KR101676202B1 - Platform for wind tower - Google Patents

Abstract

The present invention relates to a platform for a wind tower installed inside a wind tower without involving a welding operation, the platform being disposed inside the wind tower and spaced apart from the inner surface of the wind tower by a predetermined distance, And horizontal support means disposed along the periphery of the platform and pressed against the inner surface of the wind tower to support the platform. With this configuration, it is possible to provide a platform inside the wind tower without involving a welding operation, and it is possible to prevent the phenomenon that the fatigue strength of the wind tower shell is lowered.

Description

{PLATFORM FOR WIND TOWER}

The present invention relates to a platform for a wind tower, and more particularly to a platform for a wind tower installed inside a wind tower without involving a welding operation.

Generally, steel wind towers are usually constructed in segments of a certain length to limit production facility capacity and comply with road transport regulations. The multi-stage segment thus manufactured is transported to the site and assembled in the vertical direction by the installation equipment such as a crane. The assembling operation of the segments is completed by fastening a plurality of high tension bolts in a circumferential direction to a pair of flanges formed at both ends of the segment. Inside the wind tower, a platform is arranged so that an operator can easily perform a fastening operation of the segments.

1 is a schematic view of a conventional platform installed in a wind tower.

1, the platform 20 is disposed inside the wind tower 10 and is installed approximately 1.5 m below the upper and lower flange joint surfaces 11 so that an operator Moving and assembling segments.

In addition, the platform 20 provides a safe work platform to a worker when installing main components provided inside a wind tower such as a tower flange, a power cable and an illumination facility, a ladder, and a lift.

In addition, the platform 20 provides a safe inspection route to the operator for maintenance during the use of the wind tower, facilitates the checking of the presence or absence of major components provided inside the wind tower, And to provide convenience.

However, the platform 20 disposed inside the existing wind tower has a structure in which the wind tower shell 12 (see FIG. 1) provided as a steel material as fastened by the bolts B to the bushing 13 welded to the inner surface of the wind tower 12, ) Is lowered.

If the fatigue strength of the wind tower 12 is lowered, it is necessary to manufacture a thicker shell in order to secure the design safety. Therefore, the weight increase of the wind tower as well as the manufacturing cost increase, .

In addition, the existing wind tower platform needs to be manufactured to have different diameters to correspond to the inner diameter of the wind tower at the installed position, and thus there is a problem that the cost for designing and manufacturing is increased.

It is an object of the present invention to provide a platform for a wind tower which is designed to solve the above-mentioned problems, and which is installed inside a wind tower without involving a welding operation.

In order to solve the above-mentioned problems, the present invention provides a wind turbine tower having a plurality of wind turbines, The present invention provides a platform for a wind tower.

According to an aspect of the present invention, there is provided a platform for a wind tower, including: a platform disposed inside a wind tower and spaced apart from an inner surface of the wind tower; And horizontal supporting means provided in plural and disposed along the periphery of the platform and pressed against the inner surface of the wind tower to support the platform; A plurality of reinforcing members disposed on the lower side of the base plate to reinforce the rigidity; And a support means fastening portion provided around the base plate and fastened to the horizontal support means, wherein the horizontal support means is disposed on the support means fastening portion and is movable linearly to the inner side of the wind tower A movable portion provided to the movable member; And a pressing part provided at an end of the movable part to press the inner surface of the wind tower, wherein the pressing part includes: an elastic pad closely attached to an inner surface of the wind tower; A support plate on one side of which the elastic pad is fastened; A support member protruding from the other side of the support plate and inserted into the insertion hole formed in the movable part; And an elastic member disposed between the support plate and the movable part and applying an elastic force to the elastic pad so as to be in close contact with the inner surface of the wind tower.

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The plurality of platforms may be disposed at predetermined intervals in the vertical direction within the wind tower.

