KR20130021113A - Folding wings of aerogenerator - Google Patents

Abstract

PURPOSE: Folding wings for an aerogenerator are provided to remove the need of a separate steering device by employing blade parts formed in multiple directions. CONSTITUTION: Folding wings for an aerogenerator comprise a lower rotary plate(110), a blade part(130), and a blade driving control part(140). The lower rotary plate transfers torque to a transmission of the aerogenerator. A blade shaft is provided radially outside the rotational center of the lower rotary plate and vertically coupled to the lower rotary plate. The blade part includes a pair of blades which are respectively coupled to both sides of the blade shaft, thereby rotating around the blade shaft. The blade driving control part limits the rotation range of the blade part. The blade shaft includes a pair of hinge panels which rotate around the blade shaft. The pair of blades are respectively coupled to the pair of hinge panels.

Description

Folding wing device for wind power generators {FOLDING WINGS OF AEROGENERATOR}

The present invention relates to a foldable wing device for a wind turbine, and to a foldable wing device for a wind turbine that can maximize the rotational force by adjusting the width of the blade portion according to the air volume.

Increasing use of fossil fuels, a common energy source, has led to the spread of air pollution and global warming. Conventionally, in order to solve this problem, clean energy that does not generate carbon dioxide is used as an alternative energy of fossil fuel. Among the windy places, wind turbines are used to convert wind energy into electrical energy.

However, since the blades used in general wind turbines are shaped in a regular shape, the speed of the blades is constant regardless of the amount of wind when a wind blows over a certain amount of wind. Therefore, even if the air volume increases, the amount of electricity that can be produced does not increase that much. Also, if the wind volume was reduced, no electricity could be produced.

Therefore, in recent years, the increase in the amount of wind can increase the amount of electricity that can be generated, the need for a wind turbine blade formed to continuously produce electricity even when a small amount of wind is emerging.

Therefore, the problem to be solved by the present invention is to provide a foldable wing device for a wind power generator that can increase the mechanical force that can be converted into electrical energy by switching the shape of the blade portion in accordance with the air volume.

The present invention to solve the above problems, the lower rotary plate for transmitting a rotational force to the transmission of the wind power generator;

A blade shaft provided radially outward from the center of rotation of the lower rotating plate, the blade shaft being vertically coupled to the lower rotating plate;

A blade unit including a pair of blades respectively coupled to both sides of the blade shaft to rotate about the blade shaft; And

It provides a foldable wing device for a wind turbine including a blade drive control unit for limiting the rotation range of the blade unit.

According to an embodiment of the present invention, the blade shaft includes a pair of hinge panels pivoting about the blade shaft,

Preferably, the pair of blades are respectively coupled to the pair of hinge panels formed on the blade shaft.

In addition, the blade portion of the blade, the wind collecting plate for collecting wind, and the hollow shaft insertion portion formed along one side of the wind collecting plate,

It is preferable that the shaft insertion portions formed on each of the pair of blades engage with each other such that the blade shafts are inserted into the shaft insertion portions of the pair of blades, respectively.

Here, the wind turbine foldable wing device, preferably further comprises an elastic restoring body coupled between the blade shaft and the blade portion so that the switched position of the pair of blades is restored.

In addition, the upper rotating plate is further provided on the opposite side of the lower rotating plate,

It is preferable that the upper end of the blade shaft is fixed to the upper rotating plate.

In addition, the blade drive control unit is preferably a locking projection protruding from the lower rotating plate.

In addition, the rotation plate is preferably formed with a position adjustment fastening hole for engaging the locking jaw.

In addition, it is preferable that the auxiliary wind collecting plate bent toward the wind blowing side is connected to the upper end and the lower end of the blade.

According to the present invention, by switching the concave degree of the blade portion in accordance with the air flow, not only can produce electrical energy in a small amount of air flow, but also the resistance received from the back of the blade portion by changing the shape of the blade blade concave when the air flow increases Since this can be reduced to increase the rotational speed, when the same amount of air is supplied, the rotational speed of the lower rotating plate is increased as compared with the conventional, thereby increasing the amount of electrical energy that can be produced. In addition, since the blade portion is formed in a multi-direction can be used regardless of the direction of the wind, there is no need to install a separate steering device, the initial installation cost is saved.

