KR20130025551A - Blade maintenance device for wind turbine - Google Patents

Abstract

PURPOSE: A blade maintenance device for a wind turbine is provided to stably drive a blade as supporting members support both sides of the blade. CONSTITUTION: A blade maintenance device for a wind turbine comprises a body(21), supporting members(23,24), and a maintenance unit. The body travels along the leading edge(13a) of a blade(13). The supporting members are extended from both sides of the body to both sides of the blade and are supported by the sides of the blade. The maintenance unit is installed in at least one of the support members and the body.

Description

Blade Maintenance for Wind Turbines {BLADE MAINTENANCE DEVICE FOR WIND TURBINE}

The present invention relates to a blade maintenance device for a wind turbine, and more particularly, blade maintenance for a wind turbine capable of performing maintenance such as cleaning, inspection, deicing, etc. of the blade while traveling along the blade outer surface. Relates to a device.

Wind turbine is a device that converts wind energy into mechanical energy to produce electricity. It is attracting attention as a clean energy source for greenhouse gas reduction. A typical wind turbine has a tower, a nacelle mounted on top of the tower, and a rotor connected to the nacelle and having a plurality of blades.

Wind turbines require periodic maintenance such as cleaning, inspection, and deicing (deicing of ice formed on blades, etc.) even after installation to prevent breakdowns and accidents and to increase operational efficiency. However, wind turbines are difficult to maintain because they are large structures with tower heights of approximately 100 meters and blade lengths of 40 to 70 meters or more. In particular, because the blade is located at high altitude, the work environment is poor and dangerous, for example, the operator must be suspended in the air for maintenance.

Since the maintenance conditions of the blades are so poor, in recent years, devices have been proposed that allow the operator to perform maintenance without direct access to the blades.

Japanese Laid-Open Patent Publication No. 2002-115646 proposes a cleaning device that performs cleaning of the leading edge while moving itself along the leading edge of the blade. The device includes a brush moving along the leading edge of the blade, and a drive mechanism installed inside the blade for moving the brush and including a motor, a gear, a wheel, and the like.

However, this device has a problem in that the drive mechanism must be installed inside the blade to provide a moving space of the drive mechanism in the blade. In addition, in order to connect the drive mechanism inside the blade and the brush outside the leading edge, a slit must be formed at the blade leading edge, thereby deteriorating the blade rigidity. There is a problem that the cleaning area is also limited to the leading edge of the blade. In addition, it is difficult to remove the ice formed on the blade leading edge only with such a cleaning device.

U.S. Patent Application Publication No. 2010/0132137 proposes an apparatus that can inspect and clean the blade while traveling along the outer edge of the leading edge of the blade. The device includes a traveling body having a plurality of wheels for driving the leading edge, a drive unit for rotating the wheel, a device for cleaning and inspection, and extended downwards on both sides of the traveling body to maintain a balance along the leading edge. It has wings.

However, this device has a problem that the traveling body is difficult to stably travel along the blade leading edge because the wing portion is to be balanced by only extending to both sides of the traveling body. Strong winds can cause the device to fall. There is also a drawback that the cleaning and inspection areas are limited to the leading edge of the blade.

Patent Document 1: Japanese Unexamined Patent Publication No. 2002-115646 (published Apr. 19, 2002) Patent Document 2: US Patent Application Publication No. 2010/0132137 (published Jun. 03, 2010)

An object of the present invention is to provide a blade maintenance apparatus for a wind turbine that can perform the maintenance of the blade while running stably along the blade.

Another object of the present invention is to provide a blade maintenance apparatus for a wind turbine capable of performing maintenance on most areas of the outer surface of the blade.

Still another object of the present invention is to provide a blade maintenance device for a wind turbine, which can easily remove ice formed on the blade leading edge.

According to an aspect of the invention, the body traveling along the leading edge of the blade; Support members each extending from both sides of the main body toward both sides of the blade and supported on the side of the blade; A blade maintenance apparatus for a wind turbine including a maintenance unit installed on at least one of the main body and the support member for maintenance of the blade outer surface may be provided.

The main body includes a plurality of wheels provided in contact with the blade leading edge, a drive motor for driving at least one of the plurality of wheels, a control unit for operation control of the drive motor and the maintenance unit, and a power supply. It may include a battery unit.

The support member may have a length longer than the maximum width of the blade, may be bent along a curved surface of the blade, and may be provided by a material capable of elastic deformation.

The support member may include a roller that contacts the outer surface of the blade to perform a rolling motion.

The roller may be disposed at a position biased toward the trailing edge from the maximum thickness portion or the maximum thickness portion of the blade.

The maintenance device may further include a sensor for detecting a separation distance between the support member and the blade side.