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In addition, the movable portion may be provided so that the pressing portion is fastened to one end thereof, the threaded portion is formed on the other end thereof, and the fastening portion is screwed to the fastening portion.

Wherein the pressing portion includes: an elastic pad closely attached to an inner surface of the wind tower; And a support plate having the elastic pad fastened to one side and the other side fastened to the end of the movable part.

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The platform for a wind tower according to an embodiment of the present invention includes a platform having one end projecting from an inner surface of the wind tower and fastened to a flange portion located at an upper portion of the platform and another end fastened to the support means fastening portion And a cable supporting means for supporting the platform.

The cable support means may be provided with a variable length so as to adjust the height of the platform.

The windtower may further include a hight, provided at a flange portion of the wind tower, connected to one end of the cable support means to adjust the height of the platform by adjusting a length of the cable support means.

According to the wind tower platform of the present invention, the platform can be installed inside the wind tower without involving the welding operation, and the effect of preventing the fatigue strength of the wind tower shell from being lowered can be obtained.

According to the present invention, since the fatigue strength of the wind tower shell is prevented from being lowered, the thickness of the wind tower shell can be optimized and the economical efficiency of the wind tower can be secured.

In addition, according to the present invention, a platform made of one diameter can be installed in a wind tower having various inner diameters by a supporting means having a variable length, so that it is possible to obtain an effect of mass production and reduction of production cost accordingly.

1 is a schematic view of a conventional platform for a wind tower,
2 is a plan view schematically showing a platform for a wind tower according to an embodiment of the present invention,
3 is a schematic view of a horizontal support means in a wind tower platform according to an embodiment of the present invention,
4 is a view schematically showing another embodiment of the horizontal support means in the wind tower platform according to the embodiment of the present invention,
5 is a perspective view schematically showing a cable supporting means for supporting a platform for a wind tower according to an embodiment of the present invention in a longitudinal direction in a wind tower.

In order to facilitate understanding of the features of the present invention, a wind tower platform according to an embodiment of the present invention will be described in more detail.

It should be noted that, in order to facilitate understanding of the embodiments described below, reference numerals are added to the constituent elements of each of the accompanying drawings, and the same constituent elements are denoted by the same reference symbols whenever possible . In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a specific embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a plan view schematically showing a platform for a wind tower according to an embodiment of the present invention. FIG. 3 is a schematic view showing the horizontal support means in the wind tower platform, and FIG. 4 is a view schematically showing another embodiment of the horizontal support means in the wind tower platform. 5 is a perspective view schematically showing a cable supporting means for supporting the platform for the wind tower in the longitudinal direction within the wind tower.

2 to 5, a wind tower platform 100 according to an embodiment of the present invention is disposed inside a wind tower 10 and is spaced apart from an inner side 14 of the wind tower 10 And a plurality of horizontal support means 300 disposed on the circumference of the platform 200 and pressed against the inner side 14 of the wind tower 10 to support the platform 200. [ ).

The platform 200 includes a base plate 210, a plurality of reinforcing members 220 disposed on the lower side of the base plate 210 to reinforce the rigidity, And a support means fastening portion 230 to which the horizontal support means 300 is fastened.

Here, the base plate 210 is preferably provided in a shape corresponding to the inner shape of the wind tower. For example, when the internal cross-section of the wind tower is circular as shown in the figure, the base plate 210 may be formed as a disk having a size that can be inserted into the wind tower. The base plate 210 is provided with a steel plate, a net or the like so as to be able to support a facility that an operator can walk or install inside. Of course, the shape of the base plate 210 is not limited thereto, and may be various shapes such as a square or a polygon if it can be disposed inside the wind tower.

The reinforcing members 220 are provided in a plurality of bars and disposed on the lower side of the base plate 210. At this time, as shown in FIG. 2, the base plate 210 may be welded in a grid shape to reinforce the rigidity against the bending deformation of the base plate 210.

