KR101058712B1 - Wind power amplification and reverse resistance eliminator for vertical wind power generation - Google Patents

Abstract

The present invention relates to a wind power amplification and reverse resistance removing device for vertical wind power generation, and more specifically, is installed rotatably on a vertical rotation axis is freely rotated according to the wind direction, the wind toward the rotary blade portion that rotates in reverse to the wind direction Blocking the incident is characterized in that only the forward rotational force by the wind is applied to the vertical axis of rotation.

According to the present invention, the wind is prevented from being incident toward the rotary blade portion that rotates in the reverse direction to minimize the resistance due to the reverse rotation of the rotary blades and to the rotary blade portion that rotates forward with respect to the wind direction through the inclined windshield. Since the wind is concentrated and incident, there is an effect that can increase the mechanical conversion efficiency by maximizing the forward rotational force of the rotor blades.

Wind power, wind power, vertical axis, efficiency

Description

Apparatus for adding wind power and for removing wind friction for vertical wind power generation}

The present invention relates to a wind power amplification and reverse resistance removing device for vertical wind power generation, and more particularly to remove the reverse resistance to the wind by blocking the incidence of the wind to the rotor blade portion that rotates in the reverse direction to the wind direction The present invention relates to a wind power amplification and reverse resistance removing device for vertical wind power generation that can maximize the power production efficiency by the wind by allowing the wind to be applied only to the rotor blade rotating in the forward direction to the wind direction.

Wind power generation refers to a power generation method in which wind energy is converted into mechanical energy (rotational power) through a rotating shaft using a windmill, and the mechanical energy is converted into electrical energy by driving a generator to obtain power. It is not only the most economical among the new renewable energy sources, but also has the advantage of being able to generate power using the wind, a clean energy source for unlimited use, and actively invested not only in Europe where the wind power industry was developed but also in the Americas and Asia recently. It is happening.

Particularly, wind power generation has cost-effective aspects such as improving the price competitiveness of electricity production costs and minimizing the required area of power generation systems, and the social and environmental aspects such as protecting the global environment such as alternative energy sources and fogging of fossil energy depletion. In addition, the government is actively supporting the dissemination of wind power generation due to economic advantages such as stability of supply and reduction of dependence on energy imports. Accordingly, it is expected that the growth of wind power generation in Korea will increase in the future.

Such wind power generation can be classified into a horizontal wind power generator in which the rotating shaft is installed horizontally with respect to the ground and a vertical wind power generator in which the rotating shaft is installed perpendicular to the ground according to the direction of the rotation axis of the blade. Compared to the vertical type, the horizontal wind power generator is more efficient and stable, so most of the commercial wind farms have been applied to the horizontal wind generator.

The above-described horizontal wind power generator has the advantage of realizing high power generation efficiency in the most general form, but it is difficult to smoothly generate power in areas where the wind direction is frequently changed, and expensive installation is possible because the main parts including the rotor are installed at a high level. Not only is it expensive, its maintenance is not easy, and it has a disadvantage that is structurally vulnerable to strong winds such as typhoons.

Compared with the shortcomings of the horizontal wind power generator, the vertical wind power generator can generate power regardless of the direction of the wind. Since the main components such as the gearbox and the generator are installed on the ground, the installation cost is low and the maintenance is performed. Has the advantage of being easy.

Nevertheless, the horizontal power generator is preferred as described above because the vertical power generator is less efficient than the horizontal power generator.

This is a structural problem of the vertical wind turbine, because the blades rotate in a plane parallel to the wind, unlike the horizontal generator in which the blade rotates in a plane perpendicular to the wind direction.

That is, as shown in Figure 1, the conventional vertical wind power generator structurally converts the energy of the wind into the mechanical rotational force of the rotating shaft while one side (a) of the rotating blade rotates forward by the wind (W) On the other side of the rotary blade (b) is a reverse rotation with respect to the wind (W) acts as a resistance to the rotation of the rotary shaft will have to deteriorate the conversion efficiency of mechanical energy.

Recognizing the problems of power generation efficiency of the vertical wind turbine, various technologies have been developed to reduce the resistance. It was to receive less.

