KR101481946B1 - trailer for transporting a wind turbine blade - Google Patents

Abstract

The present invention relates to a trailer to transfer a blade for a wind power generator. The formation includes: a support formed on an upper surface of a cargo box of the trailer, a blade installation rod formed on an upper part of the support to assemble a blade loaded object, a combination arm to enable the blade installation rod to control inclination while floating above the upper surface of the support, an elevating shaft to shaft-combine the combination arm and the blade installation rod, and a cylinder device to control the inclination of the blade installation rod. The blade installation rod is formed of a combination panel to combine the blade loaded object and a standing panel connected to the cylinder device. The combination panel and the standing panel separately form protrusions protruding toward the rear to form load distribution in the blade installation rod such that a standing angle of the blade loaded object is able to be bigger, and stable elevation and the load distribution is efficiently formed to secure durability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a trailer for transporting a wind turbine blade,

The present invention relates to a trailer for transporting a blade for a wind turbine, and is capable of varying the inclination and loading direction of a blade for a wind power generator, which is a load, and can flexibly cope with the road condition of the transportation route and the situation In addition, the load of the load is distributed and supported, thereby improving the durability and enabling stable operation.

The wind turbine generator is designed to produce electric energy by the wind force. Its structure is composed of a support frame that plays a supporting role and a blade that is mounted on the support frame and rotates by the wind. Energy is obtained.

These wind turbines are selected by considering the wind velocity, wind direction and generation factors of gusts or turbulence in the area to be installed. In addition, the availability of blades for wind turbines is considered as the most important factor.

The reason for this is that the blades for wind power generators can not be manufactured in the field because they are manufactured from 40m to 60m in length. Therefore, after the blades are manufactured, they are loaded on the trailer and transported to the installation area.

However, the transportation work is very difficult because there are sudden changes in the slope of the road, changes in direction, and various obstacles on the route from the place where the blade is made to the place where the wind turbine is to be installed. In some cases, The blades are transported while doing civil engineering work such as removing water or constructing a construction road.

However, there are difficulties in selecting an area where a wind turbine generator is to be installed because there is an area that can not be transported even if the civil engineering work is done (for example, the civil engineering work is impossible due to the opposite of the landowner).

Accordingly, in order to solve such a problem, according to the applicant who filed and registered (patent registration No. 1044014) for a "wind turbine blade conveying device" in the Korean Intellectual Property Office in 2008, a blade for a wind power generator (hereinafter referred to as a "blade load" To be able to stand by using a hydraulic cylinder in a state of being loaded on a trailer and to be rotatable so that the loading state of the blade load can be varied to cope flexibly according to the situation of the land on the transportation route Respectively.

In addition, another conventional technique, that is, a registered utility model No. 20-0463113 filed and registered in the Republic of Korea in 2012, proposed a structure for raising a blade load using a hydraulic cylinder. However, there is a problem that the standing angle of the blade is very limited due to its structure. That is, when the blade load is erected above a predetermined angle, the hydraulic cylinder is interfered with, so that it is impossible to adjust the angle and the rising angle is limited. Further, since the hydraulic cylinders are mounted on both sides of the blade load, the large blade can not be transported, and there is a problem that the blade interferes with the cylinder even when pitching (operation to rotate about the center in the longitudinal direction). In addition, since the lower part of the pivoting panel, which is folded to stand up the load of the blade, is hinged to the support panel, when the pivoting is performed over a certain angle, the center of gravity abruptly moves in the opposite direction, There is a problem, which causes a major accident.

Since the blade load is influenced by the wind even in the state of being loaded on the trailer, a structure for pitching is required to receive less influence of the wind. Since the end portion of the blade load is fixed only due to the characteristics of the standing device, , There is a problem that the related parts in which the load is concentrated easily break or become damaged.

KR 10-1044014 B1 KR 20-0463113 Y1

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a trailer for transporting a blade for a wind turbine generator capable of stably rising or lowering a blade load, And it is an object of the present invention.

Another object of the present invention is to improve the durability by allowing the load to be efficiently dispersed when the blade load is raised, as well as when the blade load is mounted horizontally.

Technical Solution In order to achieve the above object, the present invention as a technical idea provides a trailer having a pedestal formed on an upper surface of a loading box of a trailer, a blade mounting table formed on an upper portion of a pedestal for assembling the blade load, And a cylinder device for adjusting the inclination of the blade mounting table, wherein the blade mount is configured to connect the blade load to the blade mount, The connecting plate and the standing plate connected to the cylinder device, and the fastening plate and the standing plate are respectively provided with protrusions protruding rearward so as to achieve load distribution in the blade mounting table, thereby achieving the object of the present invention .

