WO2015160063A1 - Platform for repair and maintenance of wind turbine - Google Patents

Abstract

The present invention relates to a platform for repair and maintenance of a wind turbine, and more specifically, comprises: a blade platform for repair and maintenance of blades of a wind turbine; and a tower platform for repair and maintenance of a tower of a wind turbine, wherein the tower platform is capable of adjusting the inner diameter of the tower platform according to the diameter of the tower while surrounding the tower, so that the tower platform is brought into contact with an outer surface of the tower, even when the tower platform is raised or lowered along the tower of which the diameter decreases toward the top, and wherein the balance of all platforms can be easily adjusted by controlling the distance between the blade platform and the tower.

Description

Wind Turbine Maintenance Platform

The present invention relates to a wind turbine maintenance platform, and more particularly includes a wind turbine blade maintenance blade platform and a wind turbine tower maintenance tower platform, the tower platform surrounds the tower and the It is possible to adjust the inner diameter of the tower platform in accordance with the diameter, even if the tower platform rises and falls along the tower having a diameter that decreases toward the upper side, the tower platform can be adjacent to the outer surface of the tower, the blade platform It is to the wind turbine maintenance platform that can easily adjust the balance of the entire platform by adjusting the distance of the tower.

A wind turbine is a device that produces electricity by converting wind's kinetic energy into mechanical energy. Wind power generators are installed on land or at sea, towers are installed to rotate on top of the towers, and have a built-in nacelle. The wind turbines are installed on the nacelle to drive the generator. It includes a rotor etc. equipped. The wind turbine may be contaminated by dust or insects attached to the blade and / or tower surface during use, and may cause scratches or cracks on the blade and / or tower. Pollution and breakage of the wind turbine reduces the energy generation efficiency, and thus requires operations such as cleaning, inspecting, repairing and deicing the blades and towers periodically. However, since the wind turbine is a large structure, it is difficult to maintain, and in recent years, dedicated equipment has been proposed to perform maintenance of blades and towers in a safer environment.

(Patent literature)

US published patent US2009 / 0173573 (published Jul. 09, 2009)

US published patent US2011 / 0024233 (published Feb. 03, 2011)

The U.S. Patent Publication No. 2009/0173573 (published 07.09.2009) and the U.S. Patent Application Publication No.2011 / 0024233 (published 02.03.2011) can be lifted along the tower using cables, respectively, and the operator boards. We have suggested maintenance equipment that can access the blades in one state. However, these equipments are not only large and difficult to operate, but also for maintenance of only one blade. There is a problem that must be used.

(Patent literature)

Korea Patent Registration KR10-1324977 (2013. 11. 5. notification)

In case of Korea Patent Registration No. KR10-1324977 (announced on Nov. 5, 2013), a maintenance platform that minimizes size and enhances stability in operation is proposed, but this also simply maintains only one blade. Because it is only for use, the problem of having to use a separate platform for the maintenance of the tower remains as it is. In addition, the tower is reduced in diameter toward the upper side, the tower maintenance platform ascending and descending is fixed inside diameter so that the tower maintenance platform is located at the top of the tower far away from the outer side of the tower tower Maintenance is not easy and there is a problem that can cause a safety accident.

The present invention has been made to solve the above problems,

The present invention has a purpose of providing a wind turbine maintenance platform that can be used to maintain the blade and the tower at the same time because the blade maintenance blade platform and tower maintenance tower platform combined lifting and lowering integrally. .

In addition, the present invention is the tower platform surrounds the tower, it is possible to adjust the inner diameter of the tower platform according to the diameter of the tower, even if the tower platform is raised and lowered along the tower to decrease the diameter toward the upper side It is an object of the present invention to provide a wind turbine maintenance platform capable of adjoining a tower platform to an outer surface of the tower.

In addition, the present invention by adjusting the 'Y' shaped angle formed by the balance control unit and the position of the weight in the balance control unit in accordance with the movement of the blade platform, the platform for maintaining the wind power generator maintenance that can effectively adjust the balance of the entire platform The purpose is to provide.

The present invention is implemented by the embodiment having the following configuration to achieve the above object.

