KR20150140056A - Device which guides electric power/signal transmission cables for a wind turbine system - Google Patents

Abstract

The present invention relates to a device for guiding an electric power/signal transmission cable for a wind power generation system. In the present invention, a rotating disk, which can rotate according to the rotation of a nacelle, is additionally arranged vertically below a point where the rotational impact of the nacelle is exerted. Rotating motion in a vertical direction, which used to provide a fundamental reason for the twist of the electric power/signal transmission cable, is undergone by the rotating disk placed on a vertical path and translating motion unrelated to a twisting phenomenon is induced to be undergone by the electric power/signal transmission cable. That is, the rotating disk is induced to convert the rotating motion in a vertical direction into translating motion and transmit the translating motion to the electric power/signal transmission cable. Accordingly, the electric power/signal transmission cable is induced to generate no special twisting phenomenon even in a sever situation that physical rotational impact caused by the rotating motion of a nacelle, a power generator, etc. is exerted. As a result, not only the problem that the durability of the electric power/signal transmission cable deteriorates greatly at the side of a wind power managing party but also the problem that costs and work force for maintaining and repairing the electric power/signal transmission cable increases greatly can be avoided easily.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power / signal transmission cable guide device for a wind power generation system,

The present invention relates to an apparatus for guiding a power / signal transmission cable employed in a wind power generation system, and more particularly to a device for guiding a power / signal transmission cable used in a wind power generation system, In addition, the vertical rotation movement, which provided the root cause for the twist of the power / signal transmission cable, was detected by the rotation disk, which was located on the vertical path, and the horizontal rotation, (In other words, on the rotating disk side, the rotational motion in the vertical direction is converted into a horizontal directional motion and guided to the side of the power / signal transmission cable), whereby power / signal transmission Even under the harsh conditions in which the physical rotating shock caused by the rotation of the nacelle and generator on the cable side is applied, The endurance of the power / signal transmission cable at the main body of the wind power generation management drastically decreases as well as the problem that the cost / manpower for maintaining / repairing the power / signal transmission cable is greatly increased And more particularly, to a power / signal transmission cable guide device for a wind power generation system that can be easily guided.

1, a conventional wind power generation system 10 includes a blade 11 for rotating aerodynamic energy into mechanical energy (rotary motion), a blade 11 for rotating by wind, A nacelle 14 provided with a generator 13 for converting mechanical energy converted / obtained by the blade 11, the hub 12 and the like into electrical energy, The hub 14, the hub 12, the tower 15 supporting the blade 11, and the like are tightly combined.

The detailed structure of the wind power generation system according to this conventional technique is disclosed in, for example, Korean Patent Laid-Open Publication No. 10-2012-131333 (name: wind power generation device) 2013-55149 entitled "Tower Monitoring System and Method for Wind Turbine Generators" (published on May 28, 2013), Korean Patent Laid-Open No. 10-2013-76040 (titled "Wind Turbine Generators" ) And the like.

On the other hand, the electric energy or various electrical signals converted / generated by the generator 13 in the nacelle 14 is subjected to a process of being transmitted to each electric system 17 requiring the electric energy, A series of mediators are required to deliver the electrical energy or electrical signals to each electrical system 17 within the electrical system 15.

In this situation, on the electric power / signal transmission cable 16 side disposed in the tower 15, by taking the structure of electrically connecting the generator 13 and each electric system 17 in the nacelle 14 to each other, The electric signal outputted from each electric system 17 is transmitted to the electric generator 17 via the generator 13 and the electric energy or electric signal converted / To be transmitted normally.

Under such a conventional system, the nacelle 14 located at the uppermost portion of the tower 15 takes a yawing action according to the wind direction for efficient production of electric power. Of course, when the nacelle 14 is rotated in the left-right direction, the generator 13 provided in the nacelle 14 also rotates left and right due to the influence thereof.

