DE19909698C2 - Device for carrying out repairs and services, in particular on rotor blades of wind turbines - Google Patents

Description

The invention is directed to a device for through Management of repairs and services on the Witte exposed objects made of fiber-reinforced plastic, Aluminum, especially for maintenance and Maintenance of rotor blades of wind turbines.

For repairs to surfaces on a non-metallic plant As a rule, special conditions have to be met be. For example, the "Germanischer Lloyd" Guidelines out such repairs of components affect.

In order to be able to do justice to all these special features, it is known, for example in the repair of rotor Scroll the rotor blades on wind turbines for disassembly and to be transported to a factory building, where the to design external conditions so that the standards and standards emotions of the "Germanic Lloyd" are observed. The the associated effort is considerable, the downtime times of the wind turbines comparatively high, so that if at all possible, efforts are made to maintain these and maintenance systems on site directly on the rotor men.  

There are e.g. B. from DE-43 39 638-A1 repair platforms be knows the z. B. about winches on the mast of a wind turbine can be raised and lowered and open a Ro surrounded door leaf. A comparable system is in the DE 197 26 408-C1. A similar system also shows DE-296 03 278-U1, which is characterized in that the Hanging device at the root of the two upwards white send rotor blades is attached when the third rotor sheet is serviced, which presupposes that a wind power plant is three-leaf.

The common disadvantage of these work platforms is in particular special in that they only turned on when the weather was nice can be set, otherwise the "Germanischer Lloyd" prescribed parameters can not be met.

Here is the object of the invention, which be in it stands to create a device, the maintenance and re Repair work on such objects practically for everyone Weather makes possible.

With a device of the type described in the introduction take up this task through an area of the rotor blade working cabin with sealing devices for sealing the work cabin versus those at the location Ambient conditions solved.  

In such a work cabin that part of the Ro all the necessary parameters set the necessary for the work to be carried out are. For example, the tempera be adjusted, the humidity u. the like

Embodiments of the invention result from the Unteran sayings. It is particularly useful if the work cabin essentially U-shaped in cross section is with a U-shaped running and working deck under supervision and a barrier to the open area between the free U-legs of the work cabin.

The device can of course also with a stroke be equipped, for example with winches, as in the state the technology described above, or with a cantilever arms Hubsteigers or the like. Because the rotor blade through the cabin sets, it also has seals in the floor and ceiling elements, expediently these sealing elements from a A plurality of from a rest position to a sealing position movable plungers are formed. It can be useful be moderate, the common plunger ends with an inflation equipable hose body to a particularly good To enable sealing against the environment. The actuator This sealing plunger can be pneumatically, hydraulically, ma magnetic or electrical.  

It is advantageous if the work cabin has a climate tization system especially for heating and loading and unloading ventilation is equipped, as in a further embodiment the invention can also be provided.

A special feature of the work cabin can also be consist in that these with a gripping device for Fixing a rotor blade is equipped to in the Ka I can dismantle a rotor blade and put it together to be able to lower to the floor with the cabin.

A further embodiment of the invention can do the best hen that the work cabin as a slip car for fixation, Conveying and longitudinal rotation of a rotor blade designed is. With this design it is possible to start with a Ro Dismantle the door leaf, taking it from the work cabin will hold. Conveyors can be provided be that with dismantled and from the masts of wind power plant removed rotor blade this in the work cabin like this that shifts about a center of gravity of the total system is achieved. The lifting element of the work cabin then lowers it towards the floor and sets it Work cabin so that it can be used as a slip trolley.

An alternative embodiment can consist in that the Lifting device from one attached to the mast of the wind turbine  and / or attachable rail with cable to För change of the work cabin is formed, for example assign the rail as a telescopic part of a Vehicle body can be designed.

With such a design, the load capacity of the Mastes are used to the Ar according to the invention to move the booth. Depending on the location and design the rail can also be an integral part of the mast his.

The rail system can be fixed to the Festle be equipped on the mast of the wind turbine, like this the invention also provides in a further embodiment.

Further features, details and advantages of the invention result from the following description as well based on the drawing. This shows in a greatly simplified Representation in

Fig. 1 shows a device according to the invention in working posi tion in side view,

FIG. 2 is an operator's cab was in plan to open,

Fig. 3 was a carrel in plan closed to,

Fig. 4 is a working cabin in the section IV-IV according to Fig. 2,

Fig. 5 is a working cabin in section VV of FIG. 3 as in

Fig. 6 is a side view of a wind turbine with a rail system applied to the mast.