The support member is rotatably coupled to the main body, and the main body may include a support member driving device for rotating the support member to be spaced apart from or close to the blade side.

The support member driving apparatus may include a gear unit connected to the support member, a worm wheel engaged with the gear unit, and a motor for rotating the worm wheel in a forward direction and a reverse direction.

The maintenance unit is installed on at least one of a cleaning brush installed to rotate below the main body for cleaning the blade leading edge portion, a motor installed on the main body to drive the cleaning brush, the main body and the support member. It may include a cleaning liquid tank and a cleaning liquid supply device for supplying the cleaning liquid of the cleaning liquid tank to the cleaning brush.

The maintenance unit includes a deicing device for removing ice from the blade leading edge, and the deicing device is provided in the main body, and an air flow passage toward the blade leading edge and an outlet of the blade leading edge, It may include a blowing fan installed in the blowing passage to blow air to the outlet, a motor for driving the blowing fan, and a heater installed in the blowing passage to heat the air in the blowing passage.

The maintenance unit includes a moving device moving along the support member, a cleaning brush installed on the moving device to rotate in contact with the side surface of the blade, a motor installed on the moving device to drive the cleaning brush, the main body and And a cleaning solution tank installed on at least one of the supporting members, and a cleaning solution supply device configured to supply the cleaning solution of the cleaning solution tank to the cleaning brush.

The maintenance unit surrounds the inlet of the cleaning liquid supply passage to guide the cleaning liquid to the cleaning liquid supply passage provided on the rotating shaft to which the cleaning brush is coupled to supply the cleaning liquid to the center of the cleaning brush. The cleaning liquid guide member provided on the outer surface of the rotating shaft and the cleaning liquid supply pipe for guiding the cleaning liquid of the cleaning liquid tank to the cleaning liquid guide member.

The maintenance unit may include a moving device moving along the support member, and an inspection unit installed in the moving device for defect inspection of the blade side and implemented by at least one of a camera and an ultrasonic inspection device.

The maintenance unit may include an inspection unit installed on the main body for defect inspection of the blade leading edge and implemented by at least one of a camera and an ultrasonic inspection apparatus.

The moving device may include a moving member moving along the supporting member, a moving motor installed on the moving member, and a driving body coupled to the shaft of the moving motor in contact with an outer surface of the supporting member.

The moving device may further include a plurality of rollers installed in the moving member to move the moving member along the support member. The driving member includes an external gear, and the support member includes the external gear. It may include a straight gear portion provided long in the longitudinal direction to bite.

The main body may include a first sensor for detecting a position of the free end of the blade, and a second sensor for detecting a position of the hub side end of the blade. According to another aspect of the present invention, the leading of the blade A wind turbine including a main body traveling along an edge, a support member extending downward from both sides of the main body from both sides of the blade, and a maintenance unit configured to perform maintenance on the outer surface of the blade while moving along the support member; Blade maintenance apparatus may be provided.

The maintenance unit may include at least one of a cleaning device for cleaning the blade outer surface and a defect inspection device for inspecting the blade outer surface defect.

According to another aspect of the present invention, a main body traveling along a leading edge of a blade, a deicing device for removing ice of the blade leading edge, the deicing device is provided in the main body and the outlet is provided A blowing passage for the blade leading edge, a blowing fan installed in the blowing passage to blow air to the outlet of the blowing passage, a motor driving the blowing fan, and the blowing passage for heating the air in the blowing passage A blade maintenance apparatus for a wind turbine including a heater installed therein may be provided.

In the blade maintenance apparatus for a wind turbine according to an embodiment of the present invention, the support member extending from the main body traveling along the leading edge of the blade to both sides of the blade is supported on both sides of the blade, so that the blade stably travels along the blade. Can perform maintenance.

Blade maintenance apparatus for a wind turbine according to an embodiment of the present invention can be easily cleaned for most of the blade outer surface area because the cleaning device for cleaning the outer surface of the blade while moving along the support member.

Blade maintenance apparatus for a wind turbine according to an embodiment of the present invention can easily remove the ice formed on the leading edge because the deicing device can supply hot air to the leading edge while driving along the leading edge of the blade.

In the blade maintenance apparatus for a wind turbine according to an embodiment of the present invention, a defect inspection apparatus installed in the main body while the main body is traveling inspects a defect of a blade leading edge portion and moves a defect inspection apparatus up and down along the support member to the amount of blades. Defects on the sides can be inspected, making it easy to inspect the entire area of the blade.