However, when the generator 13 is also rotated in the left-right direction according to the left-right rotation of the nacelle 14, the physical rotational impact caused by the rotation of the generator 13 is diffused in the vertical direction of the nacelle 14, The power / signal transmission cable 16 has to be transmitted to the side of the power / signal transmission cable 16 located on the path and eventually the power / signal transmission cable 16 performs an unnecessary rotational movement corresponding to the rotation impact, And it is inevitably confronted with a very difficult situation such as twisting.

Of course, when the electric power / signal transmission cable 16 is twisted in a complicated manner due to a physical rotary impact caused by rotation of the nacelle 14, the generator 13, etc., the electric power transmission cable 16 The power / signal transmission cable 16 is severely damaged and the maintenance / repair of the power / signal transmission cable 16 is prevented. And the cost / manpower for such a large increase in the cost.

Korean Patent Laid-Open No. 10-2012-131333 (name: wind power generation device) Korean Patent Laid-Open No. 10-2013-55149 (titled "Tower Monitoring System for Wind Turbine Generators and Its Method") (published on February 28, 2013) Korean Patent Laid-Open No. 10-2013-76040 (name: wind turbine generator) (published on July 8, 2013)

Accordingly, an object of the present invention is to provide a power / signal transmission cable drawn from a generator side and a middle portion for electrically connecting a power / signal transmission cable drawn from the power system side, Additional placement of a rotating disk that can be rotated to match the rotation of the nacelle with the intermediate power / signal transmission cable (or intermediate bus-bar) in place will provide the root cause of the twisted power / signal cables The vertical rotation motion provided in the vertical path causes the rotary disk located on the vertical path to undergo the side of the power / signal transmission cable to undergo a twist motion irrespective of the twist phenomenon (i.e., To a translational motion and to transmit it to the power / signal transmission cable side), whereby the nacelle, foot A problem that the durability of the power / signal transmission cable is greatly lowered on the side of the wind power generation management end is induced by inducing not to cause a special twist phenomenon even in a severe situation in which a physical rotary impact due to rotation operation of electricity or the like is applied Of course, it is easy to avoid problems such as cost / manpower for maintenance / repair of power / signal transmission cable.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to an aspect of the present invention, there is provided a wind power generation system including a nacelle having a generator, a tower for supporting the nacelle, and a power / signal transmission cable for electrically connecting the generator and the power system, A link shaft disposed in the tower and formed to be downwardly protruded in a state of being fixed to a lower portion of a vertical direction of the nacelle; A power / signal transmission cable fixed to the lower portion of the nacelle in the vertical direction via the link shaft and electrically connected to the power / signal transmission cable drawn from the power system side, And a rotating disk rotating in accordance with the rotation of the link shaft due to the rotation of the nacelle while the power / signal transmitting cable is mounted on the rotating disk.

According to another aspect of the present invention, there is provided a wind power generation system including a nacelle having a generator, a tower for supporting the nacelle, and a power / signal transmission cable for electrically connecting the generator and the power system, A link shaft fixed to a lower portion of the nacelle in a vertical direction and protruding downward; And a power / signal transmission cable that is fixedly suspended from a lower portion of the nacelle in the vertical direction via the link shaft and is pulled out from the power system side and drawn into the generator side, And a rotating disk that rotates in accordance with rotation of the rotating disk.

Further, in another aspect of the present invention, there is provided a wind power generation system including a nacelle having a generator, a tower for supporting the nacelle, and a power / signal transmission cable for electrically connecting the generator and the power system, A link shaft fixed to the lower portion of the nacelle and vertically protruded downward; A power / signal transmission cable fixed to the lower portion of the nacelle in the vertical direction via the link shaft and electrically connected to the power / signal transmission cable drawn from the power system side, And a rotating disk rotating in accordance with rotation of the link shaft due to rotation of the nacelle in a state where a bus-bar is mounted on the rotating disk. .

