KR101771109B1 - Zig for segment of wind power generator tower - Google Patents

Abstract

The present invention relates to a lifting jig for a tower segment of a hybrid wind power generator. The present invention includes a horizontal plate settled and fixed to the outer surface of a tower segment and a vertical plate which vertically protrudes from the center of one surface of the horizontal plate and has a circular plate to the central part of which a lifting hook is connected and fixed, inserted and fixed thereinto. Therefore, the present invention enables simple assembly and construction of a concrete structure for the lower region of the hybrid wind power generator by selectively settling and fixing the tower segment made of precast concrete and lifting the same. In addition, the present invention further includes a wedge piece, provided in a wedge type, adhering and fixed to both lateral sides of the horizontal plate, adhering to the outer surface of the tower segment, thereby adhering and being fixed to the entire area of the other surface of the horizontal plate by corresponding to the curved and rounded shape with respect to the outer surface of the tower segment. Therefore, the settling state of the lifting jig with respect to the tower segment can be stably maintained during a lifting work.

Description

[0001] The present invention relates to a hybrid wind turbine generator,

The present invention relates to a lifting jig for a tower segment of a hybrid wind power generator, and more particularly, to a lifting jig for a tower segment of a hybrid wind power generator, which comprises a horizontal plate having one surface fixedly attached to an outer surface of a tower segment, And a vertical plate having inserted and fixed disc plates inserted thereinto to selectively fix and secure the tower segments made of precast concrete, thereby making it possible to easily construct and construct the concrete structure for the lower region of the hybrid wind turbine generator On the other hand, the wedge piece is provided as a wedge type on both sides in the width direction of one surface, which is in close contact with the outer surface of the tower segment of the horizontal plate, so that the wedge piece is tightly fixed to the outer surface of the tower segment. The present invention relates to a tower lifting jig for a tower segment of a hybrid wind power generator, which can be tightly fixed at three points in the widthwise center and both sides thereof, thereby stably maintaining the binding state of the lifting jig with respect to the tower segment during lifting work .

Generally, a wind power generator is a device that produces electric energy from a blade that is rotated by the wind. In this case, the blades are arranged at the upper end of a tower which is arranged two or three or more vertically up and down And is rotatably mounted.

These wind turbines are increasing in importance due to the depletion of fossil fuels and environmental problems. In response to this trend, R & D on not only onshore wind turbines but also offshore wind generators is continuing.

As described above, the blades in the wind power generator can be rotatably mounted on the upper end of the long axis of the tower. Of course, such blades are not installed directly on the upper end of the tower, and the nacelle, the rotor is generally rotatably assembled to the upper end region of the tower.

On the other hand, in the case of a conventional wind power generator, the tower has been mainly made of steel, and in recent years, the tower is manufactured by mixing the steel and concrete in a hybrid manner.

When the hybrid system as described above is applied, the concrete part forms a bottom area of the tower, and is made into a tower segment state of a unit size, and is transported and salvaged. Then, Thereby forming a lower region of the substrate.

However, in the above-mentioned wind turbine, the hybrid system is not applied to the tower up to now. In particular, when the hybrid system is applied in the hybrid system, there is no means for lifting tower segments made of precast concrete. There is a problem that it is difficult to install the wind turbine generator.

Therefore, it is required to research and develop a lifting jig for a tower segment of a wind power generator, which can easily construct a structure for a lower region of a wind power generator by lifting a tower segment made of precast concrete.

Registered in the Republic of Korea Patent No. 1282011 issued on March 26, 2013.

According to an aspect of the present invention, there is provided a method of manufacturing a plasma display panel, including a horizontal plate having one surface thereof fixed to an outer surface of a tower segment and a circular plate protruding vertically from a center of the other surface of the horizontal plate, A tower segment of a hybrid wind turbine can be easily assembled and assembled to a lower area of a hybrid type wind turbine by selectively fixing and securing a tower segment made of precast concrete by including a fixed vertical plate, Jig. ≪ / RTI >

Another object of the present invention is to provide a wedge-type wedge-type wedge-type fixing device for a wedge-type wedge- And can be tightly fixed at three points in the width direction center and both sides of the one surface portion of the horizontal plate so that the binding state of the lifting jig with respect to the tower segment can be stably maintained during the lifting operation.

