KR20100086200A

KR20100086200A - Wind power generator

Info

Publication number: KR20100086200A
Application number: KR1020090005431A
Authority: KR
Inventors: 민승기
Original assignee: 민승기
Priority date: 2009-01-22
Filing date: 2009-01-22
Publication date: 2010-07-30
Also published as: KR101112776B1

Abstract

The present invention relates to a wind power generator for generating a propulsion force in which a propeller mounted on a support pillar rotates by induction of wind. Specifically, the propeller assembled around a support pillar blows around the wind turbine while passing around. This is to provide a guide to rotate. This provides a structure in which the surrounding air moves in the rotational direction by the movement of the inlet block assembled to the propeller, so that in the structure in which the propeller fixed to the rotor blades is rotated, according to the surrounding wind power By inducing and providing an increase in the level of strong winds, it is for a wind turbine of the rotary structure to generate by using it.

Therefore, the present invention is a cylindrical propeller 45 has a predetermined length so as to be rotated by the wind in the main gear 59 is assembled on the outer surface of the plurality of support pillars 48 protruding to the ground while fixed in the ground. In wind turbines,

It is provided with an inlet pipe 60 so as to protrude downward while outward from the inlet block 73 assembled at the upper side of the support pillar 48,

Fixing the fixing pin 41 of the inlet pipe 60 with a fixing ring 56,

The blower block 63 protruding downward from one side of the inflow block 73 is configured to blow the wind in the reduced area (b) of the propeller 45,

Promoting area (a) of the propeller 45 is provided with a guide wall,

The invention is provided with a direction guide key 44 protruding upward of the inflow block 73.

The jet block 63 is provided with a jet port 54 between the transfer wall 58 so that the wind is jetted to the rotary groove 42 of the propeller 45,

The inlet pipe 60 is an invention provided by fixing to the fixing ring (56) with a fixing pin (41).

Description

Wind power generators for wind guidance {omitted}

The present invention relates to a wind power induction wind power generator for reinforcing the propulsion of rotation of the propeller assembled on the support pillar by the wind induction, in detail to the wind passing while blowing around the propeller assembled around the support pillar. This is to provide a guide to rotate.

This is rotated by moving around the wind power generator assembled to the propeller, where the deceleration portion of the propeller provides an effect of moving in the opposite direction compared to the direction of the wind movement, on the contrary to the blowing block If the wind turbine is provided to be fixed to the assembly, according to the wind speed of the surrounding by inducing to provide an increase in the level of strong wind, by using it for the wind turbine of the rotary structure to generate power.

In general, the propeller that rotates by the wind is to rotate at a slower speed than the wind speed of the original wind due to the resistance of the generator itself.

At present, since the rotational force of the wind power generator is mostly generated by rotating the rotor blades by the movement force of the wind, it is possible only in an area using mountainous magnetic or coastal areas where the wind is relatively rich. It is becoming.

In addition, in order to induce the maximum rotational effect on the wind is provided with a generator as high as possible to support the pillar, the propeller is assembled in accordance with the generator is provided in the center of the support pillar most of the structure protrudes in the outward direction By providing a propeller of the situation, the effect on power generation is insignificant compared to the excessive requirement of the area.

Therefore, the present invention is provided with a wind guide on the outer edge of the propeller, the invention is configured to reinforce the power generation by increasing the maximum rotational speed by using the wind inflow block for the propeller.

In addition, the moving section of the wind power moving to the inlet block provides a section for the reverse running in the direction of the wind movement, that is, a section for the rotation interval of the deceleration section to face the injection port in the direction of the wind blowing to reinforce the rotational force on the rotor blades. For sake.

Therefore, this is a consideration of the rotor blades rotated by wind blowing in one direction, one side is divided into the rotation acceleration zone (called promotion zone) (A) and the other area is the rotation reduction zone (reduction zone) (B). In this case, the invention is to reinforce the same rotational force as the acceleration zone (a) in the reduction zone (b).

Therefore, the present invention is installed in the base to be rotated by the bearings and the like from the protruding pillar buried in the ground, while the wind turbine is installed in the support to protrude in a plurality of outward direction, generated by the rotation in the circumferential direction It is an invention that generates electricity by inducing wind.

The present invention is to provide a wind turbine for induction of wind power provided with reinforcement of the rotational force of the propeller by inducing wind power blowing at the same time as the bearing protrudes while being assembled as a bearing in the outer direction of the support pillar.