In the present invention, the power / signal transmission cable drawn from the generator side and the intermediate power / signal transmission cable for electrically connecting the power / signal transmission cable drawn from the power system side A rotating disc that can rotate with the rotation of the nacelle, with the delivery cable (or intermediate bus-bar) in place, was additionally installed to provide a vertical orientation in which the power / The rotational motion of the rotary disk located on the vertical path induces the translational motion independent of the twist phenomenon to be experienced at the power / signal transmission cable side (i.e., at the rotating disk side, To transmit to the power / signal transfer cable side), under the implementation environment of the present invention, The cable does not cause a twist phenomenon even in a severe situation where a physical rotary impact due to rotation of the nacelle or a generator is applied. As a result, the durability of the power / signal transmission cable is greatly reduced And the cost / manpower for maintenance / repair of the power / signal transmission cable can be easily avoided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary diagram conceptually showing a conventional wind power generation system; FIG.
FIG. 2 and FIG. 3 conceptually illustrate a power / signal transmission cable guide device for a wind power generation system according to an embodiment of the present invention; FIG.
4 and 5 are conceptual illustrations of a power / signal transmission cable guide device for a wind power system according to another embodiment of the present invention;
6 and 7 are conceptual views illustrating a power / signal transmission cable guide device for a wind power system according to another embodiment of the present invention.

Hereinafter, a power / signal transmission cable guide device for a wind power system according to the present invention will be described in detail with reference to the accompanying drawings.

2 and 3, a wind power generation system 100 employing the present invention includes a blade 111 that rotates by wind and converts aerodynamic energy into mechanical energy (rotational motion), a blade 111 A nacelle 114 having a generator 113 for converting mechanical energy converted / obtained by the blade 111, the hub 112 and the like into electric energy, A tower 115 for supporting the nacelle 114, the hub 112, the blade 111, and the like are configured to be tightly combined.

At this time, on the power / signal transmission cable 116 side disposed in the tower 115, the generator 113 and the electric systems 117 in the nacelle 114 are electrically connected to each other, The electrical signals outputted from the respective electric systems 117 are transmitted to the generator 113 side without any difficulty by inducing the electric energy or electric signals converted / So that it can be delivered normally.

Of course, even in the system of the present invention, the nacelle 114 located at the uppermost portion of the tower 115 takes a yawing action according to the wind direction for efficient production of electric power, The generator 113 provided in the nacelle 114 also rotates right and left.

However, when the generator 113 is also rotated to the left or to the right according to the left / right rotation of the nacelle 114, the physical rotation due to the rotation of the generator 113 can not be diffused in the vertical direction of the nacelle 14 As a result, the power / signal transmission cable 116 is subjected to unnecessary rotational movement corresponding to the rotation shock, so that it is inevitably confronted with a very difficult situation such as complicated twist of a part of itself do.

Under such sensitive circumstances, in the present invention, a power / signal transmission cable guide (not shown) is provided in the vertical direction below the nacelle 114 (or in the upper region of the tower 115 adjacent to the nacelle 114) The device 200 may be further arranged.

The power / signal transmission cable guide device 200 according to the present invention includes a link shaft 202 that is disposed in the tower 115 and is fixed to the lower portion of the nacelle 114 in the vertical direction and is formed to protrude downward in the direction of the ground, And the intermediate medial power / signal transmission cable 203 is attached to the lower end of the nail 114 while being suspended from the lower side of the nail 114 in the vertical direction via the link shaft 202, And a rotating disk 201 rotating left and right in accordance with the rotation of the link shaft 202> are tightly combined with each other. In this case, the link shaft 202 may be made of a wire type material, depending on the situation.

The intermediate medium power / signal transmission cable 203 electrically connects one end of the intermediate medium power / signal transmission cable 203 to the power / signal transmission cable 116a drawn from the side of the generator 113, Signal transmission cable 116a drawn from the side of the generator 113 and the power transmission line 116b drawn out from the side of the power system 117 by electrically connecting the power / signal transmission cable 116b drawn out from the system 117 side The electric power or signal transmitted by the generator 113 is converted into an electric signal or electric signal by the generator 113 without any difficulty on the side of the electric power / The electric signal output from each electric system 117 can be normally transmitted to each electric system 117 or the electric signal outputted from each electric system 117 can be normally transmitted to the electric generator 113 side.