The support means fastening portions 230 are provided around the base plate 210 so that the horizontal support means 300 can be fastened to the base plate 210. 2, the reinforcing member 220 may be formed in a shape of a bar so as to be welded to a lower side of the base plate 210 and to be fastened with a higher rigidity. To be welded together.

The horizontal support means 300 includes a movable portion 310 disposed on the support means coupling portion 230 and linearly movable with respect to the inner side surface 14 of the wind tower 10, And a pressing portion 320 provided at the end portion and pressing the inner side surface 14 of the wind tower 10.

The movable part 310 may be screwed to the supporting part 230 and linearly moved while being rotated. 3, the moving part 310 may have a thread formed on the outer circumferential surface thereof and may be screwed into a screw groove (not shown) formed in the supporting part fastening part 230 to be linearly moved have. At this time, a nut (N) is provided on the outer circumferential surface of the movable part (310), so that the position of the movable part (310) can be fixed.

The movable part 310 is an example of a structure for pressing the pressing part 320 against the inner side surface 14 of the wind power tower, and a known mechanical means such as an actuator is applied It is possible.

The pressing portion 320 includes an elastic pad 321 that is in close contact with the inner side surface 14 of the wind tower and an elastic pad 321 that is fastened to one side of the elastic pad 321 and whose other side is fastened to the end of the moving portion 310 And a support plate 322 which is formed of a metal plate.

That is, the support plate 322 is moved to the inner side surface 14 of the wind tower by the movable part 310, and the elastic pad 321 provided on the support plate 322 moves to the inside of the wind tower (14). Here, the elastic pad 321 may be made of rubber or the like, and may be prevented from sliding by increasing the frictional force with the inner side surface 14 of the wind tower.

The horizontal support means 400 according to another embodiment includes a movable portion 410 disposed in the support means coupling portion 230 and linearly movable to the inner side surface 14 of the wind tower 10, And a pressing part 420 provided at an end of the movable part 410 to press the inner side 14 of the wind tower.

The movable unit 410 may be screwed to the support unit 230 and linearly moved while being rotated. 4, the moving part 410 may have a thread formed on the outer circumferential surface thereof and may be screwed into a screw groove (not shown) formed in the supporting part coupling part 230 to be linearly moved have.

The pressing portion 420 includes an elastic pad 421 which is in close contact with the inner side 14 of the wind tower, a supporting plate 422 on which the elastic pad 421 is fastened, A supporting member 423 protruding from the other side of the supporting plate 422 and inserted into the insertion hole 411 formed in the moving part 410 and a supporting member 423 disposed between the supporting plate 422 and the moving part 410, And an elastic member 424 for applying an elastic force to the inner surface 14 of the wind tower 42 so as to be in close contact with the inner surface 14 of the wind tower.

An elastic member 424 is disposed between the support plate 422 and the movable portion 410 so that the elastic pad 421 of the support plate 422 is closely contacted with the inner surface 14 of the wind tower The movable part 410 can be prevented from being unscrewed by the supporting part fastening part 230 by pressing the movable part 410 toward the supporting part fastening part 230 side. In addition, the position of the movable portion 410 may be more firmly fixed by fastening the nut N to the movable portion 410.

With this configuration, it is possible to mechanically attach the inner wall of the wind tower to the inner wall of the wind tower without welding, and to install the platform, thereby preventing the fatigue strength of the wind tower from being lowered. Also, even if the horizontal supporting means is provided so as to be variable in length, the platform can be installed in a wind tower having various inner diameters even if the platform is manufactured in one size, so that the mass production of the platform and the production cost can be reduced.

The wind turbine platform 100 of the present invention has one end protruding from the inner side 14 of the wind tower 10 and fastened to the flange portion 15 located at the upper portion of the platform 200 And a cable supporting means 500 for supporting the platform 200 with the other end thereof being fastened to the support means fastening portion 230.

