KR101952663B1 - Wind power generator having vibration suppression apparatus and suppression apparatus of tower-structure construction - Google Patents

Abstract

A wind turbine generator includes a tower installed on a foundation, a Nasser supported by the tower and supported by a top of the tower, a rotor head supported by the front of the Nasser, Wherein the vibration suppression device having a mass damper type vibration damper installed therein has a weight arranged to transverse the axis of the tower so that the weight is connected to the lower end electrical equipment A passage through which a power transmission cable extending toward the vehicle is formed.

Description

TECHNICAL FIELD [0001] The present invention relates to a wind power generator having a vibration suppressing device and a vibration suppressing device for a tower-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wind power generation device having a vibration suppression device and a vibration suppression device for a dry matter in a tower.

2. Description of the Related Art Conventionally, there is known a wind power generator having a tower installed on a foundation, a Nasser supported on the top (top) of the tower, and a rotor head supported on the front of the Nasser (see, for example, Patent Document 1 ). In the generator in Nasser, the transmission cable extends to the underlying electrical equipment.

[Prior art document] Japanese Patent Application Laid-Open No. 2010-286422

However, in a tower-like dry matter such as a wind power generator, a vibration damper of a mass damper type may be provided on the upper part of the dried article. This vibration damping device is simple and easy to structure, and is suitable for damping small vibrations considering the weight of the weight placed on the structure. Therefore, the vibration damping device is very suitable for vibration damping of tower- On the other hand, since the arrangement space of the vibration suppression device is small in the vicinity of the nacelle of the wind power generation device and the transmission cable is disposed, how to install the vibration suppression device becomes a problem.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a wind power generator having a vibration damping device and a tower-like dry matter vibration damping device capable of efficiently installing a mass damper type vibration damping device.

In the present invention, the following are adopted as means for solving the above problems.

That is, a wind turbine generator according to an aspect of the present invention includes: a tower installed on a foundation; a nacelle supported by a top of the tower and having an upper electrical equipment therein; a rotor head supported by the front of the nacelle; And a mass damper-type vibration damper installed on the upper part of the tower or the Nasser, wherein the vibration isolation device has a weight arranged to transverse the axis of the tower, There is formed a passage through which an electric power transmission cable extending from the electric equipment toward the lower end electric equipment disposed below the vibration isolation device is formed.

In addition, a vibration isolation device according to another aspect of the present invention includes: upper electrical equipment supported by a top of a tower-like dried material; and a weight disposed transversely to the axis of the tower-like dried material, And the weight is formed with a passage through which a transmission cable extending from the upper electrical equipment toward a lower electrical equipment disposed below the vibration suppression device is formed.

According to each of the above-described aspects of the present invention, in a tower-like dry matter such as a wind power generator having a small space for disposing the vibration suppression apparatus, the weight of the vibration suppression apparatus is arranged in a plate shape across the axis of the tower, At the same time, the weight can be disposed (without interfering with the transmission cable) from the upper electrical equipment supported by the tower unit to a transmission cable extending toward the lower electrical equipment disposed below the vibration suppression equipment. Therefore, a damper-type vibration damper device can be installed efficiently on the tower-like dry matter. With this configuration, the transmission cable can be connected from the upper electrical equipment to the lower electrical equipment through the vicinity of the central axis of the tower-like dried product. Therefore, the transmission cable can be efficiently disposed, and the transmission cable can be shortened.

1 is a side view of a wind power generator according to an embodiment of the present invention.
FIG. 2A is a side view of a vibration suppression device installed in the wind power generator. FIG.
2B is a bottom view of the vibration isolation device shown in FIG. 2A.
3 is a cross-sectional view taken along the line AA in Fig.
4 is a cross-sectional view taken along line BB of Fig.
5 is a bottom view showing the maximum moving state of the weight of the vibration isolation device.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings.

As shown in Fig. 1, a wind power generator (a tower-like dried product) 1 includes a cylindrical tower 3 installed on a foundation 2 provided on the ground or on the sea and a cylindrical tower 3 provided on the top of the tower 3 (Windmill main body) 4 supported to be rotatable about the axis (axis C) of the tower 3 in the left and right direction and a rotor head 5 supported on the front side of the nacelle 4. A generator 6 and a generator (upper electrical equipment) 7 are accommodated in the nacelle 4. The rotor head (5) has a plurality of wind turbine blades (9) on the outer periphery of the hub (8). The main shaft 5a extending from the hub 8 into the nacelle 4 is connected to the speed changer 6 and the output shaft 6a extending from the speed changer 6 is connected to the generator 7. [

The rotary movement force of the rotor head 5 is input to the generator 7 through the speed changer 6 and generates electric power at the generator 7. The electric power generated in the generator 7 is sent to a power generation control board (lower electric equipment) 11 provided on the foundation 2 in the lower part of the tower 3. In the tower 3, a high-voltage cable (transmission cable 12) extending from the generator 7 toward the power generation control panel 11 is inserted. A vibration damper 13 of a mass damper type is installed in the upper portion of the tower 3 (or in the nacelle 4).