In this case, the intermediate-power / signal transmission cable 203 is curved along the inner surface (in the case of FIG. 2) or the outer surface (in the case of FIG. 3) . In this situation, the rotating disk 201 equipped with the intermediate medium power / signal transmitting cable 203 may have an insulating material or a non-magnetic material so that an electrical trouble of the unexpected intermediate medium power / signal transmitting cable 203 Problems are prevented in advance.

At this time, on the rotating disk 201, there are provided a fixed / mounting jig 260 for firmly fixing / mounting the intermediate medium power / signal transmission cable 203 on the rotating disk 201, (For example, the protective case 250 for protecting the transmission cable 203 from the external environment) may be additionally disposed (the specific structure of the fixing / mounting jig 260, the protective case 250, etc., Various modifications can be made).

A pulley 300 for preventing the pulling of the power / signal transmission cable 116b may be additionally disposed on the outgoing path of the power / signal transmission cable 116b drawn out from the power system 117 side The specific structure of the pulley 300, the number of the pulleys, and the like can be variously changed depending on the situation).

Under the system of the power / signal transmission cable guide apparatus 200 having the above-described structure, in order to efficiently generate power, a yawing action of the nacelle 114 located at the uppermost portion of the tower 115 is rotated As a result, the rotational impact produced thereby exhibits a pattern of transmission / diffusion in the lower vertical direction of the nacelle 114.

At this time, as described above, the rotary disc 201 unique to the present invention which can rotate in accordance with the rotation of the nacelle 114 is additionally disposed in the vertical direction under which the rotating impact of the nacelle 114 is applied (I.e., a vertical rotational motion caused by a rotational impact transmitted from the nacelle 114), which provided the root cause for the twisting of the power / signal transmission cable 116b, The rotating disk 201, which was positioned on the vertical path irrespective of the disk 116b, is completely exposed.

Of course, in this situation, on the side of the electric power / signal transmission cables 116 and 116b, on the basis of the auxiliary action of the rotating disk 201, it deviates from the vertical direction transmission path of the rotary impact, (Of course, the force causing the translational motion is provided by converting the rotational impact in the vertical direction on the rotary disc 201 side in the horizontal direction.

Naturally, under the circumstances of the present invention, even in a severe situation where a physical rotational impact due to rotation of the nacelle 114, the generator 113, etc. is applied, the power / signal transmission cable 116.116b side, The wind power generation main body has a problem that the durability of the power / signal transmission cable 116 is drastically reduced and the cost / manpower for maintaining / repairing the power / signal transmission cable 116 It is possible to easily avoid such a problem that the problem is greatly increased.

4 and 5, the power / signal transmission cable guide device 200a according to another embodiment of the present invention is disposed in the tower 115 and fixed to the lower portion of the nacelle 114 in the vertical direction A link shaft 202 protruding downward in the direction of the ground and an intermediate intermediate bus bar 213 fixed to the lower end of the nacelle 114 via the link shaft 202 The rotating disk 201 rotating in the left and right direction in accordance with the rotation of the link shaft 202 due to the rotation of the nacelle 114 is tightly combined with the rotating disk 201 in the state where the nacelle 114 is rotated The intermediate power / signal transmission cable is changed to the intermediate bus-bar 213). Also in this case, the link shaft 202 may be made of a wire type material, depending on the situation.

The intermediate bus bar 213 electrically connects one end of the intermediate bus bar 213 with the power / signal transmission cable 116a drawn out from the side of the generator 113 and connects the other end thereof to the power system Signal transmission cable 116a drawn from the generator 113 side and the power drawn from the power system 117 side are electrically connected to the power / signal transmission cable 116b drawn out from the power system 117 side The electric power or electric signal converted / generated by the generator 113 can be transmitted to the electric power / signal transmission cable 116 without any difficulty on the side of the electric power / signal transmission cable 116 It is possible to normally transmit the electric signal to the electric system 117 or to normally transmit the electric signal outputted from each electric system 117 to the electric generator 113 side.

Also in this case, the rotating disk 201 equipped with the intermediate-bus-bar 213 has an insulating material or a non-magnetic material so that an electric trouble problem of the unexpected intermediate-bus-bar 213 can be prevented .