In addition, to reinforce the rotational force of the rotary structure of the wind turbine of the rotary structure, to provide to the reinforcement so as to intensively blow the wind power to the reduced area (b) in the propeller.

This is to provide for the direction of the wind power blowing the inlet connected to the inlet block is fixed according to the rotating propeller to improve the power generation by reinforcing the rotational force for the wind power.

In the wind turbine generator having a predetermined length of the cylindrical propeller 45 is rotated by the wind in the main gear 59 assembled on the outer surface of the support pillar 48 protruding to the ground while being fixed in the ground,

The inlet pipe 60 is provided to protrude downward while protruding downward from the inlet block 73 assembled at the upper side of the support column 48, and the fixing pin 41 of the inlet pipe 60 is fixed to a ring hole ( 56), and having a blow block 63 protruding downward from one side of the inflow block 73, so as to blow wind in the reduced area (b) of the propeller 45;

The promotion area (a) of the propeller 45 is provided with a guide wall and provided with a direction guide key 44 protruding upward of the inflow block 73.

In addition, the jet block 63 is provided with a jet port 54 between the transfer wall 58, so that the wind is ejected to the rotary groove 42 of the propeller 45, the inlet pipe 60 is The present invention provides a fixed pin (41) fixed to the fixing ring (56).

In addition, in the wind power generator having a cylindrical propeller 45 having a predetermined length so as to be rotated by the wind in the main gear 59 assembled on the outer surface of the support pillar 48 protruding to the ground while being fixed in the ground ,

The inlet block 73 is fixed to the upper layer of the support pillar 48, and between the inlet pipe 60 protruding from the edge of the inlet block 73 body as a connecting hose 49 and a connecting ring 40. It is connected to, the inlet pipe 60 is provided with a direction key 47 protruding from the body; Assembling between the fixing ring (56) with a fixing pin 41 to configure the inlet 46 toward the wind blowing direction, the rotor blades fixed to the support (58) to the lower side of the support pillar (48) 78) and the invention is provided by fixing the connection between the propeller 45 by the clamping (80).

The present invention provides a device for reinforcing rotational force by inducing wind blowing at the same time at the outer edge of the propeller that rotates around the support pillar for wind power generators that generate power using the wind power of the wind, thereby rotating By providing power while using the rotational force of the wind power generator to induce an increase in the rotational force of the rotating propeller to provide a reinforcement of economical efficiency.

As an invention provided to achieve the above object, as an invention for providing power according to the reinforcement of the rotational force by the propeller rotating by the windy wind, when described in detail based on the accompanying drawings, 1 is a perspective view of the main portion of the wind power generator according to the present invention, Figure 2 is a cross-sectional view taken along the line AA in Figure 1, Figure 3 is a cross-sectional view taken along the line BB in Figure 1, Figure 4 is an enlarged cross-sectional view of the CC line in FIG.

5 is a perspective view illustrating main parts of an embodiment of the present invention, FIG. 6 is a partial perspective view of the main part of FIG. 5, FIG. 7 is a cross-sectional view of the DD line of FIG. 5, and FIG. 8 is a sectional view of the EE line of FIG. 5. 9 is an enlarged perspective view of the main part in FIG. 5, FIG. 9 is an enlarged perspective view of the main part in FIG. 8, FIG. 10 is a sectional view of the FF line in FIG. 5, and FIG. 11 is an enlarged view of the main part in FIG. 5. 12 is a sectional view showing principal parts of the embodiment in FIG. 5, and FIG. 13 is a sectional view taken along the line GG in FIG. 12.

Therefore, the present invention is an invention provided to achieve the above object, in which wind blowing from a hillside or a valley mainly uses a strong wind, and is an invention for providing a multiplied wind power in a windy strong wind state. While being assembled in the bearing 59 to the outer surface of the support pillar 48 protruding to the ground while being fixed in the ground, while being assembled in accordance with the outward direction of the support pillar 48 is predetermined in the circumferential direction to be rotated by wind power It is provided to form a predetermined length and width of the propeller 45 is provided with an inclined wall 43 to match the longitudinal direction to form the rotary groove 42.

In addition, the inlet block is provided with an inlet pipe (60) formed with an inlet (46) for the inlet of the wind that is directed toward the blowing direction of the wind while being curved downward while protruding outward to the upper side of the support column (48) 73).

