KR200413537Y1 - Aerogenerator - Google Patents

Abstract

The present invention relates to a wind generator, and more particularly to a wind generator that can increase the power generation efficiency by smooth rotation by the wind through the shape of the vertical wing.

The wind generator according to the present invention, a shaft shaft is provided perpendicular to the ground, and the rotating shaft is provided with at least one rotatable on the shaft shaft and a plurality of connecting rods protrude at equal intervals, and In the wind generator comprising a plurality of vertical wings fixed by a connecting rod and a fixing means, and a generator connected to the shaft shaft, the vertical wings are formed in the front protruding in a streamlined shape and a groove having a semicircular shape in the rear. It is characterized in that it is composed of a curved curved plate which is bent to one side from the other end of the groove portion and then protruded rearward to be bent to the other side.

In addition, the shaft shaft is provided perpendicular to the ground, the shaft is provided with one or more rotatably rotatably provided with a plurality of connecting rods at equal intervals around the shaft, and fixed to the connecting rod and the fixing means In the wind generator comprising a plurality of vertical wings and a generator connected to the shaft shaft, the vertical wing is formed in the front protruding in a semi-circular shape has a groove portion having a semi-circular shape in the rear, one side from the other end of the groove portion It is characterized by consisting of a curved curved plate that is bent to the next and bent to the other side to be bent to the rear.

Wind Generators, Vertical Wings, Fixed Perimeter Plates, Reinforcement Plates

Description

 Wind generators {Aerogenerator}

1 is a perspective view showing a first embodiment of a wind generator according to the present invention.

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

3 is a perspective view showing another embodiment of a wind generator according to the first embodiment of the present invention.

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

Figure 5 is a perspective view showing another embodiment of a wind generator according to a first embodiment of the present invention.

Figure 6 is a perspective view of a second embodiment of a wind generator according to the present invention.

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

8 is a perspective view showing another embodiment of a wind generator according to a second embodiment of the present invention.

9 is a cross-sectional view taken along the line D-D of FIG. 8.

10 is a perspective view showing another embodiment of a wind generator according to a second embodiment of the present invention.

11 is a view showing another embodiment of a fixed peripheral plate according to a second embodiment of the present invention.

12 is a view showing another embodiment of a fixed peripheral plate according to a second embodiment of the present invention.

13 is a view showing another embodiment of a fixed perimeter plate according to a second embodiment of the present invention.

14 is a view showing a conventional wind generator.

<Explanation of symbols for the main parts of the drawings>

1: shaft axis

2: rotating body

              21: connecting rod

                   211: horizontal stage, 212: horizontal protrusion, 213: first slope, 214: second slope, 215: protrusion

              22: bearing

3: fixing means

              31: tap hole

              32: through hole

              33: Bolt

              34: tap ball

              35: insertion hole

4: vertical wing

    41: groove

    42: bend plate

    43: rear projection

         431: Hanging groove

5: generator

6: fixed perimeter plate

    61: through

    62: recessed groove

    63: fixing part

         631: one side arc

    64: depression curve

    65: round part

7: reinforcement plate

    71: horizontal plate

    72: first inclined plate

    73: second inclined plate

8: bolt

The present invention relates to a wind generator, and more particularly to a wind generator that can increase the power generation efficiency by smooth rotation by the wind through the shape of the vertical wing.

In general, the wind generator refers to a device that converts the wind by the wind into kinetic energy through the rotor braid, which is a component of the wind generator, and then obtains electrical energy through the generator.

In other words, due to the use of fossil fuels such as coal and petroleum, a large amount of carbon dioxide accumulates in the air and forms a thick carbon dioxide layer, which causes global warming. R & D on development is expanding.

14 is a view showing a conventional wind power generator, a conventional wind power generator is provided with a shaft shaft 100 which is provided perpendicular to the ground and a plurality of radially protruding radially around the outer side of the shaft shaft (100) It consists of a frame 200, a plurality of vertical wings 300 inserted into the inside of the frame 200 to be rotated by wind power, and a generator 400 provided on the lower outer side of the shaft shaft 100 will be.

In particular, the vertical wing is formed in the shape of a rectangular plate open in one direction so as to contact with the wind.

Therefore, when the vertical wing is connected to the shaft shaft due to the wind power is generated by the generator.

However, the conventional wind generator having the configuration as described above, since the shape of the vertical wing is formed of a rectangular plate is easy to receive the outside wind, but received a lot of air resistance. Therefore, there is a problem that the power generation efficiency due to wind power is reduced because the vertical blade is not rotated smoothly.

