KR20120105664A - An apparatus for folding blades of wind power generator - Google Patents

Abstract

PURPOSE: A blade folding device of a wind turbine is provided to prevent blades from becoming folded as a support unit comprises a plurality of springs, and supports the blades. CONSTITUTION: A blade folding device of a wind turbine comprises a rotary connection unit(12) and a support unit(2). The rotary connection unit comprises a hollow main shaft(12a), a movable rod(12b), a first link(12c), and a second link(12d). The movable rod horizontally moves with passing through a hollow portion of the main shaft. The support unit is connected to the end of the movable rod. One end of the first link is integrally connected to a blade(11), and the other end is hinged to the one side end of the main shaft. One end of the second link is hinged to the first link, and the other end is hinged to the end of the movable rod. The support unit(21) comprises a plurality of springs(22), an inner movable plate(23), and an outer movable plate(24). Ends of the springs are supported to one side of the support plate. A guide rod(21a) penetrates the inner movable plate, and one end of the movable rod is connected to the inner movable plate. The outer movable plate is applied with elastic force when the inner movable plate is pulled by the movable rod.

Description

An apparatus for folding blades of wind power generator

The present invention relates to a wing folding apparatus of a wind power generator, and more particularly, to a wing folding apparatus of a wind power generator, which enables the folding of a wing easily by firmly supporting a folding wing that is folded according to a wind speed.

In order to solve the problems caused by excessive use of fossil fuels, that is, depletion of fossil fuels and air pollution that may occur when burning fossil fuels, interest in power generation devices using natural forces is increasing. Power generators using natural power include wind power generators using wind power and solar power generators using sunlight or solar heat.

Among these natural generators, the wind power generator converts the rotational energy of the blades rotated by the wind into electrical energy. The propeller-type horizontal axis wind power generator, the vertical axis wind power generator such as the gyro mill type and Darius type, or the vertical-horizontal axis integrated type depending on the direction of the axis Wind power generators.

Conventional wind power generators are rotatably installed at the top of the tower, a blade installed at the tip of the fuselage to rotate by the wind, a gearbox such as a speed increaser for increasing the rotational force of the wing, and the gearbox The generator includes a generator that converts the increased rotational force into electrical energy.

Wind turbines configured as described above have fixed wings, so when winds such as typhoons blow, wind loads are applied to the blades as well as the wind turbines themselves, especially towers. There was a problem of being damaged, such as broken or broken.

On the other hand, if the diameter of the wing is reduced to solve such a problem, it is possible to prevent the problem that the wing or other facilities are damaged by the strong wind to some extent, but on the contrary, the wind power generation is not performed properly for the weak wind. I had a problem.

Developed in order to solve the above problems, there is a utility model registration No. 0364737, a wind turbine whose wings are folded when wind pressure is high.

1, the body 200 rotatably installed on the top of the tower 100, a horizontal shaft 300 installed inside the body 200, and a hub coupled to the horizontal shaft 300. 710 is rotatably coupled around the blade 700 for rotating the horizontal axis 300 while being variable in the front and rear directions according to the wind pressure, the support means 800 and the generator installed inside the tower 100 600 and a vertical axis 400 for transmitting the rotational force of the horizontal axis 300 to the generator 600,

The rear end of the horizontal shaft 300, the sliding body 810 is slidably coupled to the support body 810 connected to the horizontal axis, and the horizontal axis 300 between the support body 81 and the hub 710. ), A spring 840 installed between the support body 810 and the sliding bar 820, and a link 850 connecting the blade 700 and the sliding bar 820 to the wing 700. The support means 800 to be folded is provided.

However, the wind power generator configured as described above has a problem in that the wings are not fully expanded when the spring is deteriorated by supporting the wings with only a single spring to maintain the unfolded state.

In addition, the conventional wind power generator has a problem that can not be obtained enough rotation force by being folded by the weak wind because it is configured to be able to fold the long wings around the hinge-coupled portion to the hub.

