KR100966647B1 - cable holder in wind generator - Google Patents

Abstract

The present invention relates to a wind generator, and more particularly to a holder for fixing for each type of cable applied to the wind generator.

To this end, the present invention is the body portion constituting the appearance body; A coupling part coupled to and fixed in the wind generator while forming an upper end of the body part; A plurality of cable holders are provided along the circumferential surface of the body, and each includes a cable fixing part for selectively fixing each type of cable.

Wind generator, cable holder, cable fixing

Description

Cable holder in wind generator

The present invention relates to a wind generator, and more particularly to a holder for fixing for each type of cable applied to the wind generator.

In general, a wind generator is a power converter that converts kinetic energy of air, that is, energy obtained from wind resources, into rotational kinetic energy and then into electrical energy.

The wind generator is largely composed of a rotor (1), a nucelle (2) and a tower portion (3) as shown in FIG.

At this time, the rotor (1) is a blade that is rotated by the wind resources, the nussel (2) is a portion containing various components for converting the rotational kinetic energy obtained by the rotation of the rotor (1) into electrical energy. The tower unit 3 is configured to support the rotor 1 and the nussel 2 while being installed on the ground.

Many types of cables are built into such wind generators.

For example, a cable for providing a power source and a signal for driving the rotor 1 and a power generated inside the nussel 2 by driving the rotor 1 may be provided with a lower controller under the tower unit 3 (not shown). Various types of cables, such as a connecting cable, are built in to transfer them.

At this time, the cables for connecting from the nussel 2 to the lower controller are attached to the upper section of the tower portion 3 in the nussel junction box (not shown) inside the nussel 2. Connections are made using cable trays or cable brackets and cable holders to junction boxes (not shown).

However, the above-described various configurations for connecting the conventional cables have a problem in that the overall work is difficult and the working time becomes long because each cable is individually configured to be fixed in the tower portion.

In other words, considering the operation of fixing the cable at a height of about 70M in the air, it was inevitable to fix each cable individually.

In addition, the configuration for fixing the cable used in the existing wind power generator is due to the vertical load of the cable when a situation such as the nussel flow (yawing) due to the effect of the weight of each cable and the effect of the operation is not considered significantly Often the function of the cable holder is lost.

Accordingly, in the wind generator operated by the automatic control method, the short circuit occurs due to the peeling of the coating due to the friction of the metal part of the cable connecting the high power, and as a result of this accident, the failure of the control system or the fire There was a problem that was caused.

In addition, in the case of a conventional cable holder is fixed in a stacking arrangement by arranging the cable in several layers, the workability is inevitably deteriorated to fix the heavy cable. That is, when a problem occurs in a cable fixed in several layers, if one of the cables is to be replaced, it is difficult to maintain the cable by sequentially removing the cables connected from the top.

The present invention has been made to solve the various problems of the prior art described above, the object of the present invention is to make the fixed installation work of various cables conveniently, convenient maintenance, improve the reliability of fixing To provide a new type of cable holder for a wind generator.

According to the cable holder for a wind generator of the present invention for achieving the above object; A coupling part coupled to and fixed in the wind generator while forming an upper end of the body part; And, it is provided with a plurality along the circumferential surface of the body portion, each characterized in that it comprises a cable fixing portion: for selectively fixing the cable for each type.

Here, the circumferential surface of the body portion is formed in a polygonal shape having a plurality of planar portions, and each of the cable fixing portion is provided in each of the plane portion of the circumferential surface of the body portion. At this time, the peripheral surface of the body portion is characterized in that a plurality of handles are further provided.

The cable fixing part may include a fixing block fixed to an outer wall of the circumferential surface of the body portion, and a moving block formed to correspond to the fixing block and installed to be movable toward the fixing block. The opposite surface of the block is characterized in that the plurality of receiving grooves for receiving each cable is formed to correspond to each other.

At this time, the size of each receiving groove of the cable fixing portion is characterized in that it is formed differently according to the type of each cable connected to the cable fixing portion.

