KR20130003458U - Blade Bolt - Google Patents

Abstract

The present invention relates to a blade bolt, and more particularly to a blade connecting portion to improve the structural stability by changing the shape of the blade bolt connecting the hub and blade root of the wind turbine.
Blade bolt according to the present invention, the blade bolt is inserted into the hub and blade root of the wind generator to connect both, forming a groove 500 in the longitudinal direction on the outer surface of the blade bolt 420; do.

Description

Blade Bolt

The present invention relates to a blade bolt, and more particularly to a blade connecting portion to improve the structural stability by changing the shape of the blade bolt connecting the hub and blade root of the wind turbine.

In general, due to the depletion of fossil fuel and environmental pollution due to combustion gas, interest in environmentally friendly and renewable energy, such as wind power, tidal power, solar power, etc. is increasing.

Among them, wind generators that generate electricity using wind power are devices that convert wind energy into electrical energy.

In general, the wind generator 1 is composed of a nacelle 2, a tower 3 and a rotor 4, as shown in FIG. 1.

The rotor 4 is composed of a plurality of blades 10 and hubs 30 to which the blades 10 are coupled. Each of the blades 10 and the hub 30 is shown in FIG. 2. As described above, the plurality of cross bolts 41 and the plurality of blade bolts 42 are fastened and fixed.

As shown in FIG. 3, the cross bolt 41 is installed to penetrate the blade root 20 in the thickness direction, and the blade bolt 42 is inserted in the longitudinal direction from the end portion of the blade root 20 to cross. It is fastened and fixed to the circumferential surface of the bolt 41.

That is, as shown in Figure 2, using the cross bolt 41 and the blade bolt 42 of the hub 30 in a state that the blade bolt 42 protrudes along the end portion of the blade root 20 The blade bolt 42 is matched to the portion where the pitch bearing 60 is installed, and then penetrated and fixed with the washer 51 and the nut 52 to couple the blade root 20 to the hub 30.

The conventional blade bolt 42 is inserted into the blade root 20 through the communication hole 22 formed in the longitudinal direction from the end portion of the blade root 20 to allow the blade 10 and the hub 30 to be connected. In order to ensure the connection, the blade bolt 42 and the blade root 20 can be securely connected by putting an adhesive (for example, silica) into the contact surface of the blade bolt 42 and the blade root 20, that is, the communication hole. To help.

However, since the material of the blade bolt 42 is generally steel, and the material of the blade root 20 is generally a laminate, it is composed of different materials, so that the adhesive strength by the adhesive is low. have.

Therefore, there is a need for a method of increasing the adhesive reliability of the adhesive connecting the blade bolt 42 and the blade root 20.

The present invention is to solve the conventional problems as described above, it is an object of the present invention to provide a blade bolt so that the bond between the blade root and the hub can be made stable by strengthening the adhesive force between the blade root and the hub constituting the rotor. .

According to an aspect of the present invention for achieving the above object, in the blade bolt inserted into the hub and blade root of the wind generator to connect both, forming a groove in the longitudinal direction on the outer surface of the blade bolt; A blade bolt is provided.

The groove is formed spirally.

The blade bolt is inserted into the blade root through the hub in the longitudinal direction of the blade root;

And between the inserted blade bolt and the hub and the blade root are bonded by an adhesive.

And a fixing groove formed in the blade root so that the end portion of the blade bolt can be inserted into the blade root.

The fixing groove has a slope that converges so that the stress concentrated at the end of the blade bolt can be evenly distributed on the laminated surface of the blade root; An end portion of the blade bolt has a shape corresponding to the inclined fixing groove.

The end shape of the blade bolt is wedge shaped with constant inclination; The fixing groove is wedge-shaped so that the end of the wedge-shaped blade bolt can be inserted and fixed.

And between the end of the wedge-shaped blade bolt inserted into the fixing groove and the fixing groove by the adhesive.