At this time, a pulley 300 for preventing pulling of the power / signal transmission cable 116b may be additionally disposed on the outgoing path of the power / signal transmission cable 116b drawn out from the power system 117 side Of course, the specific structure of the pulley 300, the number of the pulleys, and the like can also be variously modified depending on the situation).

In order to efficiently generate electric power under the power / signal transmission cable guide device 200a according to another embodiment of the present invention having the above structure, the nail 114 located at the uppermost portion of the tower 115 rotates left and right Yawing action is applied to the nacelle 114, the rotating impact generated thereby is transmitted / diffused in the vertical direction of the nacelle 114.

At this time, as described above, the rotary disc 201 unique to the present invention, which can rotate in accordance with the rotation of the nacelle 114, is additionally disposed in the vertical direction under which the rotating impact of the nacelle 114 is applied (I.e., a vertical rotational motion caused by a rotational impact transmitted from the nacelle 114), which provided a fundamental cause for the power / signal transmission cable 116 to twist, The rotating disk 201, which was located on the vertical path irrespective of the cable 116b, is totally experienced.

Of course, in this situation, on the side of the electric power / signal transmission cables 116 and 116b, on the basis of the auxiliary action of the rotating disk 201, it deviates from the vertical direction transmission path of the rotary impact, (Of course, the force causing the translational motion is provided by converting the rotational impact in the vertical direction on the rotary disc 201 side in the horizontal direction.

Naturally, even under such a severe circumstance where a physical rotary impact due to the rotational motion of the nacelle 114, the generator 113, etc. is applied, on the power / signal transmission cable 116.116b side, Signal cable 116 and the maintenance / repair cost of the power / signal transmission cable 116, as well as the durability of the power / signal transmission cable 116, It is possible to easily avoid the problem that the workforce and the like are greatly increased.

6 and 7, the power / signal transmitting cable guiding device 200b according to another embodiment of the present invention is disposed in the tower 115 and is disposed at a lower portion of the nacelle 114 in the vertical direction Signal transmission cable 116 is fixed while being suspended from the lower portion of the nacelle 114 in the vertical direction via the link shaft 202. The link shaft 202 is fixed to the lower end The rotating disk 201 rotating in the left and right directions in accordance with the rotation of the link shaft 202 due to the rotation of the nacelle 114 is tightly combined with the rotating disk 201 In another embodiment, the end of the power / signal transmission cable 116 drawn from the power system 117 side is directly attached to the rotating disk 201 without a separate intermediate medium. Also in this case, the link shaft 202 may be made of a wire type material, depending on the situation.

Here again, the power / signal transmission cable 116 is curved along the inner surface (in the case of FIG. 6) or the outer surface (in the case of FIG. 7) do. Even in this situation, the rotating disk 201 equipped with the power / signal transmission cable 116 has an insulating material or a non-magnetic material so as to prevent the electric trouble of the unexpected power / signal transmission cable 116 in advance .

At this time, a fixed / mounting jig 260 for firmly fixing / mounting the power / signal transmission cable 116 on the rotating disk 201, a power / signal transmission cable (For example, the protective case 250 for protecting the user from the external environment) may be additionally disposed. (Of course, the specific structure of the fixing / mounting jig 260, the protective case 250, etc., Can be achieved.

A pulley 300 for preventing pulling of the power / signal transmission cable 116 may be additionally disposed on the pull-out path of the power / signal transmission cable 116 drawn out from the power system 117 side The specific structure of the pulley 300, the number of the pulleys, and the like can be variously changed depending on the situation).

In order to efficiently generate power, the nail 114 located at the uppermost portion of the tower 115 rotates left and right under the power / signal transmission cable guide device 200b according to another embodiment of the present invention, The rotational impact generated by the yawing action is transmitted / diffused in the vertical direction of the nacelle 114. In this case,

At this time, as described above, the rotary disc 201 unique to the present invention which can rotate in accordance with the rotation of the nacelle 114 is additionally disposed in the vertical direction under which the rotating impact of the nacelle 114 is applied (I.e., a rotational movement in the vertical direction due to the rotational impact transmitted from the nacelle 114), which provided the root cause for the power / signal transmission cable 116 to twist, The rotating disk 201, which was positioned on the vertical path irrespective of the disk 116, is completely exposed.