According to one embodiment of the present invention, the wind turbine maintenance platform according to the present invention is a blade platform for wind turbine blade maintenance, a wind turbine tower maintenance tower platform, and controls the operation of the blade platform and the tower platform Including a controller to, the blade platform and the tower platform is characterized in that it can be used to maintain the blade and the tower of the wind turbine at the same time by lifting up and down integrally.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention, the tower platform surrounds the tower, and it is possible to adjust the inner diameter of the tower platform according to the diameter of the tower, the upper side The tower platform may be adjacent to the outer surface of the tower even if the tower platform is moved up and down along the tower which decreases in diameter.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention, the tower platform includes a main frame positioned at a predetermined interval, and an auxiliary frame connecting the main frame, One end of the auxiliary frame is inserted into one end of the main frame is connected to the main frame and the auxiliary frame, it is possible to reciprocate the auxiliary frame inserted into the main frame in a sliding manner, the interval between the main frame Characterized in that it can adjust the inner diameter of the tower platform.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention, the tower platform is connected to the main frame and the auxiliary frame, respectively, and lowers the tower platform and the auxiliary frame is the main frame. It characterized in that it comprises a lifting and lowering interval adjusting portion to enable the frame to reciprocate in a sliding manner.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention, the main frame has a lower surface portion forming a lower surface, and a side portion provided on an upper side of the lower surface portion to form a side surface of the main frame. It includes, the lifting interval adjusting portion support plate coupled to the lifting and lowering in the side portion, the support plate fixing portion for fixing the support plate and the side portion detachably coupled to the support plate or the side portion, and the hoist coupled to the support plate front And a first wire connecting the nacelle of the tower and the hoist, a first pulley coupled to the support plate at a predetermined distance from the hoist, and second and third pulleys coupled to the bottom surface and positioned at a predetermined interval. And, surrounding the first, second, and third pulleys, one end of which is coupled to one auxiliary frame and the other end of which is coupled to another auxiliary frame. Including the second wire, the support plate and the side portion is fixed using the support plate fixing portion and the hoist is operated when the tower platform is raised and lowered, the support plate is the support plate when operating the hoist with the support plate fixing portion removed The first pulley coupled to the support plate by lifting up and down at the side portion is pulled up or down of the second wire.

According to another embodiment of the present invention, when the first pulley is raised in the wind turbine maintenance platform according to the present invention, the auxiliary frame coupled to the end of the second wire is pulled and inserted into the main frame. The portion of the auxiliary frame is increased so that the distance between the main frame is reduced, and when the second platform is lowered and the tower platform is lowered while the second wire is loose, the main frame along the tower increases in diameter. The lower portion of the sub-frame inserted into the main frame is reduced, characterized in that the interval between the main frame is increased.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention further includes a support frame to which the blade platform and the tower platform is coupled, wherein the support frame is coupled to the blade platform And a first support frame and a second support frame to which the tower platform is coupled, wherein one end of the second support frame is inserted into one end of the first support frame so that the first support frame and the second support frame are coupled to each other. The second support frame having one end inserted into the first support frame may be reciprocated in a sliding manner, and thus the distance between the blade platform and the tower may be adjusted.

According to another embodiment of the present invention, the wind turbine maintenance platform according to the present invention further comprises a balance control unit for adjusting the balance of the entire platform coupled to one side of the support frame, the balance control unit a pair The equilibrium control unit of the 'Y' shape is positioned to face each other is characterized in that it is disposed in the form adjacent to the wind turbine tower.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention, the balance control unit has a balance control frame which is rotatably coupled to one side of the support frame, and one end is coupled to the support frame. The other end is characterized in that it comprises an angle adjusting means for adjusting the angle between the support frame and the balance control frame is coupled to the balance control frame.

According to another embodiment of the present invention, in the wind turbine maintenance platform according to the present invention, the balance control frame has a first balance control frame having one end rotatably coupled to one side of the support frame and one end thereof. A second balance control frame inserted into the other end of the first balance control frame and coupled to the first balance control frame, and a weight portion coupled to the other end of the second balance control frame, and once in the first balance control frame. The inserted second balance control frame may be reciprocated in a sliding manner.

The present invention can obtain the following effects by the configuration, combination, and use relationship described above with the present embodiment.

According to the present invention, since the blade maintenance blade platform and the tower maintenance tower platform are integrated and lifted up and down, the blade and the tower can be used to simultaneously maintain the blade and the tower.

