DE102008033092A1 - Lightning receptor for use in middle section of rotor blade of wind turbine, has receptor tip arranged at distance from receptor body, where receptor body and receptor tip are formed as entire streamlined unit - Google Patents

Abstract

The receptor (1) has a receptor tip (3) arranged at a distance from a receptor body (2). The receptor body and the receptor tip are made of an electrically conductive material i.e. metal such as aluminum, copper and aluminum alloy, and are formed as an entire streamlined unit. A pin (4) or bolt made of conductive material is formed at a side of the receptor body for deflecting lightning current and fastening the receptor at a rotor blade, where the side is opposite to the receptor tip. The receptor body and the receptor tip pass into one another.

Description

The The invention relates to a lightning receptor for a rotor blade a wind turbine with the features of the preamble of It also relates to a rotor blade for a wind turbine equipped with such a lightning receptor is.

Wind turbines are with increasing height and because of their frequent has always been exposed, and increasingly so to lightning strikes. Here are the rotor blades, which by nature is the highest point in the world typical and widespread wind turbine with horizontal axis rotor form, especially endangered. In particular by appropriate Lightning strikes in wind turbines older Type, the first largely without, at least without sufficient lightning protection have been set up, have the operators of such wind turbines already have to determine what significant damage can arise as a result. Not only that individual structures of the Wind turbine, such as the rotor or similar mechanical Parts can be damaged, a lightning strike In particular, the sensitive electrical and electronic Hitting the equipment in the system itself and endangering it. Here is not only the generator to call, but also in the In the field of modern wind turbines increasingly used control electronics.

Corresponding become modern wind turbines by default equipped with lightning protection systems, in addition to a drainage system for safe dissipation of the lightning current into the earth or to a grounded connection also deliberately used lightning receptors as predefined impact points include which receptors in turn connected to the discharge system. The receptors are due the exposed position of the rotor blades in particular there used.

It is known, in particular, the blade tip, which is very often the highest and thus lightning endangered point of the wind turbine to provide with such receptors, if necessary, the blade tip form a total of metallic. It is also already known to use at the blade tip of the rotor blade surface projecting catch rods, as shown in the DE 10 2005 045 579 A1 is disclosed. These catching rods are used to "catch" the lightning current, in which case the catching rods are integrated in a tip coating, which is designed to be melted off.

Also from the DE 295 22 152 U1 a lightning protection system for the rotor blade of a wind turbine is known in which in the area of the blade tip projecting lightning arresters are designed to serve with a free-standing tip to the "capture" of the lightning current.

It is also known to arrange several lightning receptors distributed in wind turbines with large rotor diameters along the length of the rotor blade, since with long rotor blades, the lightening probability is not only maximized in the area of the tip, but a lightning strike is quite likely even in a central portion of the sheet. Such an arrangement with multiple along the length of a rotor blade distributed lightning receptors is z. B. in the DE 10 2007 050 009 A1 shown.

Even though with the known and shown lightning protection systems and associated Lightning receptors already diverse solutions available are, rotor blades of wind turbines against a lightning strike There is still further need for improvement here. In particular, according to the inventor's knowledge, it is still lacking at suitable solutions, with which also existing wind energy plants in a simple way scaffolded with a lightning protection system or retrofitted with an improved lightning protection system can be. This concerns in particular the retrofitting with appropriate lightning receptors that provide protection of a rotor blade against lightning in its middle section, not in the area the rotor blade tip, but rather in a between the rotor blade tip and the rotor blade root area, can effect. In this case, such a lightning receptor at the same time both a reliable Focusing the lightning strike probability in his Reach as well as the rotor of the wind turbine in his disturb aerodynamic run as little as possible and as far as possible no additional rotor noises generate during the run of the wind turbine. this Problem turns to the present invention and gives its Solution a lightning receptor with the features of claim 1 on. Advantageous developments of this invention Lightning receptors are in the dependent claims 2 to 10 called. Another aspect of the invention lies in a Rotor blade with such inventive Lightning receptor (see claim 11), which in two advantageous Developments in the claims 12 and 13 featurefully is further determined.

The flash receptor according to the invention is characterized in two ways. It is formed from a receptor body and a protruding from this receptor tip. The receptor tip is also in the assembled state of the receptor from the surface of the rotor blade and thus generates the known per se peak effect, are bundled in the electric field lines and so the field line density is increased. Through this bundling of Field lines or increasing the field line density, the probability of impact of a lightning in the receptor tip against the likelihood of lightning strike is significantly increased in surrounding areas of the rotor blade. This increase in the likelihood of lightning strike is in addition to the already existing increase due to the choice of material; The receptor tip, like the receptor body, is formed from an electrically conductive material.