Hereinafter, the vibration isolation device 13 will be described with reference to Figs. Incidentally, it is assumed that the arrow UP in the figure indicates the upper side, the arrow FR indicates the front side, and the arrow LH indicates the left side.

The vibration isolation device 13 includes an upper support plate 14 on the disk that is fixed to the lower surface side of the inner frame 3b of the tower 3 and a lower support plate 14 fixed to the lower surface side of the upper support plate 14. [ A pair of left and right X-axis moving legs 16 which are supported by the X-axis linear motion rails 15 and the front and rear X-axis rectilinear motion rails 15 so as to be movable left and right respectively, An X axis ball screw mechanism 18 driven by a coupling 17a by an X axis servo motor 17 and an X axis ball screw mechanism 18 driven by an X axis ball screw mechanism Axis moving legs 16 are fixed at the same time as the mover (ball nut 18a) of the X-axis moving legs 18 is fixed.

The vibration damping device 13 includes a pair of left and right Y-axis linear motion rails 22 fixed to the lower surface side of the intermediate support plate 21 and movable left and right Y-axis linear motion rails 22 A Y axis servo motor 24 fixedly supported on the lower surface side of the intermediate support plate 21 and a Y axis servo motor 24 supported by the Y axis servo motor 24 A Y-axis ball screw mechanism 25 driven through a coupling 24a and a mover (ball nut 25a) of a Y-axis ball screw mechanism 25 are fixed and the Y-axis linear motion rails 22 And a lower support plate 26 on the disk.

On the lower surface side of the lower support plate 26, a weight 27 on a disk, which is a mass (mass) of the vibration isolation device 13, is fixedly supported. The weights 27 are displaced forward and backward by the Y axis servo motor 24 and are displaced to the left and right by the X axis servo motor 17 so that the weights 27 are displaced by the movement reaction force of the mass of the vibration damper 13 The vibration of the wind power generator 1 is reduced. That is, the vibration damping device 13 performs active vibration damping, which causes a motion suitable for vibration damping to be massed by an external force applied from an actuator (each of the servomotors 17, 24).

In the drawing, reference numeral 28 denotes an X-axis stopper provided on the front and rear assemblies at the right and left ends of the lower surface side of the upper support plate 14. [ In the drawing, reference numeral 28a denotes an X-axis stopper piece provided to be spaced inward relative to the left-right direction of each X-axis stopper 28 on the left and right sides of the lower surface side of the upper support plate 14. [ More specifically, in the left and right of the lower surface side of the upper support plate 14, at positions closer to the axis C than the positions where the X axis stoppers 28 are provided in the left and right directions of the respective X axis stoppers 28, X The shaft stopper piece 28a is set apart. Reference numeral 29 in the drawing denotes a Y-axis stopper provided on the right and left suits at the front and rear ends of the lower surface side of the stop supporting plate 21. [ Reference numeral 29a denotes a Y-axis stopper piece disposed at an interval inward relative to the front-rear direction of each Y-axis stopper 29, before and after the lower surface side of the stop supporting plate 21. [ That is, at a position closer to the axis C than a position where the Y-axis stopper 29 is provided with respect to the front-rear direction of each Y-axis stopper 29 before and after the lower surface side of the interrupted support plate 21, Y The shaft stopper piece 29a is set apart.

In the central portion of the weight 27 and each of the support plates 14, 21 and 26, viewed from the top and bottom, passages 31, 32, 33, and 34 having a spherical shape when viewed in the up and down direction are respectively formed. Each of the passages 31, 32, 33, and 34 is in the range surrounded by the respective linear motion rails 15 and 22 in the vertical direction (in the front-rear direction, Axis and the left and right Y-axis linear moving rails 22). A cable insertion passage capable of inserting the high-voltage cable 12 vertically is formed in the central portion of the vibration isolation device 13 by the respective passages 31, 32, 33, In addition, in the inner frame 3b, passages are formed in a range overlapping with the respective passages 31, 32, 33, and 34 when viewed from the up and down direction.

5 shows that even when the weight 27 reaches the movement limit position in the left and right direction defined by the X axis stopper 28 and reaches the movement limit position in the back and forth direction defined by the Y axis stopper 29 The passage 31 of the weight 27 and the passage 34 of the lower support plate 26 overlap with the passage 32 of the upper support plate 14 and the passage 33 of the intermediate support plate 21 R). The region R is capable of inserting the high-voltage cable 12 with a sufficient gap (interval). Therefore, the vibration suppressing device 13 can be installed while avoiding the high voltage cable 12 extending downward from the tower 3 from the upper electrical equipment supported by the portion 3a of the tower 3.