The present invention for achieving the above-mentioned objects is as follows. In other words, the lifting jig for the tower segment of the hybrid wind turbine generator according to the present invention selectively binds to the outer surface of the tower segment made of the precast concrete constituting the tower of the hybrid type wind turbine to lift the tower segment, The tower structure of the present invention is characterized in that the tower structure of the tower segment of the hybrid wind power generator is constructed by assembling a concrete structure with respect to a lower region of the tower segment, A horizontal plate having one side joined to the outer surface of the tower segment in a widthwise or longitudinally spaced relationship and fixed in a pair; A vertical plate in which one end of the horizontal plate is tightly fixed to one end of the horizontal plate so as to protrude orthogonally with a predetermined thickness at the center of one surface of the horizontal plate and an installation hole is formed at the center of the other end; A circular plate fixedly installed in the installation hole of the vertical plate and having a ring fixing hole fixed to the center through a fixing bolt and a fixing nut at a center thereof; A reinforcing rib fixed at both sides of the vertical plate at regular intervals on both sides orthogonal to the other surface of the horizontal plate and reinforcing the vertical plate and the horizontal plate so as to maintain a fixed state; And a wedge piece which is provided as a wedge type on both sides in a width direction of one surface of the horizontal plate, which is in close contact with the outer surface of the tower segment, and is tightly fixed.

The wedge piece is provided as a wedge type. The opposite side of the wedge piece, which is in contact with the outer surface of the curved rounded portion of the tower segment and is in close contact with the horizontal plate, is curved so as to have a thin thickness toward the center of the horizontal plate. .

It is preferable that the wedge piece is closely fixed to both sides of the one side of the horizontal plate, which is in close contact with the outer surface of the tower segment, and extends long over the entire length of the horizontal plate.

Further, the vertical plate may be formed in a shape such that the free end side of the lifting hook can be guided so that the rotation angle of the lifting loop is rotated to an upright state of the tower segment when the tower segment is rotated for the upright state of the tower segment, The rotation guiding step may be formed on the inclined portion of the one side of the first guide member,

On the other hand, it is preferable that the horizontal plate, the vertical plate, the disc plate and the wedge pieces are integrally fixed by welding.

The effect of the lifting jig for the tower segment of the hybrid wind power generator according to the present invention will be described below.

First, a vertical plate, one surface of which is fixedly attached to the outer surface of the tower segment, and a vertical plate which is vertically protruded from the center of the other surface of the horizontal plate and in which a disk- The concrete structure for the lower region of the hybrid type wind power generator can be easily assembled and constructed.

Secondly, the wedge piece is provided as a wedge type on both sides in the width direction of one surface, which is in close contact with the outer surface of the tower segment of the horizontal plate, so that the wedge piece is tightly fixed to the outer surface of the tower segment. It is possible to stably maintain the binding state of the lifting jig with respect to the tower segment during the lifting operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view showing a tower portion which is a main part of a hybrid type wind power generator to which a lifting jig for a tower segment of a hybrid wind power generator according to the present invention is applied.
2 is a perspective view showing a lifting jig for a tower segment of a hybrid wind power generator according to the present invention;
FIG. 3 is a perspective view showing a state of use of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention. FIG.
FIG. 5 is a view showing a state of use of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention, showing an example of a main portion showing a binding structure with a tower segment of a lifting jig.
Fig. 6 is a side view showing the use state of the lifting jig for the tower segment of the hybrid wind power generator according to the present invention as a side construction of Fig. 3; Fig.
7 is a perspective view showing another embodiment of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention.
FIG. 8 is a side view showing the usage state of another embodiment of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention. FIG.

Hereinafter, a preferred embodiment of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an example of a tower portion which is a main part of a hybrid type wind power generator to which a lifting jig for a tower segment of a hybrid wind power generator according to the present invention is applied. FIG. 2 is a perspective view of a lifting jig for a tower segment of a hybrid wind turbine according to the present invention. Fig.

3 is a perspective view showing a state of use of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention, FIG. 5 is a perspective view showing a state of use of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention, Fig. 8 is a view showing a state of use of a recessed portion showing a binding structure with a tower segment of a lifting jig. Fig.

Fig. 6 is a side view showing the use state of the lifting jig for the tower segment of the hybrid wind power generator according to the present invention as a side construction of Fig. 3. Fig.

1 to 6, a lifting jig 100 for a tower segment of a hybrid wind power generator according to a preferred embodiment of the present invention includes a tower segment made of precast concrete constituting a tower in a hybrid wind turbine 30 to lift the tower segment 30 to assemble and construct a concrete structure for a lower region of the wind power generator.

Referring first to FIG. 1, a description will be made of a tower part which is a main part of a hybrid wind turbine generator including the tower segment 30. The hybrid wind turbine generator is configured such that a tower part is fixedly installed on a ground for installation After a plurality of tower segments 20 are primarily assembled on top of the base 10, the tower segments 20 are formed on the top of the tower segments 20 constituting the lower part of the tower, Assembly is done.

