DE10348994A1 - Wind powered generator with aircraft warning lights which are mounted on the blades especially on the blade tips and which are visible from all angles - Google Patents

Abstract

The invention relates to a wind turbine with at least one rotor blade and a lighting system. According to the invention, a light exit is provided on the rotor blade. In particular, the light exit is arranged on a tip (28) of the rotor blade (25-27).

Description

The The invention relates to a wind turbine with at least one rotor blade and a lighting system.

conventional Wind turbines with arranged on a hub rotor blades, the to turn around a horizontal axis, are from a certain height with at least an air traffic control lamp or marker light. The Luminaire is arranged on the hub, so in the dark about the height of the wind turbine is recognizable. To determine the actual height is still the length of rotor blades additionally to take into account. This is difficult because the rotor blades at the same height of the wind turbine or a mast thereof may be of different lengths. anyway can be used in the dark without exact knowledge of the distance to Viewer does not estimate individual dimensions of the wind turbine. The The present invention is intended to provide a better estimate of the dimensions of the wind turbine even in the dark.

The Wind turbine according to the invention is characterized by a light emission at the rotor blade. Preferably have all existing rotor blades a light emission. The light can be as a flash, flashing or Permanent light be provided. The light emission at the rotating rotor blade leads to a visible Light circle or partial light circle, depending on the speed or speed the rotor wing and switch-on characteristic of the light.

advantageously, the light exit is arranged at a tip of the rotor blade. Alternatively, the light output between the tip of the rotor blade and be provided the rotor hub, about a third, a half or two thirds of the rotor length. Possible are also several light leaks along the rotor blade. Also can different rotor blades have different light exits, such as one with a Light emission at the outer tip and another with a light emission about halfway.

Of the Light emission is on the rotor blade preferably arranged so that a detection of the light as possible many directions possible is, but at least from three directions, e.g. with one direction parallel to the axis of rotation of the rotor blades, with a second direction parallel to the axis of rotation but opposite to the first direction and with a third direction perpendicular to the axis of rotation and parallel to the position of the rotor blade. Particularly well recognizable is a substantially hemispherical light emission with a central axis parallel to the longitudinal axis of the respective rotor blade.

at Arrangement of the light exit with distance to the tip of the rotor blade, so Closer to the rotor hub, are the organs involved in the light emission lower centrifugal forces exposed. This can be advantageous in detail.

Of the Light emission is generated by suitable light sources. These are because of the centrifugal forces advantageously as possible small and light. One or more LEDs are preferred as the light source for one Light output. Other light sources such as halogen lamps, xenon lamps, Fluorescent lamps, etc. can be provided.

advantageously, the light source is located directly on the light exit. The light gets so on the shortest Paths and no loss of light. It is also possible from the light emission remote location of the light source. In this case, means for transmitting the light from the light source to the light exit provided, such as optical fibers. In this case, the light source in rotor blades or outside the same can be arranged, for example in the rotating rotor hub. The denser the light source is arranged on the hub, the smaller they are the centrifugal forces that occur and the bigger and bigger harder the light source can be formed.

at separate arrangement of light source on the one hand and light emission On the other hand, there is preferably a connection between the two via light-conducting fibers. Possible is also a purely optical compound, i. through appropriate Steering and / or forwarding of the light of the light source suitable optical systems such as lenses, mirrors, prisms, apertures etc.

Preferably is at least one beam deflecting device in the region of the light exit for targeted leadership of light, such as a lens, a prism, etc., is the target a guide the light according to the desired light profile and the desired Light emission directions.

To Another idea of the invention is the light source in a Integrated luminaire module, which is inserted in the rotor blades. By the Modular design is a simple adaptation to different requirements possible. Of the rotor blades can be at the desired Position, along its surface, in particular at its tip a recess for receiving the light module have (built-in version). Alternatively, the lighting module on the rotor wing be attached (body version).