In addition, the present invention is the tower platform surrounds the tower, it is possible to adjust the inner diameter of the tower platform according to the diameter of the tower, even if the tower platform is raised and lowered along the tower to decrease the diameter toward the upper side There is an effect that the tower platform can be adjacent to the outer surface of the tower.

In addition, the present invention has the effect of effectively adjusting the balance of the entire platform by adjusting the position of the 'Y' shaped angle formed by the balance control unit and the weight in the balance control unit in accordance with the movement of the blade platform.

1 is a plan view of a wind turbine maintenance platform according to an embodiment of the present invention.

Figure 2 is a plan view showing a wind turbine maintenance platform coupled to the wind turbine in accordance with an embodiment of the present invention.

Figure 3 is a side view of a wind turbine maintenance platform according to an embodiment of the present invention.

Figure 4 is a side view showing the wind turbine maintenance platform coupled to the wind turbine generator according to an embodiment of the present invention.

Figure 5 is a plan view for explaining the operating state of the tower platform constituting the maintenance platform according to an embodiment of the present invention.

Figure 6 is a side view for explaining the operating state of the tower platform constituting the maintenance platform according to an embodiment of the present invention.

Figure 7 is a schematic perspective view for explaining the coupling relationship between the support plate and the side portion.

8 is a plan view for explaining an operating state of the blade platform constituting the maintenance platform according to an embodiment of the present invention.

Figure 9 is a side view for explaining the operating state of the blade platform constituting the maintenance platform according to an embodiment of the present invention.

FIG. 10 is a partial cutaway side view illustrating a method of sliding the second support frame of FIG. 9 from the first support frame; FIG.

Hereinafter, a wind turbine maintenance platform according to the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. Unless otherwise defined, all terms in this specification are equivalent to the general meaning of the terms understood by those of ordinary skill in the art to which the present invention pertains and, if they conflict with the meanings of the terms used herein, Follow the definition used in the specification. Throughout the specification, when a part is said to "include" a certain component, it means that it may further include other components, without excluding other components unless specifically stated otherwise.

1 is a plan view of a wind turbine maintenance platform according to an embodiment of the present invention, Figure 2 is a plan view showing a wind turbine maintenance platform coupled to a wind turbine according to an embodiment of the present invention, Figure 3 is a side view of the wind turbine maintenance platform according to an embodiment of the present invention, Figure 4 is a side view showing the wind turbine maintenance platform coupled to the wind turbine in accordance with an embodiment of the present invention, Figure 5 is a plan view for explaining the operating state of the tower platform constituting the maintenance platform according to an embodiment of the present invention Figure 5 (a) is a tower platform coupled to the lower side of the tower Figure 5 (B) shows the tower platform is coupled to the upper side of the tower, Figure 6 shows the operating state of the tower platform constituting the maintenance platform according to an embodiment of the present invention 6 (a) shows the tower platform is coupled to the lower side of the tower, and Figure 6 (b) shows the tower platform is coupled to the upper side of the tower, Figure 7 is FIG. 8 is a schematic perspective view illustrating a coupling relationship between a support plate and a side part, FIG. 8 is a plan view illustrating an operating state of a blade platform constituting a maintenance platform according to an embodiment of the present invention, and FIG. Side view for explaining the operating state of the blade platform constituting the maintenance platform according to an embodiment, Figure 10 is a partial cutaway side view for explaining how the second support frame of Figure 9 sliding in the first support frame. to be. For reference, in FIGS. 5 and 6, the blade platform, the support frame, and the balance control unit are omitted for the convenience of description, and in FIG. 7, the configuration coupled to the support plate is omitted for the convenience of description, and the tower platform is illustrated in FIGS. 8 and 9. It is omitted for convenience of description.

