KR100826856B1 - A jumper line eqipment for aerial transmission line - Google Patents

Abstract

A jumper line connection device for a power transmission line is provided to prevent short-circuit of a jumper line and damage of a power transmission line structure adjacent to the jumper line by maintaining tension of the jumper line through the load of a weight. A jumper line connection device for a power transmission line includes an insulator(110), a connection unit(120), a plurality of guide plates(130), a pair of guide rollers(140), and weights(150). The insulator includes a first bolt unit(111) and a second bolt unit(113). An end of the first bolt unit is coupled with a nut(N) and the second bolt unit is installed on a lower part of the insulator. The connection unit includes a spiral groove(121) coupled with the second bolt unit, a connection piece with a pair of coupling holes(122), a projection(125) with a pair of projected coupling bolts(124), a plurality of compartment plates(127) with installation holes(126), a slit groove(128) between the compartment plates, and a rotation preventing pin(129). The guide plate includes a coupling hole(131) communicated with the installation hole, a connection groove(133), and a pair of guide grooves(135). The pair of guide rollers are slidably connected along the guide grooves between the guide plates and include spiral units(143) on both ends, rotators(145) made of rubber inside guide pins(141), and semicircular grooves(147) for preventing the jumper line from being separated. The weights are coupled with both ends of the guide rollers. Each of the weights includes a coupling groove(151) coupled with the spiral unit and a plurality of coupling holes(153).

Description

Jumper wire connecting device for power transmission overhead line {A JUMPER LINE EQIPMENT FOR AERIAL TRANSMISSION LINE}

The present invention relates to a jumper wire connection fixing device, and more particularly, a jumper wire installed to install a power line connected to a power transmission tower is connected to a guide roller sliding along a guide groove of a guide plate, and connected to both ends of the guide roller. By fastening the weight so that the jumper wire can maintain tension by the weight of the weight, it prevents the jumper wire from swinging in response to external climate change and is installed at the disconnection of the jumper wire and the position adjacent to the jumper wire. The present invention relates to a jumper wire connecting device for a transmission overhead line to prevent damage to the transmission line structure.

Transmission line is a power facility for supplying electric power produced by power plant to substation through substation. In modern society, accidents during transmission period are directly connected to long-term power supply interruption and have a significant social impact. do.

Therefore, it is necessary to take prompt measures when an accident occurs on the transmission line, and preventive measures through preliminary checks and the like are required to prevent an accident from occurring.

Transmission lines are supported by transmission towers, and the transmission towers are installed at predetermined intervals between power plants and substations so as to stably support the transmission lines.

These transmission towers are mainly installed in mountainous areas so that high power transmission lines are installed so that they can be separated from general facilities.

On the other hand, the law stipulates to install aviation obstacles for the safe operation of airplanes when nights and clocks are not secured from structures and surfaces above the surface and water surface. have.

If the transmission tower is installed in the polar (wind), wind vanes, anemometers, thermometers, etc. for collecting weather information may be provided in the transmission tower, and if installed in the water or sea, it is necessary to examine the environmental impact, such as water thermometer, flowmeter, water gauge, etc. This transmission tower can be provided.

In addition, when deformation of a transmission tower such as a soft ground or an earthquake danger area is expected, an inclinometer, an accelerometer, a strain gauge, etc. for monitoring the structure of the transmission tower may be provided in the transmission tower.

Since the transmission line is extensively installed throughout the region, aviation obstacles, meteorological observation devices, environmental observation devices, structure monitoring devices, and the like, which are provided in the transmission tower, are exposed to dangers such as wind, snow, rain, and lightning.

In the event of an accident of such devices provided in the transmission tower, it is necessary to take prompt measures, and preventive measures through preliminary checks are required to prevent an accident from occurring.

To this end, it is necessary to collect the information of the devices provided in the transmission tower from time to time and transmit it to the central master device.

Meanwhile, facilities for connecting a power line are installed in the transmission tower.

That is, the transmission tower is provided with a light beam and a pair of suspension insulators connected to both sides of the light beam, and connects the power lines to the suspension insulators and interconnects the power lines with a jump line to construct a power line. At this time, a support insulator is provided on the upper surface of the light wrist, and the middle portion of the jump line is fixed to the upper end of the support insulator.

However, this jumper wire connection structure of the transmission line has the following problems.

