KR102563882B1 - Installing device for wind turbine tower and installing method thereof - Google Patents

Abstract

The present invention applies tension to the first and second wires 70 and 72 connected to the first motor 20 and the second motor 30, respectively, to mediate the hinge means 60 to the ground-side tower lower part 40 Since it consists of equipment and methods for vertically standing the assembled tower 50, it is possible to significantly reduce the quantity, cost and installation time of large cranes that have been used previously, as well as to minimize the risk of safety accidents. That is, the present invention relates to the cost of renting two large cranes when installing a wind tower, the installation time required to transport the tower 50 through a crane and erecting the tower 50 during work, and the use of two large cranes. There is an advantage in solving the installation space occupied when moving a large crane to mountainous terrain and the difficulty of not being able to support the tower 50 when a lateral load due to wind occurs when the tower 50 is installed.

Description

Wind tower installation equipment and its installation method {Installing device for wind turbine tower and installing method thereof}

The present invention relates to wind tower installation equipment and an installation method thereof, and more particularly, to a wind tower installation equipment and installation method capable of vertically standing a tower using wire tension at an installation site without a large crane. will be.

In general, a tower is a structure that supports a wind turbine, and in the case of a horizontal axis wind turbine, it is a structure that serves to support the nacelle and rotor by positioning it at a certain height from the ground, and in the case of a vertical axis wind turbine, it is a structure that also plays the role of a rotating shaft . In the case of a large structure, various repair and maintenance devices such as an elevator system may be installed therein.

As examples, steel tubler towers, lattice towers, and guided pole towers are presented.

That is, as shown in Figure 1, the steel pipe tower has a conical shape (the diameter increases as it goes to the ground), and is partially manufactured through welding in units of 20 to 30 m, and each part is connected with a flange and bolts in the longitudinal direction. way to increase it. This structure is known as a form suitable for large-scale wind turbines, and almost all large-scale wind turbines actually use this form.

The lattice structure tower is manufactured by welding, as shown in FIG. 2, and has the advantage of reducing manufacturing cost and reducing the weight of the tower by using half the material than the steel pipe tower, but on the other hand, the appearance Since it is suitable for problems and small generators, it is a form that is widely used in small wind power generators.

As shown in FIG. 3, the guide pole tower is composed of a small diameter tube and a support wire, and is mainly used in small wind power generators. However, it has the disadvantage of requiring a safe zone.

As such, in the prior art, steel pipe type towers are mainly used as large and medium-sized wind power generators in practice, and the height of the tower reaches about 80 m in the case of large wind power generators. In addition, since most wind farms in Korea are built in mountainous terrain, transportation and installation are difficult. In particular, since two or more large cranes are usually prepared to install a large wind power generator, a large crane usage fee accounts for a large portion of the cost input during installation.

In other words, the tower section division is applied differently depending on the transport environment, but it is usually transported by dividing it into three sections (Top, Middle, and Bottom Sections).

For example, as shown in FIG. 4 (a) (b), the first stage ellipse is raised and connected to the lower part of the foundation, and then the second and third stage towers are lifted and raised, and then connected to the lower portion of the first stage tower sequentially.

At this time, since two large cranes must be used in the conventional tower installation process, high cost is required and a lot of space is required when installing the tower. In particular, in the case of mountainous terrain, not only is it difficult to move a large crane, but it is also difficult to sufficiently support the lateral load caused by wind during installation, so there is a problem in that the assembly process of lifting and settling the tower is very difficult.

Republic of Korea Patent Registration No. 10-1898248 (2018.09.06)

An object of the present invention is proposed to solve the problem in view of the existing problems, and to provide a wind tower installation equipment and installation method that can reduce installation costs by excluding the use of a large crane and at the same time minimize various safety accidents. is in providing

Wind tower installation equipment according to an embodiment of the present invention for solving the above technical problem is, in the wind tower installation equipment, a first motor and a second motor fixed to the ground at a predetermined distance from each other; a lower tower portion fixed to a lower portion of the ground-side foundation at a predetermined distance between the first motor and the second motor; A tower in which one side of the upper end of the lower portion of the tower and one side of the lower end are assembled via a hinge means; And first and second wires that fasten both sides of the top of the tower to the first motor and the second motor, respectively, so that the tower stands vertically by applying tension according to the driving of the first motor and the second motor; It is characterized in that it includes.

