KR100963794B1 - Support point variable typed transmission line - Google Patents

Abstract

According to the present invention, an iron tower; A pair of guides supported by both sides of the pylon to provide horizontal movement paths, respectively; A pair of chain hoists which are supported by the pair of guides and are horizontally moved, and are provided with chains that are unwinded and wound in a vertical direction while being supported on one side of each guide; A pair of brackets connected to the pair of chain hoists, each of which is horizontally and vertically moved and is provided to support at least one insulation insulator on both sides; And a support point variable transmission line including a remote control device for remotely controlling the pair of chain hoists.

According to this, in constructing an ultra-high voltage direct current transmission line suitable for the domestic commercial steel tower structure, there is an advantage that it is possible to safely and easily control the ground height and pole spacing of the power line for the electrical environmental characteristics test.

HVDC, Transmission Line, Power Line, Chain Hoist, H Beam, I Beam, Bracket, Roller

Description

Support point variable typed transmission line

The present invention relates to a transmission line, and more particularly, to a support point variable transmission line to facilitate the control of the power line.

In general, high voltage direct current (HVDC) lines enable mutual flexibility through the cooperation of surplus power through long-distance grid linkages, increasing the need for their construction worldwide in terms of supply and demand cooperation between countries.

In the past, Korea has relyed on the AC transmission method for the transportation of general electric power including a large amount of electric power, but it is necessary to establish a test steel tower in advance and develop an ultra-high voltage DC power transmission line suitable for the domestic environment in preparation for system linkage between countries.

To develop a standard pylon model for this, it is necessary to verify the optimal pole placement of the tower. That is, due to the characteristics of the DC line, it is essential to study the human body effect caused by the flow of ions generated from both poles and the electrical environmental disturbance caused by the corona.

However, in Europe, the United States, and Japan, where these ultra-high voltage direct current transmission lines have already been commercialized, it is difficult to localize various equipments based on the structural steel tower structure. As the adjustment of the distance (distance of the nearest track from the ground) and the pole spacing is made by the structure that moves the steel tower itself, there is a problem that control of the power line is not easy.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a variable point support type transmission line that makes it easy to test the electric environment characteristics by varying the support point of the power line.

Steel tower support point variable type transmission line according to an aspect of the present invention to achieve the above object; A pair of guides supported by both sides of the pylon to provide horizontal movement paths, respectively; A pair of chain hoists which are supported by the pair of guides and are horizontally moved, and are provided with chains that are unwinded and wound in a vertical direction while being supported on one side of each guide; A pair of brackets connected to the pair of chain hoists, each of which is horizontally and vertically moved and is provided to support at least one insulation insulator on both sides; And a remote control device for remotely controlling the pair of chain hoists.

Here, the pair of guides are provided with a plurality of H beams each of which is fixed to the upper side of each of a plurality of locations on the iron tower, and a single I beam is installed orthogonally fixed to the lower side of the plurality of H beams. .

In addition, the pair of chain hoists are further provided with a roller which is horizontally movable in a gear-engagement manner along one side of the pair of guides, and a vertical fastening part which is connected to the lower part of the chain to move up and down, respectively. do.

In addition, the pair of chain hoist is characterized in that the sensor is further provided to measure the separation distance from the center of the pylon 110 and the degree of loosening and winding of the chain, respectively.

As described above, according to the support point variable type transmission line according to the present invention, it is possible to safely and easily control the ground height and the pole spacing of the power line for the electric environment characteristic test in constructing an ultra high voltage DC transmission line suitable for the domestic commercial steel tower structure. Has the advantage.

Hereinafter, with reference to the accompanying drawings looks at in detail with respect to the support point variable transmission line according to an embodiment of the present invention.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

1 is a view showing a support point variable type transmission line according to an embodiment of the present invention, and FIG. 2 is an enlarged perspective view of the main portion of FIG.

As shown in the drawings, the support point variable power transmission line according to an embodiment of the present invention is supported on both sides of the pylon 110 and the pylon 110 for the electrical environment characteristic test is provided to provide a horizontal movement path, respectively Supported by a pair of guides 120 and the pair of guides 120, respectively, is horizontally moved, the guide 132 is provided with a chain 132 that is unwinding and winding in the vertical direction while being supported on one side of each guide 120 A pair of chain hoists 130 to be connected with the chain hoist 130, the bracket 140 being horizontally and vertically moved and provided with a plurality of insulation insulators 150 supported on both sides, and the pair It is configured to include a remote control device (not shown) connected to each chain hoist 130 and a signal cable so as to remotely control the horizontal movement, loosening, and winding of the chain hoist 130.

Here, the pair of guides 120 includes a plurality of H beams 121 each having an upper side fixed to a plurality of both sides of the steel tower 110, and a joint plate 123 below the plurality of H beams 121. A single I-beam 122 is fixedly installed orthogonally to each other.