1 is a perspective view of a folding wing device for a wind turbine according to an embodiment of the present invention.
2 is an enlarged perspective view of a foldable wing apparatus for a wind turbine according to various embodiments of the present disclosure.
3 is a perspective view of the auxiliary wind collecting plate formed in the foldable wing device for a wind turbine according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to preferred embodiments. It will be apparent to those skilled in the art, however, that these examples are provided to further illustrate the present invention, and the scope of the present invention is not limited thereto.

1 is a perspective view of a foldable wing device for a wind turbine according to an embodiment of the present invention.

The folding wing device for a wind turbine according to the present invention, as shown in Figure 1, the lower rotating plate 110 for transmitting a rotational force to the transmission of the wind turbine;

A blade shaft 120 which is provided radially outward from the center of rotation of the lower rotating plate 110 and vertically coupled to the lower rotating plate 110;

A blade unit 130 including a pair of blades 132 and 134 coupled to both sides of the blade shaft 120 so as to rotate about the blade shaft 120; And

It includes a blade drive control unit 140 for limiting the rotation range of the blade unit 130.

The folding wing device for a wind turbine according to the present invention is mounted on a wind turbine to produce electrical energy using rotational force generated by wind. That is, when the wind is received from the blade unit 130 provided in the lower rotating plate 110, the blade unit 130 is moved by the force of the position, and the linear movement of the wind received by the blade unit 130 Mechanical force is converted into electrical energy while switching to the rotary motion in the lower rotating plate (110). Here, the blade unit 130 is formed in a multi-direction can be used regardless of the direction of the wind. Therefore, it is not necessary to install a separate steering device, thereby saving the initial installation cost.

Wind turbines are devices that convert the energy of wind into electrical energy that we can use usefully. Wind power generators can be largely divided into wing, transmission, and generator. The vane is a device that converts wind energy into mechanical energy while rotating by the wind. Transmission is a device that rotates the generator at the number of revolutions required by the generator by transmitting the rotational force generated from the blade to the transmission gear through the central rotation shaft. A generator is a device that converts mechanical energy generated by the wing into electrical energy. Therefore, the present invention is provided by the blade unit 130 of the wing device for converting the wind energy into mechanical energy, the shape can be switched, it is possible to increase the amount that can be converted into mechanical energy wind energy, thereby The amount of electrical energy converted by mechanical energy can be maximized.

The folding wing device for a wind turbine according to the present invention has a pair of blades 132 and 134 which are hinged to the blade shaft 120, unlike the blade section 130 of a general wind turbine. You can switch the shape. For this reason, it is to adjust the amount of wind that the blade unit 130 can accommodate. Therefore, when a small amount of wind blows, the blade unit 130 maintains a wide spread shape to maximize the amount of wind that a pair of blades 132 and 134 can receive, and when a large amount of wind blows the blades The portion 130 is converted into a concave shape so as to be streamlined to minimize the resistance received from the rear surfaces of the blades 132 and 134. As a result, the efficiency of converting wind power into electrical energy is increased.

Since the blade unit provided in the conventional wind turbine is fixed in the shape of the blade, the lower rotating plate does not rotate when a small amount of wind exerts force on the blade, and when the large amount of wind is applied to the blade Since the shape of is fixed, the reaction force acting on the back of the blade portion is increased by that much decrease the rate of increase of the lower rotor plate speed compared to the supplied wind power.

That is, the foldable wing device for a wind turbine according to the present invention maximizes the wind power that can be received by the blade unit 130 by unfolding the blade unit 130 to the maximum when the wind power is weak. Thus, the lower rotating plate 110 can be rotated more easily. In addition, when the wind power increases, the foldable wing device for a wind turbine according to the present invention, while the distance between the pair of blades (132, 134) provided in the blade unit 130 is closer to the rear of the blade unit 130 It becomes streamlined. Therefore, when the wind power increases, the shape is switched to minimize the reaction force acting on the rear surface of the blade unit 130 at a speed further along the lower rotating plate 110 compared to the conventional blade unit which is fixed in shape. Can be rotated.

