LIGHTNING DISCHARGE SYSTEM FOR A WIND TURBINE

Abstract

Provide is a lightning discharge system for a wind turbine including a hub, a spinner defining a protection space wherein the hub is arranged, a blade fixed to the hub, and a nacelle. The discharge system includes a blade band attached to the blade, a ring facing the nacelle and attached to the band and to the nacelle, a respective contact device connecting the band to the ring and the ring to the nacelle. The band and the ring are arranged in the space, and the ring is further attached to the hub such that it faces the nacelle through a rear opening of the spinner.

Claims

1. A lightning discharge system for a wind turbine blade, including a wind turbine comprising a hub, a spinner defining an inner protection space wherein the hub is arranged, a blade fixed to the hub, and a nacelle connected to a reference point, the lightning discharge system comprising: a blade band of an electric conductor material, which is attached to the blade; a ring of an electric conductor material, which faces the nacelle, which is electrically attached to the blade band and to the nacelle and which comprises a central shaft, a first contact device electrically connecting the blade band to the ring, and a second contact device electrically connecting the ring to the nacelle, wherein the spinner comprises a rear opening facing the nacelle and through which the protection space faces the nacelle, the blade band and the ring being arranged in the protection space defined by the spinner, and the ring further being attached to the hub such that the ring faces the nacelle through the rear opening of the spinner.

2. The lightning discharge system according to claim 1, further comprising an attachment device for attaching the ring to the hub, the attachment device being configured to provide an electrical insulation between the ring and the hub.

3. The lightning discharge system according to claim 2, wherein the attachment device for attaching the ring to the hub comprises a plurality of attachment elements homogeneously distributed around the central shaft of the ring, each attachment element comprising an electrical insulation at an end closest to the ring.

4. The lightning discharge system according to claim 3, wherein the attachment device for attaching the ring to the hub comprises a number of attachment elements which is a positive whole multiple of a number of blades of the wind turbine.

5. The lightning discharge system according to claim 2, further comprising a hub ring fixed to the hub and concentric to the ring, the attachment device being configured to attach the ring to the hub ring.

6. The lightning discharge system according to claim 1, further comprising at least one contact element attached to the ring or to the hub and to the first contact device for ensuring the electrical contact of the first contact device with the blade band, the at least one contact element being configured to apply a thrust force towards the contact band and the first contact device being attached to the at least one contact element such that the thrust force thrusts it against the blade band.

7. The lightning discharge system according to claim 6, wherein the first contact device comprises a head configured to contact the blade band and at least one cable attached at one end to the head and at the other end to the ring, the head being attached to the attachment element.

8. The lightning discharge system according to claim 7, wherein the head comprises a carbon brush which is what carries out the electrical connection between the cable and the blade band, for the electrostatic discharge.

9. The lightning discharge system according to claim 8, wherein the head comprises a spark gap separated from the carbon brush by a determined distance and attached to the attachment element.

10. The lightning discharge system according to claim 6, wherein the contact element comprises a fixing support attached to the ring or to the hub and a flexible support attached to the fixing support and configured to exert the thrust force towards the blade band, the first contact device being attached to the flexible support.

Description

BRIEF DESCRIPTION

[0015] Some of the embodiments will be described in detail, with references to the following Figures, wherein like designations denote like members, wherein:

[0016] FIG. 1 shows a wind turbine;

[0017] FIG. 2 shows the wind turbine of FIG. 1 without the spinner and with an embodiment of a lightning discharge;

[0018] FIG. 3 shows detail A-A of FIG. 2;

[0019] FIG. 4 shows an attachment device for attaching the ring to the hub of the discharge system according to FIG. 2; and

[0020] FIG. 5 shows a contact element for securing the electric contact between the ring and a blade band of the discharge system according to FIG. 2.

DETAILED DESCRIPTION

[0021] A large-sized wind turbine 1000 comprises a hub 1, a spinner 2 defining an inner protection space wherein the hub 1 is arranged, a plurality of blades 3 attached to the hub 1 and a nacelle 4, as shown in FIGS. 1 and 2.