Fig. 1 shows a device 1 for the maintenance of wind turbines in the working position of a windmill 2. The wind turbine 2 comprises a supporting mast 3 , in the upper area of which a rotor 4 is arranged. This has three Ro torblätter 5 , which are attached to a hub 6 . The hub 6 is also the axis of rotation of the rotor 4 and is connected in a known manner, for example by means of a transmission gear, not shown here, to a generator, also not shown. The output of the hub 6 is designed in known manner that it can be locked in several positions, so that, for example, disassembly of the rotor blades 5 can be carried out.

The device for the maintenance of wind turbines 1 comprises a working cabin 7 which is connected to a vehicle 9 by means of a lifting arm 8 . The vehicle 9 can be designed as an independent truck or, for example, as a trailer with auxiliary units. The lifting arm 8 comprises a plurality of arm segments 10 which are connected to one another by means of joints 11 . In the embodiment shown here, three arm segments 10 are used, but the number of arm segments 10 can in principle be changed as desired. The Armsegme te itself can be designed as telescopic arms, so that the maximum achievable working height of the work cabin 7 can be increased. The joints 11 can be moved, for example, by means of hydraulic cylinders.

Fig. 2 shows the working cabin 7 in a view from above in a first configuration. This comprises a transverse wall 12 which is rigidly attached to an arm segment 10 . On the side of the transverse wall 12 facing away from the arm segment 10 , a longitudinal wall 13 is arranged on both sides. On their top and bottom, cf. Fig. 4, the work cabin is covered by a U-shaped cut out base plate 14 and a roof plate 15 . The working cabin 7 thus has a groove-like cutout 16 into which a rotor blade 5 can be inserted. With the rotor 4 fixed, the rotor blade 5 can be brought into the working position according to FIG. 2 by moving the working cabin 7 with the aid of the lifting arm 8 .

Both in the area of the base plate 14 and in the area of the roof plate 15 , the working cabin 7 has a hose body 17 attached to both sides of the U-shaped cutout. This can be inflated and pressed with the aid of plungers 18 onto the surface of the rotor blade 5 , cf. Fig. 3. The plunger 18 can be moved hydraulically or by air pressure for example. The plungers 18 are movably arranged in the base plate 14 or roof plate 15 . As an alternative to individual plungers 18 , larger plate segments could also be used here.

Fig. 3 shows in the closed position which seals with Matters tem tube body 17 on the rotor blade 5. A on the arm segment 10 facing away from the cabin 7 te te sliding door 19 seals the cabin 7 from the outside. In this configuration, the working cabin 7 is largely sealed off from the outside, so that work can be carried out on the enclosed part of the rotor blade 5 without any external influences.

FIG. 4 shows the first configuration of the working cabin 7 according to FIG. 2 in section according to IV-IV. Accordingly, FIG. 5, the operator's cab 7 in the second configuration corresponding to FIG. 3 in section VV. The two figures show clearly that the rotor blade 5 can also be fixed in the cutout 16 of the working cabin 7 in a position which differs significantly from the vertical.

In the following, a method for the maintenance of wind power plants is presented using the device described above. In the first configuration of FIG. 2 and FIG. 4 is brought work cabin 7 with the aid of the lifting arm 8 in such a position that the sheet approximately in a perpendicular locked downwardly facing position rotor comes to rest in the cutout 16. The tubular body 17 is then pressed by means of the plunger 18 onto the surface of the rotor blade 5 , so that the interior of the Ar cabin 7 is largely sealed from the environment. Maintenance work on the rotor blade 5 can now be carried out independently of the weather inside the working cabin 7 .

The working cabin 7 can also see a suction device, so that, for example, sandblasting or grinding work can be done without affecting the environment. As soon as a segment of a rotor blade 5 is machined, the hose body 17 is released from the surface of the rotor blade 5 , so that the working cabin 7 is transferred again to a configuration according to FIG. 2 or FIG. 4. In this configuration, the working cabin 7 can be moved along the rotor blade 5 and can be brought into a new position.