The size of the inflow block 73 is formed in a wider length compared to the width of the propeller 45 described above, while the inflow pipe 60 is formed by protruding a plurality of intervals in the circumferential direction at equal intervals in the outer direction Provided.

In addition, in the area larger than the width of the propeller 45 in the inlet block 73, it is provided so as to surround the reduced area (b) described, the blowing block 63 to block the resistance in the wind blowing direction. ) Is formed to protrude downwardly, but constitutes a conveying wall 58 in which a plurality of ejection openings 54 are formed inward so as to be formed in the circumferential direction of the ejection block 63, It is an invention that the wind power introduced from the inlet 46 to eject to the rotary groove 42 of the propeller 45.

Here, the inlet 46 protruding in the outward direction from the inlet block 73 has a plurality of equal intervals in the outward direction with respect to the support pillar 48 to provide the inlet pipe 60 to be provided. Fix the inlet pipe 60 with a fixing pin 41 to be provided at a predetermined interval with a fixing ring (56).

In this case, the main gear 59 and the auxiliary gear 61 are interlocked with the generator 77 to the inside of the propeller 45 so as to generate power by the rotational force rotated by the wind.

In addition, the upper end of the auxiliary support pillar 48 ′ protruding in the upper direction of the inflow block 73 is provided with a direction inducer 44 indicating a direction to the wind is formed integrally with the inflow block 73. Inlet 46 is provided to face in the direction of blowing wind.

In addition, the ejection opening 54 is projected downward from one side of the inflow block 73 so that the jet port 54 is rotated in the propeller 45 between the moving wall 58 so as to blow wind power from the deceleration portion (b) in the propellor 45. The ejection block 63 is provided with the same size as the width of the propeller 45 so as to eject in the acceleration direction.

In addition, a cylindrical guide wall 52 is provided in the outward direction of the propeller 45 to guide the wind to the maximum in the acceleration section (a) of the propeller 45.

In this case, the guide wall 52 is provided so as to steam the acceleration section according to the width and length of the propeller 45, so that the wind is concentrated in the rotary groove 42 of the propeller 45 In addition, the induction zone 68 'protrudes in the outward direction to the wind injection portion.

In addition, it provides by providing an enlarged induction band 68 protruding outward while adjusting to the width section of the blow-off block 63 to which the wind is introduced.

Therefore, the structure between the enlarged induction zones 68 and 68 ′ described above is provided with inverse trumpets in cross section to increase the inflow of wind power.

Example 1

Description of the embodiment of the wind turbine generator of the present invention described above, as described above, at the lower side of the propeller 45 assembled in the support pillar 48, a predetermined interval in the circumferential direction The cross-section is assembled to the support (58) protruding in the outward direction to maintain is provided with a plurality of <-shaped rotor blades 78 at equal intervals, but between the rotary blades 78 is connected to each other firmly fixed to the reinforcement ring Assemble (56) with a fixing pin (41).

Here, when the rotary blade 78 is rotated in the circumferential direction by the resistance of the air, the support pillar 48 to the main bearing so that the rotary blade 78 is rotated at the same time as the propeller 45 is interlocked with the support (58). Assemble to the outer side of).

In addition, the inflow block 73 described above is fixed at the upper side of the support pillar 48, and thus, of the connection hose 49 protruding at equal intervals from the outer edge of the body of the inflow block 73. At the end, the inlet pipe 60 is assembled by connecting to the connection ring 40, but the direction in which wind is blown by the direction guide 44 of the auxiliary pillar 48 'protruding upward of the support pillar 48. According to the inlet 46 of the inlet pipe 60 is guided in the direction of the wind blowing the maximum wind, the deceleration area (B) of the propeller (45) configured as one side of the inlet block 73 Providing to protrude to the lower side, the invention is to provide to blow the wind power to the propeller 45.

Here, the plurality of inlet pipes 60 assembled according to the fixing ring 56 provides reinforcement for the inlet block 73 by assembling the fixing ring 56 and the fixing pin 41.

In addition, by the clamping 80 is assembled by the main bearing to the outer surface of the support pillar 48 while being connected by the support 58 in the rotary blades 78 so that the rotational force is interlocked with each other in the propeller 45. Make up.

Therefore, when the rotary blade 78 rotates while maintaining the distance possible in the outward direction of the support pillar 48, the cylindrical copper wire is kept long accordingly, thereby reinforcing the rotational force of the propeller 45. It is an invention that provides the practicality of power generation.