As described above, the wind turbine generator 1 in the above embodiment is provided with the tower 3 installed on the foundation 2, the nacelle 4 supported by the portion 3a of the tower 3, A rotor head 5 supported by the front of the nacelle 4 and a mass damper type vibration damper 13 installed on the top of the tower 3 or the nacelle 4, (13) has a weight (27) arranged so as to traverse the axis (C) of the tower (3), and the weight (27) is transferred from the generator (7) in the nacelle And a passage 31 through which the high-voltage cable 12 extending toward the power generation control panel 11 disposed below the power generation control panel 11 is inserted.

The vibration damping device 13 in the above embodiment is a vibration damping device having a tower 3 installed on a foundation 2 and a generator 7 supported by a portion 3a of the tower 3, And a weight 27 disposed so as to traverse the axis C of the tower 3. The weight 27 is connected to the weight 7 by the generator 7 A passage 31 through which the high-voltage cable 12 extending toward the power generation control panel 11 disposed below the vibration suppression device 13 is inserted is formed.

The weight 27 of the vibration damping device 13 is arranged so as to traverse the axis C of the tower 3 in a tower-like product such as a wind power generator with a small space for arranging the vibration damping device 13 It is possible to secure the capacity as a plate shape and extend from the generator 7 supported by the section 3a of the tower 3 toward the power generation control panel 11 disposed below the vibration isolation device 13 It is possible to dispose the weight 27 by avoiding the high-voltage cable 12 (without interfering with the high-voltage cable 12), and thus to efficiently install the mass damper-type vibration damper 13 on the tower-

According to the above configuration, the high-voltage cable 12 can be connected from the generator 7 to the power generation control panel 11 through the vicinity of the axis C of the tower 3. [ Therefore, the high-voltage cable 12 can be arranged efficiently, and the high-voltage cable 12 can be shortened.

In addition, the present invention is not limited to the above-described embodiments, and for example, a vibration damper for performing passive vibration damping that makes appropriate movement for vibration damping on the mass without using an external force (actuator) may be employed.

This is achieved, for example, by connecting X-axis damper means for connecting the upper support plate 14 and the intermediate support plate 21 via left and right rocking X-axis pendulums and adjusting the oscillation period of the X- Axis damper means for connecting the interrupted support plate 21 and the lower support plate 26 with each other via a Y-axis pendulum, which is a swinging member, and adjusting the oscillation period of the Y-axis pendulum I can think of.

It is also possible to eliminate the servomotors 17 and 24 and the ball screw mechanisms 18 and 25 from the configuration of the above embodiment so that the moving legs 16 and 23 are urged by a spring or the like, Can be considered.

According to the above-described configuration, it is possible to absorb vibration energy (to attenuate vibration), and to cause the weight to move appropriately for vibration reduction of the vibration damping object (setting the vibration frequency of the pendulum to be synchronized with the natural frequency of the vibration damping object) It becomes possible.

The configuration in the above embodiment is an example of the present invention, and various modifications are possible without departing from the gist of the present invention.

1: Wind power generator (tower-like building) 2: foundation
3: Tower 3a: Government
C: Axis 4: Nasser
5: Rotor head 7: Generator (top electrical equipment)
11: Generator control board (lower electrical equipment) 12: High voltage cable (transmission cable)
13: Damping device 27: Weight
31: passage

Claims (2)

A tower installed on a foundation;
A nacelle supported by a top of the tower and having a top electrical installation therein;
A rotor head supported by the front of the nacelle;
A vibration damper of a mass damper type installed on the tower or the Nasser; A wind turbine,
Wherein said vibration isolation device has a weight arranged to traverse the axis of said tower;
The weight is formed with a passage through which the transmission cable extending from the upper electrical equipment in the nacelle to the lower electrical equipment disposed below the vibration suppression device is formed,
The vibration damping device comprises:
A pair of X-axis linear motion rails fixed to the lower surface side of the upper support plate, and a pair of X-axis linear motion rails A pair of Y-axis linear motion rails fixed to the lower surface side of the intermediate support plate, and a Y-axis linear motion rail respectively movable back and forth And a lower support plate to which each Y-axis movement leg is fixed, respectively. A top electrical installation supported by the top of the tower dry matter;
A weight arranged to traverse the axis of the tower-like dried matter; And a mass damper-type vibration damper installed on the tower-like dry matter,
A passage for passing a transmission cable extending from the upper electrical installation to the lower electrical installation disposed below the vibration isolation device is formed in the weight,
The vibration damping device comprises:
A pair of X-axis linear motion rails fixed to the lower surface side of the upper support plate, and a pair of X-axis linear motion rails A pair of Y-axis linear motion rails fixed to the lower surface side of the intermediate support plate, and a Y-axis linear motion rail respectively movable back and forth A pair of Y-axis moving legs supported to the Y-axis moving legs, and a lower supporting plate to which the Y-axis moving legs are fixed, respectively.

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