Referring to the wind turbine maintenance platform according to an embodiment of the present invention with reference to Figures 1 to 10, the platform is a blade platform (1) for maintaining the blade 131 of the wind turbine (100), Tower 110 platform for maintaining the tower 110 of the wind power generator 100, a support frame (3) to which the blade platform (1) and the tower platform (2) is coupled, and the support frame (3) Combined with one side of the balance control unit for adjusting the balance of the entire platform (4), including the controller (not shown) for controlling the operation of the blade platform (1) and the tower platform (2), the blade platform (1) and the tower platform (2) has a feature that can maintain the blade 131 and the tower 110 of the wind turbine 100 at the same time by raising and lowering integrally. Before describing the platform, the wind power generator 100 will be described. The wind power generator 100 is installed to rotate on top of the tower 110 and the tower 110 on land or at sea, and includes a generator. One nacelle 120 and a rotor 130 installed to rotate on the nacelle 120 to drive the generator and the plurality of blades 131 are included. The tower 110 has a shape in which the diameter w1 decreases toward the upper side.

The blade platform (1) is surrounded by the blade 131 of the wind turbine (100) is a workbench configuration is formed so that the operator to maintain the blade 131 can be boarded, the blade platform (1) It may have a predetermined shape but may be preferably formed in a three-dimensional shape having a polygonal plane surrounding the entire blade 131. One side of the blade platform (1) is coupled to the lifting means (11) for raising and lowering the blade platform (1) along the blade (131). The elevating means 11 may use various means for elevating the blade platform 1 surrounding the blade 131, for example, one end is coupled to the nacelle 120 and the other end is hoist 112. The hoist 112 may be used to couple the wire 111 to one side of the blade platform 1 and the wire 111 to be coupled to the other end of the wire 111. On the other hand, by controlling the distance between the blade platform 1 and the tower 110 by operating the support frame 3 on which the blade platform 1 is seated while moving in accordance with the blade 131 shape of the blade 131 It can be maintained, which will be described in detail below.

The tower platform 2 surrounds the tower 110 of the wind turbine 100 and is a workbench configured to allow a worker to board the maintenance of the tower 110, and the diameter of the tower 110. It is possible to adjust the inner diameter (w2) of the tower platform (2) in accordance with (w1), even if the tower platform (2) is raised and lowered along the tower 110, the diameter (w1) decreases toward the upper side The tower platform 2 may be adjacent to an outer surface of the tower 110. The tower platform 2 may be formed in a three-dimensional shape having a certain formation, but preferably having an octagonal plane surrounding the tower 110. The tower platform 2 includes a main frame 21, an auxiliary frame 22, the lifting interval adjusting unit 23 and the like.

The main frame 21 is formed at a predetermined interval to form a main skeleton of the tower platform (2), between the main frame 21 is an auxiliary frame (slidably coupled to the main frame 21 ( 22) is connected. One end of the auxiliary frame 22 is inserted into one end of the main frame 21 to connect the main frame 21 and the auxiliary frame 22, and an auxiliary frame having one end inserted into the main frame 21 ( 22) it is possible to reciprocate in a sliding manner, it is possible to adjust the interval between the main frame 21 can adjust the inner diameter (w2) of the tower platform (2). The main frame 21 has a certain shape, but the plane view has a 'c' shape having an angle of approximately 90 degrees between both ends. The main frame 21 constitutes a lower surface and includes a lower surface portion 211 into which one end of the auxiliary frame 22 is inserted, and side bars 212a connected to the upper surface of the lower surface portion 211 at predetermined intervals. Side portion 212. The side bars 212a are formed with a plurality of side holes 21b at regular intervals up and down, and the support plate fixing part 232 to be described later is inserted into the side holes 212b.

The auxiliary frame 22 is configured to connect between the main frame 21, one end is inserted into the lower surface portion 211 of the main frame 21 is coupled to the main frame 21, the main frame Auxiliary frame 22 having one end inserted into 21 may be reciprocated in a sliding manner, thereby adjusting the interval between the main frames 21, that is, the inner diameter w2 of the tower platform 2. The auxiliary frame 22 has a shape of a plate having a predetermined shape but a predetermined thickness up and down.

The lifting and lowering interval adjusting unit 23 is connected to the main frame 21 and the auxiliary frame 22, respectively, to raise and lower the tower platform 2 and the auxiliary frame 22 is the main frame 21. To reciprocate in a sliding manner. The support plate 231, the support plate fixing unit 232, the hoist 233, the first wire 234, the first pulley 235, the second pulley 236, the third pulley 237, and the like.