According to the trailer for transporting the blade for a wind turbine of the present invention, since the rising angle of the blade load can be raised to 60 ° or more and 78 ° to the maximum, it is possible to secure more fluidity against obstacles on the transportation route, The load is dispersed by the shaft shaft and the traction axis when the blade load is raised or lowered, so that stable up / down operation is possible. When the blade load is swung, the center of gravity of the blade load It is close to the center part, so that the trailer can be prevented from rolling and can be transported stably.

In addition, even when the blade load is loaded in a horizontal state or in a state where the blade load is standing up, the rotary operation is performed in a state where the load is dispersed, so that the durability can be prevented from being lowered, It is possible to reduce the maintenance cost, minimize work interruption due to maintenance, economically transport and improve transportation efficiency.

1 is a perspective view showing a loading structure of a trailer according to the present invention;
Figure 2 is a perspective view of the trailer of the present invention with the blade load mounted;
Figure 3 is a partially enlarged side view of the mounting structure of Figure 2;
Fig. 4 is a perspective view of the trailer of the present invention with the blade load standing upright; Fig.
Fig. 5 is a partially enlarged side view showing the mounting structure of Fig. 4
6 is an operating state diagram showing the standing state of the blade load of the present invention
FIG. 7 is a rear view showing a loading structure of a trailer according to the present invention. FIG.
8 is an exploded perspective view showing the structure of the blade mount of the present invention
Figure 9 is a graphical representation of the rotational state of the blade load of the present invention

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

As shown in FIG. 1, the present invention is a trailer for transporting a blade for a wind power generator for loading and transporting a blade load B to a load tray of a trailer T, A blade mounting base 300 formed on an upper portion of the rotary plate 200 for assembling the blade load and a blade mounting base 300 for mounting the blade mounting base 100 on the blade mounting base 100. [ 300 for coupling the blade mount 300 to the clamping arm 400 and the clamping arm 400 to adjust the inclination of the clamping arm 400 when the clamping arm 300 is lifted from the upper surface of the rotary plate 200, And a cylinder device 600 for adjusting the inclination of the blade mount 300.

In the present invention, the trailer (T) is illustrated as being transported by a vehicle equipped with a traveling device in a module trailer. However, a trailer having a general low-berth type loading box or a trailer having a flat type loading box can also be used.

The pedestal 100 is mounted on the upper part of the loading tray of the trailer T and is formed so that the pedestal 100 is integrally formed on the upper surface of the loading tray of the trailer so as to be used as a transportation trailer dedicated for the blade loading, It can be used only after it is mounted on the trailer loading box.

The rotary table 200 mounted on the upper surface of the pedestal 100 is a structure for pivotally moving the load placed on the loading table, that is, the blade load, to the left and right, And a rotary shaft 210 is mounted at a central portion of the rotary table 200 to rotate the blade load B in a turntable manner.

At this time, a hydraulic cylinder 220 for rotating the rotary plate 200 may be mounted on one side of the rotary plate 200 as shown in FIG.

At this time, if the presser bar 230 having a weight is disposed behind the rotary plate 200, it is possible to prevent the rotary plate 200 from being lifted due to the load of the blade load B when the blade load B is turned have.

The blade mount 300 and the clamping arm 400 as well as the lift shaft 500 and the cylinder device 600 are used to prevent the blade load B from flying over the terrain or obstacle- The blade mounting table 300 is hinged to the fastening shaft 400 by means of the lifting shaft 500 so that the tilt can be adjusted and the lower part of the blade mounting table 300 is supported by the cylinder device 600 The slope is controlled by pushing or pulling.

The blade mount 300 includes a fastening plate 310 for fastening the blade load B and a standing plate 320 connected to the cylinder device 600. The fastening plate 310, The protrusions 320 and 322 are formed so as to protrude rearward so that load distribution in the blade mount 300 is achieved.

The blade mount 300 may be configured such that the fastening plate 310 and the standoff plate 320 are rotatable so that the blade load is rotated to rotate the blade load according to the wind direction, And the like.