Then, the iron column 30 is assembled and assembled on the upper part of the tower segment 30, which is assembled and assembled secondarily.

The lifting jig 100 for the tower segment of the hybrid wind power generator according to the present invention is applied as a lifting jig when assembling the tower segments 20 and 30 as described above. Hereinafter, the tower segments 20, The tower segment 30 will be described with reference to FIG.

Although not shown in the drawings, a plurality of blades, a rotor connected to a plurality of blades, and a rotor are rotatably received at an upper end of a tower portion of a hybrid type wind turbine generator, A nacelle for producing electrical energy, and a nacelle cover for protecting the nacelle, which are coupled to the outside of the nacelle, are installed. Therefore, detailed description of these configurations will be omitted.

1 to 6, a lifting jig 100 for a tower segment of a hybrid wind power generator according to the present invention includes a horizontal plate 110, a vertical plate 130, a disc plate 140, a reinforcing rib 150 and a wedge piece 170.

The horizontal plate 110 has anchor nut 111 which is formed at both sides of the center of the horizontal plate 110 at predetermined intervals in the longitudinal direction and is inserted into the tower segment 30 through the hole 111, And a pair of coupling bolts B coupled to the tower segment 30 are coupled and fixed to the outer surface of the tower segment 30 in a pair of widthwise or longitudinally spaced intervals.

One end of the vertical plate 130 is closely fixed to the horizontal plate 110 so as to protrude perpendicular to the center of one side of the horizontal plate 110, (Not shown) is formed through.

The disc plate 140 is fixedly installed in the installation hole of the vertical plate 130 and the lifting ring 51 is rotatable through the fixing bolt 53 and the fixing nut 54 at the center And an annular fixing hole 141 is fixedly installed.

The reinforcing rib 150 is fixed to both sides of the vertical plate 130 perpendicular to the other side of the horizontal plate 110 at a predetermined interval and the vertical plate 130 and the horizontal plate 110 are fixed .

In other words, the reinforcing rib 150 reinforces the fixed state of the vertical plate 9130 and the horizontal plate 110, and is provided on both sides of the vertical plate 130 orthogonal to the other side of the horizontal plate 110 It is preferable to fix the plurality of guide grooves at a predetermined interval.

The wedge piece 170 is provided in a wedge type on both sides in the width direction of the one surface of the horizontal plate 110, which is in close contact with the outer surface of the tower segment 30, and is tightly fixed.

At this time, the wedge piece 170 is provided as a wedge type, and the opposite side of the wedge piece 170, which is in contact with the curved round outer surface of the tower segment 30 and is in close contact with the horizontal plate 110, It is preferable to be formed so as to be inclined with a curved round so as to have an increasingly thin thickness.

The wedge piece 170 is tightly fixed to both sides of the horizontal plate 110 in a width direction of the one side thereof in close contact with the outer surface of the tower segment 30 and extends in the longitudinal direction of the horizontal plate 110 .

The wedge piece 170 is fixed to both sides in the width direction of the other side of the horizontal plate 110 which is in close contact with the outer surface of the tower segment 30, It is preferable to have a width reaching the circumference of the binding hole 111.

The horizontal plate 110, the vertical plate 130, the disc plate 140, and the wedge pieces 170 constituting the lifting jig 100 for the tower segment of the hybrid wind power generator according to the present invention as described above, It is preferable that it is integrally fixed by welding.

3 and 6, the lifting jig 100 for the tower segment of the hybrid wind power generator having the above-described structure is used for assembling the tower segment 30. The outer side of the tower segment 30 And a pair of lifting rings 51 are connected to the tower segment 30, and the pair of lifting rings 51 are coupled to the outer surface of the tower segment 30 at predetermined intervals in the longitudinal direction.

In this case, the lifting rope (57) of the lifting rope (57) in a state of being coupled to the outer surface of the tower segment (30) in a pair in the width direction is lifted up by the lifting jig 100 and the lifting rope 51 through the lifting rope 51 so that the tower segment 30 is erected in a state for assembling.

Referring to FIG. 4, the lifting jig 100 for a tower segment of the hybrid wind power generator may be coupled to the outer surface of the tower segment 30 at a predetermined interval in the width direction.

In this case, the tower segment 30 is lifted upright by the weight of the tower segment 30 in a state of being lifted by the lifting rope 57 connected to the pair of lifting jigs 100, And the tower segment 30 is assembled and assembled.