In accordance with the outer edges between the upper and lower supports 58, 58 ', the cross section is an invention in which the < -shaped rotary blade 78 is assembled with a fixing pin 65.

Here, the rotary groove 42 of the assembled ferroferr 45 is configured to face in the direction of rotation of the rotor blade 78 by the wind.

And by using a separate fixing ring (55, 55 ') that is fixed to the upper and lower sides of the rotary blade 78 by the fixing pin 65 is fixed to each other in the circumferential direction.

Here, the electric power generated is configured to supply power to a generator 77 or the like provided in the auxiliary gear 61 constituted outside of the main gear 59 assembled to the support pillar 48 by a wire not shown in the drawing. Invention.

In addition, the rotor blade 78 described above is fixed to the support 58 and the fixing ring (55, 55 '), the acceleration zone caused by the wind blowing phenomenon for the rotary blade 78 rotated by wind power (b) And a reduction zone (a) to induce and reinforce the wind power, protruding downward from the fixing ring (56, 56 ') fixing the inlet pipe (60) while promoting area (outside of the rotor blades 78) A) and a reduction zone (B) are provided with respective guide walls 52 'to reinforce the rotational force by wrapping the rotation section for the rotor blade 78.

The blast furnace is an invention that provides the reinforcement of the power generation by providing a reinforcement for rotation by intensively inducing the wind blowing on the rotor blade (78).

1 is a perspective view of the main portion of the wind power generator according to the present invention

2 is a cross-sectional view taken along the line A-A in FIG.

3 is a cross-sectional view taken along the line B-B in FIG.

4 is an enlarged cross-sectional view taken along the line C-C in FIG.

5 is a perspective view of main parts of an embodiment of the main part of the present invention;

6 is a partial perspective view of the main part in FIG.

7 is a cross-sectional view taken along the line D-D in FIG.

8 is a cross-sectional view taken along the line E-E in FIG.

9 is an enlarged perspective view of the main part in FIG.

9 is an enlarged perspective view of the main part in FIG. 8;

10 is a cross-sectional view taken along the line F-F in FIG.

Figure 11 is an enlarged perspective view of the main part in Figure 5

12 is a cross-sectional view of main parts of the embodiment of FIG. 5;

13 is a cross-sectional view taken along the line G-G in FIG.

35: wind turbine 40; Connecting ring 41: Fixed pin 44: Directional guide key

45: propeller 46: inlet 47: direction key 48: support pillar

49: connecting hose 50: connecting bearing 52: guide wall 54: outlet

55,55 ': Fixing ring 56,56': Fixing ring 58,58 ': Support 59: Main gear

60: inlet pipe 61: auxiliary gear 62: rotation space 63: ejection block

64: rotation axis 68.68 ': enlarged induction zone 70: propeller 73: inflow block

75: fixed frame 77: generator 78: rotor blade 80: clamping

Claims

Fixing the fixing pin 41 of the inlet pipe 60 with a fixing ring 56,

Promoting area (a) of the propeller 45 is provided with a guide wall 52,

Wind generator for providing a wind power provided with a direction induction key (44) protruding to the upper side of the inflow block (73).

The method of claim 1,

The inlet pipe (60) is a wind turbine for wind induction provided by fixing to the fixing ring (56) with a fixing pin (41).

In addition to the provision of a direction guide key 44 to be rotated by the wind in the main gear 59 assembled on the outer surface of the support pillar 48 protruding to the ground while being fixed in the ground, a cylindrical pusher 45 is predetermined In the wind turbine is composed of the length of,

The inflow block 73 is fixed to the upper layer of the support pillar 48,

Between the inlet pipe (60) protruding from the edge of the inlet block (73) body is connected to the connecting hose 49 and the connecting ring (40),

The inlet pipe (60) is provided with a fixing pin (41) as a protrusion while assembling between the fixing ring (56) to configure the inlet 46 toward the wind blowing direction,

The lower side of the support pillar 48 is a wind turbine for wind induction provided by fixing the connection between the propeller 45 by the rotary blades 78 and the clamping 80 fixed to the support (58).

The method according to claim 1 or 2 ,

Protruding downward from the fixing ring (56, 56 ') for fixing the inlet pipe (60), each guide wall (52') in the acceleration zone (A) and the reduction zone (B) outside the rotor blade 78 Wind generator for providing wind induction provided.