[0022] The wind turbine 1000 further comprise a generator (not depicted in the figures) arranged in the nacelle 4, and a generator shaft (not depicted in the figures) attaching the generator to the hub 1. When the blades 3 and the hub 1 turn integrally due to the action of the wind, this turn is transmitted to the generator through the generator shaft, and the generator transforms this turn (mechanical energy) into electrical energy.

[0023] The discharge system of the invention is configured for its use in large-sized wind turbines 1000, and more specifically for discharging the lightning striking the blades 3 of the wind turbines 1000 to a reference point G (normally ground). The nacelle 4 is connected to the reference point G by means of a connection not depicted in the figures, such that the lightning is discharged to the reference point G through the nacelle 4.

[0024] The discharge system comprises a blade band 101 for each blade 3 to which the discharge system is to be applied, to which the corresponding blade 3 is attached. The blade band 101 is of an electric conductor material, and surrounds the corresponding blade 3. The discharge system further comprises a ring 102 of an electric conductor material, which faces the nacelle 4 and which is electrically attached to the blade band 101 by means of a first contact device 103 and to the nacelle 4 by means of a second contact device 104, as depicted in FIG. 3 in a simplified manner. The ring 102 comprises a central shaft 102.0, corresponding to the generator shaft.

[0025] In the event that the discharge system protects a plurality of blades 3, each blade 3 would comprise an associated blade band 101 and the ring 102 would be attached to all the blade bands 101 (a ring 102 per blade band 101 would not be required), the discharge system comprising a respective contact device 103 for the attachment between the ring 102 and each of the blade bands 101. Hereinafter, for the sake of simplicity and without a limiting nature, the discharge system aimed at a single blade 3 is described, but as it has been described it may be aimed at more blades 3, in which case it would comprise a blade band 101 associated with each blade 3 and its corresponding attachment to the ring 102.

[0026] The spinner 2 comprises a rear opening (not depicted in the figures) facing the nacelle 4, the protection space facing the nacelle 4 through the rear opening. It is usual for the spinner 2 to comprise an opening for the passage of the generator shaft, but the rear opening is an opening greater than, or additional to, the opening for the generator shaft. The function of the rear opening is described in more detail below.

[0027] The blade band 101 and the ring 102 are arranged in the protection space delimiting the spinner 2, thus being protected by the spinner 2. The ring 102 is attached to the hub 1 and is attached such that it faces the nacelle 4 through the rear opening of the spinner 2. This facilitates a reliable electrical and mechanical attachment between the ring 102 and the nacelle 4, by means of the second connection device 104. Thus, when referring to a large-sized wind turbine it can be interpreted as a wind turbine wherein the blade band 101 travels a path outside the perimeter of the nacelle 4 when it turns.

[0028] In the proposed discharge system, when lightning strikes a blade 3 it is discharged through the path formed by the corresponding blade band 101, the contact device 103 between the blade band 101 and the ring 102, the ring 102 itself, the contact device 104 attaching the ring 104 102 to the nacelle 4, the nacelle 4 itself and the connection between the nacelle 4 and the reference point G.

[0029] The discharge system comprises an attachment device for attaching the ring 102 to the hub 1, as shown with more detail in FIG. 4. The attachment device is configured to provide an electrical insulation between the ring 102 and the hub 1. Thus, despite the ring 102 being attached to the hub 1, as a result of the type of attachment device used (its insulation) lightning is prevented from being discharged through the hub 1, or reaching the hub 1, and with the discharge system proposed the sensitive elements of the wind turbine 1000 are kept safe.

[0030] The fact that the ring 102 is attached to the hub 1 provides strength to the attachment, since the hub 1 is a rigid element of the wind turbine 1000, it further being ensured that the attachment is always in the same position, which always ensures the same discharge path for lightning striking the blade 3, without the risk of it being able to vary as is the case of an attachment to the spinner 2, which is of a flexible material (generally fiberglass), which might cause a displacement of the ring 102, and, therefore in a change in the path of the lightning in its discharge.