The luminaire module is provided with a translucent cover and with a beam deflector below the cover. Also, a component may have the function of covering a On the other hand, the beam deflection input on the other hand unite in itself. Preferably, the luminaire module is designed so that instead of the light source, a receptacle for optical fibers can be provided. Nevertheless, the same or at least substantially the same luminaire modules can be used with different light generation and light guidance.

advantageously, the luminaire module has a housing on, which is asymmetrical, such that the lamp module only used in exactly one position in the rotor blade or on the same can be set up. Preferred is an asymmetric Training transverse to a central light exit direction or a Main exit direction of the light, especially in the arrangement of the lamp module at a tip of the rotor blade.

Further Features of the invention will become apparent from the description of the remainder and from the claims.

preferred embodiments The invention will be explained in more detail with reference to drawings. It demonstrate:

1 a wind turbine with three rotor blades rotating about a horizontal axis and light exits at wing tips,

2 an exploded view of a lamp module, in particular for installation in a wing tip,

3 the luminaire module according to 2 , built into a wing surface, especially wing tip,

4 the luminaire module according to 2 in assembled state and in perspective,

5 , the luminaire module according to 4 in a side view,

6 the luminaire module according to 4 in a plan view,

7 , the luminaire module in a sectional view taken along the line VII-VII in 6 .

8th a rear view (bottom view) of the lamp module according to 6 .

9 a sectional view of the lamp module along the line IX-IX in 6 .

10 a side view of the lamp module according to the direction of the arrow X in 9 .

11 a further embodiment of a wind power plant according to the invention with light emission in each case in the region of wing tips of the rotor blades, but with light generation outside the rotor blades, namely in particular with a light generation in the region of a rotor hub,

12 an enlarged view of part of the rotor hub according to 11 .

13 an exploded view of a luminaire module, here without lamp inside the luminaire module and instead with connected optical fiber,

14 a perspective view of the assembled lamp module according to 13 .

15 a side view of the lamp module according to 13 .

16 a section through the luminaire module with fiber optic fibers analogous to the representation in 9 .

17 another section through the luminaire module with fiber optic fibers analogous to the representation in 7 .

18 a bottom view (rear view) of the lamp module analogous to the representation in 8th ,

1 shows a wind turbine according to the invention 20 with upright mast 21 , Mast head 22 , at the top of the mast 22 around a horizontal axis 23 rotatably mounted rotor hub 24 and with three rotor blades emanating from the rotor hub 25 . 26 . 27 , The rotor blades 25 - 27 are at their wing tips 28 each provided with a light exit, in the present case, each with a lighting module 29 ,

The luminaire module 29 is determined by the 2 - 10 explained in more detail. An exploded view of the parts of the lamp module 29 are in 2 shown. A module housing 30 for insertion into the wing tips 28 points in the direction of the respective rotor blades two connection levels 31 . 32 on, which are angled V-shaped against each other, in particular by about 90 ° or less. Even an obtuse angle is possible.

Between the levels 31 . 32 is a curved outer wall 33 clamped. A curved or rounded area 34 the outer wall 33 is approximately centrally interrupted by a recess 35 for receiving further elements of the luminaire module 29 ,

The recess 35 is with a cover 36 provided whose shape is substantially the shape of the outer wall 33 and the curved area 34 is adjusted. This shows the cover 36 three open installation levels 37 . 38 . 39 on. The outer installation levels 37 . 39 are above the middle installation level 38 connected to each other and arranged at an obtuse angle to each other, in particular at an angle of 100 to 150 °. This allows a large light exit area.

The cover 36 is by means of marginal, resilient pin 40 into the recess 35 used. The module housing 30 points to this in the region of the recess 35 suitable shots 41 on. Additionally or alternatively, the cover 36 into the recess 35 be glued or secured by other connecting means, such as screws.

The module housing 30 points according to the installation levels 37 - 39 directed housing surfaces 42 . 43 and 44 on, the mutually opposite areas of the module housing connect to each other. The outer housing surfaces 42 . 44 each with a reflective layer 45 . 46 Mistake. The middle housing surface 43 is designed in the manner of a frame and takes on the cover 36 opposite side a base plate 47 on. This is preferably made of good heat conducting material.