FIG. 7 is a perspective view showing another embodiment of a lifting jig for a tower segment of a hybrid wind power generator according to the present invention, and FIG. 8 is a perspective view of a lifting jig for a tower segment of a hybrid wind turbine according to another embodiment of the present invention. And Fig.

The lifting jig 100 for the tower segment of the hybrid wind power generator according to another embodiment as shown in FIGS. 7 and 8 is different from the embodiment described with reference to FIGS. 1 to 6 in that the horizontal plate 110 and the vertical plate 130 Only the point that the rotation guide step 137 is further formed on the inclined part of one side of the vertical plate 130 that is inclined to the mountain shape while the length is longer is formed. A description thereof will be omitted.

Referring to Figures 7 and 8, the vertical plate 130 is rotated so that the angle of rotation of the lifting ring 51 upon rotation for the upright condition of the tower segment 30 is up to an upright position of the tower segment 30 Since it is important that the free end of the lifting hook 51 can be guided, a rotation guide step 137 can be further formed on the inclined portion of one side of the mountain-like shape, .

According to embodiments of the lifting jig for a tower segment of a hybrid wind power generator according to the present invention as described above, the lifting jig for a tower segment of the hybrid wind turbine includes a horizontal plate having one surface fixedly attached to the outer surface of the tower segment, And a vertical plate in which a lifting ring is fixedly connected to a vertical plate is selectively inserted and fixed by selectively securing a tower segment made of precast concrete to construct a concrete structure for a lower region of a hybrid type wind power generator can do.

Further, the wedge piece is provided as a wedge type on both sides in the width direction of one surface, which is in close contact with the outer surface of the tower segment of the horizontal plate, so that the wedge piece is tightly fixed to the outer surface of the tower segment. And can be tightly fixed at three points in the widthwise center and both sides thereof, so that the binding state of the lifting jig with respect to the tower segment can be stably maintained during the lifting operation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

10: Foundation 20, 30: Tower segment
31: anchor nut 40: iron column
51: Lifting ring 53: Fixing bolt
54: fixing nut 57: lifting rope
100: lifting jig
110: Horizontal plate 111: Bonding hole
130: vertical plate 137: rotation guide step
140: disc plate 141: ring fixing hole
150: reinforcing rib 170: wedge piece
B: Coupling bolt

Claims (5)

The concrete structure for the lower region of the wind power generator is assembled by pulling on the outer surface of the tower segment 30 made of precast concrete constituting the tower of the hybrid type wind power generator and lifting the tower segment 30. [ (100) of a tower segment of a hybrid wind power generator, wherein a binding hole (111) is formed at both ends of the lifting jig (100) at regular intervals in the longitudinal direction with respect to the center, And an engaging bolt B engaged with an anchor nut 31 embedded in the inner side of the tower segment 30 is coupled and fixed to the outer surface of the tower segment 30 in a widthwise or longitudinal direction A horizontal plate 110; A vertical plate 130 having one end fixed to the horizontal plate 110 so as to protrude orthogonally with an angle and having a predetermined thickness at the center of one surface of the horizontal plate 110 and a mounting hole formed at the center of the other end, ; A lifting bolt 53 and a fixing nut 54 are fixedly installed in the vertical hole of the vertical plate 130. The lifting bolt 51 is fixed to the vertical fixing hole 141 A disc plate 140 formed to penetrate therethrough; The vertical ribs 150 are fixed to both sides of the vertical plate 130 at right angles to the other side of the horizontal plate 110. The reinforcing ribs 150 reinforce the vertical plate 130 and the horizontal plate 110 ); And a wedge piece (170) which is provided as a wedge type on both sides in the width direction of one surface of the horizontal plate (110) in close contact with an outer surface of the tower segment (30) As a result,
The wedge piece 170 is provided in a wedge type so that the opposite side of the wedge piece 170 that is in contact with the curved rounded outer surface of the tower segment 30 and is in close contact with the horizontal plate 110 is thinner toward the center of the horizontal plate 110 And the wedge piece 170 is tightly fixed to both sides of the one side of the horizontal plate 110 in close contact with the outer surface of the tower segment 30, The vertical plate 130, the disc plate 140 and the wedge pieces 170 are integrally fixed to each other by welding, while the horizontal plate 110, the vertical plate 130, the disc plate 140,
The vertical plate 130 is pivotally mounted on the lifting hook 51 so that the rotation angle of the lifting ring 51 reaches an upright state of the tower segment 30 when the tower segment 30 is rotated in an upright state. And a rotation guide step (137) is formed on the sloped part of one side of the mountain-like shape so as to guide the free end side of the tower segment of the hybrid wind turbine generator .
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