The present invention has been developed to solve the problems of the prior art, by constructing a support means with a plurality of springs to sufficiently support the weight of the long wings by the wind power generator to prevent the wings from being folded by the fine wind An object of the present invention is to provide a wing folding device.

Furthermore, an object of the present invention is to provide a wing folding apparatus of a wind power generator which can prevent the wings from being folded by fine wind by integrally installing a counterweight on one side of the wings so as to support the weight of the long wings. .

Wing folding device of the wind power generator according to the present invention for achieving the above object is installed to be foldable by the rotational connection means, the wing is adjusted by the folding angle according to the wind pressure, and the wing supported by the rotational connection means In the wind power generator having a support means for maintaining the state and a generator for generating electricity by the rotational force of the blade, the support means is installed at the opposite side end of the rotational connection means around the tower,

The pivot connecting means includes the hollow main shaft; A moving rod installed to be movable horizontally through the hollow portion of the main shaft and having the supporting means connected to an end thereof; A first link having one end integrally connected to the wing and the other end hinged to one end of the main shaft; One end is hinged to the first link and the other end includes a second link hinged to one end of the moving rod,

The support means includes a support plate installed at the end of the plurality of guide rods fixed to the bracket on which the generator is fixed; A plurality of springs having one end supported on one side of the support plate; An inner movable plate installed at one end of the connecting rod installed through the support plate and the spring, the guide rod penetrated therein, and one end of the movable rod connected thereto; It is installed on the opposite side of the inner movable plate of the connecting rod is characterized in that it comprises an outer movable plate receiving the elastic force of the spring by the inner movable plate is pulled by the moving rod.

As described above, the present invention constitutes a supporting means with a plurality of springs, so that the wing can be supported in an unfolded state even when one of the springs is old.

In addition, the present invention has an effect that can prevent the inclination of the wing by the weight of the wing itself in the state that the wing is slightly inclined by installing a counterweight corresponding to the long wing.

In other words, the counterweight is balanced with the weight of the inclined wing has the effect of preventing the wing from being inclined by its own weight rather than wind pressure.

1 is a cross-sectional view showing a part of a conventional wind power generator,
2 is a perspective view showing a part of a wind turbine according to the present invention;
3 and 4 are cross-sectional views for explaining the operating state of the support means of the wind power generator according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the appended drawings illustrate only the contents and scope of technology of the present invention, and the technical scope of the present invention is not limited thereto. In addition, it will be apparent to those skilled in the art that various modifications and changes can be made within the scope of the present invention based on these examples.

The wing folding apparatus of the wind power generator according to the present invention is a means for supporting the wings in an unfolded state, and includes a wing assembly (1) and a support means (2).

The generator of the present invention enables the superstructure including the wing assembly 1 and the support means 2 to be balanced around the top of the tower so as not to change the shape or size of the superstructure unnecessarily to maintain balance. You can also disable it.

As described above, in the conventional power generation apparatus, both the wing assembly including the wing and the support means are installed on one side of the tower, so that the center of gravity is biased to one side, and thus the body is balanced to balance the weight of the wing and the support means. It should be formed long or large, but the present invention can maintain the center of gravity itself by installing the wing assembly (1) and the support means (2) on the opposite side with respect to the tower as shown in FIG.

The wing assembly 1 includes a wing 11 for directly receiving wind pressure, and a rotation connecting means 12 for allowing the wing 11 to be rotatable, wherein the pivot connecting means 12 includes the support means ( 2) is connected to the wing 11 by the interaction of the wind pressure and the support means that can be folded or unfolded.