The present invention has been devised to solve the above problems, the front is formed in a streamlined shape to reduce the resistance of the air and equalize the drag caused by the wind through the semi-circular groove to improve the power generation efficiency of the vertical wing The purpose is to provide a wind generator that can be increased.

In addition, the front is formed in a semi-circular shape to reduce the vibration caused by the wind strength and the positional fluctuation of the vertical wing to provide a wind generator that can improve the stability at high speed.

The present invention for achieving the above object is a shaft shaft provided perpendicular to the ground, and provided with one or more rotatable on the shaft shaft and a plurality of connecting rods protruding at equal intervals in the circumference In the wind power generator comprising a whole, a plurality of vertical wings fixed by the connecting rod and the fixing means, and a generator connected to the shaft shaft, the vertical wings are grooves having a front protruding in a streamlined shape and a semi-circular shape in the rear An additional portion is formed, characterized in that it is composed of a curved curved plate which is bent to one side from the other end of the groove portion and then protruded to be bent to the other side.

In addition, the shaft shaft is provided perpendicular to the ground, the shaft is provided with one or more rotatably rotatably provided with a plurality of connecting rods at equal intervals around the shaft, and fixed to the connecting rod and the fixing means In the wind generator comprising a plurality of vertical wings and a generator connected to the shaft shaft, the vertical wing is formed in the front protruding in a semi-circular shape has a groove portion having a semi-circular shape in the rear, one side from the other end of the groove portion It is characterized by consisting of a curved curved plate that is bent to the next and bent to the other side to be bent to the rear.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a first embodiment of a wind generator according to the present invention, Figure 2 is a cross-sectional view taken along line A-A of FIG.

The wind power generator of the first embodiment according to the present invention, the shaft shaft (1) which is provided perpendicular to the ground, and the shaft shaft (1) is provided to be rotatable more than one and a plurality at equal intervals around Rotors 2 protruding from the connecting rod 21, a plurality of vertical wings 4 fixed by the connecting rod 21 and the fixing means 3, and a generator 5 connected to the shaft shaft 1. In the wind generator consisting of a), the vertical wing 4 is formed in the front protruding in a streamlined shape, the groove portion 41 having a semi-circular shape is formed at the rear, bent to one side from the other end of the groove portion 41 It is then characterized by consisting of a curved plate 42 of protruding rearward to be bent to the other side.

And the connecting table 21 is composed of a horizontal stand 211 protruding from the rotating body 2, the fixing means 3 is a tab hole 31 formed on the outside of the horizontal stand 211, It consists of a through hole 32 formed in the vertical wing (4) corresponding to the tab hole 31, and a bolt 33 penetrated through the through hole 32 and fastened to the tab hole 31. .

In particular, the shaft shaft (1) is fixed to the ground using a concrete or steel structure, etc. Since the bearing 22 is provided on the inside of the rotating body (2) the rotating body (2) is the shaft shaft It rotates smoothly with respect to (1).

On the other hand, Figure 3 is a perspective view showing another embodiment of the wind generator according to the first embodiment of the present invention, Figure 4 is a cross-sectional view taken along line BB of Figure 3, the semicircular locking groove 431 inside the vertical wing (4) It is further provided with a rear projection (43) comprising.

In particular, the connecting rod 21 fixing the vertical blade 4 is a horizontal protrusion 212 protruding from the rotating body 2 and a first protruding inclined forward and rearward from the outside of the horizontal protrusion 212. , 2 ramps 213 and 214, but the outer side of the second ramp 214 is provided with a protrusion 215 having a semi-circular shape projecting forward to be caught by the locking groove 431.

In addition, the fixing means (3) is a tab hole 34 formed on the outside of the first and second ramps (213, 214), and a plurality of inserts are formed in the vertical wing (4) corresponding to the tab hole 34 It consists of a hole 35 and a plurality of bolts 33 penetrated through the insertion hole 35 and fastened to the tab hole 34.

On the other hand, Figure 5 is a perspective view showing another embodiment of a wind power generator according to the first embodiment of the present invention, the upper and lower and middle of the vertical wings (4) are connected to each other and the center of the vertical wings (4) Fixing circumferential plate 6 in which the through hole 61 is formed is further provided.

That is, by supporting the upper, lower, and middle of the vertical blades (4) through the fixing circumferential plate (6) to reduce the vibration caused by the wind to reduce the vibration of the vertical blades (4).