However, since the shape deformation technology of the existing rotary blade has a limitation in reducing the resistance, it is difficult to greatly increase the power generation efficiency. Therefore, it is urgently required to develop a technology capable of removing the reverse resistance to the wind direction.

The present invention has been made to solve the above-described problems, the object of the present invention is to prevent the wind from entering the rotating blade portion that rotates in the reverse direction with respect to the wind direction irrespective of the shape of the rotary blade to the rotary shaft by itself It is to provide a vertical wind power amplification and reverse resistance removing device that can increase the mechanical conversion efficiency by only the forward rotational force to the wind.

Wind turbine for vertical wind power generation and reverse resistance removing device according to the present invention for achieving the above object is rotatably installed on the vertical axis of rotation of the vertical wind power generator is free to rotate according to the wind direction, the reverse direction to the wind direction It is characterized in that only the forward rotational force by the wind is applied to the vertical axis of rotation by blocking the wind is incident to the rotary blade portion.

The vertical wind power amplification and reverse resistance removing device, the horizontal support coupled to the coaxial freely rotatable to the vertical axis of rotation, extending horizontally longer than the rotation radius of the rotary blades on both sides of the vertical axis of rotation, and Wind vane plate formed at the rear end of the horizontal support to position the horizontal support in parallel with the wind direction, extending inclined at a predetermined angle from the front end of the horizontal support to block the incidence of wind toward the rotor blades that rotate in the reverse direction to the wind direction It may include a windshield plate, and a balance maintaining plate extending inclined symmetrically with the windshield plate at the rear end of the wind direction plate.

In addition, a vertical wind power amplification and reverse resistance removal device, the both ends are coupled to the windshield and the wind direction plate while receiving a sealed portion of the rotary wing that rotates in the reverse direction to the wind inside the air to the rotary wing portion. It may further include a windshield to block the incident.

Here, the windshield may have a semi-cylindrical shape, and the windshield may be formed to extend at an angle of 45 ° toward a rotary wing portion that rotates in a reverse direction to the wind direction at the front end of the horizontal support.

Vertical amplification wind power generation and reverse resistance removing device according to the present invention,

By preventing wind from being incident toward the rotor blade portion which rotates in the reverse direction with respect to the wind direction around the axis of rotation, it is possible to increase the mechanical conversion efficiency by minimizing the resistance caused by the reverse rotation of the rotor blade.

In addition, since the wind is concentrated and incident toward the rotary blade portion that rotates forward with respect to the wind direction through the inclined windshield, it is possible to increase the mechanical conversion efficiency by maximizing the forward rotational force of the rotary blade.

In addition, it is irrelevant to the shape of the rotary blade, and can be installed without adding structural changes to the rotating shaft, there is an effect that can be easily installed and used in the existing vertical wind turbine without additional cost.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the technical features of the present invention may be unnecessarily obscured as a matter already known to those skilled in the art, such as a known function or a known configuration, in detail The description will be omitted.

2 is a perspective view of the wind power amplification and reverse resistance removing apparatus 1 according to an embodiment of the present invention, Figure 3 is a plan view of Figure 2, Figure 4 is a side view of Figure 2, Figure 5 is a windshield in Figure 2 It is a perspective view of the wind power amplification and reverse resistance removal apparatus 1 with the cylinder 50 further installed, and FIG. 6 is a top cross-sectional view of FIG.

Wind amplification and reverse resistance removing device 1 according to the present invention is rotatably installed on the vertical axis of rotation (2) is free to rotate in accordance with the wind direction, the wind is incident toward the rotary blade (3) portion that rotates in the opposite direction to the wind direction It is a device for blocking only the forward rotational force by the wind to the vertical rotation shaft (2).

To this end, as shown in the drawings, the wind amplification and reverse resistance removing apparatus 1 according to an embodiment of the present invention is a horizontal support 10, a wind direction plate 20, and a windshield plate ( 30) and the balance maintaining plate 40, and may further include a windshield body 50 to supplement the function of the windshield plate 30.