In a second essential feature or aspect are the receptor body and receptor tip as a total streamlined entity educated. This type of design of the invention Lightning receptor causes this a ge wrestle drag when it forms with the rotor blade through the air masses emotional. Thus, on the one hand, the aerodynamics of the rotor blade through the Affected thereon lightning receptor as little as possible affected In particular, operating noise due to the Flowing past air at the lightning receptor, largely suppressed, if not almost completely avoided.

By the receptor tip formed above is also at a in a central portion of a rotor blade of a wind turbine to be arranged Lightning receptor of the inventive type in reliable and compared to known, in the middle section of a rotor blade to be arranged lightning receptors improved way the bundling the probability of lightning strikes in the area of the receptor, without here by as in the prior art in the field of Lightning receptors for the front leaf tip known protruding "receptor tips the aerodynamics of the rotor blade over to affect the dimensions and especially to additional operating noise (whistling noises) to lead.

The Division of the lightning receptor into the receptor body and the receptor tip is not mandatory along a clearly defined line. Rather, this subdivision merely means that the lightning receptor in a connection area for attachment to the rotor blade one sufficient has wide pad and is in one of these Terminal area remote section to a peak rejuvenated. In that regard, the inventive Lightning receptor z. B. as a whole as streamlined formed structure, starting from a base without offset into a tip, z. B. in total the Take shape of a shark fin or the like, with sufficient broad base. Here is a grassroots section of the lightning receptor to be regarded as a receptor body, a tip-near portion as a receptor tip, without the need for a strict dividing line.

The streamlined outline of the unit Receptor body and receptor tip to provide the invention In particular, this means improved in terms of air resistance Design of these forms. In this case, the receptor tip in particular curved or curved, with particular preference she is formed in the shape of a Finn.

For a particularly simple connection of the invention Lightning receptor to a running inside the rotor blade lightning rod system, z. B. consisting of a grounding line, is advantageous on the the receptor tip opposite side of the corpus at least one pin or bolt formed of a conductive material. This pin can then be replaced by a corresponding in the rotor blade formed opening passed and by suitable means to an electrical line for discharge of the lightning current can be connected. The pin or Bolt in this design variant not only the connection of the receptor to the lightning rod system, but also fixing the lightning receptor on the rotor blade. For this purpose, the bolt or pin z. B. be provided with an external thread over a mother applied and the lightning receptor so with the rotor blade can be screwed. Basically enough for this type of installation and connection to the lightning system such a pin or bolt, however, can of course also several such pins or bolts are provided. One sees two or more pins or bolts before, there is an advantage for mounting, as the lightning receptor is so particularly resistant to rotation can be mounted. However, several breakthroughs or Holes are introduced into the rotor blade, which in particular when retrofitting with an additional effort is connected and the structure of the rotor blade in total in higher Dimensions weakens. The embodiment with a pin or bolt on the receptor tip opposite Side of the receptor body is especially for a simple Retrofitting of such a lightning receptor on existing Rotor blades suitable. In a section where the Lightning receptor should be attached (in particular and usually a central portion of the rotor blade), here only has an opening (Bore) passed through the surface of the rotor blade which will be done there pin or bolt fixed (with a mother or the like.) And then either to a existing lightning system connected, or it will be a new one Lightning system installed inside the rotor blade and connected to the pin or bolt.

Particularly easy is the invention Perform appropriate lightning receptor, if this is formed in one piece.

When Material for the receptor body and the receptor tip, possibly also for the pin or bolt are aluminum, Copper or an aluminum alloy, in which case in particular a Cast aluminum material is preferred. A manufacture of the lightning receptor can preferably in one piece in the aluminum casting process happen. In this way, a variety of similar Lightning receptors are manufactured cheap and dimensionally accurate.

Of the Lightning receptor is preferably designed overall with such a mass, that it is typically released during a lightning strike thermal Energy can absorb harmless. In particular are suitable for this purpose Lightning receptors of the type according to the invention with a mass of between 0.5 and 2.5 kg, in particular 1 to 1.5 kg.

As already mentioned, the invention is also directed to a Rotor blade containing a lightning receptor as described above. This is preferably in a middle section between the blade tip and leaf root arranged, in particular approximately midway between these elements. The lightning receptor is in such a way Rotor blade equipped according to the invention is preferred with a perpendicular to its streamlined Attack cross-section extending longitudinal axis transverse to the Longitudinal axis of the rotor blade arranged, in particular at an angle of 90 ° to it. Such an arrangement results in an optimal utilization of the favorable flow behavior, because the lightning receptor is so with its streamlined Attack cross section moved through the air masses.