The support plate 231 is coupled to be liftable from the side portion 212 to support the hoist 233, the first wire 234, and the like, and the support plate 231 protrudes from the rear side and the side rods. And a coupling part 231a surrounding the 212b, and the coupling part 231a is formed with a coupling hole 231b through which the support plate fixing part 232 is inserted.

The support plate fixing part 232 is detachably coupled to the support plate 231 and the side portion 212 to fix the support plate 231 and the side portion 212, and the coupling hole 231b and the side hole 212b. ) Is inserted in turn to fix the support plate 231 and the side portion 212.

The hoist 233 is fixed to the front surface of the support plate 231 and is connected to the first wire 234. One end of the first wire 234 is coupled to the nacelle 120 of the tower 110 and the other end is connected to the hoist 233.

The first pulley 235 is coupled to the support plate 231 at a predetermined distance from the hoist 233, and the second and third pulleys 236 and 237 are coupled to the lower surface portion 211 and have a predetermined interval. The second wire 238 surrounds the first, second, and third pulleys 235, 236, and 237, one end of which is coupled to one auxiliary frame 22, and the other end of which is connected to the other auxiliary frame 22. Combined. Although not shown, a plurality of pulleys for guiding the second wire 238 may be additionally used.

Looking at the method of raising and lowering the tower platform (2) and adjusting the inner diameter (w2) of the tower platform (2) by using the lifting interval adjusting unit 23 having the configuration as described above, Figure 5 (a) ) And a state in which the tower platform 2 is located at the lower portion of the tower 110 and has a relatively large inner diameter w2 as shown in FIG. 6A (at this time, as shown in FIG. 7). As described above, the support plate fixing part 232 operates the hoist 233 in the support plate 231 and the side bar 212a to wind the first wire 234 to close the tower platform 2. When the support plate fixing portion 232 is removed and the first wire 233 is wound while the tower platform 2 is raised, the support plate 231 is raised along the side rods 212a. The first pulley 235 coupled to the support plate 231 is lifted up so that the beam is coupled to the end of the second wire 238. The frame 22 is pulled out so that the portion w3 of the auxiliary frame 22 inserted into the main frame 21 becomes large, as shown in FIGS. 5B and 6B. The spacing between the main frames 21 is reduced, that is, the inner diameter w2 is reduced.

When unwinding the first wire 234 of the hoist 233 slightly in the state shown in Figure 5 (b) and 6 (b) the support plate 231 is lowered to the first pulley ( 235 is lowered to loosen the second wire 238, and then the first wire of the hoist 233 in a state in which the support plate 231 and the side bar 212a are fixed using the support plate fixing part 232. Further unwinding of the 234 lowers the tower platform 2, and the main frame 21 descends along the tower 110 where the diameter w1 increases to the main frame 21. The portion w3 of the auxiliary frame 22 to be inserted is made smaller so that the interval between the main frames 21 increases as shown in FIGS. 5A and 6A, that is, the inner diameter w2. ) Becomes large.

The support frame 3 is configured to support the blade platform (1) and the tower platform (2) in combination, the first support frame 31, the second support frame 32, the support frame driving unit 33, etc. It includes. The support frame 3 has a predetermined shape, but preferably has a three-dimensional shape having a 'c' shape of the plane.

The first support frame 31 is configured to support the blade platform 1 by being coupled to the lower side of the blade platform 1, the second support frame 32 at one end of the first support frame (3) One end of is inserted.

The second support frame 32 is coupled to the lower side of the tower platform 2 to support the tower platform 2, one end of the second support frame 32 is the first support frame 31 It is possible to be inserted into one end of the reciprocating movement in a sliding manner, the distance between the blade platform 1 and the tower 110 can be adjusted.

The support frame driving unit 33 is configured to provide a driving force to reciprocally move the second support frame 32 having one end inserted into the first support frame 31 in a sliding manner, the drive motor 331, the first The gear 332, the second gear 333, the chain 334, and the protrusion coupling part 335 may be included.