Here, the front surface of the blades 132 and 134 constituting the blade unit 130 or the blade unit 130 means a surface formed in the direction of the wind blows the wind so that the lower rotating plate 110 can rotate It means noodles. In addition, the rear surface is a surface formed on the opposite side, it means a surface to which the reaction force is applied to the blade (132, 134). More specifically, in the case of the blades 132 and 134 formed as curved surfaces as in the exemplary embodiment of the present invention, the surface formed on the side toward which the center of the curvature is directed is called the front side and the opposite surface is called the rear surface.

The folding wing device for a wind turbine according to an embodiment of the present invention, the lower end of the blade shaft 120 is fixed to the lower rotating plate 110 and at the same time the upper end of the blade shaft 120 (the lower rotating plate ( The upper rotating plate 150 may be further provided opposite the 110. As such, by coupling the upper and lower ends of the blade shaft 120 to the upper rotary plate 150 and the lower rotary plate 110, the blade unit 130 can more stably change its shape.

At this time, in order to limit the range in which the pair of blades (132, 134) can be rotated, to form a blade drive control unit 140, according to an embodiment of the present invention, the blade drive control unit 140 The furnace may be provided with locking projections 140a and 140b protruding from the lower rotating plate 110. That is, as shown in Figure 1, the locking step (140a) for adjusting the front driving range of the blades (132, 134) and the locking step (140b) for adjusting the rear driving range of the blades (132, 134) It can be provided to limit the range of rotation of the blades (132, 134). The locking jaws 140a and 140b may be provided on the upper rotating plate 150 as well as the lower rotating plate 110.

Although the locking jaws 140a and 140b may be fixedly coupled to the lower rotating plate 110, the locking jaws 140a and 140b may be fixed to the lower rotating plate 110 by forming positioning fastening holes 142a and 142b. ) Position can be adjusted. That is, a part of the locking jaws 140a and 140b is inserted into the position adjusting fastening holes 142a and 142b formed in the lower rotating plate 110 so that the locking jaws 140a and 140b are detachably coupled from the lower rotating plate 110. will be. Thus, the fastening position of the locking step (140a, 140b) can be adjusted. The position adjustment fastening holes 142a and 142b are formed in the upper rotating plate 150 as well as the lower rotating plate 110, so that the driving range in the front and rear directions of the blades can be adjusted according to the air volume.

The folding blade device for a wind turbine according to an embodiment of the present invention, if the wind does not act on the blade unit 130, so that the shape of the blade unit 130 is restored to the initial state, the blade shaft 120 and the blade unit An elastic restoration body (not shown) may be coupled between the 130 portions. For example, when there is a lot of wind, as shown by the solid line in FIG. 1, the distance between both ends of the pair of blades 132 and 134 is kept small. When the wind blows less, the pair of blades 132 and 134 are unfolded, as shown by a dotted line in FIG. 1. Therefore, when the amount of wind is reduced, the blades 132 and 134 are returned to the dotted line again by the elasticity of the restoration. In addition to this, a separate driving device may be provided so that the shapes of the blades 132 and 134 may be switched.

2 is an enlarged perspective view of a foldable wing device for a wind turbine according to various embodiments of the present invention.

The foldable wing apparatus for a wind turbine according to the present invention may be rotatably formed by a pair of blades 132, 134, 132 ′ and 134 ′. That is, as shown in FIG. 2A, the blades 132 and 134 are mounted on the pair of hinge panels 122 provided in the blade shaft 120, respectively. Here, the pair means that the number of the hinge panels 122 is not limited to two, but the hinge panels provided around the blade shaft 120 form one pair in the left direction and one in the right direction. In the blade shaft 120 according to an embodiment of the present invention, a pair of hinge panels 122 may be mounted along the blade shaft 120. In addition, as shown in FIG. 2B, the blades 132 and 134 of the blade unit 130 may include wind collecting plates 132'a and 134'a that collect wind, and the air collecting plates 132'a, A hollow shaft insertion portion 132'b, 134'b connected along one side of 134'a, wherein the blade shaft 120 is the shaft of the pair of blades 132 ', 134'. The shaft insertion portions 132'b and 134'b formed on the pair of blades 132 'and 134' are formed to be engaged with each other so as to intersect with the insertion portions 132'b and 134'b, respectively. May be Therefore, a pair of blades 132 ′ and 134 ′ provided in the blade unit 130 may be provided to rotate about the blade shaft 120.