Laterally next to the base plate 47 are in the middle housing area 43 drilling 48 . 49 provided for screws or other suitable means for fixing the module housing on the rotor blade. In parallel, holes for mounting the base plate 47 be provided, which are aligned with corresponding holes in the base plate.

The cover 36 facing on the base plate 47 a small board 50 arranged, which is formed substantially flat and hexagonal. On the board 50 is a LED as a light source 51 arranged. Alternatively, multiple LEDs can be provided side by side. Also the board 50 is preferably made of good heat conducting material.

The electrical energy for the LED 51 or other lamps used here is through suitable lines to the wing tips 28 ushered. A coupling of the electrical energy from the fixed mast head into the rotating part of the rotor hub 24 can be done for example via slip rings, inductive coupling or other measures.

The LED 51 and also the board 50 are covered by a beam deflector. This can also in the broadest sense as a lens 52 be designated.

The Lens 52 is largely solid. Cross sections of the lens 52 show the 7 and 9 , A cross section parallel to the width of the rotor blade 25 and substantially parallel to its length 9 , In this plane points the lens 52 a semi-circular relatively thick cross section. An outside 53 the lens 52 extends from the reflective layer 46 to the opposite layer 45 , An inside 54 the lens 52 has a small distance to the LED 51 on. The said distance is less than the distance between the outside 53 and the inside 54 ,

A central cross section through the lens 52 , but across the width of the rotor blade is in 7 seen. faces 55 . 56 are concave, so that in the region of the cross section according to 7 a smallest angle of the side surfaces 55 . 56 to each other from slightly less than 90 ° (acute angle), in particular from 60-75 °. In addition, the side surfaces 55 . 56 in the area of the cross-section according to 7 slightly curved, namely convex. The light emerging from the illuminant provided here becomes the side surfaces which act as optical interfaces 55 . 56 partially reflected and thereby something towards an in 7 drawn optical axis 57 bundled, strictly speaking, parallel to a parallel 7 perpendicular to the image plane and along the optical axis 57 extending level. The Lens 52 thus causes in a plane a largely free exit of the light and in a transverse plane arranged for this an easy bundling of the light.

The module housing 30 has sufficient space for the inclusion of other components. Preferably, at least one other board 58 intended. This and the small board 50 are good heat-conducting and with components for controlling the LED 51 equipped, possibly also with other components, such as for fault detection, for connection to a central control or the like.

The module housing 30 is through the housing surfaces 42 . 43 . 44 divided into two rooms, namely an outward-facing lens room 59 in which the lens 52 is arranged and by the cover 36 is sealed against the effects of weather. Inside (towards the rotor hub 24 ) of the housing surfaces 42 - 44 an interior space is present whose sidewalls through the curved outer wall 33 are formed. The interior is through a partition 60 which is perpendicular to the curved outer wall 33 runs, divided into a larger interior 61 and a smaller interior 62 , The further board 58 is in the small in nenraum 62 arranged, for example, glued. The base plate 47 lies in the large interior 61 , The small board 50 is essentially in the plane of the middle housing surface 43 arranged.

In the sectional view according to 9 is the module housing 30 formed as an asymmetrical triangle, similar to a right-angled triangle, with the "hypotenuse" along the cover 36 runs and is slightly curved. The partition 60 extends substantially perpendicular to the "hypotenuse" up to the right angle 63 in, starting from the housing surface 44 near the transition to the middle housing surface 43 , The housing surface 43 is therefore the larger interior 61 assigned, as well as the outer housing surface 42 , The housing surfaces 42 - 44 therefore also have the function of walls within the module housing 30 ,

The module housing 30 has another asymmetry, see 6 and 8th showing a top view and a rear view (bottom view). After that are around the curved areas 34 Contours formed around 64 . 65 differently curved. The contour 65 of the big interior 61 is a bit sharper than the contour 64 of the small interior 62 , Usually also the wing tips are 28 slightly asymmetrical according to the direction of rotation of the rotor blades. The contours 64 . 65 are adapted to this.