1 is a front view of a wind turbine in a state where a blade maintenance apparatus according to an embodiment of the present invention is mounted.
Figure 2 is a cross-sectional view of the blade maintenance apparatus according to an embodiment of the present invention, showing a state mounted on the wind turbine blades.
3 is a cross-sectional view taken along line III-III ′ of FIG. 2.
4 is a cross-sectional view taken along line IV-IV ′ of FIG. 2.
5 is a detailed view of part V of FIG. 3.
6 is a cross-sectional view taken along line VI-VI 'of FIG. 2.
FIG. 7 is a cross-sectional view taken along the line VII-VII 'of FIG. 2.
8 is a detailed view of the first cleaning device of the blade maintenance apparatus according to the embodiment of the present invention.

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

1 is a front view of a wind turbine for converting wind energy into electrical energy. The wind turbine 10 includes a tower 11, a nacelle 12 installed on the top of the tower 11, and a plurality of blades 13 installed on the nacelle 12. The plurality of blades 13 are radially installed on the hub 14 installed to rotate on the nacelle 12. The blade 13 rotates by the wind to rotate the hub 14, the hub 14 rotates a generator (not shown) installed inside the nacelle 12 to generate electricity.

When the wind turbine 10 operates, the surface of the blade 13 may be contaminated by attaching foreign matter such as dust or insects. In winter, freezing may occur at the leading edge 13a of the blade 13. In addition, cracks or scratches may occur on the surface of the blade 13 during use. Foreign matter or ice on the surface of the blade 13 causes the efficiency of the wind turbine 10 to deteriorate, and defects on the surface of the blade 13 may cause damage to the blade 13 when left unattended. Therefore, the blade 13 needs to remove foreign substances on the surface or inspect defects through periodic management.

As shown in FIG. 1, the blade maintenance apparatus 20 according to the present embodiment travels along the blade 13 by itself while being mounted on the outer surface of the blade 13. It is a device that performs maintenance such as deicing. When performing the maintenance of the blade 13, the blade 13 is maintained approximately horizontal as in the example of FIG. 1, and the pitch of the blade 13 is adjusted so that the leading edge 13a of the blade 13 faces upward. After that, the blade maintenance apparatus 20 is mounted on the blade 13.

As shown in FIGS. 2 and 3, the blade maintenance apparatus 20 includes a main body 21 that travels along the leading edge 13a of the blade 13, and a main body 21 for supporting the main body 21. And a plurality of support members 23 and 24 extending from both sides of the blades toward both sides of the blade 13 and supported in contact with the sides of the blade 13.

As shown in FIG. 2, a plurality of wheels 25 and 26 are installed below the main body 21 to allow the main body 21 to travel along the leading edge 13a of the blade 13. In 21, a drive motor 27 for driving any one of these wheels 25 and 26 is provided. The driving motor 27 and the wheel 25 may be connected to transmit the rotational force by the connecting means 28 such as a belt or a chain. In this embodiment, the wheel 25 and any one of the plurality of wheels 25 and 26 are connected to the driving motor 27, but the driving motor 27 may be connected to each of the plurality of wheels 25 and 26. have.

Each of the wheels 25 and 26 may be made of a material having a high frictional force such as rubber so as not to slip from the leading edge 13a of the blade 13. The drive motor 27 may be adopted to enable forward rotation and reverse rotation so as to implement forward and backward of the main body 21. In this embodiment, the driving motor 27 and the plurality of wheels 25 and 26 are employed as a means for driving the main body 21. However, this is an endless track type driving installed in the lower part of the main body 21. It may be replaced by means. The first sensor 31 for detecting the position of the free end of the blade 13 is installed in the front of the main body 21, the second sensor for detecting the position of the hub end of the blade 13 in the rear of the main body 21 The sensor 32 is installed. When the main body 21 travels along the leading edge 13a of the blade 13, the positions of both ends of the blade 13 can be recognized through these sensors 31 and 32.

As shown in FIGS. 2 to 4, the plurality of support members 23 and 24 may be formed to extend downwardly in a state where the upper end is rotatably coupled to both side surfaces of the main body 21. Each of the supporting members 23 and 24 has a length longer than the maximum width of the blade 13, is bent along the curved surfaces of both sides of the blade 13, and is formed of a material capable of elastic deformation. In addition, each support member (23, 24) has a roller 33 in contact with the outer surface of the blade 13 to perform a rolling motion so that it can move with the main body 21 while maintaining a properly spaced state with the side of the blade (13) Is installed. This not only enables the support members 23 and 24 to support the main body 21 to implement stable running of the main body 21, but also to serve as a rail for guiding the movement of the maintenance unit to be described later. . In addition, by providing a predetermined elasticity, the main body 21 can be supported more stably by maintaining a force for pressing both sides of the blade 13.

As shown in Figs. 3 and 4, the roller 33 provided on each of the supporting members 23 and 24 has the blade 13 from the maximum thickness W1 portion or the maximum thickness W1 portion of the blade 13. It is disposed at a position biased toward the trailing edge 13b. Even when an external force such as wind acts, the support members 23 and 24 stably support the main body 21 without departing from the blade 13.

