KR20130058283A - Installing method for wind power generator of tower - Google Patents

Abstract

PURPOSE: A tower of a prefabricated grid structure for an aerogenerator using a telescoping method of a tower crane and an installation method thereof are provided to reduce installation costs and maintenance costs by enabling a tower to be installed with a low crane. CONSTITUTION: A mast is fixed and laminated on a foundation of a grid structure type tower in order to install a foundation mast unit. A telescoping cage and an aerogenerator are installed in the foundation mast unit. An interval between masts is separated by the telescoping cage, and the mast is inserted so that a height of the tower is extended. [Reference numerals] (S10) Install a foundation mast; (S20) Install a telescoping cage and an aerogenerator; (S30,40) Extend the height of a tower by inserting a mast; (S50) Repeat mast insertion up to a set height of the tower

Description

Prefabricated lattice tower for wind power generator using telescoping method of tower crane and installation method thereof {Installing Method for Wind Power Generator of Tower}

The present invention relates to a method for installing a lattice tower used for small and medium-sized wind turbines, and particularly for a wind power generator using an ascending method (telescoping) used for tower crane tower installation to facilitate installation and assembly. It relates to a tower installation method of the prefabricated grid structure.

The tower of the wind power generator is a structure that supports the wind power generator. In the case of the horizontal axis wind power generator (HAWT), the tower serves to support the nacelle and the rotor at a certain height from the ground. It is a structure that takes charge of the rotation axis. In the case of large structures, various maintenance / maintenance devices such as elevator systems may be installed inside.

On the other hand, such towers include steel tubular towers, lattice towers, guided pole towers, and hybrid tower solutions.

Among them, the lattice tower is manufactured by welding, and it has the advantage of reducing the manufacturing cost and the weight of the tower by using about half of the material than the steel pipe type tower, but it is not suitable for appearance problems and large generators. Because of its shape, it is widely used in small and medium sized wind turbines. In the conventional lattice structure tower, as the height of the tower increases, the crane for installation is also required to use a large crane. The enlargement of such a crane ultimately serves as an increase in construction cost.

The present invention has been made in order to solve the problems caused by using a large crane as described above, in the installation of a lattice structure tower, in particular to reduce the construction cost and maintenance costs, characterized in that using the telescoping method of the tower crane An object of the present invention is to provide a method for installing a tower of a prefabricated lattice structure.

An object of the present invention as described above, in the method of installing a lattice tower (Lattice) tower for use in a wind power generator, to secure a plurality of masts, the mast is laminated in a telescoping cage and crane car to extend the height It is achieved by the tower installation method of the prefabricated grid structure for a wind power generator using a telescoping method of the tower crane, characterized in that comprising;

Here, the step (S100), the step of fixing the mast on the base of the lattice structure tower, and installing at least one mast on top of the fixed mast to install a foundation mast (S10);

Installing a telescoping cage in the base mast portion, and installing a wind generator on an upper portion of the base mast portion (S20);

Inserting the mast after opening the mast between the upper mast and the mast directly below the base mast unit in which the wind turbine is installed (S30);

Inserting the mast after spreading the inserted mast and the mast directly below the telescoping cage (S40);

And repeating until the height of the stacked masts reaches the set height (S50) in the manner of step (S40).

According to the present invention, it is possible to install a lattice tower even with a low crane, and the use of a low crane even during maintenance reduces installation costs and maintenance costs.

1 is a schematic flowchart of a tower installation method according to the present invention;
2 is a tower according to the present invention,
3 to 7 is a view showing a tower installation process according to the present invention.

The present invention is characterized by using an ascending method (telescoping) used for the tower crane tower installation to facilitate the installation and assembly of the lattice tower (Lattice) tower used for small and medium-sized wind generators.

In other words, lift the upper part with a telescoping cage, which is a hydraulic driving lift device composed of a hydraulic cylinder and a hydraulic motor, to secure an empty space therein, and then insert a part of the newly pulled tower from the ground into the empty space to a desired height. To assemble the tower.

Therefore, the tower installation method of the prefabricated lattice structure for the wind power generator using the telescoping method of the tower crane according to the present invention (hereinafter referred to as "tower installation method"), the lattice structure (Lattice) tower (used for the wind power generator) In the method of installing a tower, a plurality of masts 11 are secured, and the masts 11 are stacked in a telescoping cage 20 and a crane car 40 to extend a height. In step (S100) to install the lattice structured tower in a prefabricated form.