As another embodiment, the first motor and the second motor of the present invention are characterized in that they are installed to face each other at a predetermined distance as an induction capable of forward and reverse rotation, with the lower end of the tower interposed therebetween.

As another embodiment, the first motor of the present invention is coupled to one side of the upper end of the tower and the first wire to apply tension to the first wire so that the tower stands vertically.

As another embodiment, the second motor of the present invention is fastened to the top of the tower and the other side of the tower through a second wire, so that the second wire is tensioned in the direction in which the second wire is released according to the driving force of the first motor when the tower is raised. to be

As another embodiment, the tower lower part and the tower of the present invention are formed in a cylinder, and a plurality of fastening holes are provided at the boundary where the tower lower part and the tower come into contact with each other so that bolts and nuts are distributed and fastened at regular intervals along the circumferential direction. It is characterized in that the formed flange protrudes outward.

As another embodiment, it is characterized in that hook rings are formed on opposite sides of the upper circumference of the tower of the present invention to fasten the first and second wires, respectively.

As another embodiment, the hinge means of the present invention is a connection piece protrudingly formed so as to be fitted in a concave-convex shape corresponding to one side of the upper end of the tower lower part and one side of the lower end of the tower, and connected to the connection piece to be fastened to the overlapping portion and rotated It is characterized by consisting of a connecting pin to.

A wind tower installation method according to an embodiment of the present invention includes the steps of connecting a foundation lower portion and a tower lower portion; Assembling the lower part of the tower and the tower; fixing the first motor to the ground; Fastening the first motor and the hook ring on one side of the upper end of the tower with a first wire; fixing the second motor to the ground opposite to the first motor; Fastening the second motor and the hook ring on the other side of the upper end of the tower with a second wire; Standing the tower vertically by continuously applying tension to the first wire from the first motor; Step of applying tension to the second wire from the second motor so that the tower does not shake while standing vertically; and fastening the lower part of the tower and the tower with bolts after the tower is erected vertically with the ground. It is characterized in that it includes.

Quantity, cost and installation time of large cranes that have been used in the past because it consists of equipment and a method for vertically erecting a tower assembled through a hinge means at the lower end of a ground-side tower using the tension of a wire connected to a motor of the present invention can be significantly reduced, and the risk of safety accidents can be minimized.

That is, the present invention relates to the cost of renting two large cranes when installing a conventional wind tower, the installation time required to transport the tower through a crane and erecting the tower during work, the installation space occupied when using two large cranes, It has the advantage of solving the difficulties of moving large cranes in mountainous terrain and the difficulty of not being able to support the tower when lateral loads caused by wind occur during tower installation.

1 is a photograph showing a conventional steel pipe tower;
2 is a photograph showing a conventional lattice structure tower;
3 is a perspective view showing a conventional guide pole tower;
Figure 4a is a photograph showing a state in which the entire conventional tower is installed;
Figure 4b is a photograph showing the process of installing a conventional tower using a large crane,
Figure 5 is a configuration diagram showing the steps before tower installation using the wire of the present invention;
Figure 6 is a configuration diagram showing the steps after tower installation using the wire of the present invention;
Figure 7 is a process chart of the tower installation method using the wire of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the examples described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shapes of elements in the drawings may be exaggerated to emphasize a clearer explanation. It should be noted that in each drawing, the same configuration may be indicated by the same reference numerals. Detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 5 is a configuration diagram showing the steps before tower installation using the wire of the present invention, Figure 6 is a configuration diagram showing the steps after tower installation using the wire of the present invention, Figure 7 is a tower using the wire of the present invention It is a process diagram of the installation method.