When the fastening plate 310 and the protrusions 312 and 322 formed on the rising plate 320 are formed to have a cylindrical structure, the load can be dispersed during the rotation operation of the blade load, so that the rotary operation can be performed stably. The cylindrical protruding portion 312 formed on the rising plate 310 is inserted into the cylindrical protruding portion 322 formed on the standing plate 320 and is mounted so as to rotate so that the two cylindrical protruding portions are assembled together to perform rotational operation, The fastening plate 310 and the protrusions 312 and 322 formed on the rising plate 320 are abraded when the bushing 330 is mounted between the cylindrical protrusion 312 formed in the rising plate 310 and the cylindrical protrusion 322 formed in the standing plate 320 It is possible to induce a smooth rotation operation while preventing the worn portion from being worn.

The cylinder device 600 is disposed on both sides of the cylindrical protrusion formed on the rear side of the blade mount 300 and the rod 610 of the cylinder device 600 is mounted on the upright plate The cylinder unit 600 is operated to push both sides of the lower end of the blade mount 300 to stand up the blade load so that the blade load can be raised in a state where the blade load is mounted horizontally, The load is efficiently dispersed in the elevating shaft and the cylinder device, thereby improving durability.

Therefore, since the angle of the standing plate 320 is adjusted by the elevating shaft 500 in a state where the standing plate 320 is spaced apart from the upper surface of the rotating plate 200 by the fastening arm 400, So that no interference is generated when the blade mount 300 is operated, and the standing angle can be set to be nearly perpendicular.

A gear 314 is formed on the outer periphery of the protrusion 312 of the coupling plate 310 so that the gear 314 is engaged with the driving gear 710 of the driving motor 700 do.

Accordingly, when the blade load rotates 360 °, it can be dispersed in a cylindrical structure, and the amount of load transferred to the drive motor 700 can be reduced, thereby further improving durability and enabling stable operation.

8, when the roller 340 for load distribution is mounted on the surface of the blade mounting base 300 facing the fastening plate 310 and the standing plate 320, the fastening plate 310, And the standing plate 320 are prevented from being directly abutted against each other to prevent abrasion, and the rotating operation of the fastening plate 310 is smoothly performed.

100: Base
200: Spindle
300: blade mounting table 310: fastening plate
312: protrusion 314: gear
320: standing plate 322:
330: Bushing 340: Roller
400: fastening arm
500: lifting shaft
600: cylinder device 610: rod
700: drive motor 710: drive gear

Claims (5)

A pedestal 100 formed on an upper surface of the loading tray of the trailer;
A blade mount 300 formed on the top of the pedestal 100 for assembling the blade load;
A clamping arm 400 for adjusting the inclination of the blade mount 300 in a state in which the blade mount 300 is lifted from the upper surface of the mount 100 and a lift shaft 400 for axially coupling the clamping arm 400 and the blade mount 300, (500);
A cylinder device 600 for adjusting the inclination of the blade mount 300;
And,
The blade mount 300 includes:
A connecting plate 310 for fastening the blade load and a standing plate 320 connected to the cylinder device 600. The fastening plate 310 and the standing plate 320 are respectively protruded rearward, And the load distribution in the blade mounting table 300 is achieved. The apparatus according to claim 1, wherein the blade mount (300) has a structure in which a clamping plate (310) and a standing plate (320) are rotatable,
The protrusions 312 and 322 formed on the fastening plate 310 and the standing plate 320 are formed in a cylindrical shape and the cylindrical protrusion 312 formed on the fastening plate 310 is inserted into the cylindrical protrusion 322 formed on the standing plate 320 A trailer for transporting a blade for a wind turbine, the blade being mounted so as to be rotatable so as to distribute a load during a rotary operation of the blade load, thereby stably rotating the blade. The apparatus of claim 2, wherein a cylinder device (600) is disposed on both sides of the protrusion (312, 322), and the rod (610) of the cylinder device (600) is fastened to the lower end of the standing plate So that the load on the lifting shaft 500 and the cylinder device 600 can be efficiently increased when the blade load is lifted, as well as the state in which the blade load is mounted horizontally by raising the blade load by pushing the lower end of the blade mounting base 300. [ So that the durability of the trailer can be improved. 2. The apparatus of claim 1, wherein a coupling plate (310) of the blade mount (300) is formed with a gear (314) at the outer periphery of the protrusion (312) 710) so as to rotate the fastening plate (310). The blade for a wind turbine generator according to claim 4, wherein the blade mounting base (300) is equipped with a roller (340) for load distribution on a surface where the fastening plate (310) Trailer for transporting.

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