JP2004084518A - Device for holding wind power generation cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for holding a wind power generation cable without generating noises or breaking a sheathing of a cable because a flexion part of the wind power generation cable is oscillated and collides with an inner wall face of a tower due to vibration of a windmill, swing of a nacelle and the like. <P>SOLUTION: A clamp nipping a slack part of the wind power generation cable formed in a manner to be hung from the nacelle in the tower of the windmill and supported by a cable hanger is installed to a free end of a bracket, and a base end of the bracket is attached to the inner wall of the tower movably in upward and downward directions. A slide bush installed to the base end of the bracket is inserted in a guide shaft uprightly installed to a stand fixed to the inner wall of the tower, and a spring receiving a tare mass of the bracket is interposed between the slide bush and the stand, so as to provide a rotation preventing guide for guiding only the upward and downward movement of the bracket. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a holding device for holding a wind power cable hanging from a nacelle in a tower of a wind turbine.
[0002]
[Prior art]
FIG. 2 is a partially cutaway side view showing an outline of a conventional wind turbine.
[0003]
In the figure, reference numeral 1 denotes a wing of a windmill. When the wing 1 rotates in response to wind, power is generated by a generator housed in a nacelle 4 installed at an upper end of a tower 3 erected on a foundation 2. Is configured.
[0004]
Reference numeral 5 denotes a wind power generation cable hanging from the nacelle 4 in the tower 3 of the wind turbine, which is composed of a control cable, an output cable, and the like, and is bundled. The shaped wind power cable 5 has a large diameter and a considerable weight.
[0005]
Numeral 6 denotes a cylindrical cable hanger for loading and supporting the wind power generation cable 5 hanging from the nacelle 4 in the tower 3 of the wind turbine, and having a slack portion 7 on the wind power generation cable 5 by being supported by the cable hanger 6. However, when the nacelle 4 turns according to the wind direction, even if the wind power generation cable 5 hanging from the nacelle 4 is twisted, the slack portion 7 can absorb the twist.
[0006]
Therefore, the slack portion 7 is designed in consideration of a length enough to absorb the twist.
[0007]
Further, the wind power generation cable 5 located below the slack portion 7 is appropriately tied to a predetermined position by the tying means 8 and is housed in the cable rack 9.
[0008]
Reference numeral 10 denotes a scaffold provided for inspection, which is provided with lighting or the like at predetermined intervals.
[0009]
[Problems to be solved by the invention]
In the above-mentioned conventional wind turbine, the slack portion 7 is provided so that the torsion of the wind power generation cable 5 can be absorbed when the nacelle 4 turns according to the wind direction. Since it is located in the upper narrow space, the slack portion 7 of the wind power generation cable 5 hanging down from the nacelle 4 swings due to the vibration of the windmill or the turning of the nacelle 4, and the slack portion 7 moves on the inner wall surface of the tower 3. There is a problem in that a collision causes noise and that the coating of the wind power cable 5 is damaged.
[0010]
Therefore, it is conceivable to provide a sufficient space above the tower 3 so that the slack 7 does not collide with the inner wall surface of the tower 3 even if the slack 7 swings. Then, there was a problem that the cost was greatly increased.
[0011]
SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described conventional problems, and the vibration portion of the wind turbine or the swiveling of the nacelle does not cause the bending portion of the wind power generation cable hanging from the nacelle to swing. It is intended to provide a wind power cable holding device which can be manufactured at low cost without causing noise by colliding with an inner wall surface of the wind power cable or damaging the coating of the wind power cable.
[0012]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is characterized in that a clamp hanging from a nacelle in a tower of a wind turbine and holding a slack portion of a wind power generation cable formed by being supported by a cable hanger is provided at a free end of a bracket. And a wind power generation cable holding device, wherein the base end of the bracket is attached to the inner wall surface of the tower so as to be vertically movable.
[0013]
As a result, the slack portion of the wind power cable is gripped by the clamp provided at the free end of the bracket to prevent the swing motion, and the torsion of the slack portion due to the turning of the nacelle is reduced when the base end of the bracket is moved inside the tower. It will be absorbed by moving up and down with respect to the wall surface.
[0014]
Further, in the invention according to claim 2, the above-mentioned vertically movable mounting is such that a slide bush is provided on a base end portion of a bracket, and the slide bush is mounted on a guide shaft which is erected on a base fixed to the inner wall surface of the tower. The wind power generation cable holding device according to claim 1, wherein a spring for receiving the weight of the bracket is interposed between the slide bush and the base.
[0015]
Thus, in the wind power cable holding device according to the first aspect, a configuration in which the base end of the bracket is vertically movably attached to the inner wall surface of the tower can be manufactured at a low cost, and the slide bush and the bush can be manufactured inexpensively. By receiving the weight of the bracket by the spring interposed between the stand and the weight of the bracket that grips the slack portion with the clamp provided at the free end, is not added to the wind power generation cable hanging from the nacelle. It can withstand long-term use.
[0016]
According to a third aspect of the present invention, there is provided the wind power generation cable holding device according to the first or second aspect, wherein a detent guide for guiding only the vertical movement of the bracket is provided.