Referring to Figures 5 and 6, wind tower installation equipment according to an embodiment of the present invention, the installation jig 10 installed on one side of the ground; a first motor 20 and a second motor 30 each fixed to the ground at a left and right distance from one side of the installation jig 10; A tower lower part 40 fixed to the lower part of the ground-side foundation with a predetermined distance between the first motor 20 and the second motor 30; A tower 50 in which one upper end of the tower lower part 40 and one lower end are assembled via a hinge means 60; By fastening both sides of the top of the tower 50 and the first motor 20 and the second motor 30, respectively, tension is applied according to the driving of the first motor 20 and the second motor 30, respectively, so that the tower ( 50) first and second wires 70 and 72 holding the vertical stand; And a plurality of bolts 80 and nuts 82 fastening the boundary between the tower 50 standing vertically on the tower lower part 40 and the tower lower part 40; include

At this time, the installation jig 10 is installed at a certain distance from the tower lower part 40 with the second motor 30 interposed therebetween, and at the upper end, the tower 50 is installed by one crane to the lower part of the ground-side foundation. It is preferable that the semicircular portion 12 is formed so as to stably support it when assembled by being lifted by the tower lower portion 40 and the hinge means 60 as a medium.

The first motor 20 and the second motor 30 are induction motors capable of normal and reverse rotation, and are preferably installed to face each other at a predetermined distance with the tower lower part 40 interposed therebetween.

The first motor 20 is fastened to one side of the upper end of the tower 50 and the first wire 70 as a medium to apply tension to the first wire 70 so that the tower 50 stands vertically. Consists of.

The second motor 30 is fastened to the other side of the upper end of the tower 50 through the second wire 72 so that when the tower 50 stands, the second wire ( 72) is configured to play a role of holding the tension applied to the first wire 70 and the second wire 72 to match when the tower 50 is erected vertically while applying tension in the direction of release.

The tower lower part 40 and the tower 50 are formed in a cylindrical shape, and the bolt 80 and the nut 82 are constant along the circumferential direction at the boundary where the tower lower part 40 and the tower 50 come into contact with each other. It is preferable that the flanges 44 and 54 formed with a plurality of fastening holes 42 and 52 are protruded outward so as to be distributed and fastened at intervals.

It is preferable that hook rings 56a and 56b are formed on opposite sides of the upper circumference of the tower 50 so that the first and second wires 70 and 72 are fastened, respectively.

The hinge means 60 includes connecting pieces 62 and 64 protruding from each other so as to be fitted to one side of the upper end of the tower lower part 40 and one side of the lower end of the tower 50 in a concave-convex shape corresponding to each other, and the connecting piece ( It is composed of a connecting pin 66 that is fastened to the overlapping portion of 62) (64) and connected so as to rotate.

Referring to FIG. 7, in the wind tower installation method according to an embodiment of the present invention, after connecting the lower foundation and the lower tower 40 (S1), assembling the lower tower 40 and the tower 50 (S2) )do.

After fixing the first motor 20 to the ground (S3), the first motor 20 and the hook ring 56a on one side of the upper end of the tower 50 are fastened with the first wire 70 (S4) do.

After fixing the second motor 30 to the ground opposite to the first motor 20 (S5), connect the second motor 30 and the hook ring 56b on the other side of the upper end of the tower 50 to the second wire ( 72) to conclude (S6).

The first motor 20 continuously applies tension to the first wire 70 to raise the tower 50 vertically (S7), and at the same time the second motor 30 to the second wire 72 Tension is applied so that the tower 50 does not shake while standing vertically (S8).

When the tower 50 stands vertically with the ground, bolts 80 and nuts ( 82) to fasten (S9).

At this time, the second motor 30 is the second wire 72 according to the driving force of the first motor 20 when the first motor 20 applies tension to the first wire 70 to raise the tower 50 ) is applied in the direction in which the tension is released, and when the tower 50 is accurately erected, the tension applied to the first wire 70 and the second wire 72 is held to match.

Then, when the installation work of the tower 50 is finished, the first and second wires 70 and 72 respectively fastened to the hook hooks 56a and 56b at the upper end of the tower 50 are dismantled.

Therefore, the present invention applies tension to the first and second wires 70 and 72 connected to the first motor 20 and the second motor 30, respectively, so that the hinge means 60 is attached to the ground-side tower lower part 40 Since it consists of equipment and methods for vertically standing the assembled tower 50 through the medium, it is possible to significantly reduce the quantity, cost and installation time of large cranes that have been used previously, as well as to minimize the risk of safety accidents. there is.