Of course, in this situation, on the side of the electric power / signal transmission cable 116, based on the auxiliary action of the rotating disk 201, it is exerted on the vertical direction propagation path of the rotary impact, so that it only experiences translational movement irrespective of the twist phenomenon (Of course, the force causing the translational motion is provided by converting the rotational impact in the vertical direction on the rotary disk 201 side in the horizontal direction).

Naturally, even under such a severe circumstance where a physical rotary impact due to the rotation operation of the nacelle 114, the generator 113, etc. is applied, on the side of the power / signal transmission cable 116, Signal cable 116 and the maintenance / repair cost of the power / signal transmission cable 116, as well as the durability of the power / signal transmission cable 116, It is possible to easily avoid the problem that the workforce and the like are greatly increased.

The present invention has a generally useful effect in various fields where it is necessary to prevent twisting of a cable.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

10, 100: Wind power generation system 11, 111: Blade 12, 112:
13,113: Generator 14,114: Nacelle 15,115: Tower
16, 116 (116a, 116b): power / signal transmission cable 17, 117: power system
200, 200a, 200b: power / signal transmission cable guide device for wind power generation system
201: rotating disk 202: link axis 203: intermediate power / signal transmission cable
213: Intermediate bus-bar 250: protective case 300: pulley

Claims (7)

1. A wind power generation system comprising a nacelle with a generator, a tower for supporting the nacelle, and a power / signal transmission cable for electrically connecting the generator and the power system,
A link shaft disposed in the tower and formed to be downwardly protruded in a state of being fixed to a lower portion of a vertical direction of the nacelle;
A power / signal transmission cable fixed to the lower portion of the nacelle in the vertical direction via the link shaft and electrically connected to the power / signal transmission cable drawn from the power system side, And a rotating disk rotating in accordance with the rotation of the link shaft due to the rotation of the nacelle while the power / signal transmitting cable is mounted on the rotating disk. 1. A wind power generation system comprising a nacelle with a generator, a tower for supporting the nacelle, and a power / signal transmission cable for electrically connecting the generator and the power system,
A link shaft disposed in the tower and formed to be downwardly protruded in a state of being fixed to a lower portion of a vertical direction of the nacelle;
And a power / signal transmission cable that is fixedly suspended from a lower portion of the nacelle in the vertical direction via the link shaft and is pulled out from the power system side and drawn into the generator side, And a rotating disk that rotates left and right in accordance with the rotation of the rotating disk. 3. A wind turbine system as claimed in claim 1 or 2, characterized in that the intermediate medium power / signal transmission cable or power / signal transmission cable is wound and mounted along a curved line along the inner or outer surface of the rotating disk For power / signal transmission cables. 1. A wind power generation system comprising a nacelle with a generator, a tower for supporting the nacelle, and a power / signal transmission cable for electrically connecting the generator and the power system,
A link shaft disposed in the tower and formed to be downwardly protruded in a state of being fixed to a lower portion of a vertical direction of the nacelle;
A power / signal transmission cable fixed to the lower portion of the nacelle in the vertical direction via the link shaft and electrically connected to the power / signal transmission cable drawn from the power system side, The power / signal transmission cable guide for a wind power system according to any one of claims 1 to 3, further comprising: a rotation disk rotatable in a lateral direction in accordance with the rotation of the link shaft due to the rotation of the nacelle, with a bus- Device. 5. The apparatus of claim 4, wherein the intermediate bus bar is mounted to an inner or outer surface of the rotating disk. 5. The power / signal transmission cable guiding apparatus for a wind power system according to any one of claims 1, 2, and 4, wherein the rotating disk has an insulating material or a non-magnetic material. The power / signal transmission cable according to any one of claims 1, 2, and 4, further comprising: a pulley for preventing the pulling of the power / signal transmission cable from being drawn out from the power / Wherein the power / signal transmission cable guiding device is further provided with a power supply / signal transmission cable guiding device for a wind power generation system.

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