The cable supporting means 500 includes a cable 510 and a first fastening member 520 provided at one end of the cable 510 and fastened to the flange 15 of the wind tower, And a second fastening member 530 fastened to the fastening member fastening part 230 provided on the fastening member 230.

5, the first fastening member 520 is provided in a ring shape and is fastened to the hook 16 formed on the flange portion 15 of the wind tower. The second fastening member 530 is formed in an E-shape so that the center protrusion 531 is fastened to the cable 510 and the end of the fastening member 230 is inserted into the groove 532 .

In order to fasten the second fastening member 530 to the support means fastening portion 230, a hole 211 is formed in the base plate 210 to insert the cable 510, And the second fastening member 530 is fastened to the cable 510 so that the second fastening member 530 supports the fastening member fastening part 230 .

Alternatively, a slit (not shown) into which the second fastening member 530 can be inserted may be formed in the base plate 210 in a direction parallel to the supporting means fastening part 230, The second fastening member 530 is inserted into the first fastening member 530 and the second fastening member 530 is inserted into the second fastening member 530. After the second fastening member 530 is inserted, And may be coupled to the platform 230 to support the platform 200.

Although not shown in the drawing, a hoist (not shown) is provided on the flange portion 15 of the wind tower, and the first fastening member 520 of the cable 510 is connected to the hoist, The height of the platform 200 may be adjusted by adjusting the length of the platform 200, and the platform 200 may be supported in a height direction.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

100: platform for wind tower 200: platform
210: base plate 220: reinforcing member
230: support means fastening portion 300, 400: horizontal support means
310, 410: moving part 320, 420: pressing part
321, 421: elastic pad 322, 422: support plate
423: support member 424: elastic member
500: Cable holding means 510: Cable
520: first fastening member 530: second fastening member

Claims (10)

A platform disposed inside the wind tower and spaced apart from the inner surface of the wind tower; And horizontal supporting means provided in plural and disposed along the circumference of the platform and pressed against an inner surface of the wind tower to support the platform,
The platform includes a base plate; A plurality of reinforcing members disposed on the lower side of the base plate to reinforce the rigidity; And a support means fastening portion provided around the base plate to fasten the horizontal support means,
Wherein the horizontal support means comprises: a movable portion disposed in the support means fastening portion and provided so as to be linearly movable on an inner side surface of the wind tower; And a pressing part provided at an end of the movable part to press the inner surface of the wind tower,
Wherein the pressing portion includes: an elastic pad closely attached to an inner surface of the wind tower; A support plate on one side of which the elastic pad is fastened; A support member protruding from the other side of the support plate and inserted into the insertion hole formed in the movable part; And an elastic member disposed between the support plate and the movable part to apply an elastic force so that the elastic pad is in close contact with the inner surface of the wind tower.
delete The method according to claim 1,
The platform comprises:
Wherein the plurality of wind turbine platforms are arranged at predetermined intervals in the vertical direction inside the wind tower.
delete The method according to claim 1,
Wherein,
Wherein the pressing portion is fastened to one end and the screw thread is formed on the other end so as to be screwed to the fastening means and linearly moved while rotating.
The method according to claim 1,
The pressing portion
An elastic pad adhered to an inner surface of the wind tower; And
A support plate having the elastic pad fastened to one side and the other side fastened to an end of the movable part;
And a platform for a wind tower.
delete The method according to claim 1,
A cable supporting means having one end projecting from the inner side of the wind tower and fastened to a flange portion located on the upper portion of the platform and the other end fastened to the support means fastening portion to support the platform;
Further comprising: a platform for a wind tower.
9. The method of claim 8,
The cable support means comprises:
And the height of the platform is adjustable so that the height of the platform can be adjusted.
9. The method of claim 8,
A hightness provided at a flange portion of the wind tower and connected to one end of the cable support means to adjust a height of the platform by adjusting a length of the cable support means;
Further comprising: a platform for the wind turbine tower.

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