According to another aspect of the present invention, in the blade bolt inserted into the hub and blade root of the wind generator to connect both, forming a groove in the longitudinal direction on the outer surface of the blade bolt, the blade bolt is the hub and blade root Inserted in, but the blade between the blade and the hub and the blade root is bonded by an adhesive 460; provides a blade bolt characterized in that.

The end shape of the blade bolt is wedge shaped; And a fixing groove corresponding to the shape of the end portion of the blade bolt of the wedge-shaped blade root to which the end portion is inserted and fixed.

According to the present invention, by changing the shape of the blade bolt to increase the adhesive strength between the blade and the hub by the adhesive to enable a structurally stable coupling.

1 is a view schematically showing a conventional wind generator.
2 is a perspective view schematically showing a state in which a conventional blade connection portion is separated from a hub.
3 is a cross-sectional view schematically illustrating a state in which a conventional blade connection portion is coupled to a hub.
4 is a view schematically showing the shape of the blade bolt according to the present invention, (a) is a side view, (b) is a cross-sectional view of the AA portion shown in (a).

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

Figure 4 is a view schematically showing the shape of the blade bolt according to the present invention, (a) is a side view, (b) is a cross-sectional view of the portion A-A shown in (a).

As shown in FIG. 4, the blade bolt 420 according to the embodiment of the present invention is a blade bolt inserted into a hub and a blade root constituting the rotor of the wind generator and connecting them, and the blade bolt 420. It characterized in that to form a groove 500 in the longitudinal direction on the outer surface.

The groove 500 is formed on the outer surface of the blade bolt 420 in the longitudinal direction to bond structurally and stably between the hub 300 and the blade root 200, the adhesive 460 to be described later in contact with the blade bolt 420 To increase the adhesive area to do so.

The shape of the groove 500 should be formed so that bending stress applied to the blade by the wind can cause minimal damage to the adhesive 460.

Therefore, the shape of the groove 500 is preferably to be formed in the longitudinal direction of the blade bolt 420 so that the adhesive strength by the adhesive 460 can be maintained to the maximum.

That is, as shown in Figure 4, the shape of the groove 500 may be formed in a spiral (not shown) as well as a straight line in the longitudinal direction of the blade bolt (420).

Since the adhesive strength of the adhesive 460 may be best resisted, the adhesive 460 is preferably formed in the direction in which damage can be minimized.

On the other hand, the blade bolt 420 may be inserted into the blade root 200 through the hub 300 in the longitudinal direction of the blade root 200, as shown in Figure 4, the hub 300 and the blade root 200 In the case where) is continuously disposed, the blade root 200 will be inserted into the blade root 200 after passing through the hub 300.

The blade connection part 400 to which the blade root 200 and the hub 300 to which the blade bolt 420 is applied according to the present invention may be configured as a cross bolt 410 and a blade bolt 420.

The cross bolt 410 penetrates the end portion of the blade root 200 in the thickness direction, and a fastening hole 450 penetrating in the longitudinal direction of the blade root 200 is formed around the cross bolt 410.

The through hole 210 may be formed at the end portion of the blade root 200 so that the cross bolt 410 may penetrate in the thickness direction of the blade root 200.

When the cross bolt 410 is inserted and seated in the through hole 210, the blade bolt 420 is fastened and fixed to the fastening hole 450 of the cross bolt 410.

The shape of the cross bolt 410 can be variously manufactured, but if the edge portion is formed, the stress is concentrated on the edge portion, so that damage to the blade root 200 and the cross bolt 410 may occur, so that the edge is formed to minimize this. It is preferable to produce a cylindrical shape so as not to.

The blade bolt 420 is inserted into the blade root 200 while penetrating the fastening hole 450 in the longitudinal direction of the blade root 200 from the end surface of the blade root 200, and the blade root 200 has a blade bolt ( A fixing groove 440 is formed so that the end portion 430 of the 420 can be inserted into the blade root 200.

