KR101284863B1 - Ventilator - Google Patents

Abstract

Ventilation device is disclosed. Ventilation device according to an embodiment of the present invention, a ventilation device for ventilating the inside of the hub of the wind generator, one side and the other side which penetrates the inside and outside of the hub in the same line as the rotation axis of the hub, respectively located inside and outside the hub It includes a cylindrical ventilating tube bent so that the opening is directed downward, and includes a bearing located between the hub and the ventilating pipe, the ventilating pipe, even if the hub rotates, the one side and the other opening of the ventilating pipe is continuously lowered by gravity Is made to face.

Description

Ventilator {VENTILATOR}

The present invention relates to a ventilation device.

In the wind generator, the hub is located inside the rotor, and the blade and the main shaft are coupled to each other.

Here, the hub of the general wind generator is formed in a sealed structure, there is a problem that condensation occurs inside the hub by the temperature difference between the inside and the outside of the hub.

This requires a ventilation device to reduce the occurrence of condensation within the hub.

However, the conventional ventilation device has a problem that rain water is introduced into the hub through the ventilation device in the rain.

Embodiment of the present invention, to ventilate the inside of the hub of the wind generator to provide a ventilation device that can prevent the flow of fluid such as rain water into the hub through the ventilation device.

Ventilation device according to an aspect of the present invention, a ventilation device for ventilating the inside of the hub of the wind generator, penetrating the inside and outside of the hub in the same line as the rotation axis of the hub, respectively located on the outside and inside of the hub And a cylindrical ventilation tube that is bent so that one side and the other opening face downward, and includes a bearing positioned between the hub and the ventilation tube, and the ventilation tube includes the one side and the other side of the ventilation tube, even if the hub rotates. The opening may be made to continue downward by gravity.

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In addition, the ventilation pipe may further include a weight coupled to the end.

In addition, the ventilation pipe, a filter member may be installed inside.

The ventilation pipe may further include a fluid inflow prevention step protruding from an inner circumferential surface to prevent fluid from flowing into the hub along the inner circumferential surface.

In addition, the weight portion, the separation prevention projection is formed on the lower inner peripheral surface, it is possible to prevent the filter member from being separated.

In addition, the cover may further include a cover coupled to the hub to surround one side of the ventilation pipe.

In addition, the cover may include a plurality of drainage holes formed along an edge and penetrate the inside and the outside of the cover.

In addition, the cover may include a plurality of ventilation holes formed in the tip portion and penetrate the inside and the outside of the cover.

Embodiment of the present invention, when ventilating the inside of the hub of the wind power generator, to prevent the flow of rain water and the like into the hub through the ventilation device, to reduce the condensation generated inside the hub, Corrosion or failure of the devices located therein can be prevented.

1 is a use state diagram showing a ventilation device according to an embodiment of the present invention.
Figure 2 is a side conceptual view showing a ventilation device according to an embodiment of the present invention.
3 is a cross-sectional view showing an inlet pipe of a ventilation device according to an embodiment of the present invention.
4 is a cross-sectional view taken along the line AA ′ of FIG. 3.
5 is a front view showing the cover of the ventilation device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a use state diagram showing a ventilation device according to an embodiment of the present invention, Figure 2 is a side conceptual view showing a ventilation device according to an embodiment of the present invention. In this case, the hub 2, the bearing 10 and the cover 30 are shown in the side cross-sectional view, the ventilation pipe 20 is shown in the side view form.

 1 and 2, the ventilation device 100 according to an embodiment of the present invention is coupled to the bearing 10 and the bearing 10 mounted on the hub 2 of the wind generator 1, and the hub 10. Ventilation pipe 20 for ventilating the inside of (2) is included. Here, the hub 2 is rotated in parallel with the blade 3 as the blade 3 is coupled to the wind to act as the blade 3 rotates.

In addition, the ventilation device 100 of the present invention further includes a cover 30 surrounding the outside of the ventilation pipe 20 and a filter member 26 positioned inside the ventilation pipe 20.

First, referring to FIG. 2, the bearing 10 is mounted at the tip of the hub 2. In addition, although the bearing 10 may be formed of, for example, a ball bearing, the bearing 10 according to the embodiment of the present invention is not necessarily limited to the ball bearing.