The drive motor 331 is coupled to one side of the first support frame 31 provides a driving force for reciprocating the second support frame 32 in a sliding manner, the first gear 332 is the first Located in the first support frame 31 and coupled to the drive shaft 331a of the drive motor 331, the second gear 333 is the first gear (inside the first support frame 31) 332 is positioned at a predetermined interval, and the chain 334 connects the first gear 332 and the second gear 333 to each other, and the protrusion coupling part 335 is the first support frame 31. Protruding from one side of the second support frame 31 inserted in the) is coupled to the chain 334. When the chain 334 is rotated counterclockwise by operating the driving motor 331 in the state shown in FIGS. 8A, 9A and 10, the chain 334 Protruding coupling portion 335 coupled to the movement along with the chain 334 so that the portion of the second support frame 32 is inserted into the first support frame 31 is extended to Figure 8 (b) and Figure The state is as shown in (b) of FIG. 9. When the chain 334 is rotated in the clockwise direction by operating the driving motor 331 in the state shown in FIGS. 8 (b) and 9 (b), the protrusion coupling coupled to the chain 334. The portion 335 moves together with the chain 334 so that the portion where the second support frame 32 is inserted into the first support frame 31 is reduced, so that FIGS. 8A and 9A As shown in), it is possible to adjust the distance between the tower 110 and the blade platform (1).

The balance control unit 4 is coupled to one side of the support frame 3 to adjust the balance of the entire platform, a pair of balance control unit 41 is positioned to face each other in the 'Y' shape It is disposed in a form surrounding the tower 110 of the wind turbine (100). The balance control unit 41 includes a balance control frame 411, an angle control means 412, a weight portion 413, a balance control frame driving portion 414 and the like.

The balance control frame 411 is configured to rotatably couple to one side of the support frame 3, the weight portion 413 is coupled to the end. The balance control frame 411 is rotatably coupled to one side of one end of the support frame (3) and the other end of the first balance control frame (411a) is inserted into the second balance control frame (411b) to be described later, Is inserted into the first balance control frame (411a) and the other end includes a second balance control frame (411b) coupled to the weight portion 413. One end of the second balance control frame (411b) is inserted into the other end of the first balance control frame (411a) and can be reciprocated in a sliding manner, so that the weight portion 413 and the blade frame (1) You can adjust the distance.

The angle adjusting means 412 is configured to adjust the angle between the pair of balance control frame 411 by rotating the balance control frame 411, for example, one end is coupled to the support frame 3 and the other end Is coupled to the balance control frame 411, a drive motor, a hydraulic cylinder, etc. that can rotate the balance control frame 411 may be used.

The weight portion 413 is configured to have a predetermined weight for balance control, it is coupled to the end of the second balance control frame (411b). One end of the second balance control frame 411b is inserted into the first balance control frame 411a to reciprocate the sliding method, and according to the movement of the blade platform 10, the weight part 413 and the blade platform. The distance of 10 can be adjusted to maintain the balance of the entire platform.

The balance control frame driving part 414 is configured to provide a driving force to reciprocate the second balance control frame 414b, one end of which is inserted into the first balance control frame 414a, by a sliding method, and a drive motor 414a. , A first gear (not shown), a second gear (not shown), a chain (not shown), and a protrusion coupling part (not shown). The configuration and operation principle of the balance control frame driver 414 are the same as the configuration and operation principle of the support frame driver 33 will be omitted.

As the blade platform 1 moves and the distance between the blade platform 1 and the tower 110 changes, an operation principle of maintaining the balance of the platform by using the balance control unit 4 having the above configuration Looking at, when the support frame driving unit 33 is operated in the state as shown in Figures 8 (a) and 9 (a) close to the distance between the blade platform 1 and the tower 110, the angle adjusting means 412 rotates the balance control frame 411 to increase the angle between the pair of balance control frame 411, the balance control frame drive unit 414 is the second balance control frame 414b The portion inserted into the first balance control frame 414a is extended, so that the distance between the weight part 413 and the tower 110 as shown in (b) and (b) of FIG. 8 is increased. As you get closer to the platform balance. When the blade platform 1 is far from the tower 110, the angle between the pair of balance control frame 441 is reduced inversely to the above process, the second balance control frame 414b is the first balance The portion inserted into the adjustment frame 414a is reduced, so that the distance between the weight portion 413 and the tower 110 is far enough to maintain the platform balance.

In the above, the Applicant has described various embodiments of the present invention, but these embodiments are merely one embodiment for implementing the technical idea of the present invention, and any changes or modifications may be made to the present invention as long as the technical idea of the present invention is implemented. It should be interpreted as falling within the scope of.