The other end of the blade bolt 420 protrudes outward from the end surface of the blade root 200 to penetrate to the portion where the pitch bearing 120 of the hub 300 is installed, and the other end of the blade bolt 420 is a washer. 510 and the nut 520 are coupled to the blade bolt 420 is fastened to the pitch bearing 120.

The fixing groove 440 has a slope that converges so that the stress concentrated at the end portion 430 of the blade bolt 420 can be evenly distributed on the stacking surface of the blade root 200. The end portion 430 may have a shape corresponding to the fixing groove 440 having the inclined convergence.

When the rotor 4 rotates, the load received by the blade 10 is concentrated on the inner surface of the fixing groove 440 and the end portion 430 of the blade bolt 420 so that the blade 10, the cross bolt 410, and It may damage the blade bolt 420 or cause fatigue failure.

Therefore, the fixed groove 440 in order to alleviate the stress concentration generated in the contact surface of the inner surface and the end portion 430 of the fixed groove 440 by distributing the load evenly on the laminated surface of the blade 10 produced by laminating the composite material The inclined groove 440 is inclined so that the contact surface of the end portion 430 increases, and the inclination is manufactured so that the blade bolt 420 can be easily inserted.

At this time, the end shape of the blade bolt 420 is made to correspond to the shape of the fixing groove 440, so that the end portion 430 of the blade bolt 420 is stably seated in the fixing groove 440, the cross bolt 410 ) To be able to fix the movement.

The shape of the fixing groove 440 is preferably manufactured in a wedge shape having a constant inclination inclination so that stress concentration can be alleviated. It can be produced in a wedge shape having a slope.

The blade bolt 420 may be fastened to the fastening hole 450 and screwed so that the blade bolt 420 may be stably passed through the cross bolt 410.

Between the end 430 and the fixing groove 440 of the wedge-shaped blade bolt 420 inserted into the fixing groove 440 to be bonded by the adhesive 460 between the blade root 200 and the blade bolt 420 The combination can be made more stable.

In addition, it is natural that the groove 500 may also be formed at the end of the blade bolt 420 to exert the above-described various effects.

That is, the adhesive 460 is located between the end 430 surface of the blade bolt 420 and the inner surface of the fixing groove 440 in contact with the inner surface of the fixing groove 440 of the blade root 200, but the blade The end surface 430 of the bolt 420 and the inner surface of the fixing groove 440 to be bonded.

Since the blade 10 is manufactured by lamination of a composite material, the blade root 200 is structurally vulnerable to forming a fixing groove 440 to fix the blade bolt 420 by inserting a structural change device (for example, For example, screwing, etc. increases the fragility of the blade root 200 to compensate for structural fragility by using an adhesive and at the same time to achieve a stable fixing of the blade bolt 420.

In addition, the blade bolt 420 according to another embodiment of the present invention, the blade bolt is inserted into the hub and blade root constituting the rotor of the wind generator to connect both, the longitudinal direction on the outer surface of the blade bolt 420 The groove 500 is formed, and the blade bolt 420 is inserted into the hub 300 and the blade root 200, but the inserted blade bolt 420 and the hub 300 and the blade root 200 are separated by an adhesive ( 460) to be bonded.

In addition, similar to the above-described embodiment, the blade bolt 420 of the blade root 200 from the end surface of the blade root 200 through the cross bolt 410 penetrating the end portion of the blade root 200 in the thickness direction. It can be penetrated in the longitudinal direction to be inserted into the blade root (200).

This embodiment may add the same technical configuration as described in the above embodiment, briefly described, the shape of the cross bolt 410 may be a cylindrical shape, the end portion 430 of the blade bolt 420 The wedge shape has a wedge shape, and a fixed groove 440 corresponding to the shape of the end portion 430 of the wedge-shaped blade bolt 420 may be installed in the blade root 200 into which the end portion 430 is inserted and fixed.