Here, the ball bearing is a plurality of balls 13 located between the inner ring 11 located inside the bearing 10, the outer ring 12 located outside, and the inner ring 11 and the outer ring 12. Including, the inner ring 11 and outer ring 12 of the bearing 10 is rotated around a plurality of balls 13, respectively.

In addition, the outer ring 12 of the bearing 10 is fixed to the inner circumferential surface of a through hole (not shown) passing through the inner and outer parts of the hub 2 by welding or the like. At this time, when the inner ring 11 of the bearing 10 rotates, the central axis of rotation is located on the same line as the rotation axis direction of the hub 2.

3 is a cross-sectional view illustrating an inlet pipe of a ventilation device according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view taken along line AA ′ of FIG. 3. At this time, the left direction in Figure 3 is shown in the form of a cross-sectional view, the right direction is shown in the form of a cross-sectional view.

2 and 3, the ventilation pipe 20 is It is installed to penetrate the inside and the outside of the hub 2, the inside of the hub 2 may be ventilated as air moves inside and outside the hub 2 through the ventilation pipe 20.

In addition, the ventilation pipe 20 is bent in the form of a depression ("c"), one side is located outside the hub 2, the other side is located inside the hub (2).

At this time, one side and the other side is bent to form one end and the other end of the ventilation pipe 20 toward the lower direction.

In addition, the center of the ventilation pipe 20 is horizontally coupled to the inner peripheral surface of the inner ring 11 of the bearing 10, and is co-rotated with the inner ring 11 of the bearing 10.

Here, gravity acts more strongly at both ends of the ventilation pipe 20 than at the center of the ventilation pipe 20, so that the heights of one end and the other end of the ventilation pipe 20 are lower than the bearing 10.

Accordingly, when the hub 2 rotates, the outer ring 12 of the bearing 10 fixed to the hub 2 is rotated in coordination with the hub 2, and the inner ring of the bearing 10 to which the ventilation pipe 20 is fixed ( 11) is idling so that both ends of the ventilation pipe 20 can be continuously positioned in the downward direction.

In addition, the ventilation pipe 20 has a flow hole 24 is formed so that the air can flow into the inside, the outside of the hub (2). Here, the first outlet 24a is formed at one end of the flow hole 24, and the second outlet 24b is formed at the other end of the flow hole 24. At this time, since both ends of the ventilation pipe 20 are continuously positioned in the downward direction, the first outlet 24a and the second outlet 24b, which are both openings of the ventilation pipe 20, are continuously positioned downward. Can be.

3 and 4, a fluid inflow preventing end 28 protrudes below the inner circumferential surface of the ventilation pipe 20, and fluid such as rain water flows into the ventilation pipe 20 to allow the fluid to flow in the ventilation pipe 20. The fluid may be prevented from moving into the hub 2 through the flow hole 24. In this case, the fluid inflow preventing end 28 may be located at the center of the flow hole 24.

Meanwhile, referring to FIGS. 2 and 3, the ventilation tube 20 further includes a plurality of weights 25 detachably coupled to one side and the other end 21 of the ventilation tube 20. In addition, the weight portion 25 is formed with a screw groove (25a) on the upper inner peripheral surface, is screwed to the screw portion 23 formed on the outer peripheral surface of one side and the other end 21.

In addition, the weight portion 25 is formed of a metal material outgoing a lot of mass so that gravity acts more strongly on one side and the other end of both ends of the ventilation pipe 20 in the downward direction. At this time, the weight portion 25 is formed of a material having a larger mass than the one end and the other end 21 of the ventilation pipe (20). Here, the metal material may be, for example, steel, but the material of the weight part 25 of the present invention is not limited thereto.

Here, when the hub 2 rotates, the gravity acting on both ends of the ventilation pipe 20 is increased by the weight 25 coupled to both ends 21 of the ventilation pipe 20.

Thus, gravity acts on both ends of the vent tube 20 more strongly than when the weight 25 is not coupled to the vent tube 20.

Accordingly, one end and the other end of the ventilation pipe 20 can be located more easily toward the lower direction when the weight portion 25 is not coupled to both ends 21.

Therefore, it may be easier for the first outlet 24a and the second outlet 24b formed at one end and the other end of the ventilation pipe 20 to be continuously positioned downward.

On the other hand, the lower inner circumferential surface of the weight portion 25 is formed with a separation preventing projection (25b) to prevent the filter member 26 is separated from the outside of the ventilation pipe (20).