In the following description of the configuration of the present invention in detail, the wind blowing side to the front and the opposite side to the rear to express.

The horizontal support 10 is installed to extend in both the front and rear from the bearing rotating portion 11 coupled to the vertical rotation shaft (2).

The bearing rotating part 11 supports the horizontal support 10 so as to rotate freely about the vertical rotation shaft 2, and thus the horizontal support 10 is independent of the rotation of the vertical rotation shaft 2. It is free to rotate according to the wind direction.

The horizontal support 10 extends longer than the rotation radius of the rotary blade 3 so as not to interfere with the rotation of the rotary blade (3).

The horizontal support 10 is preferably installed in a pair on the upper side and the lower side of the rotary blade (3).

The wind direction plate 20 is formed at the rear end of the horizontal support 10 (more specifically, the horizontal support 10 extending to the rear side), and the horizontal support 10 is always parallel to the wind direction according to the change of the wind direction. Function to maintain.

To this end, the wind direction plate 20 is preferably formed in the form of a vertical plate having a certain area so that the rear end of the horizontal support 10 can be affected by the wind well.

The windshield 30 is formed at the front end of the horizontal support 10 (more specifically, the horizontal support 10 extending toward the front side), the wind toward the portion of the rotary blades that rotate in the opposite direction to the wind direction It functions to block incident.

To this end, the windshield plate 30 is preferably formed to extend inclined toward the rotary blade (3) portion of the reverse rotation from the horizontal support 10, the inclination angle is preferably approximately 45 degrees.

The balance maintaining plate member 40 is formed at the rear end of the wind direction plate member 20, and is formed to be inclined at an angle symmetric to the windshield plate member 30, thereby maintaining balance with the front windshield plate member 30. The wind amplification and reverse resistance removing device 1 according to the present invention together with the wind direction plate 20 functions to always have a position parallel to the wind direction.

Here, the balance maintaining plate member 40 is inclined symmetrically with the windshield plate member 30, and is located at the rear end side of the rotary blade part 3 that rotates in a forward direction with respect to the wind direction. 3) The wind incident to the site is moved to the rear after applying the rotational force to the rotary blade (3) the balance plate 40 may be a barrier, in this case the wind flow is not smooth rotation blade (3) Will not be able to properly transmit the forward torque.

Therefore, the balance maintaining plate 40 needs to be spaced apart at a sufficient distance rearward from the portion of the rotary blade 3 that rotates forward so as not to interfere with the movement of the wind. For this purpose, the horizontal direction of the wind direction plate 20 It is preferable to form the direction length L long.

The windshield plate 30 and the balance plate 30 is also preferably formed in the form of a vertical plate having a constant area, such as the wind direction plate 20.

The windshield body 50 is for supplementing the windshield plate 30 to more effectively block the incidence of wind incident on the rotary blade 3 to rotate in the reverse direction, the rotary blade 3 to rotate in the reverse direction It is housed inside and sealed.

To this end, the windshield body 50 is made of a substantially semi-cylindrical shape of the upper and lower sides closed, the front end is fixed to the windshield plate 30 and the rear end is preferably fixed to the wind direction plate member 20. .

As described above, the windshield body 50 completely blocks the up and down sides of the rotary blades that rotate in the reverse direction, thereby preventing the wind from being incident, thereby minimizing the influence of wind on the rotary blades 3 that rotates in the reverse direction. .

Reference numeral 60 in the above drawings is an axial support for supporting the load received by the weight of the overall structure of the bearing rotating portion 11 installed on the vertical rotating shaft (2),

70 is a supporting structure for supporting the weight of the windshield plate 30, the balance plate 40 and the like spaced apart from the vertical rotation shaft (2).

The operation of the wind amplification and reverse resistance removing device according to an embodiment of the present invention having the above-described configuration will be described briefly as follows.

7 and 8 are plan views illustrating the flow of wind in the wind amplification and reverse resistance removing apparatus according to an embodiment of the present invention according to the change in the wind direction.

As shown in FIG. 7, when the wind blows, the wind amplification and reverse resistance removing device 1 rotates in a direction parallel to the wind direction, that is, the wind direction.