In addition, the end portion 430 of the blade bolt 420 inserted into the blade root 200 may be attached to the blade root 200 by the adhesive 460.

Hereinafter, the operation of the blade bolt 420 according to the present invention will be described with reference to FIG.

Blade bolt 420 according to the present invention is formed in the groove 500 in the longitudinal direction on the outer surface is inserted into the hub 300 and the blade root 200, the blade bolt 420 and the hub 300 and blade root ( The adhesive 460 is bonded between the 200.

The adhesive area to which the adhesive 460 adheres by the groove 500 formed in the blade bolt 420 becomes larger than before, so that the blade connecting portion 400 may have the blade bolt 420 having a stronger adhesive strength. This allows the blade connection 400 to be more structurally stable without the need for additional components.

In addition, the blade connecting portion 400 not only secures the blade bolt 420 with the cross bolt 410, but also inserts the blade bolt 420 into the fixing groove 440 formed in the blade root 200, the end portion is inserted A groove 500 may also be formed at 430 to make the connection between the hub 300 and the blade root 200 by the blade bolt 420 more stable.

Since the above-described various effects can be exhibited by the blade bolt 420 according to the present invention, a more stable wind turbine generator can be manufactured.

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 in the appended claims and their equivalents. will be.

200: blade root 210: through hole
220: communication hole 300: hub
400: blade connection 410: cross bolt
420: blade bolt 430: blade bolt end
440: fixing groove 450: fastening hole
460: adhesive 500: groove
510: washer 520: nut
600: pitch bearing

Claims (10)

In the blade bolt inserted into the hub and blade root of the wind generator to connect both,
Forming a groove (500) in a longitudinal direction on an outer surface of the blade bolt (420);
Blade bolt, characterized in that. The method according to claim 1,
The groove 500 is formed in a spiral shape;
Blade bolt, characterized in that. The method according to claim 1,
The blade bolt 420 is inserted into the blade root 200 through the hub 300 in the longitudinal direction of the blade root (200);
Blade bolt, characterized in that. The method according to any one of claims 1 to 3,
Bonding between the inserted blade bolt 420 and the hub 300 and the blade root 200 by an adhesive 460;
Blade bolt, characterized in that. The method of claim 4,
A fixing groove 440 formed in the blade root 200 so that the end portion 430 of the blade bolt 420 can be inserted into the blade root 200;
Blade bolt comprising a. The method according to claim 5,
The fixing groove 440 has a slope that converges so that the stress concentrated at the end 430 of the blade bolt 420 can be evenly distributed on the stacking surface of the blade root 200;
The end portion 430 of the blade bolt 420 has a shape corresponding to the inclined fixing groove 440;
Blade bolt, characterized in that. The method of claim 6,
The shape of the end portion 430 of the blade bolt 420 is wedge shaped with a constant slope;
The fixing groove 440 is wedge-shaped so that the end portion 430 of the wedge-shaped blade bolt 420 can be inserted and fixed;
Blade bolt, characterized in that. The method of claim 7,
Bonding between the end portion 430 of the wedge-shaped blade bolt 420 inserted into the fixing groove 440 and the fixing groove 440 by the adhesive 460;
Blade bolt, characterized in that. In the blade bolt inserted into the hub and blade root of the wind generator to connect both,
The groove 500 is formed in the longitudinal direction on the outer surface of the blade bolt 420, and the blade bolt 420 is inserted into the hub 300 and the blade root 200, the inserted blade bolt 420 And the adhesive between the hub 300 and the blade root 200 by an adhesive 460;
Blade bolt, characterized in that. The method according to claim 9,
The shape of the end portion 430 of the blade bolt 420 is wedge shaped;
The blade root 200 into which the end portion 430 is inserted and fixed has a fixing groove 440 corresponding to the shape of the end portion 430 of the wedge-shaped blade bolt 420;
Blade connection portion characterized in that.

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