And, the weight portion 25 is detachably coupled to the ventilation pipe 20, the exchange of the filter member 26 may be easy.

And, referring to Figure 3, the filter member 26 is composed of a high particle filter (26a) and a low particle filter (26b) is located in the interior of the ventilation pipe 20, foreign matter flow hole (of the ventilation pipe 20) 24 to prevent the inside of the hub (2) to flow.

Here, the high particle filter 26a has a plurality of holes formed to a size through which foreign particles with large particles can be filtered out and foreign substances with small particles can be passed, thereby preventing foreign particles having large particles from being introduced into the ventilation pipe 20. . In this case, the high particle filter 26a may be made of plastic or iron.

In addition, the low particle filter 26b is formed with a hole sized to filter foreign matters having small particles such as sand and dust, thereby preventing foreign matters having small particles from entering the inside of the ventilation pipe 20. At this time, the low particle filter 26b is made of a fiber material, it is possible to prevent the inflow of high humidity, high salinity air.

At this time, the high particle filter 26a is located in the inward direction of the ventilation pipe 20, and the low particle filter 26b is located in the outward direction of the ventilation pipe 20, so that the foreign particles having large particles are separated from the high particle filter 26a. After the primary filtering, the low particle filter 26b may secondaryly filter foreign matter having small particles.

5 is a front view showing the cover of the ventilation device according to an embodiment of the present invention.

2 and 5, the cover 30 is coupled to the hub 2 so as to surround one side of the ventilation pipe 20 located at the outside of the hub 2. At this time, the cover 30 is formed with an accommodating part 36 open to the rear side to accommodate one side of the ventilation pipe 20. Then, the rear end 32 of the cover 30 is screwed to the hub 2 via a plurality of screws 35.

In addition, the cover 30 has a plurality of ventilation holes 34 penetrating the inside and the outside of the cover 30 in the front end portion 31, the air flows to the ventilation pipe 20 through the ventilation hole 34. Can be.

In addition, the cover 30 is formed with a plurality of drainage holes 33 penetrating the inside and the outside of the cover 30 along the edge, the fluid such as rain water located inside the cover 30 drainage holes 33 Can be discharged downward.

Although various embodiments of the present invention have been described above, the spirit of the present invention is not limited to the embodiments set forth herein, and those skilled in the art who understand the spirit of the present invention may add components within the same scope. It will be possible to easily propose another embodiment by changing, deleting, adding, etc., but this will also fall within the spirit of the present invention.

1: wind generator 2: hub
3: blade 10: bearing
11: inner ring 12: outer ring
13: ball 20: ventilation tube
21: end 21a: threaded portion
24: flow hole 24a: first outlet
24b: 2nd outlet 25: weight part
25a: screw groove 25b: release bump
26 filter element 26a high particle filter
26b: low particle filter 28: fluid inflow prevention stage
30: cover 31: distal end
32: rear end 33: drainage hole
34: ventilation hole 35: screw
36: receiving part 100: ventilation device

Claims (11)

Ventilation device for ventilation inside the hub of the wind generator,
And a cylindrical ventilation tube that penetrates the inside and the outside of the hub in the same line as the rotation axis of the hub, and is bent so that one side and the other opening respectively positioned outside and inside the hub face downward.
A bearing located between the hub and the ventilation pipe;
The ventilation pipe is configured to allow the one side and the other opening of the ventilation pipe to be continuously directed downward by gravity even if the hub rotates.
delete delete delete delete The method of claim 1,
The ventilation pipe,
Ventilation device further comprises a weight coupled to the end.
The method of claim 1,
The ventilation pipe,
Ventilation device provided with a filter member inside.
The method of claim 1,
The ventilation pipe,
And a fluid inflow prevention step protruding from an inner circumferential surface to prevent fluid from flowing into the hub along the inner circumferential surface.
The method according to any one of claims 1 and 6 to 8,
Ventilation device further comprises a cover coupled to the hub to surround one side of the ventilation pipe.
The method of claim 9,
The cover
And a plurality of drainage holes formed along an edge and penetrating the inside and the outside of the cover.
The method of claim 9,
The cover
And a plurality of ventilation holes formed in the tip portion and penetrating the inside and the outside of the cover.

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