Thus, the wind (W1) incident toward the portion (3a) of the rotary blade that rotates in the reverse direction with respect to the wind direction of the wind amplification and reverse resistance removing device 1 according to the present invention in a state parallel to the wind direction is a rotary wing It is blocked by the windshield plate 30 positioned in front of the portion 3a and is turned toward the portion 3b of the rotary blade which is turned along the inclined surface of the windshield sheet 30 and rotates in the forward direction.

Therefore, the rotor blade portion 3b that rotates in the forward direction changes the direction by the windshield 30a and the incident wind W1 is added to the wind W2 that is originally incident to rotate by stronger wind power. do.

And the wind (W1, W2) is applied to the rotary wing portion (3b) in the forward direction as described above to maintain a smooth flow without being affected by the balance plate 40 is far enough apart.

FIG. 8 illustrates the operation of the wind amplification and reverse resistance removing device 1 in a state in which the wind direction is changed in FIG. 7, wherein the wind amplification and reverse resistance removing device 1 is again changed to the wind direction and the wind direction. Rotated in a parallel position, the same as described above to operate to block the wind incident to the rotary blade portion of the reverse rotation.

In this way, the wind amplification and reverse resistance removing device 1 according to the present invention maximizes the forward rotational power while minimizing the reverse rotational resistance constantly regardless of the change in the wind direction, thereby efficiently saving the energy of the wind and mechanical energy. It can be seen that it can be converted to.

Although the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the above-described embodiments, and equivalent configurations modified or changed by those skilled in the art may be described. It will be said that it does not go beyond the scope of thought.

1 is an exemplary view illustrating a rotation state of a rotary blade for wind power of a conventional vertical power generator,

2 is a perspective view of the wind amplification and reverse resistance removing apparatus according to an embodiment of the present invention,

3 is a plan view of FIG.

4 is a side view of FIG. 2;

FIG. 5 is a perspective view illustrating a wind amplification and reverse resistance removing device in a state in which a windshield is further installed in FIG. 2;

6 is a plan sectional view of FIG. 5;

7 and 8 are plan views illustrating the flow of wind in the wind amplification and reverse resistance removing apparatus according to an embodiment of the present invention according to the change in the wind direction.

＊ Explanation of symbols on major part of drawing ＊

1: Wind power amplification and reverse resistance eliminator

2: vertical axis of rotation

3: rotary wing

10: horizontal support

20: Wind direction board

30: shading board

40: balance plate

50: car wind cylinder

Claims (5)

delete In the vertical wind power generating device that generates electricity by the rotational force of the vertical rotating shaft coupled to the rotary blades, A horizontal support coupled to the vertical rotation shaft so as to be freely rotatable and extending longer than a rotation radius of the rotation blade to both sides of the vertical rotation shaft; A wind direction plate formed at a rear end of the horizontal support so that the horizontal support is positioned parallel to the wind direction; A windshield plate extending inclined at a predetermined angle from a front end of the horizontal support to block wind from being incident toward a rotary blade portion that rotates in a reverse direction to the wind direction; And Including a balance maintaining plate extending inclined symmetrically with the windshield in the rear end of the wind direction plate material, including, A wind amplification and reverse resistance removing device for vertical wind power generation, characterized in that the wind is prevented from being incident toward the rotary blade portion in the reverse direction to the wind direction so that only the forward rotational force by the wind is applied to the vertical axis of rotation. 3. The method of claim 2, Both ends of the windshield plate and the wind vane plate coupled to the wind blade body to accommodate the inside of the rotary blade portion that rotates in the reverse direction in the wind direction to block the wind incident to the rotary blade portion; characterized in that it further comprises a; Wind power and reverse resistance removal device for vertical wind power generation. The method of claim 3, The wind turbine is a vertical wind power amplification and reverse resistance removing device, characterized in that having a semi-cylindrical shape. 3. The method of claim 2, The windshield is a vertical wind power amplification and reverse resistance removing device, characterized in that extending inclined 45 ° toward the rotary blade portion that rotates in the reverse direction to the wind direction in front of the horizontal support.

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