When the outside wind enters the inner side of the vertical wings 4 and collides with each other, the impact of the strong wind can be minimized by allowing the wind to fall outside through the through hole 61 of the fixed circumferential plate 6. .

Hereinafter, the operation of the wind generator according to the first embodiment of the present invention configured as described above is as follows.

As shown in FIGS. 1 to 4, first, when wind blows forward of the vertical wing 4, wind pressure is distributed around the vertical wing 4 to receive air resistance.

However, since the front of the vertical wing (4) is formed in a streamlined shape, the vertical wing (4) can be smoothly rotated by reducing the air resistance.

In addition, through the groove portion 41 having a semi-circular shape formed on the vertical wing 4, the drag caused by the wind is evenly distributed, thereby increasing the power generation efficiency.

In addition, when the outside of the second ramp 214 is coupled to the engaging groove 431 having a semi-circular shape, lifting force is generated in the vertical direction, so that the vertical blade 4 smoothly rotates even when the wind direction is the opposite direction. It is possible to develop.

On the other hand, Figure 6 is a perspective view showing a second embodiment of a wind generator according to the present invention, Figure 7 is a cross-sectional view taken along the line C-C of FIG.

Accordingly, the wind power generator of the second embodiment according to the present invention includes a shaft shaft 1 which is provided perpendicularly to the ground, and is rotatably provided in at least one of the shaft shafts 1 and has a plurality of at equal intervals around the wind generator. Rotors 2 protruding from the connecting rod 21, a plurality of vertical wings 4 fixed by the connecting rod 21 and the fixing means 3, and a generator 5 connected to the shaft shaft 1. In the wind generator consisting of), the vertical wing 4 is formed in the front protruding in a semi-circular shape is formed with a groove portion 41 having a semi-circular shape in the rear, bent to one side from the other end of the groove portion 41 Next, it is characterized by consisting of a curved curved plate 42 protruding backward to be bent to the other side.

And the connecting table 21 is composed of a horizontal stand 211 protruding from the rotating body 2, the fixing means 3 is a tab hole 31 formed on the outside of the horizontal stand 211, It consists of a through hole 32 formed in the vertical wing (4) corresponding to the tab hole 31, and a bolt 33 penetrated through the through hole 32 and fastened to the tab hole 31. .

In particular, the shaft shaft (1) is fixed to the ground using a concrete or steel structure, etc. Since the bearing 22 is provided on the inside of the rotating body (2) the rotating body (2) is the shaft shaft It rotates smoothly with respect to (1).

On the other hand, Figure 8 is a perspective view showing another embodiment of the wind power generator according to a second embodiment of the present invention, Figure 9 is a cross-sectional view of the DD line of Figure 8, the semicircular locking groove 431 inside the vertical wing (4) It is further provided with a rear projection (43) comprising.

And the connecting rod 21 for fixing the vertical blade (4) is a protruding obliquely forward and backward from the outside of the horizontal protrusion 212 and the horizontal protrusion 212 protruding from the rotating body (2) Comprising a first and second ramps (213, 214), the outer side of the second ramp 214 is further provided with a protrusion 215 having a semi-circular shape projecting forward to be caught by the locking groove 431.

In addition, the fixing means (3) is a tab hole 34 formed on the outside of the first and second ramps (213, 214), and a plurality of inserts are formed in the vertical wing (4) corresponding to the tab hole 34 It consists of a hole 35 and a plurality of bolts 33 penetrated through the insertion hole 35 and fastened to the tab hole 34.

On the other hand, Figure 10 is a perspective view showing another embodiment of a wind generator according to a second embodiment of the present invention, the upper and lower and middle of the vertical blades (4) in the center and interconnecting the vertical wings (4) in the center Fixing circumferential plate 6 formed with the through-hole 61 is further provided.

That is, by supporting the upper, lower, and middle of the vertical blades (4) through the fixing circumferential plate (6) to reduce the vibration caused by the wind to reduce the vibration of the vertical blades (4).

When the outside wind enters the inner side of the vertical wings 4 and collides with each other, the impact of the strong wind can be minimized by allowing the wind to fall outside through the through hole 61 of the fixed circumferential plate 6. .

In addition, a reinforcement plate 7 is further provided to protrude outward of the connecting table 21 while being the upper part of the fixed circumferential plate 6, and the reinforcement plate 7 horizontally protrudes horizontally to the horizontal plate 71 and the horizontal plate. It is composed of first and second inclined plates (72, 73) that protrudes obliquely to both sides from the outside of the (71) is fixed to the fixed circumferential plate (6) through the bolt (8).