[0017]
Thus, in the wind power cable holding device according to claim 1 or 2, the detent of the bracket that moves in the vertical direction can be reliably prevented, and can be manufactured at low cost, and can be used for a long time. Can withstand enough.
[0018]
Therefore, according to the wind power generation cable holding device according to the first to third aspects of the present invention, the slack portion of the wind power generation cable hanging down from the nacelle does not swing due to the vibration of the windmill, the turning of the nacelle, or the like. Can produce an inexpensive and practically effective wind power cable holding device that does not cause noise due to collision with the inner wall surface of the tower or damage to the wind power cable coating. .
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
One example of an embodiment of the wind power cable holding device of the present invention will be described with reference to FIG.
[0020]
FIG. 1 is a perspective view of a wind power cable holding device according to an embodiment of the present invention.
[0021]
In the drawing, reference numeral 21 denotes a cable through-holding hole provided at the bottom of the nacelle 4, and the wind power generation cable 5 hangs down from the cable through-holding hole 21 provided at the bottom of the nacelle 4 in the tower 3 of the wind turbine shown in FIG. The cable 5 is fixed in the cable penetration holding hole 21.
[0022]
A bracket 11 has a clamp 12 at a free end thereof. The wind power cable 5 has a slack portion 5b gripped by the clamp 12 of the bracket 11 at a lower end of the hanging portion 5a as shown in FIG. 13 fixed. The lower end of the slack portion 5b of the cable 5 is loaded and supported on a cylindrical cable hanger 6.
[0023]
Further, a fixed portion 5c below the cable 5 is fixed to a cable rack 20 or the like fixedly arranged on the tower 3 by a securing means 8.
[0024]
Reference numeral 14 denotes a slide bush provided at a base end portion of the bracket 11. The slide bush 14 is a guide shaft having a required length and erected at the center of a base 16 fixed to the inner wall surface 15 of the tower 3. The slide bush 14 is guided by the guide shaft 17 so that the base end of the bracket 11 can be moved vertically with respect to the inner wall surface 15 of the tower 3 as indicated by the arrow. ing.
[0025]
Reference numeral 18 denotes a coil-shaped spring interposed between the slide bush 14 and the base 16, which is mounted on a guide shaft 17 as shown in the drawing. Is held in a state where the lower end surface is raised above the upper surface of the base 16. However, the spring 18 does not have to be coil-shaped, and a plate-shaped spring can be used.
[0026]
Reference numeral 19 denotes a detent guide that guides only the vertical movement of the bracket 11, and is arranged in parallel with the guide shaft 17, and slides on both sides of the bracket 11 on the front surface of the base 16 fixed to the inner wall surface 15 of the tower 3. As much as possible, the rotation of the bracket 11 with respect to the guide shaft 17 is stopped.
[0027]
In the wind power generation cable holding device of the embodiment configured as described above, the slack portion 5b of the wind power generation cable 5 is gripped by the clamp 12 provided at the free end of the bracket 11, so that the wind turbine Even if there is vibration or turning of the nacelle 4, the slack portion 5b of the wind power cable 5 does not swing as in the related art.
[0028]
Further, even if the wind power generation cable 5 is twisted by the turning of the nacelle 4 and the vertical movement occurs, the movement is indicated by the arrow by the slide bush 14 provided at the base end of the bracket 11 being guided by the guide shaft 17. By moving up and down as described above, it is absorbed.
[0029]
That is, if the weight of the hanging portion 5a of the cable 5 is Wa, the weight of the slack portion 5b is Wb, the total weight of the bracket 11 including the clamp 12 and the slide bush 14 is Wx, and the reaction force of the spring 18 is Fy, the nacelle 4 When the cable 5 is lifted up to the maximum and the cable 5 is lifted, the cable is clamped by the clamp 12 provided at the free end of the bracket 11 so that Fy ≧ Wx and the holding load in the cable through holding hole 21 ≦ Wa + Wb. 5 is being held.
[0030]
As described above, the weight of the bracket 11 is always received by the spring 18 interposed between the slide bush 14 and the base 16, so that the weight of the bracket 11 does not act on the wind power generation cable 5.
[0031]
In the above description, with the nacelle 4 turned to the maximum, the cable is clamped by the clamp 12 provided at the free end of the bracket 11 so that Fy = Wx and the holding load in the cable through holding hole 21 = Wa + Wb. It is most preferred to grip 5.
[0032]
The above-described structure can be achieved by clamping the nacelle 4 in a state where the nacelle 4 is pivoted to the maximum.
[0033]
In this case, when the nacelle 4 is not turning, Fy = Wx + α (a part of the weight of the cable 5), the holding load in the cable through-holding hole 21 = Wa + Wb−α, and the spring 18 Part of the weight of the cable 5 is also received.
[0034]
However, the present invention is not limited to this. In the state where the nacelle 4 has turned to the maximum, the gripping is performed so that Fy> Wx and the holding load in the cable through holding hole 21 <Wa + Wb. Thus, a part of the load of the cable 5 may be always held. This structure can be achieved by pivoting the nacelle 4 to the maximum and clamping the spring 18 to a certain extent.