[0031] The attachment device comprises a plurality of attachment elements 105 homogeneously distributed around the central shaft 102.0 of the ring 102. Each attachment element 105 comprises an electrical insulation to insulate the ring 102 and the hub 101, at the end closest to the ring 102.

[0032] The attachment device for attaching the ring 102 to the hub 1 comprises a number of attachment elements 105 which is a positive whole multiple of the number of blades 3 of the wind turbine 1000. The wind turbine comprises three blades 3, the number of attachment elements 105 thus being equal to a positive whole multiple of three. In this case, the number of attachment elements 105 is three (the positive whole multiple being equal to one), and are arranged one at 120 of the next (around the central shaft 102.0).

[0033] The discharge system can comprise a hub ring 106 fixed to the hub 1 and concentric to the ring 102, the attachment device being configured to attach the ring 102 to the hub ring 106. This facilitates the attachment between the ring 102 and the hub 1, since the hub 1 itself comprises a specific element for its attachment to the ring 102 (the hub ring 106), and provides rigidity to the attachment, it further being ensured that the ring 2 does not undergo relative displacements with respect to the hub 1, a safe and fixed path being maintained for lightning discharge. The hub ring 106 comprises a smaller diameter than the ring 102, as shown in the example of FIG. 4.

[0034] As shown by way of example in FIG. 5, the contact device 103 attaching the ring 102 to the blade band 101 comprises a head 103.0 which is in contact with the blade band 101 and at least one cable 103.1 attached at one end to the head 103.0 and at the other end to the ring 102. The discharge system can comprise at least one contact element 107 for ensuring the electrical contact between the ring 102 and the blade band 101. In this case the head 103.0 is attached to the contact element 107, the contact being ensured. Between the blade band 101 and the head 103.0 there can be a relative movement due to the turn of the corresponding blade 3, and without this contact element 107 it may occur that the contact between the head 103.0 and the blade band 101 is lost due to the relative movement, it being dangerous for the lack of contact to occur when lightning strikes the blade 3. The contact element 107 prevents this situation, ensuring the contact at all times.

[0035] The contact element 107 is attached to the ring 102, but it can also be attached to the hub 1 or to another element turning integrally with the ring 102 and the hub 1, which as has been mentioned turn integrally without relative displacement between them, and to the first contact device 103 for ensuring the electrical contact of the contact device 103 with the blade band 101. The contact element 107 is configured to apply a thrust force towards the contact band 101, and the first contact device 103 is attached to the contact element 107 such that the thrust force thrusts it against the blade band 101. In particular, the head 103.0 is the element of the first contact device 103 which is attached to the attachment element 107.

[0036] The contact element 107 comprises a fixing support 107.0 attached to the ring 102 or to the hub 1, and a flexible support 107.1 attached to the fixing support 107.0 and configured to exert the thrust force towards the blade band 101. The first contact device 103 (the head 103.0) is attached to the flexible support 107.1.

[0037] The head 103.0 comprises a carbon brush which is what carries out the electrical connection between the cable 103.1 and the blade band 101. Since it is of carbon it does not undergo the effect of corrosion, for example, its useful life being lengthened in comparison to brushes of another type. The head 103.0 comprises s a spark gap not depicted in the figures, separated from the brush by a determined distance of, between 5-7 mm, and attached to the attachment element 107. The brush thus ensures the electrostatic discharge and the spark gap ensures the discharge of high-current lightning which could damage the brush.

[0038] Although the present invention has been disclosed in the form of preferred embodiments and variations thereon, it will be understood that numerous additional modifications and variations could be made thereto without departing from the scope of the invention.

[0039] For the sake of clarity, it is to be understood that the use of a or an throughout this application does not exclude a plurality, and comprising does not exclude other steps or elements.