That is, the present invention relates to the cost of renting two large cranes when installing a wind tower, the installation time required to transport the tower 50 through a crane and erecting the tower 50 during work, and the use of two large cranes. There is an advantage in solving the installation space occupied when moving a large crane to mountainous terrain and the difficulty of not being able to support the tower 50 when a lateral load due to wind occurs when the tower 50 is installed.

On the other hand, the present invention is not limited to the above-described embodiments, but can be practiced with modifications and variations within the scope of the present invention, and the technical idea to which such modifications and variations are applied also falls within the scope of the following claims. Must see.

10: installation jig 12: semicircular part
20: first motor 30: second motor
40: tower lower part 42: fastening hole
44: flange 50: tower
52: fastening hole 54: flange
56a, 56b: hook hook 60: hinge means
62,64: connection piece 66: connection pin
70,72: first and second wire 80: bolt
82: nut

Claims (8)

In the wind tower installation equipment,
A first motor 20 and a second motor 30 of induction capable of normal and reverse rotation fixed to the ground at a predetermined distance from each other to the left and right;
A tower lower part 40 fixed to the lower part of the ground-side foundation with a predetermined distance between the first motor 20 and the second motor 30;
A tower 50 in which one upper end of the tower lower part 40 and one lower end are assembled via a hinge means 60; and
By fastening both sides of the top of the tower 50 and the first motor 20 and the second motor 30, respectively, tension is applied according to the driving of the first motor 20 and the second motor 30, respectively, so that the tower ( 50) to hold the first and second wires 70 and 72 to stand vertically; including,
The first motor 20 is fastened to one side of the upper end of the tower 50 via the first wire 70 to apply tension to the first wire 70 so that the tower 50 stands vertically,
The second motor 30 is fastened to the other side of the upper end of the tower 50 through the second wire 72 so that when the tower 50 stands, the second wire ( 72) apply tension in the direction in which it is released,
Hook rings 56a and 56b are formed on opposite sides of the upper circumference of the tower 50 to engage the first and second wires 70 and 72, respectively.
The hinge means 60,
Connecting pieces 62 and 64 protruding from each other so as to be fitted into a concave-convex shape corresponding to one side of the upper end of the tower lower part 40 and one lower side of the tower 50,
Wind tower installation equipment, characterized in that composed of a connecting pin (66) connected to the connection piece (62) (64) to be fastened to the overlapping portion so as to rotate. delete delete delete The method of claim 1,
The tower lower part 40 and the tower 50 are formed in a cylinder,
A plurality of fastening holes 42 and 52 are provided at the boundary where the tower lower part 40 and the tower 50 come into contact with each other so that the bolts 80 and the nuts 82 are distributed and fastened at regular intervals along the circumferential direction. Wind tower installation equipment, characterized in that the formed flanges (44) (54) protrude outward. delete delete In the wind tower installation method,
Connecting the lower part of the foundation and the lower part of the tower (40) (S1);
assembling the tower lower part 40 and the tower 50 (S2);
fixing the first motor 20 to the ground (S3);
A step of fastening the first motor 20 and the hook ring 56a on one side of the upper end of the tower 50 with a first wire 70 (S4);
fixing the second motor 30 to the ground opposite to the first motor 20 (S5);
Fastening the second motor 30 and the hook ring 56b on the other side of the upper end of the tower 50 with a second wire 72 (S6);
Standing the tower 50 vertically by continuously applying tension to the first wire 70 from the first motor 20 (S7);
Step S8 of applying tension to the second wire 72 from the second motor 30 so that the tower 50 does not shake while standing vertically; and
After the tower 50 is erected vertically with the ground, a step (S9) of fastening the tower lower part 40 and the tower 50 with bolts 70; including,
When the second motor 30 raises the tower 50 by applying tension to the first wire 70 by the first motor 20, the second wire 72 adjusts to the driving force of the first motor 20 While applying tension in the direction of loosening, hold the tension applied to the first wire 70 and the second wire 72 to match when the tower 50 is correctly erected,
When the installation work of the tower 50 is finished, the wind power, characterized in that for dismantling the first and second wires 70 and 72 fastened to the hook hooks 56a and 56b of the upper end of the tower 50, respectively. How to install a tower.

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