Claims (10)

A blade platform for maintaining a wind turbine blade, a tower platform for maintaining a wind turbine tower, and a controller for controlling the operation of the blade platform and the tower platform, the blade platform and the tower platform are raised and lowered integrally to the wind generator A wind turbine maintenance platform that can be used to simultaneously maintain the blades and towers of a car. The method of claim 1, The tower platform surrounds the tower, and can adjust the inner diameter of the tower platform according to the diameter of the tower, so that the tower platform ascends and descends along the tower whose diameter decreases toward the upper side. Wind turbine maintenance platform, characterized in that adjacent to the outer surface of the tower. The method of claim 2, The tower platform includes a main frame positioned at a predetermined interval and an auxiliary frame connecting the main frame, one end of the auxiliary frame is inserted into one end of the main frame and the main frame and the auxiliary frame are connected. The auxiliary frame, one end of which is inserted into the main frame, may be reciprocated in a sliding manner, and thus, the gap between the main frames may be adjusted to adjust the inner diameter of the tower platform. platform. The method of claim 3, The tower platform is connected to the main frame and the auxiliary frame, respectively, characterized in that it comprises a lifting and lowering interval adjusting unit for raising and lowering the tower platform and allowing the auxiliary frame to reciprocate in a sliding manner to the main frame. Wind turbine maintenance platform. The method of claim 4, wherein The main frame includes a lower surface portion forming a lower surface, and a side portion provided on an upper side of the lower surface portion to form a side of the main frame, The raising and lowering interval adjusting unit is a support plate coupled to the lifting and lowering in the side portion, the support plate fixing portion for fixing the support plate and the side portion detachably coupled to the support plate or the side portion, the hoist coupled to the front of the support plate, and the tower A first wire connecting the nacelle and the hoist, a first pulley coupled to the support plate at a predetermined distance from the hoist, second and third pulleys coupled to the lower surface and positioned at a predetermined interval; Including a second wire surrounding the first, second, third pulley and one end is coupled to one auxiliary frame and the other end is coupled to the other auxiliary frame, When the support plate is fixed and the side plate is fixed using the support plate and the hoist is operated, the tower platform is raised and lowered. When the hoist is operated while the support plate is removed, the support plate is lowered from the side part to the support plate. Wind turbine maintenance platform, characterized in that the combined first pulley is pulled up or down of the second wire. The method of claim 5, When the first pulley is raised, the auxiliary frame coupled to the end of the second wire is pulled to increase the portion of the auxiliary frame inserted into the main frame, thereby reducing the interval between the main frames, When the second pulley descends and the tower platform is lowered while the second wire is loose, the main frame descends along the tower whose diameter increases so that the portion of the auxiliary frame inserted into the main frame becomes smaller. Wind turbine maintenance platform, characterized in that the interval between the main frame is increased. The method of claim 1, The wind turbine maintenance platform further includes a support frame coupled to the blade platform and the tower platform, The support frame includes a first support frame to which the blade platform is coupled, and a second support frame to which the tower platform is coupled, One end of the second support frame is inserted into one end of the first support frame and the first support frame and the second support frame are coupled, and the second support frame having one end inserted into the first support frame is in a sliding manner. Wind turbine maintenance platform, it is possible to reciprocate movement, it is possible to adjust the distance between the blade platform and the tower. The method of claim 7, wherein The wind turbine maintenance platform further includes a balance control unit coupled to one side of the support frame to adjust the balance of the entire platform, The balance control unit wind turbine generator maintenance platform, characterized in that the pair of balance control unit is disposed to face each other in the 'Y' shape adjacent to the wind turbine tower. The method of claim 8, wherein the balance control unit And a balance control frame rotatably coupled to one side of the support frame, and one end coupled to the support frame and the other end coupled to the balance control frame to adjust an angle between the support frame and the balance control frame. Wind turbine maintenance platform, characterized in that. The method of claim 9, The balance control frame has a first balance control frame, one end of which is rotatably coupled to one side of the support frame, and a second balance, one end of which is inserted into the other end of the first balance control frame and coupled to the first balance frame. And a weight part coupled to the other end of the control frame and the second balance control frame. Wind turbine generator maintenance platform, characterized in that the second balance control frame having one end inserted into the first balance control frame can be reciprocated in a sliding manner.

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