[0035]
Conversely, it is also possible to always hold a part of its own weight of the bracket 11 or the like in the cable penetration holding hole 21 within the limit of the holding force of the cable penetration holding hole 21. This structure can be achieved by clamping the nacelle 4 in a partially swung state.
[0036]
Furthermore, it goes without saying that the clamp 12 for gripping the slack portion 5b of the wind power generation cable 5 is designed to have an optimal size and shape as appropriate according to the size and weight of the cable 5 to be gripped, the material of the covering material, and the like.
[0037]
If the cable 5 resonates with the swing of the tower 3, the bracket 11, the clamp 12, and the like described above are installed not only at the lower end of the hanging portion 5 a of the cable 5 but also at an intermediate portion of the hanging portion 5 a. By doing so, resonance can be prevented.
[0038]
The configuration in which the base end of the bracket 11 can be moved vertically with respect to the inner wall surface 15 of the tower 3 is not limited to the configuration of the embodiment shown in FIG. The bracket 11 may be allowed to travel up and down along a guide rail or a guide groove provided on the bracket 15, and the bracket 11 may be suspended and supported by a spring or the like to receive its own weight. It is also possible to make it openable and closable, and to change the design and the like of the bracket 11 as appropriate. In some cases, the mechanism for supporting the bracket 11 to be able to move up and down and the detent guide 19 can also be used. It is.
[0039]
【The invention's effect】
In the wind power cable holding device according to the first aspect, a clamp hanging from a nacelle in a tower of a wind turbine and holding a slack portion of the wind power cable formed by being supported by a cable hanger is provided at a free end of a bracket. At the same time, since the base end of the bracket is attached to the inner wall surface of the tower so as to be vertically movable, the slack portion of the wind power cable is gripped by the clamp provided at the free end of the bracket. Vertical movement of the slack portion due to the turning of the nacelle can be prevented by moving the base end of the bracket vertically with respect to the inner wall surface of the tower.
[0040]
Further, in the wind power generation cable holding device according to claim 2, the above-mentioned vertically movable mount is provided on a base having a slide bush provided at a base end portion of a bracket and the slide bush fixed to an inner wall surface of the tower. The wind power generation cable holding device according to claim 1, wherein a spring that receives the weight of the bracket is interposed between the slide bush and the base, and is inserted into the upright guide shaft. A structure in which the base end can be vertically movably attached to the inner wall surface of the tower can be manufactured at a low cost, and the wind power generation cable hanging down from the nacelle holds the slack portion with the clamp provided at the free end. The weight of the bracket is not added, and the bracket can withstand long-term use.
[0041]
The wind power cable holding device according to claim 3 is the wind power cable holding device according to claim 1 or 2, further comprising a detent guide that guides only the vertical movement of the bracket. Therefore, in the wind power cable holding device according to claim 1 or 2, the detent of the bracket that moves in the up-down direction is reliably provided, and can be manufactured at low cost, and can be used for a long time. Can withstand enough.
[0042]
Therefore, according to the wind power generation cable holding device according to the first to third aspects of the present invention, the slack portion of the wind power generation cable hanging down from the nacelle does not swing due to the vibration of the windmill, the turning of the nacelle, or the like. Can produce an inexpensive and practically effective wind power cable holding device that does not cause noise due to collision with the inner wall surface of the tower or damage to the wind power cable coating. .
[Brief description of the drawings]
FIG. 1 is a perspective view of a wind power generation cable holding device according to an embodiment of the present invention.
FIG. 2 is a partially broken side view showing an outline of a conventional wind turbine.
[Invention of sign]
DESCRIPTION OF SYMBOLS 1 Wing 2 Foundation 3 Tower 4 Nacelle 5 Wind power cable 5a Cable hanging part 5b Cable slack part 5c Cable fixing part 6 Cable hanger 7 Slack part 8 Fastening means 9 Cable rack 10 Scaffolding 11 Bracket 12 Clamp 13 Screw 14 Slide Bush 15 Inner wall 16 Base 17 Guide shaft 18 Spring 19 Detent guide 20 Cable rack 21 Cable penetration holding hole

Claims (3)

Provide a clamp at the free end of the bracket, which hangs down from the nacelle in the tower of the windmill and holds the slack of the wind power cable formed by being supported by the cable hanger, and attaches the base end of the bracket to the inner wall surface of the tower. On the other hand, a wind power cable holding device, which is mounted so as to be movable in the vertical direction. The above-mentioned vertically movable mounting is such that a slide bush is provided at the base end of the bracket, and the slide bush is inserted through a guide shaft erected on a table fixed to the inner wall surface of the tower, and the slide bush and the table are connected. 2. The wind power generation cable holding device according to claim 1, wherein a spring for receiving the weight of the bracket is interposed therebetween. The wind power generation cable holding device according to claim 1 or 2, further comprising a detent guide that guides only the vertical movement of the bracket.

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