Another embodiment of the invention will be described with reference to FIGS 11 - 18 explained. Again, there are light leaks in the area of the wing tips 28 intended. However, the light is generated at a distance from the light exit and led via light guides or light-guiding fibers to the light exit.

In the present embodiment, the light of a halogen lamp 66 in light-guiding fibers 67 fed. The lamp 66 is in the rotating rotor hub 24 arranged. Each rotor blade has its own light-conducting fibers 67 and a separate lamp 66 intended. In place of the halogen lamp, other types of lamps can be used, such as xenon lamps, fluorescent lamps, LEDs or the like.

When arranging the lamps 66 in the rotating rotor hub 24 may be a suitable transfer of electrical energy into the rotating rotor hub 24 be provided in, for example via slip rings or by inductive coupling.

The present in detail in this embodiment components shows 13 , In contrast to the embodiment of 1 - 10 here are no base plate and no board with lamp provided. Instead, the light-conducting fibers 67 into the module housing 30 ushered. An exit surface 68 the light-guiding fibers is located at a small distance adjacent to the central housing surface 43 and parallel to this. The module housing 30 can therefore have the same shape and dimensions as in the embodiment of 1 - 10 , This also applies to the cover 36 and the lens 52 , Nevertheless, the lens can 52 to the characteristic of the exit surface 68 be adapted to leaking light.

The optical fibers 67 are through pods 69 and / or external layers (not shown) held together and protected at least over a portion of its length against mechanical influences and / or held in the rotor blade or elsewhere in the wind turbine.

One of the lamp 66 facing the end of the optical fibers 67 has a light entry surface 70 on, the short distance to the lamp 66 and is oriented perpendicular to a central direction of light.

20

Wind turbine

21

mast

22

masthead

23

axis

24

rotor hub

25

rotor blades

26

rotor blades

27

rotor blades

28

wingtips

29

lamp module

30

module housing

31

level

32

level

33

outer wall

34

curved area

35

recess

36

cover

37

installation level

38

installation level

39

installation level

40

spigot

41

Recordings

42

housing area

43

housing area

44

housing area

45

reflective layer

46

reflective layer

47

baseplate

48

drilling

49

drilling

50

small circuit board

51

LED

52

lens

53

outside

54

inside

55

side surface

56

side surface

57

optical axis

58

Further circuit board

59

lens space

60

partition wall

61

big interior

62

smaller inner space

63

angle

64

contour

65

contour

66

lamp

67

optical fibers

68

exit area

69

sleeves

70

Light entry surface

Claims (10)

Wind turbine ( 20 ) with at least one rotor blade ( 25 . 26 . 27 ) and a lighting system, characterized by a light emission on the rotor blade. Wind turbine according to claim 1, characterized by a light emission at a tip ( 28 ) of the rotor blade ( 25 - 27 ). Wind turbine according to claim 1 or 2, characterized by a light emission between a tip ( 28 ) of the rotor blade ( 25 - 27 ) and a connection of the rotor blade to a hub ( 24 ). Wind power plant according to claim 1 or one of the further claims, characterized in that as the light source one or more LEDs ( 51 ) are provided. Wind turbine according to claim 1 or one of the others Claims, characterized in that the light source is arranged at the light exit is. Wind power plant according to claim 1 or one of the further claims, characterized in that the light source in the rotor blade ( 25 - 27 ) is arranged. Wind power plant according to claim 1 or one of the further claims, characterized in that the light source in one with the rotor blade ( 25 - 27 ) rotating hub ( 24 ) is arranged and that the light of the light source is guided to the light exit. Wind power plant according to claim 1 or one of the further claims, characterized in that the light source via light-guiding fibers ( 67 ) is connected to the light exit. Wind turbine according to claim 1 or one of the others Claims, characterized in that in the region of the light exit at least a beam deflecting device for targeted guidance of the light provided is. Wind power plant according to claim 1 or one of the further claims, characterized in that the light source in a lighting module ( 29 ), which in the rotor wing ( 25 - 27 ) is used.