In this embodiment, the support members 23 and 24 are supported by the roller 33, but the support structures of the support members 23 and 24 are not limited thereto. The support members 23 and 24 may be supported by other types of support parts which are in direct sliding contact with the side surface of the blade 13 even if the rollers 33 are not. In addition, in the case of installing the maintenance unit such as the cleaning device 60 to be described later on the support member 23, as shown in the example of Figure 3, the maintenance unit is supported on the side of the blade 23, the roller 33 mentioned above Since it is possible to replace, a configuration such as the roller 33 is not necessarily required. That is, it is possible to implement stable running without the configuration as the roller 33.

On both sides of the main body 21, as shown in Figs. 3 and 4, a plurality of support members 23, 24 rotate to be spaced apart from the side of the blade 13 or close to the side of the blade (13) Support member driving device 40 may be installed.

As shown in FIG. 5, the support member driving device 40 includes a gear part 41 connected to an upper end of the support member 23, a worm wheel 42 engaged with the gear part 41, and a worm wheel 42. It includes a motor 43 for rotating in the forward and reverse directions. The worm wheel 42 rotates by the operation of the motor 43, and the gear part 41 rotates by the rotation of the worm wheel 42 so that the support member 23 can approach or be spaced apart from the side of the blade 13. It is. The driving device 40 for driving each of the supporting members 23 and 24 is the same shape.

In the present embodiment, the motor member 43, the worm wheel 42, and the gear part 41 are used as an example of the support member driving apparatus 40. However, the support member driving apparatus is not limited thereto, but the support member ( It may also be implemented as a hydraulic cylinder for rotating the 23, 24 or a reduction gear type motor capable of directly rotating the shaft of the support member.

As shown in FIG. 3, the support member driving device 40 rotates the support members 23 and 24 to mount the blade maintenance device 20 to the blade 13. 24 may be spaced apart from the blade 13. In addition, when the blade maintenance device 20 travels along the blade 13, even when the thickness of the blade 13 changes, the support member rollers 33 on both sides always maintain the state in contact with the outer surface of the blade 13. can do. For this operation, as shown in FIG. 3, each of the supporting members 23 and 24 detects a separation distance between the supporting members 23 and 24 and the side surface of the blade 13 at a position close to the roller 33. Sensor 34 may be installed. This is to control the operation of the support member driving device 40 through the detection of each sensor 34.

As shown in FIG. 2, the two support members are provided on both sides of the main body 21 so as to be spaced apart from each other, but the installation form and the number of the support members are not limited thereto. It is possible to implement stable running of the main body 21 only by installing one supporting member on each side of the main body 21, and it is also possible to install three or more supporting members.

On the other hand, the present embodiment is easy to mount the blade maintenance device 20 to the blade 13 by employing the support member drive device 40 as described above to rotate the support members 23, 24. The roller 33 was kept in contact with the outer surface of the blade 13 even when the thickness of the blade 13 changed while traveling. However, when the support members 23 and 24 are made of high elastic material having a large deformation such as spring steel, and the upper ends of the support members 23 and 24 are fixed to the main body 21, the support member driving device 40 is excluded. It would be possible. Even without the support member drive device 40, the blade maintenance device 20 can be easily mounted on the blade 13 through deformation of the support members 23 and 24, and even when the blade 13 thickness changes when traveling. This is because the contact between the roller 33 and the side surface of the blade 13 may be maintained by the elastic deformation of the support members 23 and 24.

Another way to exclude the support member drive device 40 may be provided with a torsion spring to the rotary connection in the state that the upper end of the support members (23, 24) rotatably connected to the body (21). In this case, the torsion spring rotates the supporting members 23 and 24 to impart a force to approach the side of the blade 13, so that the roller 33 is moved to the side of the blade 13 even if the thickness of the blade 13 changes. You can stay in contact. In addition, it is possible to easily mount the blade maintenance device 20 to the blade 13 by rotating the support members (23, 24) in a direction away from the side of the blade (13).

In addition, the blade maintenance apparatus 20 of the present embodiment includes various types of maintenance units for maintenance of the blade 13. As shown in FIG. 2, the maintenance unit includes a first cleaning device 50 for cleaning the leading edge 13a of the blade 13 and a second cleaning device 60 for cleaning both sides of the blade 13. And a deicing apparatus 100 for removing ice formed on the first defect inspection apparatus 80, the second defect inspection apparatus 35, and the blade leading edge 13a for defect inspection of the blade 13. Can be.