Hereinafter, the operation of the wind generator according to the second embodiment of the present invention configured as described above is as follows.

6 to 9, first, when the wind blows forward of the vertical wing 4, the wind pressure is distributed around the vertical wing 4 to receive air resistance.

However, since the front of the vertical wing 4 is formed to protrude in a semi-circular shape, the vibration generated in the vertical wing 4 is reduced because the drag caused by the wind is uniformly distributed even in the variation of the wind strength and the wind direction.

Therefore, the vibration generated in the vertical blades 4 can be reduced to further improve the stability at high speed rotation.

In addition, when the outside of the second ramp 214 is coupled to the engaging groove 431 having a semi-circular shape, lifting force is generated in the vertical direction, so that the vertical blade 4 smoothly rotates even when the wind direction is the opposite direction. It is possible to develop.

On the other hand, Figure 11 is a view showing another embodiment of the fixing circumference plate according to the second embodiment of the present invention, the fixing circumference plate 6 of the vertical wing 4 corresponds to the middle width of the vertical wing (4) The recessed groove portion 62 is formed from the circumference to the inside.

That is, by reducing the resistance by the wind through the recessed groove 62, it is possible to minimize the vibration during the rotation of the vertical wing (4).

In addition, a reinforcing plate 7 is further provided on an outer side of the connecting table 21 connected to the vertical blade 4, and the reinforcing plate 7 has a horizontal plate 71 protruding horizontally through the bolt 8. It is fixed to the fixed peripheral plate (6).

On the other hand, Figure 12 is a view showing another embodiment of a fixed circumferential plate according to a second embodiment of the present invention, the fixed circumferential plate 6 has a vertical wing (4) is fixed in the center through the shaft axis (1) It is provided in the upper, lower and middle of, and is provided at equal intervals around each of the plurality of fixed parts including one circular arc part 631 is fixed while blocking the upper or lower or middle of the vertical wing ( 63, a plurality of recessed curved portions 64 provided on one side of the fixing portions 63 and interconnecting the fixing portions 63, the recessed curved portions 64 and the fixed portion ( The other end of the 63) is to include a round portion 65 formed in the corner portion connected.

That is, the vibration of the vertical blade 4 is reduced by reducing the resistance generated by the wind during the high speed rotation of the vertical blade 4 through the recessed curved portion 64 and the round portion 65 of the fixed circumferential plate 6. It will be reduced.

In addition, a reinforcement plate 7 is further provided to protrude to the outside of the connecting table 21 while being the upper part of the fixed circumferential plate 6, and the reinforcement plate 7 horizontally protrudes horizontally to the horizontal plate 71 and the horizontal plate. It is composed of first and second inclined plates (72, 73) that protrudes obliquely to both sides from the outside of the (71) is fixed to the fixed circumferential plate (6) through the bolt (8).

On the other hand, Figure 13 is a view showing another embodiment of the fixing circumferential plate according to the second embodiment of the present invention, the fixed circumferential plate 6 is a predetermined width along the cross-sectional shape of the vertical wing (4) It is configured to surround the vertical wing (4).

That is, by supporting the vertical wing 4 through the fixing circumferential plate 6 it is possible to prevent the shape of the vertical wing 4 due to the wind resistance is deformed.

As described above, the wind generator of the present invention has a streamlined shape in front of the wind generator to reduce the resistance of the air, and has an effect of increasing the power generation efficiency of the vertical blades by equalizing drag caused by wind through the semicircular groove. will be.

In addition, the front is formed in a semi-circular shape has the effect of improving the stability at high speed by reducing the vibration due to the wind strength and the positional change of the vertical wing.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the present invention from this description. Therefore, the scope of the present invention should be construed by the claims set forth to include examples of many such variations.

Claims (14)

