KR20110069463A - Wind power generator - Google Patents

Abstract

PURPOSE: A wind power generator is provided to prevent a nacelle platform from being rotated by operating a yaw locking unit when the wind power generator is repaired. CONSTITUTION: A wind power generator comprises a column unit, a nacelle platform, a generator assembly, a rotor hub, a blade, a main frame(25), and a yaw locking unit(23). The column unit is fixed to the ground. The nacelle platform is arranged on the top of the column unit. The generator assembly is coupled to the nacelle platform. The rotor hub is rotatably coupled to the generator assembly or the nacelle platform. The blade rotates the rotor hub. The main frame is relatively moved to a brake disk. The yaw locking unit restricts the relative movement of the main frame.

Description

Wind power generator

The present invention relates to a wind power generator, and more particularly, to a wind power generator that can easily maintain a large wind power generator and can improve the safety of the operator.

In general, a wind generator includes a pillar portion, a nussel platform installed on the pillar portion, a generator assembly installed on the nussel platform, a rotor hub coupled to the generator assembly, and blades coupled to the rotor hub.

Such a wind generator is provided with a yaw device at the top and the pillar. The yaw device adjusts the blades to face the direction of the wind.

If the wind generator needs to be repaired, the worker may climb onto the nussel platform. That is, in case of stopping due to a major fault of the wind generator, or when the generator is out of control, maintenance of the yaw device, failure of the yaw brake, breakage of the hydraulic line, etc. do.

In this case, the yaw device needs to be temporarily and securely locked, but there is a problem in that it cannot fully cope with securing the yaw device because it does not include a device for locking a separate yaw device.

Therefore, the present invention has been proposed to solve the above problems, an object of the present invention is to provide a wind power generator for the safety of the operator to maintain the wind generator by installing a locking device to the yaw device.

In order to achieve the object as described above, the present invention, a pillar portion fixed to the ground, a nussel platform disposed on the upper end of the pillar portion, a generator assembly coupled to the nussel platform, rotatably to the generator assembly or nussel platform A rotor hub coupled to the rotor hub, blades coupled to the rotor hub to rotate the rotor hub by wind, a brake disc coupled to the pillar portion, and a main frame coupled to the nussel platform side while moving relative to the brake disc. And a yaw device for rotating the nussel platform so that the blades face the direction of the wind, and a yaw locking means installed in the yaw device and including yaw locking means for restricting relative movement of the brake disc and the main frame. to provide.

The yaw locking means is a case fixed to the main frame, a locking rod that can be inserted into the locking hole provided in the brake disc by lifting or lowering along the inside of the case, the locking rod is installed on the side portion of the locking rod Stoppers for limiting the movement of the rod, it is preferable to include a engaging member coupled to the case to limit the movement of the stoppers.

The locking holes are preferably provided at regular intervals at the same distance from the center of rotation of the brake disc.

The stoppers preferably protrude in different directions at regular intervals.

The locking members include a first locking member and a second locking member disposed at upper and lower portions of the case at regular intervals, and the stoppers are disposed at regular intervals from each other and are moved by the first locking member. It is preferable to include a limited first stopper and a second stopper movement is limited by the second locking member.

The first locking member is provided through the center portion in the axial direction and provided with a first guide hole for guiding the locking rod, first key grooves extending in a radial direction from the first guide hole and passing through the first stopper, It is preferable to include a first locking groove which is connected to the first key grooves and the first stopper is placed in a locked state.

The second locking member is provided through the axial direction in the center portion, the second guide hole for guiding the locking rod, the second key grooves extending in the radial direction from the guide hole and the second stopper passes through the second guide hole. It is preferable to include a second locking groove which is connected to the two key grooves and the second stopper is placed in a locked state.

The locking rod is preferably provided with a tool connection portion provided with a screw groove in the axial direction in the upper middle portion.

The present invention as described above has the effect of preventing the rotation of the nussel platform by operating the yaw locking means when maintaining the wind power generator can promote the safety of the operator.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining an embodiment of the present invention, the base 1 is installed on the ground, the pillar portion (3) standing and fixed to the base 1, the nussel is disposed on the upper portion of the pillar portion (3) Platform 5, generator assembly 7 coupled to nussel platform 5, rotor hub 9 coupled to generator assembly 7, and blades 11, 13, 15 coupled to rotor hub 9 Include them.

The base 1 is a structure that is made through concrete pouring on the ground in order to firmly fix the pillar (3). The pillar portion 3 may be generally made in a size of several tens of meters or more, and may be made of a concrete pouring or metal material firmly assembled.

The nussel platform 5 is installed at the upper end of the pillar part 3, and components necessary for power generation may be disposed.

The generator assembly 7 is coupled to the nussel platform 5 by conventional fastening members. The generator assembly 7 is provided with a case on the outside, it is preferable that the devices necessary for wind power generation are disposed therein.