By pressing the hose body 17 against the surface of the rotor blade 5 , a closed working space can be produced again at the desired new position. In this way, the entire rotor blade 5 can be covered gradually with the working cabin 7 . By turning the rotor 4 and locking it again, the other rotor blades 5 can also be processed accordingly.

Not shown is the possibility of equipping the working cabin 7 with a gripping device which allows a dismantled rotor blade 5 to be fixed in order to be able to lay it down on the ground with the lifting device 8 . The working cabin 7 can be designed as a so-called slip car, for example with wheels attached to the rear wall, so that the dismantled rotor blade can be conveyed to a workshop or the like by means of the working cabin.

In Fig. 6, an alternative design of the device according to the Invention is shown, wherein all functionally identical elements have the same reference numerals as in the preceding description.

The device, generally designated 1 here, is used for maintenance and cleaning of the rotor blades 5 of the rotor 4 of a wind turbine, generally designated 2, at the upper end of a mast 3 . According to this variant, a rail system 20 can be attached or fastened to a supporting mast 3 from a vehicle 9 , on which a carriage 21 with the working cabin 7 is arranged so as to be movable.

A cable 22 is only symbolically shown in dashed lines, on which the cabin 7 can be raised and lowered, the corresponding winch can be positioned on the vehicle 9 , for example.

By means of an additional knee arm 23 is in Fig. 6 indicates that the rail system 20 can also be formed as an integral part of the vehicle 9 , for example in the manner of a fire department ladder or the like be seen. In the figure, clip-like elements 24 are also shown, with which the rail system can be fi xed on the mast.

Of course, the described exemplary embodiments of the invention can be modified in many ways without departing from the basic idea. For example, the work platform 7 can be arranged so as to be adjustable on the slide 21 in the horizontal plane, in order to be able to compensate for different rotor blade spacings relative to the mast and u. Like. more.

Claims (13)

1.Device for carrying out repair and service activities in weather-exposed objects made of fiber-reinforced plastic or aluminum, in particular for the maintenance and servicing of rotor blades from wind turbines, characterized by areas of the rotor blade ( 5 ) receiving working cabins ( 7 ) Sealing devices ( 17-19 ) for sealing the work cabin ( 7 ) against the prevailing ambient conditions at the location. 2. Apparatus according to claim 1, characterized in that the work cabin ( 7 ) is substantially U-shaped in cross section with a U-shaped running and work deck in supervision and a barrier ( 19 ) of the open area between the free U- Legs of the work cabin. 3. Device according to claim 1 or 2, characterized by a lifting device ( 8 ) for guiding the working cabin ( 7 ) over the length of a rotor blade ( 5 ). 4. Device according to one of the preceding claims, characterized in that the floor and roof area ( 14 , 15 ) of the working cabin ( 7 ) in a plurality of from a rest position and a sealing position movable plunger ( 18 ) is provided. 5. Device according to one of the preceding claims, characterized in that the front free ends of all adjacent plungers ( 18 ) are equipped with a common inflatable tube body ( 17 ). 6. Device according to one of the preceding claims, characterized in that the actuation of the sealing plunger ( 18 ) is carried out pneumatically, hy draulically, magnetically or electrically. 7. Device according to one of the preceding claims, characterized in that the working cabin ( 7 ) is equipped with an air conditioning system, in particular for heating and venting. 8. Device according to one of the preceding claims, characterized in that the working cabin ( 7 ) with lifting device is assigned a Greifein direction for fixing a rotor blade. 9. Device according to one of the preceding claims, characterized in that the working cabin ( 7 ) with lifting device ( 8 ) is constructed as a body of a vehicle ( 9 ). 10. Device according to one of the preceding claims, characterized in that the working cabin ( 7 ) is designed as a slip carriage for fixing, För change and longitudinal rotation of a rotor blade ( 5 ). 11. The device according to any one of the preceding claims, characterized in that the lifting device ( 8 ') as a on the mast ( 3 ) of the wind turbine attached and / or attachable rail system ( 20 ) with cable ( 21 ) to promote the Arbeitsbiabi ne ( 7 ) is formed. 12. The apparatus according to claim 11, characterized in that the rail system ( 20 ) is designed as a telescopic part of a vehicle body. 13. The apparatus of claim 11 or 12, characterized in that the rail system ( 20 ) is equipped with fixing devices ( 24 ) for fixing to the mast of the wind turbine.