A shaft shaft 1 provided perpendicularly to the ground, and a rotating body (2) rotatably provided at least one on the shaft shaft 1, the plurality of connecting rods 21 protruding at equal intervals around the shaft (1) In the wind generator comprising a plurality of vertical wings (4) fixed by the connecting rod 21 and the fixing means (3) and the generator (5) connected to the shaft shaft (1), The vertical wing 4 is, The front is formed in a streamlined shape and the groove portion 41 having a semi-circular shape is formed at the rear, the curved curved plate which is bent to one side from the other end of the groove portion 41 and then bent to the other side A wind generator, characterized in that consisting of (42). The method of claim 1, wherein the inner side of the vertical wing (4), Wind generator, characterized in that it further comprises a rear projection (43) comprising a semicircular engaging groove (431). According to claim 1, wherein the upper, lower and middle of the vertical wings (4), Wind generators, characterized in that the vertical wing (4) is further interconnected with a fixed circumferential plate (6) formed in the center of the through hole (61). 2. The connecting rod (21) according to claim 1, comprising: a horizontal bar (211) projecting from the rotating body (2); The fixing means (3) is a tab hole 31 formed on the outside of the horizontal stage 211, the through hole 32 formed in the vertical blade (4) corresponding to the tab hole 31, Wind generator, characterized in that consisting of a bolt (33) penetrates the through hole (32) and fastened to the tab hole (31). The first and second ramps of claim 2, wherein the connecting rods 21 protrude from the outside of the horizontal protrusions 212 and the horizontal protrusions 212 and protrude from the outside of the horizontal protrusions 212. Consists of (213, 214), the outer side of the second ramp 214 is further provided with a protrusion 215 having a semi-circular shape projecting forward to be caught by the locking groove 431, The fixing means (3) is a tab hole 34 formed on the outside of the first and second ramps (213, 214), and a plurality of insertion holes formed in the vertical wing (4) corresponding to the tab hole 34 And a plurality of bolts (33) penetrating through the insertion hole (35) and fastened to the tab hole (34). A shaft shaft 1 provided perpendicularly to the ground, and a rotating body 2 provided on the shaft shaft 1 so as to be rotatable one or more, and a plurality of connecting rods 21 protruding at equal intervals around the shaft shaft 1. In the wind generator comprising a plurality of vertical wings (4) fixed by the connecting rod 21 and the fixing means (3) and the generator (5) connected to the shaft shaft (1), The vertical wing 4 is, The front portion is formed to protrude in a semicircular shape, and a groove portion 41 having a semicircular shape is formed at the rear thereof, and a curved curved plate protruding backward from the other end of the groove portion 41 to one side and then bent to the other side ( A wind generator, characterized in that consisting of 42). The method of claim 6, wherein the inner side of the vertical wing (4), Wind generator, characterized in that it further comprises a rear projection (43) comprising a semicircular engaging groove (431). 7. The assembly according to claim 6, wherein the connecting table (21) is composed of a horizontal table (211) projecting from the rotating body (2); The fixing means (3) is a tab hole 31 formed on the outside of the horizontal stage 211, the through hole 32 formed in the vertical blade (4) corresponding to the tab hole 31, Wind generator, characterized in that consisting of a bolt (33) penetrates the through hole (32) and fastened to the tab hole (31). The first and second ramps of claim 7, wherein the connecting rod 21 protrudes from the outside of the horizontal protrusion 212 and the horizontal protrusion 212 inclined forward and backward from the rotating body 2. Consists of (213, 214), the outer side of the second ramp 214 is further provided with a protrusion 215 having a semi-circular shape projecting forward to be caught by the locking groove 431, The fixing means (3) is a tab hole 34 formed on the outside of the first and second ramps (213, 214), and a plurality of insertion holes formed in the vertical wing (4) corresponding to the tab hole 34 And a plurality of bolts (33) penetrating through the insertion hole (35) and fastened to the tab hole (34). According to claim 6, wherein the upper, lower and middle of the vertical wings (4), Wind generators, characterized in that the vertical wing (4) is further interconnected with a fixed circumferential plate (6) formed in the center of the through hole (61). The connecting portion of the fixed circumferential plate 6 and the connecting table 21, Wind generator characterized in that the reinforcement plate (7) is further provided. The method according to claim 10, wherein the fixed peripheral plate 6 of the vertical wing (4), Wind generator, characterized in that the recessed groove portion 61 is formed from the circumference to the inner side corresponding to the middle width of the vertical wing (4). The fixed circumferential plate (6) of claim 10, The center is penetrated and fixed to the shaft axis (1) is provided on the upper, lower and middle of the vertical wing (4), A plurality of fixing parts 63 provided at equal intervals at each circumference and fixed while blocking an upper part, a lower part, or a middle part of the vertical wing 4, and including one arc part 631; A plurality of recessed curved portions 64 provided in one side of each fixing portion 63 and interconnecting the fixing portions 63; Wind generator, characterized in that it comprises a round portion (65) formed at the corner connected to the other end of the recessed curved portion (64) and the fixed portion (63). The fixed circumferential plate (6) of claim 10, Wind generator, characterized in that configured to surround the vertical wing (4) with a constant width along the cross-sectional shape of the vertical wing (4).

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