The cable holder for a wind generator according to the present invention as described above is manufactured separately and then transported to a place where the wind generator is installed, and thus the overall work time is shortened because the work for the installation of each cable is completed through one assembly work. Has the effect of being able to.

Particularly, the cable holder for a wind generator according to the present invention can provide a plurality of cable fixing parts to have accommodation grooves of various sizes to selectively secure various types of cables and to prevent interference between cables. Has

In addition, the cable holder for a wind generator according to the present invention has the effect that the maintenance of the cable can be carried out conveniently, because each cable is installed in a vertical direction instead of being installed in a stacked state.

Hereinafter, a preferred embodiment of a cable holder for a wind generator according to the present invention will be described with reference to FIGS. 2 and 3.

As shown in FIG. 2, the cable holder for a wind generator according to the exemplary embodiment of the present invention is largely configured to include a body part 100, a coupling part 200, and a cable fixing part 300.

This will be described in more detail for each configuration as follows.

First, the body portion 100 will be described.

The body portion 100 is a portion constituting the outer body of the cable holder, the peripheral surface of the body portion 100 is formed in a polygonal shape having a plurality of planar portions.

In the embodiment of the present invention, but the body portion 100 is formed as a rectangular example, not only may be a triangle depending on the number of cables (not shown) or the type of thickness of each cable as well as a polygon more than a pentagon It may be.

In addition, the embodiment of the present invention suggests that a plurality of handles 110 are further provided on the circumferential surface of the body portion 100.

At this time, the handle 110 is configured to provide convenience of the transport for the body portion 100, and may be provided with only one on each side corresponding to each other, as shown in the embodiment of the present invention and Likewise, each plane portion of the body portion 100 may be provided for each.

Next, the coupling unit 200 will be described.

The coupling part 200 is a series of components for coupling and fixing the body part 100 to the junction box supporter 31 in the wind generator as shown in FIG. 3, and the coupling plate 210 and the connecting rib 220. It is configured to include).

In this case, the junction box supporter 31 is a series of components for fixing and supporting the junction box (not shown) attached to the nussel 2 constituting the wind generator.

In addition, the coupling plate 210 forming the coupling part 200 is a portion fixed to the junction box supporter 31 and is formed in a flat plate shape.

In this case, a plurality of fastening holes 211 corresponding to each other are formed on the surface of the junction box supporter 31 and the coupling plate 210 opposite thereto, and the fixing bolts 212 are interposed between the fastening holes 211. ) Is fastened and fixed in a penetrating state.

In addition, the connecting rib 220 is a series of components that serve to connect the coupling plate 210 and the body portion 100.

At this time, the connecting rib 220 is formed in the cross-section "b" shape while the lower end is fixed to each of the four corners of the body portion 100 and the top of each of the four corners of the coupling plate 210 It is fixed.

Next, the cable fixing part 300 will be described.

The cable fixing part 300 is a series of components for fixing the cables while the cable of each type is selectively mounted. At this time, the cable fixing part 300 is provided in plurality along the circumferential surface of the body portion 100, each is configured to selectively fix the cable for each type.

The cable fixing part 300 includes a fixing block 310 and a moving block 320.

Here, the fixing block 310 is a portion fixedly installed on the outer wall of the circumferential surface of the body portion 100, the moving block 320 is formed to correspond to the fixing block 310 and the fixing block 310 ) Is installed to be movable.

In this case, a plurality of receiving grooves 330 in which each cable is accommodated is formed in the opposite surface between the moving block 320 and the fixed block 310 to correspond to each other.

The plurality of receiving grooves 330 serves to maintain the installation in the correct position without each cable interfere with each other. That is, the twisting of the cable, which may be caused during the operation of the wind power generator, may be prevented due to the respective receiving grooves 330, and the cables may be separated from each other by having a predetermined interval therebetween. Radio interference due to electromagnetic waves of electric current flowing through the cables can be prevented.