In addition, the blade maintenance device 20 is a control unit 110 installed in the main body 21 for driving and operation control of the blade maintenance device 20, and installed in the main body 21 to supply power for operation It includes a battery unit 120. Although not shown in the drawings, the main body 21 has a wireless communication unit capable of communicating with a remote control system so that the blade maintenance apparatus 20 can be remotely controlled, and an operation unit for directly inputting operation information of the device by the user. Can be prepared.

As shown in FIGS. 2, 3, and 8, the first cleaning device 50 drives the first cleaning brush 51 and the first cleaning brush 51 installed to rotate below the main body 21. The cleaning liquid tank 53 for supplying the cleaning liquid of the motor 52 installed in the main body 21, the cleaning liquid tank 53 provided at the lower end of the support member 24, and the cleaning liquid tank 53 to the first cleaning brush 51. ) Is provided with a cleaning liquid supply device 54.

As shown in FIG. 8, the cleaning liquid supply passage 56 for supplying the cleaning liquid to the center of the first cleaning brush 50 is provided on the rotation shaft 55 of the motor 52 to which the first cleaning brush 51 is coupled. Is formed. In addition, a ring-shaped cleaning liquid guide member 57 surrounding the inlet of the cleaning liquid supply passage 56 is installed on the outer surface of the rotating shaft 55 inside the main body 21 to guide the cleaning liquid to the rotating cleaning liquid supply passage 56. . The cleaning solution supply member 57 is connected to the cleaning solution supply pipe 58 connected to the cleaning solution tank 53. The cleaning solution supply device 54 inside the cleaning solution supply tank 53 may be constituted by a conventional fluid pressure pump.

The first cleaning device 50 cleans the blade leading edge 13a by supplying a cleaning liquid to the center of the first cleaning brush 51 while the first cleaning brush 51 is rotated by the operation of the motor 52. can do. Of course, such an operation may be performed while the main body 21 travels along the blade 13, so that cleaning may be performed over the entire blade leading edge 13a.

As shown in FIGS. 2, 3, and 6, the second cleaning device 60 includes a moving device 70 moving along the supporting member 23 and a moving device rotating in contact with the side surface of the blade 13. The second cleaning brush 61 installed in the 70, the motor 62 installed in the moving device 70 to drive the second cleaning brush 61, and the cleaning liquid tank 63 provided at the lower end of the support member 23. And a cleaning liquid supply device 64 provided inside the cleaning liquid tank 63 for supplying the cleaning liquid of the cleaning liquid tank 63 to the second cleaning brush 61.

As shown in FIG. 6, the second cleaning device 60, like the first cleaning device 50, also includes a cleaning solution supply passage 66 provided on the rotation shaft 65, and a cleaning solution guide member 67 provided outside the rotation shaft 65. ), A cleaning liquid supply pipe 68 connecting the cleaning liquid tank 63 and the cleaning liquid guide member 67 to supply the cleaning liquid of the cleaning liquid tank 63 to the center of the second cleaning brush 61.

The plurality of cleaning liquid supply tanks 53 and 63 installed at the lower ends of the supporting members 23 and 24 may be formed of the first cleaning brush 51 or the second cleaning device of the first cleaning device 50 through separate flow paths. 60 may be connected to the second cleaning brush 61. Alternatively, a cleaning liquid distribution device (not shown) in the form of a valve having a plurality of branch pipes may be provided in the main body 21 so that the cleaning liquid may be dispensed, thereby cleaning the cleaning liquid of each of the cleaning liquid tanks 53 and 63 by the first and second cleaning devices. It may be configured in a form shared by (50,60).

In this embodiment, each of the cleaning liquid tanks 53 and 63 is installed at the bottom of each support member 23 and 24 so that the center of gravity is located under the blade 13 so that the blade maintenance device 20 can run stably. . However, the installation positions of the cleaning liquid tanks 53 and 63 are not limited thereto. The cleaning liquid tanks 53 and 63 can also be installed in the main body 21.

As shown in FIG. 6, the moving device 70 for moving the second cleaning device 60 is supported by the support members 23 by a plurality of rollers 72 and 73 so as to move up and down along the support members 23. The driving member 75 coupled to the shaft of the moving motor 74 in contact with the outer surface of the moving member 71, the moving motor 74 installed on the moving member 71, and the supporting member 23. It is provided. The driving member 75 may be formed of an external gear, and the supporting member 23 may include a straight gear portion 23a provided to extend in the longitudinal direction to be separated from the driving member 75 as illustrated in FIG. 2. Can be.

The moving device 70 moves along the straight gear portion 23a of the support member 23 while the driving member 75 of the external gear rotates by the operation of the moving motor 74. It moves up and down along the support member 23. Therefore, the second cleaning device 60 may perform cleaning of the blade 13 side while moving up and down along the support member 23. Since the cleaning operation is performed together with the operation of the main body 21 running in the longitudinal direction of the blade 13, the cleaning can be performed over the entire surface of the blade 13. When the first cleaning device 50 and the second cleaning device 60 are operated together while the main body 21 is running, cleaning of the entire outer surface of the blade 13 may be performed.

