows an example in which the solar power generation unit 500 is further provided on the upper side of the frame 100, and the solar power generation unit 500 is a photovoltaic cell. or Solar Cell) A plurality of solar cells are connected to each other in a series or parallel structure. That is, the wind power generation module (M) of the present invention is capable of solar power generation with wind power generation.

On the other hand, the wind power generation system 1000 of the present invention is a form using the wind power generation module (M) as described above. In particular, the wind power generation module (M) is in the form of a frame 100, two or more may be stacked in the height direction. Through this, the wind power generation system 1000 of the present invention has an advantage of significantly increasing the amount of wind power while minimizing a space for mounting.

In addition, in the wind power generation system 1000 of the present invention, a plurality of laminates stacked in one or more layers in the height direction may be positioned adjacent to each other and may be fixed to each other through the fixing part T. The fixing part (T) is to fix the wind power generation modules (M) to each other, it is possible to further increase the structural stability.

The wind power generation system 1000 illustrated in FIG. 6 has a form in which four unwinded wind power generation modules M are fixed by the fixing unit T, and the wind power generation system illustrated in FIG. 1000 shows an example in which the three wind power generation modules M form one stack, and the three stacks are spaced apart from each other, and are fixed to each other through the fixing portion T. In addition, the wind power generation system 1000 of the present invention may further form a row of wind modules or stacks in parallel. In addition, in the wind power generation system 1000 of the present invention, the number of stacks, the number of stacks, and the method of the wind power generation module M may be modified in various ways.

As described above, in the present invention, the wind power generation module M and the wind power generation system 1000 may be stacked using the frame 100, and the wind power generation may be performed by increasing the air speed through a simple structure using the guide 110. Efficiency can be increased, even if the frame 100 having a multi-face is formed, there is an advantage that can effectively perform wind power generation even if the wind direction is changed.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, of course, various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: Wind Power System
M: wind power module
100: frame
101: air inlet 102: air outlet
110: the guide
111: first guide 112: second guide
113: third guide 114: fourth guide
120: separation guide
121: first separation guide 122: second separation guide
130: protrusion guide
200: blade
210: axis of rotation
220: rotating blade
300: mounting portion
500: solar power generation unit
T: Fixed part

Claims (10)

A frame 100 having a polyhedral cross section and having an air inlet 101 through which air is introduced;
The first guide 111 and the end of the first guide 111 is formed in the form of a plate extending inclined inwardly from the edge of the frame 100, the air discharge portion 102 is hollowed a predetermined area A guide (110) including a second guide (112) extending inwardly from an edge of the frame (100);
A separation guide 120 connecting the air inlet 101 and the first guide 111 to divide the air flow into two in the rotation direction of the blade 200;
A blade (200) comprising a rotating shaft (210) formed in a height direction at the center of the frame (100) cross section, and a plurality of rotating blades (220) protruding in an outer circumferential direction from the rotating shaft (210); And
It includes a mounting portion 300 for mounting the electric component in a predetermined region of one side of the surface of the frame 100,
The separation guide 120 is a first separation guide 121 and the first separation guide 121 and the plate which is separated from the air inlet 101 to the air discharge unit 102 side so that the two areas of the air discharge unit 102 to be separated narrower It includes two separation guide 122, the first separation guide 121 and the second separation guide 122 are each formed to be inclined in the rotation direction of the blade 200, each having a different inclination,
The surface on which the mounting portion 300 is formed of the frame 100 has the first guide 111 and the first separation guide 121 formed on one side in the rotation direction of the blade 200, and the first separation guide ( Wind turbine module, characterized in that the mounting portion 300 is provided adjacent to the 121.
The method of claim 1,
The air discharge unit 102 is a wind power generation module, characterized in that the first guide 111 is formed to be biased in the rotation direction of the blade (200).
delete delete The method of claim 1,
The second guide 112 is a wind power generation module, characterized in that the protrusion guide 130 is further formed to protrude inward from the end.
delete delete The method of claim 1,
The wind power generation module (M) is a wind power generation module, characterized in that the solar power generation unit 500 is further provided on the upper side of the frame (100).
In the wind power generation system 1000 using the wind power generation module (M) of any one of claims 1, 2, 5 and 8 ,
The wind power generation system (1000) is a wind power generation system, characterized in that the plurality of wind power generation modules (M) are located adjacent to each other, and fixed through the fixing unit (T).
The method of claim 9,
The wind power generation system 1000 is a wind power generation system, characterized in that the wind power generation module (M) is stacked more than one in the height direction.

Images