In addition, the rollers 131 of the chain hoist 130 to be described later are respectively engaged to both sides of the I-beam 122, so that the chain hoist (from the environmental factors such as rain or wind when the horizontal hoist or horizontal movement of the chain hoist 130 stops) Preferably, the rack gear 122a is formed to stably guide or stop 130).

In addition, stoppers sensors S are provided at both ends of each of the I beams 122 to limit the horizontal movement distance of the chain hoist 130.

In addition, the pair of chain hoists 130 are provided with a roller 131 horizontally movable in gear engagement with the rack gear 122a of the I-beam 122 along one side of the pair of guides 120. And, a horizontal transfer motor (M) for receiving power from the external power cable to provide a rotational force to the roller 131, and the vertical fastening portion connected to the lower portion of the chain 132 is raised and lowered and formed a plurality of fastening holes 133, a lifting motor (M ') for providing power to unwind and wind the chain 132 in the vertical direction by receiving an external power source, and horizontal from the center of the pylon 110 of each chain hoist 130 It comprises a detection sensor (not shown) provided to measure the separation interval and to determine the degree of loosening and winding of the chain 132 to measure the lowest ground clearance of the power line (L).

The chain hoist 130 is preferably installed to withstand a constant load of approximately 20 Ton in consideration of the abnormal load caused by various environmental factors.

In addition, the bracket 140 is provided with a pair of connecting rods 141 having a connection hole formed in one-to-one correspondence with the fastening holes of the vertical fastening part 133 to be bolted to be vertically interlocked with the vertical fastening part 133. It is installed, the connecting plate 142 is installed on the lower side to support the connecting table 141. Protruding portions 142a are provided at both sides of the connecting plate 142 so that both ends of the rotation shaft P are supported and rotatably installed.

In addition, one end of the insulator 150 is installed on the connecting plate 142 of the bracket 140 so as to be rotatable up and down through the horizontal fastening unit 160, for this purpose one side of the horizontal fastening unit 160 It is connected to the rotating shaft (P) and the fixing connecting member 165, the other side is also formed to be connected to the insulators 150 by the same connecting member 165.

In the above description, reference numeral "L", which is not described, is a power line connected to the other ends of the insulators 150.

According to such a configuration, the support point variable power transmission line of the present invention is installed so that the chain hoist 130 is moved horizontally along the guide 120 on both sides of the pylon 110 by remote control of the remote control device, the power line (L) It is possible to easily adjust the pole spacing between).

In addition, the ground clearance (distance of the nearest track from the ground) of the power line (L) is raised and lowered by the chain 132 of the chain hoist 130 to the vertical fastening portion 133, the bracket 140, and the insulator 150. Subsequent series of configurations are moved up and down together to control by adjusting the ground direction height of the power line (L).

As described above, the present invention has the advantage that it is more economical and effective to conduct the pre-environmental characteristics test in constructing the ultra-high voltage DC transmission line suitable for the domestic commercial steel tower structure by easily adjusting the pole spacing between the power line (L) and the ground height. have.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and it should be understood by those of ordinary skill in the art to which the present invention relates, Of course, various modifications and variations can be made within the equivalent range.

1 is a view showing a support point variable transmission line according to an embodiment of the present invention, and

FIG. 2 is an enlarged perspective view of the main portion of FIG. 1. FIG.

DESCRIPTION OF REFERENCE NUMERALS

110: pylon 120: guide

130: chain hoist 140: bracket

150: insulator L: power line

S: stopper sensor

Claims (4)

Pylon 110; A pair of guides 120 supported by both sides of the pylon 110 to provide horizontal movement paths, respectively; The pair of chain hoists 130, which are supported by the pair of guides 120 and moved horizontally, are provided with chains 132 that are unrolled and wound in a vertical direction while being supported on one side of each guide 120. ; A pair of brackets 140 connected to the pair of chain hoists 130 to move horizontally and vertically, each of which is provided with at least one insulating insulator 150 on both sides; And Support point variable transmission line including a remote control device for remotely controlling the pair of chain hoist (130). The method of claim 1, wherein the pair of guides 120, A plurality of H beams 121 each having an upper side fixed to each of a plurality of places on both sides of the pylon 110 and a single I beam 122 fixedly installed orthogonally under the plurality of H beams 121 are provided. Support point variable type transmission line, characterized in that. The method of claim 2, wherein the pair of chain hoists 130, The roller 131 is provided to be horizontally movable by gear engagement along one side of the I-beam 122, and the vertical fastening portion 133 connected to the lower portion of the chain 132 is further provided. Support point variable type transmission line, characterized in that. The method of claim 1, wherein the pair of chain hoists 130, Support point variable transmission line, characterized in that the sensor is further provided to measure the separation distance from the center of the pylon 110 and the degree of loosening and winding of the chain (132).

Images