On the other hand, in the above-described second cleaning device 60, the moving device 70 is a case where the drive body 75 is an external gear, but the shape of the drive body 75 is not limited thereto. The driving body 75 may be in the form of a roller having a frictional force, and the roller may be in contact with the outer surface of the support member 23 to move while rolling. In addition, the moving motor 74 may also be in the form of directly rotating one of the rollers (72, 73) for supporting the moving member (71). The moving member 71 may also be installed to slide along the support member 23 without the plurality of rollers 72 and 73.

As shown in FIG. 2, the first defect inspection apparatus 80 may be installed on another support member 24 on which the second cleaning apparatus 60 is not installed. As shown in FIGS. 2, 4, and 7, the first coupling inspection device 80 includes a moving device 90 moving along the support member 24 and a defect inspection of the side surface of the blade 13. It may include a camera 81 installed in the mobile device (90).

Since the moving device 90 of the first defect inspection device 80 may be provided in substantially the same manner as the moving device 70 of the second cleaning device 60 mentioned above, a description thereof will be omitted here. . The camera 81 installed in the moving device 90 may check and detect defects on the surface of the blade 13 by acquiring and transmitting an image of the surface of the blade 13. That is, the captured image may be transmitted to the remote control system through the wireless communication unit of the main body 21, and the remote control system may detect the blade defect through the analysis of the transmitted image information.

The first defect inspection apparatus 80 may inspect the defect of the side surface of the blade 13 while moving up and down along the support member 24, this operation is the main body 21 running in the longitudinal direction of the blade (13) It is made with the operation of) can be performed to check the entire area of the blade (13) side.

On the other hand, the present embodiment is to apply the camera 81 to the first defect inspection apparatus 80, the first defect inspection apparatus 80 is to install the ultrasonic inspection apparatus instead of the camera to inspect the defect on the surface of the blade (13) It may be the way. That is, the first defect inspection apparatus 80 may include an inspection unit implemented by at least one of a camera and an ultrasonic inspection apparatus. In addition, as shown in FIG. 2, the front surface of the blade 13 may be cleaned based on the direction in which the main body 21 mainly travels for cleaning so that defect inspection may be performed first. The second cleaning device 60 is disposed on the right side, and the first defect inspection device 80 is disposed behind the second cleaning device 60 (the left side in FIG. 2) to follow the second cleaning device 60. It was. However, since the main body 21 can move forward and backward, their positions can be interchanged. In addition, the example of FIG. 2 shows a case in which the second cleaning device 60 and the first defect inspection device 80 are installed in separate support members 23 and 24, respectively, but they are provided as one set to support one. It can also be implemented by moving along the member. For example, an inspection unit such as a camera 81 or an ultrasonic inspection device may be installed in the moving device 70 of the second cleaning device 60 so as to inspect surface defects as well as cleaning. In this case, since the defect inspection operation and the cleaning operation should not interfere, the first defect inspection apparatus and the second cleaning brush should be separated to some extent.

As shown in FIG. 2, the second defect inspection apparatus 35 may be installed at the lower portion of the main body 21. Like the first defect inspection apparatus 80, the second defect inspection apparatus 35 may be implemented as an inspection unit such as a camera or an ultrasonic inspection apparatus. That is, the second defect inspection apparatus 35 may include an inspection unit implemented by at least one of a camera and an ultrasonic inspection apparatus. The second defect inspection apparatus 35 may inspect a defect of the blade leading edge 13a when the main body 21 travels.

As such, the present exemplary embodiment may inspect defects on both sides of the blade 13 through the first defect inspection apparatus 80, and inspect the defects of the blade leading edge 13a through the second defect inspection apparatus 35. As a result, defect inspection can be performed on the entire outer surface of the blade 13.

As shown in FIG. 2, the deicing apparatus 100 for removing ice formed on the blade leading edge 13a is provided in the main body 21, and the air flow passages having the outlet 102 facing the blade leading edge 13a ( 101, a blowing fan 104 installed in the blowing passage 101 to blow air to the outlet 102 of the blowing passage 101, a motor 105 for driving the blowing fan 104, and a blowing passage ( And a heater 106 installed in the blowing passage 101 to heat the air of the 101. The inlet 103 of the air flow passage 101 may be provided on the upper surface or the front surface of the main body 21.