The pivot connecting means 12 may be configured in the same manner as the description of the prior art, but more preferably, as shown in FIGS. 2 to 4, the hollow main shaft 12a; A moving rod 12b installed to be movable horizontally through the hollow portion of the main shaft and having the supporting means 2 connected to an end thereof; One end is integrally connected to the blade (11) and the other end is a first link (12c) hinged to one end of the main shaft (12a); One end may be hinged to the first link and the other end may include a second link 12d hinged to one end of the movable rod 12b.

Pulling the movable rod (12b) of the pivot connecting means 12 is the support means (2) to maintain the unfolded state, as shown in detail in Figures 3 and 4, A support plate 21 installed at an end of the plurality of guide rods 21a fixed to the bracket 10a to which the generator 10 is fixed; A plurality of springs 22 having one end supported on one side of the support plate 21; It is installed at one end of the connecting rod 23a installed through the support plate 21 and the spring 22, the guide rod 21a penetrates, and the inner movable plate 23 to which one end of the moving rod is connected. ; It may include an outer movable plate 24 which is installed at the end opposite to the inner movable plate 23a of the connecting rod 23a and receives the elastic force of the spring by the inner movable plate 23 being pulled by the movable rod.

The support means 2 configured as described above has a state in which the wings 11 are unfolded by proper wind pressure, as shown in FIG. 3, while the springs 22 are sufficiently extended, and the wind blows the wings 11. If a lot of wind pressure is applied to the moving rod 12b is moved to the wing side is the wing 11 is inclined.

The sum of the elastic forces of the springs 22 may support the load of the inclined vanes 11 and the vanes 11 may be inclined by the force applied to the vanes by the wind pressure. The elastic force of the spring 22 may vary depending on the material or size of the wing 11, and the elastic force of the spring 22 is not limited to a numerical value.

As shown in the guide rod 21a constituting the support means 2, one end is fixed to the bracket 10a, and the support plate 21 is fixed to the other end.

The support plate 21 is fixed so as not to move by means for supporting one end of the spring 22.

The inner movable plate 23 is provided between the bracket 10a and the support plate 21.

Since the inner movable plate 23 is installed between the bracket 10a and the support plate 21, the guide rod 21a connected between the bracket 10a and the support plate 21 may pass through the inner movable plate 23. A hole is formed.

In addition, the moving rod 12b is connected to the center of the inner movable plate 23. Since the movable rod 12b must rotate together when the blade 11 rotates, a bearing 25 is installed at a portion connected to the inner movable plate 23.

The outer movable plate 24 is connected to the inner movable plate 23 by a connecting rod 23a, and a plurality of springs 22 are installed between the two movable plates 23 and 24.

As shown in the drawing, the spring 22 penetrates through the center thereof so that the connecting rod 23a is installed so that the spring 22 is not separated from the two moving plates 23 and 24.

The spring 22 repeats the expansion / contraction so that the folding of the wing 11 can be made as described above.

Looking at the action of the support means 2 configured as described above, when the wing 11 is inclined as shown in Figure 4 by the wind pressure, the moving rod 12b moves in the wing 11 side direction and the inner plate ( 23) is also pulled by the moving rod 12b to move.

At this time, since the outer movable plate 24 connected to the inner movable plate 23 by the connecting rod 23a is also moved at the same time, the other end of the spring 22 supported by one end of the supporting plate 21 is pressed and contracted. .

The elastic force of the contracted spring 22 is operated by pulling the movable rod 12b to the opposite side of the wing, so when the wind pressure decreases, the movable rod 12b is automatically pulled to rotate in the unfolded state of the blade 11. .

As described above, in the wind turbine of the present invention in which the wings are folded and unfolded, the pivot center of the wings 11 is a hinge point h1 to which the first link 12c and the main shaft 12a are hinged, and the wings 11 are If it is inclined even a little, it may become inclined by the weight of the wing 11, and cannot receive wind pressure.

In addition, since the operation of unfolding the folded wing 11 in its original state due to high wind pressure is made only by the elasticity of the support means 2, the elasticity of the support means 2 is weakened so that the wing does not expand. have.