Further Features and advantages of the lightning receptor according to the invention and its application will be apparent from the following description an embodiment with reference to the attached Characters. Showing:

1 in four different views, a lightning receptor according to the invention in a possible embodiment variant; and

2 schematically a rotor blade of a wind turbine with a lightning receptor arranged thereon according to the invention.

In 1 In a total of four views, from left to right and top to bottom in the drawing sheet, a three-dimensional view obliquely from the front left, a front view, a view from the left side and a top view, an embodiment of a lightning receptor according to the invention 1 shown. The lightning receptor according to the invention shown here 1 includes a receptor body 2 and a receptor tip molded to it 3 , On top of the receptor tip 3 opposite bottom of the receptor body 2 is a cone 4 formed. The entire lightning receptor 1 , so receptor body 2 , Receptor tip 3 and cones 4 is integrally formed as an aluminum casting. The total mass of the lightning receptor 1 is about 1.0 to 1.5 kg, so the lightning receptor 1 The thermal energy generated by a lightning strike can be absorbed without damage. In the embodiment shown here are receptor body 2 and receptor tip 3 clearly recognizable as separate elements. However, it is also within the scope of the invention to form a lightning receptor in which receptor body and receptor tip slidably merge into each other, for. B. a total formed as a fin or as a shark dorsal fin lightning receptor, in which the broader base the receptor body, the narrow tapered tip forms the receptor tip and in a central region of the transition between these two elements, without this always accurate must be identified and determined.

By the in the different representations in 1 Plotted surface grid lines are shown as the receptor body 2 and the receptor tip 3 are formed streamlined overall, with a low flow resistance for a flow from the bow side 5 to the rear 6 of the lightning receptor 1 , For this purpose, the receptor body has 2 one from the front of the page 5 to the rear side 6 initially relatively steep rise and then flat outgoing, aerodynamically optimized course, and the receptor tip 3 is approximately in the middle region of the longitudinal extension of the receptor body 2 starting in the direction of the rear side 6 curved and has the shape of a fin, for example, shaped similar to the dorsal fin of a shark or dolphin.

The receptor tip 3 is also in the mounted state of the receptor 1 sufficiently from the rotor blade to bring about a field line compression and thus the lightning probability in the receptor tip 3 to increase significantly. On the other hand, by the overall streamlined shape of the protruding in the assembled state of the rotor blade parts of the lightning receptor 1 This ensures that mounted on a rotor blade does not unduly influence the aerodynamics of the latter and in particular does not lead to a (substantial) increase in wind noise.

With the pin 4 becomes the lightning receptor 1 not just fixed to a rotor blade by this pin 4 through a corresponding opening, for example a bore, guided in the rotor blade wall and z. B. by means of a screw on egg nem not shown here external thread on the pin 4 is fixed, but it also serves the connection of the lightning receptor 1 to a lightning discharge. Such a lightning discharge may for example be a tensioned inside the rotor blade steel cable or a similar conductive element, such as a cable or the like.

Essential to the invention is that the lightning receptor of the invention 1 is formed from a receptor tip 3 and to this subsequent receptor body 2 The former increases the likelihood of lightning strike in the lightning receptor and thus helps to improve lightning protection. The receptor body 2 ultimately serves in particular the increase in the total mass of the lightning receptor 1 so that it does not suffer any thermal damage in the event of a lightning strike. Unlike previously known lightning receptors, in which a thermal damage is accepted (such as in the in the DE 10 2005 045 579 A1 Model shown) is the lightning receptor of the invention 1 a lightning strike namely without damage, so as not to generate additional maintenance or repair costs in a lightning strike.

In 2 is shown schematically as an inventive lightning receptor 1 on a rotor blade 7 a wind turbine is mounted or arranged. Good to see here is that the lightning receptor according to the invention 1 not at the tip of the sheet 8th but rather at a central portion between the blade tip 8th and the leaf root 9 , For this use is the lightning receptor according to the invention 1 particularly suitable, it supports the additional protection of a rotor blade here 7 against lightning in this area. Furthermore, in 2 good to see that the lightning receptor 1 with its longitudinal orientation transverse to the blade longitudinal axis of the rotor blade 7 is arranged, with its bow side 5 (see. 1 ) in the direction of the leading edge 10 of the rotor blade 7 points, its tail side 6 (see. 1 ) towards the rear edge 11 of the rotor blade 7 , Since in operation the rotor blade 7 with the front edge 10 passes through the air masses, comes in this mounting position of the lightning receptor 1 its streamlined design to advantage, by which he aerodynamic design of the rotor blade 7 largely unaffected and at the same time causes no, at least no significant additional wind noise.