In the embodiment of the present invention, the generator assembly 7 illustrates an example made of a structure separated from the nussel platform 5, but the structure is not limited to such a structure and is accommodated inside the nussel platform 5. Applicable to embodiments of the present invention.

And the rotor hub 9 is rotatably coupled to the generator assembly (7). The rotor hub 9 is typically coupled with three blades 11, 13, 15.

However, in the exemplary embodiment of the present invention, an example in which three blades 11, 13, and 15 are coupled to each other is illustrated as an example. However, the present disclosure is not limited thereto and may be implemented in various examples.

The yaw locking means 23 which locks the yaw device 21 and the yaw device 21 as shown in FIGS. 2 and 3 between the nussel platform 5 and the pillar portion 3 described above. This is installed.

The yaw device 21 comprises a main frame 25 which rotates integrally with the nussel platform 5 and a brake disc 27 which is fixed to the pillar portion 3. In addition, although not shown, the yaw device 21 includes a yaw drive installed in the main frame 25.

The yaw drive can rotate the main frame 25 through gears (not shown) engaged with gear teeth provided on the outer circumferential surface of the brake disc 27. Thus, the yaw drive can be controlled by the rotation of the main frame 25 so that the nussel platform 5 rotates together so that the blades 11, 13, 15 always face in the direction of the wind. The detailed structure of the required device 21 may be used a conventional structure applied to the wind generator.

The yaw locking means 23 includes a case 41, a locking rod 43, stoppers 45, and locking members 47, as shown in FIGS. 3 and 5 to 7.

The case 41 is provided with a hole 41a axially penetrated to the center portion. And the locking rod 43 is inserted in this hole 41a, and can be moved to an axial direction. The case 41 is provided with a flange portion 41b on its outer circumferential surface. A plurality of coupling holes 41c are provided in the flange portion 41b. The case 41 is coupled to the main frame 25 by a fastening member B such as a bolt through the coupling holes 41c of the flange portion 41b.

The locking rod 43 is disposed so as to be lifted or lowered in the axial direction along the through hole 41a of the case 41. The locking rod 43 is provided with a tool connecting portion 43b provided with a screw groove in the axial direction at the center of one side (the upper part in FIG. 7). The tool connecting portion 43b is for the operator to temporarily engage a tool having a thread corresponding to the screw groove to rotate, lift or lower the locking rod 43.

 The locking rod 43 is coupled to the stoppers 45 at regular intervals on the side. That is, the locking rod 43 is provided with the grooves 43a at positions where a certain distance is floated on the side side. The stoppers 45 protruding in the circumferential direction from the center of the locking rod 43 are coupled to these grooves 43a by a fastening member such as another bolt. The stopper 45 includes the first stopper 49 and the second stoppers 51 disposed on the lower part at the upper side (see FIG. 7).

It is preferable that the first stopper 49 and the second stopper 51 protrude in different directions (for example, rotated by 90 °).

The catching members 47 may include a first catching member 53 disposed above the case 41 and a second catching member 55 disposed below the case 41 (see FIG. 7). Include. The first locking member 53 and the second locking member 55 are coupled to the case 41 by a fastening member B such as another bolt.

The first locking member 53 has a first guide hole 53a penetrating in the axial direction in the center portion thereof, first key grooves 53b extending in the radial direction from the first guide hole 53a, and a first key groove ( 53b) is connected to the first stopper 49 includes a first locking groove (53c) is placed in a locked state.

The first guide hole 53a may move up and down by guiding the locking rod 43. The first stoppers 49 may pass through the key grooves 53b. The first stopper 49 is moved to the position of the first locking groove 53c through the key groove 53b. It is preferable that the shape of the first locking groove 53c is substantially circular. In addition, as the first stopper 49 contacts the upper portion of the case 41 which is in contact with the first locking groove 53c, the first stopper 49 may maintain a stopped state.

The second locking member 55 includes a second guide hole 55a penetrating in the axial direction in the center portion, second key grooves 55b extending in the radial direction from the second guide hole 55a, and a second key groove ( 55b) is connected to the second stopper 51 includes a second locking groove (55c) is placed in a locked state.

The second guide hole 55a may move up and down by guiding the above-described locking rod 43. The second stoppers 51 may pass through the key grooves 55b. The second stopper 51 is moved to the position of the second locking groove 55c through the key groove 55b. It is preferable that the shape of the second locking groove 55c is substantially circular.

That is, the second locking member 55 may have the same shape as the first locking member 53.

On the other hand, the above-mentioned locking rod 43 may be inserted into the locking hole 27a (shown in FIG. 4) provided in the brake disc 27. That is, the brake disc 27 is provided with locking holes 27a penetrating at regular intervals at a position at a certain distance from the center. The locking rod 29 may be inserted into the locking hole 27a while moving in the up and down directions.