In order to solve this problem, a plurality of springs constituting the supporting means are installed as described above, and the elastic force of the springs 22 must be able to stand the wings in the inclined state as described above. (11) should be able to support the weight.

On the other hand, in the wind power generator of the present invention, the wings are folded and spread as described above, the pivot center of the wing 11 is the hinge point h1 to which the first link 12c and the main shaft 12a are hinged and the wing 11 ) Even if it is inclined even slightly, it may be inclined by the weight of the wing 11 to be in a state where wind pressure cannot be accepted.

In addition, when the blade rotates in the inclined state of the blade 11 due to high wind pressure, the blades are swung under the influence of the load and the wind of the blade itself, so there is a problem that smooth rotation does not occur.

In order to solve this problem, a counterweight 13 may be further installed on the first link 12c.

Since the counterweight 13 should be able to balance the blade 11 in a tilted state of the blade 11, the counterweight 13 is preferably the same as or similar to the weight of the blade 11.

In order to be able to balance the blade 11 even though the counterweight 13 is made small, it is preferable that the unfolding weight 13 is installed far from the hinge point h1, as shown in FIGS. 2 to 4. As described above, one side of the first link 12c may extend at an angle with the blade 11 to form the lever arm 12e integrally and be installed at an end of the lever arm 12e.

The wing folding apparatus of the wind turbine generator according to the present invention configured as described above may be installed between the blade 10 and the support means (2).

That is, as shown, the generator 10 may be fixedly installed on the racket 10a rotatably installed horizontally on the top of the tower.

When the generator 10 is installed in this way, the main shaft 12a is integrally connected to the rotor of the generator 12, and the moving rod 12b penetrates the rotor and the bracket 10a of the generator to support means ( 2).

Of course, a wire for transferring electricity generated from the generator 10 to the ground or a control line for controlling it may be installed at one side of the tower, and a detailed description thereof will be omitted.

As described above, the wing folding apparatus of the wind power generator according to the present invention is not only capable of supporting the wings more stably by supporting means with a plurality of springs, but also by installing a counterweight corresponding to the weight of the long wings. It can rotate stably.

1: wing assembly
11: wings
12: rotation connecting means
12a: main shaft 12b: moving rod
12c: first link 12d: second link
13: counterweight
2: support means
21: support plate 21a: guide rod
22: spring
23: inner moving plate 23a: connecting rod
24: outer plate
25: Bearing
10: generator
100: tower

Claims (3)

The wing is installed to be foldable by the pivotal connecting means and the folding angle is adjusted according to the wind pressure. In the wind power generator having a generator for generating,
The pivot connecting means includes the hollow main shaft; A moving rod installed to be movable horizontally through the hollow portion of the main shaft and having the supporting means connected to an end thereof; A first link having one end integrally connected to the wing and the other end hinged to one end of the main shaft; One end is hinged to the first link and the other end includes a second link hinged to one end of the moving rod,
The support means includes a support plate installed at the end of the plurality of guide rods fixed to the bracket on which the generator is fixed; A plurality of springs having one end supported on one side of the support plate; An inner movable plate installed at one end of the connecting rod installed through the support plate and the spring, the guide rod penetrated therein, and one end of the movable rod connected thereto; A wing folding apparatus of the wind turbine, characterized in that it is installed at the opposite end of the inner movable plate of the connecting rod and the outer movable plate receiving the elastic force of the spring by the inner movable plate is pulled by the moving rod.
The method of claim 1,
The first link has an angle with the wing and the lever arm is integrally formed to extend, the end of the lever arm is provided with a folding blade, characterized in that the counterweight is further installed.
The method according to claim 1 or 2,
The generator is fixed to the racket is installed on the top of the tower rotatably installed horizontally, the main shaft is integrally connected to the rotor of the generator, the moving rod is connected to the support means through the generator and the bracket A wind turbine with a folded wing, characterized in that.

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