When in 1 the lightning receptor according to the invention 1 with only a single pin 4 is shown on its underside, it may of course also have two or more such pin. Owns the lightning receptor 1 at its the receptor tip 3 opposite bottom of the body at least two cones 4 , so is a twist-proof assembly in a like in 2 To get particularly secure position shown.

From the representation in particular in 1 , but also in synopsis with 2 In addition, it becomes clear that the lightning receptor according to the invention 1 Also in the embodiment shown is particularly suitable for retrofitting. It is on the rotor blade only one, with several pins 4 are several holes to install in a corresponding number, then by the pin or the 4 of the lightning receptor 1 can be passed or can. It goes without saying that the underside of the receptor body 2 , from which the pin 4 protrudes, in its shape to the course of the surface of the rotor blade 7 is adjusted and does not necessarily go exactly as in 1 is shown schematically. The lightning receptor 1 Will be so when retrofitting with his (his) pin 4 passed through the corresponding bore (s), and the pin is or the pins are from the inside of the rotor blade 7 heart. B. secured with a union nut or with union nuts and then connected to an existing lightning protection line, or it is created a corresponding lightning protection line and with the (the) pin 4 connected.

Also and especially after considering the figures and studying the foregoing description of the embodiment, it should be readily apparent to one skilled in the art that the shape of a lightning receptor of the invention shown here 1 not the only one possible. Rather, opens up a variety of variations and design options in which a lightning receptor consisting of receptor body and receptor tip can be streamlined designed to achieve the objectives of the invention and to solve the underlying problem.

1

lightning receptor

2

receptor body

3

receptor peak

4

spigot

5

bow side

6

rear side

7

rotor blade

8th

blade tip

9

blade root

10

leading edge

11

rear edge

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102005045579 A1 [0004, 0025]
• - DE 29522152 U1 [0005]
• - DE 102007050009 A1 [0006]

Claims (13)

Lightning receptor for a rotor blade ( 7 ) of a wind turbine, in particular for the arrangement in one between a blade root ( 9 ) and a blade tip ( 8th ) located mid section of the rotor blade ( 7 ), with a receptor body ( 2 ) and a protruding from this receptor tip ( 3 ), where receptor body ( 2 ) and receptor tip ( 3 ) consist of electrically conductive material, in particular metal, characterized in that the receptor body ( 2 ) and the receptor tip ( 3 ) are formed as an overall streamlined unit. Lightning receptor according to claim 1, characterized in that the receptor tip ( 3 ) is curved or bent. Lightning receptor according to one of the preceding claims, characterized in that the receptor tip ( 3 ) has the shape of a fin. Lightning receptor according to one of the preceding claims, characterized in that it is located on the receptor tip ( 3 ) opposite side of the receptor body ( 2 ) at least one pin ( 4 ) or bolt is formed of a conductive material for dissipating the lightning current and for attaching the lightning receptor ( 1 ) on a rotor blade ( 7 ). Lightning receptor according to one of the preceding claims, characterized in that it is integrally formed. Lightning receptor according to one of the preceding claims, characterized in that at least the receptor body ( 2 ) and the receptor tip ( 3 ) consists of aluminum, copper or an aluminum alloy, preferably of an aluminum casting material. Lightning receptor according to one of the preceding claims, characterized in that it is one for the harmless Recording of the released in a lightning strike thermal Energy has sufficient mass. Lightning receptor according to Claim 7, characterized that it has a mass of 0.5 to 2.5 kg, preferably 1 to 1.5 kg having. Lightning receptor according to one of the preceding claims, characterized in that the receptor body ( 2 ) and the receptor tip ( 3 ) merge seamlessly into each other. Lightning receptor according to claim 9, characterized in that it has the overall form of a fin or shark dorsal fin with a receptor tip ( 3 ) forming a narrower section near the tip of the fin or shark dorsal fin and a receptor body ( 2 ) forming a broader portion near the base of the fin or shark dorsal fin. Rotor blade for the rotor of a wind turbine, characterized in that it has at least one lightning receptor ( 1 ) according to one of the preceding claims. Rotor blade according to claim 9, characterized in that the at least one lightning receptor ( 1 ) in a middle section between the blade tip ( 8th ) and the leaf root ( 9 ), in particular approximately in the middle between the blade tip ( 8th ) and leaf root ( 9 ) is arranged. Rotor blade according to one of claims 9 or 10, characterized in that the lightning receptor ( 1 ) with a perpendicular to its flow-favorable attack cross-section longitudinal axis transversely, in particular at an angle of 90 ° to the blade longitudinal axis of the rotor blade ( 7 ) is arranged.