The mast 11 is a standardized mast used in the field of tower crane, and this standardized mast is advantageous for installation and maintenance.

The telescoping cage 20 is a hydraulic drive lift device for use in the field of tower crane, in the present invention is used for inserting the mast between the mast and the mast, or the purpose of separating the mast in need of maintenance in the tower It is utilized.

The crane car 40 is installed in the vicinity of the installation position of the tower and is used for supplying the mast 11.

When installed using a plurality of masts 11, telescoping cage 20, the crane car 40 as described above can be installed in a grid-like tower of a desired height assembling, the crane car 40 is the installation height of the tower Regardless of whether or not it is low, it is easy to install and maintain because it uses a standardized mast (11).

Specifically, the step (S100) for the tower installation method, as shown in Fig. 1, the base mast unit 10 installation step (S10), the telescoping cage 20 and the wind generator 30 installation Step S20, extending the height of the tower by inserting the mast 11 (S30, S40), and repeating the insertion of the mast 11 to the set tower height (S50), and through this process and the process shown in FIG. The same lattice tower can be installed.

Foundation mast unit 10 installation step (S10) is a step of fixing the mast on the base of the lattice tower and installing at least one mast on top of the fixed mast to install the foundation mast portion, for example, shown in FIG. As described above, it means a state in which three masts 11 are stacked, and the masts 11 are firmly fixed to each other by fastening means.

In the step S20 of installing the telescoping cage 20 and the wind power generator 30, the telescoping cage 20 is installed in the foundation mast unit 10, and the wind generator 30 is disposed above the foundation mast unit 10. As shown in FIG. 4, the telescoping cage 20 is installed in the foundation mast portion 10, and the nacelle 31 is disposed at the upper end of the upper side mast 11 of the foundation mast portion 10. And a wind generator 30 including a rotor 32.

Extending the height of the tower by inserting the mast 11 (S30, S40), as shown in Figure 5 between the upper mast 11 of the foundation mast portion 10 is installed with the wind turbine 30 and the mast directly below After inserting the mast after opening the telescoping cage 20 (S30), and the mast 11 and the mast just below the inserted mast 11, as shown in Figure 6, 7 inserted into the mast after the telescoping cage (20) It consists of a step (S40).

That is, when the step (S30) is made, the telescoping cage 20 is lowered as shown in FIG. 6, and the mast 11 is extended after opening the mast immediately below the inserted mast 11 and extending the height of the tower. In order to secure the stability of the work in this process, the mast 11 and the mast or mast 11 and the telescoping cage 20 of the fixing and unlocking is obvious.

 The step (S50) of repeating the insertion of the mast 11 to the set tower height is a step of repeating until the height of the stacked masts reaches the set height in the manner of the step S40. A lattice tower of any height can be installed.

On the other hand, the tower according to the present invention is a prefabricated structure formed by stacking a plurality of standardized mast 11 by a telescoping method, such a tower is made by the above-described installation method.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will readily occur to those skilled in the art without departing from the spirit and scope of the invention. Therefore, it should be understood that the disclosed embodiments are to be considered in an illustrative rather than a restrictive sense, and that the true scope of the invention is indicated by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof, .

10: base mast part 11: mast
20: telescoping cage 30: wind turbine
31 nacelle 32 rotor
40: crane car 200: tower foundation

Claims (3)

In the installation method of a lattice tower used for wind power generators,
Securing a plurality of masts and stacking the masts in a telescoping cage and a crane car to assemble the lattice-type tower in a form of extending the height (S100);
Method for installing a tower of the prefabricated grid structure for a wind power generator using a telescoping method of the tower crane, characterized in that comprises a. The method of claim 1, wherein the step (S100),
Fixing the mast on the base of the lattice-type tower and installing at least one mast on top of the fixed mast (S10);
Installing a telescoping cage in the base mast portion, and installing a wind generator on an upper portion of the base mast portion (S20);
Inserting the mast after opening the mast between the upper mast and the mast directly below the base mast unit in which the wind turbine is installed (S30);
Inserting the mast after spreading the inserted mast and the mast directly below the telescoping cage (S40);
Repeating (S50) until the height of the stacked masts reaches the set height in the manner of (S40);
Prefabricated tower installation method for a wind turbine generator using a telescoping method of the tower crane, characterized in that it comprises a. In the lattice tower used for wind power generators,
The tower is a prefabricated lattice tower for a wind turbine generator using a telescoping method of the tower crane, characterized in that the plurality of standardized mast (11) is laminated by a telescoping method.

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