Referring to the operation of the embodiment of the present invention made as described above are as follows.

If a need arises for maintenance of the wind generator, the worker is on the nussel platform (5). At this time, the yaw locking means 23 is driven after stopping the yaw device 21.

That is, the worker inserts and fixes a tool (not shown) to the tool connecting portion 43b provided on one side of the locking rod 43. At this time, the tool is used that is provided with a screw thread coupled to the screw groove formed in the tool connecting portion (43b). When the operator rotates the tool in one direction while the tool is fixed to the locking rod 43, the locking rod 43 rotates together.

As the locking rod 43 rotates, the second stopper 51 moves downward through the key groove 55b of the second locking member 55 by its own weight (states shown in FIGS. 3 and 5).

The locking rod 43 is then inserted into the locking hole 27a provided in the brake disc 27.

At this time, the first stopper 49 provided on the locking rod 43 passes through the key groove 53b of the first locking member 53 and is positioned in the first locking groove 53c. Therefore, the movement of the locking rod 43 is limited (state shown in Figs. 3 and 5).

Therefore, the main frame 25 and the brake disc 27 are kept in a fixed state. When the main frame 25 is fixed, the nussel platform 5 integrally coupled thereto is fixed. Then, the generator assembly 7 fixed to the nussel platform 5 and the rotor hub 9 coupled to the generator assembly 7 are fixed without being rotated.

Therefore, the worker can work safely in the nussel platform (5).

And when the work is completed, the worker lifts the tool up and rotates it. The locking rod 43 is then released from the locking hole 27a of the brake disc 27. That is, the locking rod 43 rises upward. At this time, the first stopper 49 rises through the first key groove 53b of the first locking member 53.

The second stopper 51 passes through the second key groove 55b of the second locking member 55 and is positioned in the second locking groove 55c. Therefore, the locking rod 43 is capable of operating the yaw device 21 while being separated from the locking hole 27a (state shown in FIG. 8).

Thus, the embodiment of the present invention can prevent the safety accident of the operator by performing the locking function to temporarily stop the yaw device 21 by using the yaw locking means 23 when it is necessary to maintain the wind generator. It is.

1 is a view showing the overall shape of a wind generator for explaining an embodiment of the present invention.

2 is a view showing the main part of the yaw apparatus for explaining an embodiment of the present invention.

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

4 is a view showing the shape of the brake disc in order to explain the embodiment of the present invention.

Figure 5 is a perspective view of the yaw locking means for explaining an embodiment of the present invention.

FIG. 6 is a cross-sectional view taken along the line VI-VI of FIG. 5.

FIG. 7 is an exploded perspective view showing an exploded view of FIG. 5.

8 is a view showing yaw locking means in the unlocked state to explain the operation of the embodiment of the present invention.

Claims (8)

Column part fixed to the ground, A nussel platform disposed at an upper end of the pillar; A generator assembly coupled to the nussel platform, A rotor hub rotatably coupled to the generator assembly or a nussel platform, Blades coupled to the rotor hub for rotating the rotor hub by wind, A yaw device including a brake disk coupled to the pillar and a main frame coupled to the brake disk and coupled to the nussel platform, and rotating the nussel platform so that the blades face the direction of the wind; Yaw locking means installed in the yaw device and restricting relative movement of the brake disc and the main frame; Wind generator comprising a. The method according to claim 1, The yaw locking means A case fixed to the main frame, Locking rod that can be inserted into the locking hole provided in the brake disc by lifting or lowering along the inside of the case, Stoppers installed on the side portion of the locking rod to limit the movement of the locking rod, Engaging members coupled to the case to limit the movement of the stoppers Wind generator comprising a. The method according to claim 2, The locking hole is A wind generator provided at regular intervals at the same distance from the center of rotation of the brake disk. The method according to claim 2, The stoppers Wind generators that project in different directions at regular intervals. The method according to claim 2, The catching members include a first catching member and the second catching member disposed at upper and lower portions of the case at regular intervals, The stoppers are disposed at regular intervals from each other and the first stopper is restricted movement by the first locking member and the second stopper is limited movement by the second locking member Wind generator comprising a. The method according to claim 5, The first locking member A first guide hole axially penetrating the center portion and guiding the locking rod, First key grooves extending in the radial direction from the first guide hole and through which the first stopper passes; A first locking groove connected to the first key groove to which the first stopper is placed in a locked state; Wind generator comprising a. The method according to claim 5, The second locking member A second guide hole penetrating in the axial direction and guiding the locking rod, Second key grooves extending in the radial direction from the guide hole and through which the second stopper passes; A second locking groove which is connected to the second key groove and is placed in a locked state of the second stopper; Wind generator comprising a. The method according to claim 5, The locking rod is Wind generator with tool connection provided with axial threaded groove in the upper middle part.

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