In the deicing apparatus 100, the blowing fan 104 is operated by the operation of the motor 105 to blow air through the blowing passage 101. That is, the air flowing into the inlet 103 of the air flow passage 101 is discharged toward the blade leading edge 13a through the air flow passage 101. At this time, since the heater 106 inside the blowing flow path 101 operates to heat the discharged air, hot air is discharged through the blowing flow path outlet 102. Therefore, the ice formed on the blade leading edge 13a can be removed by melting with hot air.

 Next, the operation and usage of the blade maintenance apparatus 20 will be described.

 When the blade maintenance device 20 is mounted on the blade 13 of the wind turbine 10, as shown in FIGS. 3 and 4, the support member driving device 40 is operated to support the members 23 and 24. ) Is placed on the blade 13 in a state where it is open to both sides. After lifting, the support members 23 and 24 are operated again so that the support members 23 and 24 are supported on both sides of the blade 13. This operation can be directly controlled by the operator while mounting the blade maintenance device 20 on the blade 13 or via a remote control means. In addition, such a blade maintenance device 20 may be mounted by the operator directly to the blade 13, or mounted using a separate mounting equipment such as a hoist, a crane, a robot arm.

After mounting the blade maintenance device 20 on the blade 13, the blade maintenance device in such a way that the operator commands the operation directly through the control unit of the blade maintenance device 20 or control the operation through the remote control means 20 can be operated. In this case, the cleaning operation, the inspection operation, and the deicing operation may be simultaneously performed or one or more operations may be selected and performed.

When cleaning the blade, the first cleaning device 50 and the second cleaning device 60 operate while the main body 21 travels along the leading edge 13a of the blade 13. The blade leading edge 13a may be cleaned by the operation of the first cleaning device 50, and both sides of the blade 13 may be cleaned by the operation of the second cleaning device 60. At this time, the first cleaning device 50 moves together with the main body 21 to clean the leading edge 13a, and the second cleaning device 60 moves up and down along the support member 23 and at the same time, the main body. Since cleaning is performed while moving in the longitudinal direction of the blade 13 together with the 21, the cleaning of the entire outer surface of the blade 13 can be performed. In this case, since the rollers 33 of the support members 23 and 24 maintain the supported state in contact with the side of the blade 13, the blade maintenance device 20 may stably travel along the blade 13.

The blade inspection operation can be performed in parallel with the cleaning operation or separately. The inspection operation is performed while the main body 21 travels along the blade leading edge 13a, while the first defect inspection device 80 moves up and down along the support member 24 to detect defects on both sides of the blade 13. Can be checked In addition, the second defect inspection device 35 can inspect the defect of the blade leading edge 13a. Accordingly, when the first defect inspection apparatus 80 and the second defect inspection apparatus 35 operate together, defects may be inspected on the entire outer surface of the blade 13.

The deicing operation may be performed together with the cleaning operation and the inspection operation or may be performed separately. In the deicing operation, while the main body 21 travels along the leading edge 13a of the blade, the deicing apparatus 100 operates to blow hot air to the blade leading edge 13a. Therefore, the ice formed on the blade leading edge 13a may be sequentially melted and removed as the main body 21 slowly runs.

13: blade, 20: blade maintenance,
21: main body, 23, 24: support member,
25, 26: wheel, 27: drive motor,
33: roller, 35: second defect inspection device,
40: support member drive device, 50: first cleaning device,
60: second cleaning device, 80: second combined inspection device,
100: deicing device, 110: control unit,
120: battery unit.

Claims (24)