3 is a perspective view of the auxiliary wind collecting plate formed in the foldable wing device for a wind turbine according to an embodiment of the present invention.

The pair of blades 132, 134 are blown to minimize the wind contacting the blades 132, 134 to escape the blades 132, 134 before pushing the front of the blades 132, 134. The auxiliary wind collecting plates 133 and 135 may be bent in the front direction of the blades 132 and 134 which are coming from each other. At this time, the auxiliary wind collecting plate (133, 135) connected to the blades (132, 134) is formed in each of the pair of blades (132, 134) so as to serve as the blade drive control unit 140 ' Preferably, the air collecting plates 133 and 135 are provided with grooves 140'a and 140'b. At this time, as shown in the enlarged view of Figure 3, by forming the grooves 140'a, 140'b of the pair of blades (132, 134) in a part of the auxiliary wind collecting plate (133, 135), The grooves 140'a and 140'b formed in the blades 132 and 134 may define a position at which the grooves 140'a and 140'b may be stacked. Therefore, the recesses 140'a and 140'b formed in the pair of auxiliary wind collecting plates 133 and 135 may limit the range in which the pair of blades 132 and 134 may move in the front direction. It serves as a blade drive control unit 140 '.

As described above, in the wind turbine folding wing device formed in various embodiments, one generator may be coupled to a wind turbine folding wing device, and each of the wind turbine folding wing devices may be connected by a conveyor belt or the like. You can also integrate the rotational force of and combine it into a single generator. That is, a plurality of foldable wing apparatus for wind turbines can drive one generator with a suitable rotational force by a transmission or the like.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

110: lower rotating plate 120: blade axis
122: hinge panel 130: blade portion
132, 134, 132 ', 134': Blades 132'a, 134'a: Weather collection plate
132'b, 134'b shaft insert 133, 135: auxiliary wind collecting plate
140, 140 ': blade drive control unit 140a, 140b: locking jaw
140'a, 140'b: groove 150: upper turn plate

Claims (8)

A lower rotating plate for transmitting rotational force to the transmission of the wind power generator;
A blade shaft provided radially outward from the center of rotation of the lower rotating plate, the blade shaft being vertically coupled to the lower rotating plate;
A blade unit including a pair of blades respectively coupled to both sides of the blade shaft to rotate about the blade shaft; And
Folding blade device for a wind turbine comprising a blade drive control unit for limiting the rotation range of the blade unit. The method of claim 1,
The blade axis includes a pair of hinge panels that rotate about the blade axis,
And the pair of blades are respectively coupled to the pair of hinge panels formed on the blade shaft. The method of claim 1,
The blade of the blade unit, the wind collecting plate for collecting wind, and a hollow shaft insertion portion formed along one side of the wind collecting plate,
And a shaft insertion portion formed on each of the pair of blades so that the blade shafts are intersected with the shaft insertion portions of the pair of blades, respectively. The method according to claim 2 or 3,
The foldable wing apparatus for the wind turbine further comprises an elastic restoring body coupled between the blade shaft and the blade so that the switched position of the pair of blades is restored. . The method of claim 1,
The upper rotating plate is further provided on the opposite side of the lower rotating plate,
Folding device for a wind turbine, characterized in that the upper end of the blade shaft is fixed to the upper rotary plate. The method of claim 1,
The blade drive control unit is a folding wing device for a wind turbine, characterized in that the locking projection protruding from the lower rotating plate. The method according to claim 6,
The rotating plate is a folding wing device for a wind turbine, characterized in that the position adjustment fastening hole is formed is fastened to the locking jaw. The method of claim 1,
Folding blade device for a wind power generator, characterized in that the auxiliary wind collecting plate bent toward the wind blowing side is formed on the upper end and the lower end of the blade.

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