In particular, each receiving groove 330 is preferably formed so that various types of cables can be selectively fixed, for this purpose in the embodiment of the present invention the size of each receiving groove 330 is the cable fixing portion 300 It is formed differently according to the type of each cable connected to the cable.

For example, when there are three receiving grooves 330 formed in a specific cable fixing part 300, all three receiving grooves 330 are formed to have different sizes. Of course, all three receiving parts 330 formed in the specific cable fixing part 300 may be formed to have the same size but different from the size of the three receiving parts 330 formed in the other cable fixing part 300. have.

The reason for differently forming the size of each receiving groove 330 as described above is to enable stable support of the cable by fixing to the receiving groove 300 of the appropriate size according to the type (or cable diameter) of the cable. to be.

In addition, although the structure for moving the moving block 320 with respect to the fixed block 310 may be made in various ways, in the embodiment of the present invention the moving block 320 and the fixed block 310 in sequence While penetrating, it is proposed that the bolts 340 can be tightened to narrow the gaps between the blocks 310 and 320 or loosened to widen the gaps between the blocks 310 and 320.

In the cable holder for a wind generator according to the embodiment of the present invention as described above, since the installation of the cable holder in the wind generator is completed once, the overall work time can be shortened.

In addition, since the cable holder for a wind generator according to the embodiment of the present invention is manufactured so that all the plurality of cable fixing parts 300 for fixing the cable are formed in one piece, after transporting to the corresponding installation place when the wind generator is installed. It has the advantage of being installed.

Hereinafter, the application process of the cable holder for a wind generator according to the embodiment of the present invention described above will be described in more detail.

First, the cable holder for a wind generator according to an embodiment of the present invention is manufactured in a separate place, the cable holder thus manufactured is transported to the place where the wind generator is installed is installed in the wind generator.

In this case, the cable holder is fixed by coupling the coupling part 200 to the junction box supporter 31 installed in the nussel 2 of the wind generator.

When the overall installation of the cable holder is completed, each cable is mounted to each cable fixing part 300 of the cable holder.

At this time, when the receiving groove 330 between the moving block 320 and the fixing block 310 constituting the cable fixing part 300 is formed in a variety of sizes to enable the installation of each type of cable operator After mounting the cables in each of the receiving groove 330 suitable for the size of each cable by tightening the bolt 340 so that the moving block 320 is in close contact with the fixed block 310.

Therefore, each cable accommodated in the receiving groove 330 is maintained in a stable support state in a state separated from each other.

As a result, the cable holder according to the embodiment of the present invention is configured to be selectively coupled and fixed to the wind power generator while the plurality of cable fixing parts 300 are integrally formed. Combined individual tasks can be performed in a batch can be shortened the overall work time, and the advantage of being able to prevent interference or unstable installation between each cable.

1 is a perspective view showing the external structure of a conventional wind generator in the related art

Figure 2 is a perspective view for explaining the cable holder of the wind generator according to a preferred embodiment of the present invention

Figure 3 is a perspective view showing for explaining the structure for installing the cable holder of the wind generator according to a preferred embodiment of the present invention

Claims (5)

A body part forming an exterior body; A coupling part coupled to and fixed in the wind generator while forming an upper end of the body part; And, Comprising a plurality of cables vertically penetrating each provided along the circumferential surface of the body portion, and a cable fixing portion for selectively fixing the respective cables: The cable fixing part And a fixed block fixed to an outer wall of the circumferential surface of the body part, and a moving block fastened to the fixed block in a state in which the fixed block is formed to correspond to the fixed block and installed to be movable toward the fixed block. Opposite surfaces of the fixed block and the moving block are spaced apart from each other in the horizontal direction of the corresponding surface while a plurality of receiving grooves for receiving each cable is characterized in that the wind generator cable holder characterized in that the concavity formed. delete delete delete The method of claim 1, Each receiving groove size of the cable fixing portion Cable holder for a wind generator, characterized in that formed differently depending on the type of each cable connected to the cable fixing portion.

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