Main body running along the leading edge of the blade,
Support members extending from both sides of the main body toward both sides of the blade and supported on the side of the blade,
Blade maintenance device for a wind turbine comprising a maintenance unit installed on at least one of the main body and the support member for maintenance of the blade outer surface. The method of claim 1,
The main body includes a plurality of wheels provided in contact with the blade leading edge, a drive motor for driving at least one of the plurality of wheels, a control unit for operation control of the drive motor and the maintenance unit, and a power supply. Blade maintenance device for a wind turbine including a battery unit. The method of claim 1,
The support member has a length longer than the maximum width of the blade, the blade maintenance device for a wind turbine which is bent along the curved surface of the blade, is provided with a material capable of elastic deformation. The method of claim 3,
The support member blade maintenance device for a wind turbine comprising a roller in contact with the outer surface of the blade to perform a rolling motion. 5. The method of claim 4,
And the roller is disposed at a position biased toward the trailing edge from the maximum thickness portion or the maximum thickness portion of the blade. The method of claim 3,
Blade maintenance device for a wind turbine further comprises a sensor for sensing the separation distance between the support member and the blade side. The method of claim 3,
The support member is rotatably coupled to the body,
The main body blade maintenance apparatus for a wind turbine comprising a support member driving device for rotating the support member to be spaced apart from or close to the blade side. The method of claim 7, wherein
The support member driving apparatus includes a gear unit connected to the support member, a worm wheel engaged with the gear unit, and a motor for rotating the worm wheel in a forward direction and a reverse direction. The method of claim 1,
The maintenance unit is installed on at least one of a cleaning brush installed to rotate below the main body for cleaning the blade leading edge portion, a motor installed on the main body to drive the cleaning brush, the main body and the support member. And a cleaning liquid tank and a cleaning liquid supply device for supplying a cleaning liquid from the cleaning liquid tank to the cleaning brush. 10. The method of claim 9,
The maintenance unit surrounds the inlet of the cleaning liquid supply passage to guide the cleaning liquid to the cleaning liquid supply passage provided on the rotating shaft to which the cleaning brush is coupled to supply the cleaning liquid to the center of the cleaning brush. The blade maintenance apparatus for a wind turbine further comprising a washing | cleaning liquid guide member provided in the outer surface of the said rotating shaft in the form, and a washing | cleaning liquid supply pipe which guides the washing | cleaning liquid of the said washing | cleaning liquid tank to the said washing | cleaning liquid guide member. The method of claim 1,
The maintenance unit includes a deicing device for ice removal of the blade leading edge,
The deicing device is provided in the main body and the outlet flows toward the blade leading edge, the blowing fan installed in the blowing flow path to blow air to the outlet of the blowing flow path, a motor for driving the blowing fan; Blade maintenance apparatus for a wind turbine comprising a heater installed in said blowing passage to heat air in said blowing passage. 5. The method of claim 4,
The maintenance unit includes a moving device moving along the support member, a cleaning brush installed on the moving device to rotate in contact with the side surface of the blade, a motor installed on the moving device to drive the cleaning brush, the main body and And a cleaning liquid tank installed on at least one of the supporting members, and a cleaning liquid supply device for supplying the cleaning liquid of the cleaning liquid tank to the cleaning brush. The method of claim 12,
The maintenance unit surrounds the inlet of the cleaning liquid supply passage to guide the cleaning liquid to the cleaning liquid supply passage provided on the rotating shaft to which the cleaning brush is coupled to supply the cleaning liquid to the center of the cleaning brush. The blade maintenance apparatus for a wind turbine further comprising a washing | cleaning liquid guide member provided in the outer surface of the said rotating shaft in the form, and a washing | cleaning liquid supply pipe which guides the washing | cleaning liquid of the said washing | cleaning liquid tank to the said washing | cleaning liquid guide member. 5. The method of claim 4,
The maintenance unit is a blade maintenance for a wind turbine comprising a moving device moving along the support member and the inspection unit is installed on the moving device for defect inspection of the blade side and implemented as at least one of a camera and an ultrasonic inspection device. Device. The method of claim 1,
The maintenance unit is installed on the main body for defect inspection of the blade leading edge blade maintenance device for a wind turbine comprising an inspection unit implemented by at least one of a camera and an ultrasonic inspection device. 15. The method according to claim 12 or 14,
The moving device includes a moving member moving along the supporting member, a moving motor installed on the moving member, and a driving body coupled to the shaft of the moving motor in contact with an outer surface of the supporting member. Maintenance device. 17. The method of claim 16,
The moving device blade maintenance device for a wind turbine further comprises a plurality of rollers installed on the moving member so that the moving member can move along the support member. 17. The method of claim 16,
The drive body includes an external gear,
The support member is a blade maintenance device for a wind turbine including a straight gear portion provided in the longitudinal direction to be in contact with the external gear. The method of claim 1,
The main body blade maintenance apparatus for a wind turbine comprising a first sensor for detecting the position of the free end of the blade, and a second sensor for detecting the position of the hub side end of the blade. Main body running along the leading edge of the blade,
Support members each extending downward from both sides of the main body toward both side surfaces of the blade,
Blade maintenance device for a wind turbine comprising a maintenance unit for performing maintenance of the blade outer surface while moving along the support member. 21. The method of claim 20,
The support member is a blade maintenance device for a wind turbine, characterized in that supported on the side of the blade. 21. The method of claim 20,
The maintenance unit is a blade maintenance device for a wind turbine comprising at least one of a cleaning device for cleaning the blade outer surface and a defect inspection device for inspecting the blade outer surface defects. Main body running along the leading edge of the blade,
Deicing device for the ice removal of the blade leading edge,
The deicing device is provided in the main body and the outlet flows toward the blade leading edge, the blowing fan installed in the blowing flow path to blow air to the outlet of the blowing flow path, a motor for driving the blowing fan; Blade maintenance apparatus for a wind turbine comprising a heater installed in said blowing passage to heat air in said blowing passage. 24. The method of claim 23,
Blade maintenance apparatus for a wind turbine further comprising a support member extending from both sides of the main body toward both sides of the blade and supported on the side of the blade.

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