The jumper wire installed in the conventional transmission tower has a problem that a frequent power failure occurs after a predetermined period of time after installation. In other words, transmission towers are generally exposed to the outside, which is affected by the climate. Therefore, the jumper wire installed in the transmission tower does not have a separate tension holding means, and after a predetermined period of time after the installation, the tension is loosened and caused by wind, and the transmission tower is damaged and disconnected in this process.

In addition, the impact of the jumper wire swinging by the wind is transmitted to the support insulator or suspension insulator fixing it, which damages the structures of the neighboring power transmission line, there was a problem that requires high maintenance costs.

The present invention has been made in view of the above-mentioned conventional problems, the object of which is to connect a jumper wire installed to install a power line connected to the transmission tower to the guide roller sliding along the guide groove of the guide plate body, both ends of the guide roller By fastening the weight to the jumper wire to maintain the tension under the weight of the weight, the jumper wire is prevented from swinging in response to external climate change, and the jumper wire is disconnected and the position adjacent to the jumper wire. Provides a jumper wire connecting device for a transmission line to prevent damage to the installed transmission line structure in advance.

The present invention for achieving the above object is the first bolt is inserted into the connection hole of the light beam on the upper end so as to be fastened to the light beam of the transmission tower installed to connect the power line in each section of the transmission line is the first bolt An insulator provided with an additional portion and a second bolt portion provided below;

A spiral groove having a second bolt portion coupled to the insulating insulator is formed thereon so as to be connected to the insulator, and a pair of nut couplings to an end and a connection piece having a pair of coupling holes on one side and the other side of the spiral groove are fastened. A locking projection provided with a bolt is provided, and a plurality of partition plates having an installation hole for fastening the coupling bolts are formed at the bottom, and a slit groove opened downward between the partition plate and the partition plate is provided to prevent rotation of the upper surface thereof. Connector with pin protrusion;

Coupling holes are formed in the upper side to communicate with the installation hole is inserted into each slit groove of the connector is fixed by the coupling bolt, a coupling groove for inserting the anti-rotation pin is formed on the upper side, adjacent to both sides of the coupling hole A plurality of guide plate bodies in which a pair of guide grooves inclined downwardly is integrally formed;

A rubber material having elastic force on the inside of the guide pin is inserted into the guide groove is provided with a spiral portion at both ends is connected to the guide plate body and the guide plate body so as to slide along the guide groove so as to guide the jumper wire branched from the power line And a pair of guide rollers having a semicircular groove for preventing a jumper wire from being separated from the outer circumferential surface of the rotator.

It is fastened to both ends of the guide roller to prevent the fluctuations in the climate change by maintaining the tension of the jumper wire, a weight groove that is integrally provided with a fastening groove and a plurality of fastening holes in which a spiral is fastened to one side and the other side It is configured to include.

According to the present invention, a jumper wire installed to install a power line connected to a transmission tower is connected to a guide roller sliding along a guide groove of a guide plate, and fastens weights at both ends of the guide roller to the load of the weight. By allowing the jumper wire to maintain tension, it is possible to prevent the jumper wire from swinging in response to external climate change and to prevent breakage of the jumper wire and damage of the transmission line structure installed at the position adjacent to the jumper wire. It works.

Hereinafter, a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a perspective view showing a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention.

1 and 2, the jumper wire connecting device 100 for a transmission line according to a preferred embodiment of the present invention is fastened to a light braid 20 having a connection hole 30 installed in the transmission tower 10 Insulation insulator 110, a connector 120 fixed to the insulator 110, a pair of guide plate body 130 fixed to the connector 120 via a coupling bolt (P), the guide plate body 130 It is connected to both ends of the guide roller 140 and the guide roller 140 to guide the jumper wire 50 for installing the power line 40 is connected so as to move up and down along the guide groove 135 formed in the) It is configured to include a weight 150 so that the jumper wire 50 can maintain the tension by the load.

On the other hand, the insulator 110 is installed to protrude downward in the light beam 20 of the transmission tower 10 installed to connect the power line 40 in each section of the transmission line.

At this time, the insulator 110 is provided with a first bolt portion 111 is inserted into the connecting hole 30 of the light arm 20, the end is fastened to the nut (N), the second in the lower portion The bolt portion 113 is provided.

On the other hand, the connector 120 is formed with a spiral groove 121 is coupled to the second bolt portion 113 on the top so as to be fixed to the insulator 110, adjacent to the spiral groove 121 Connection piece 123 is formed on one side and the locking step 125 is provided on the other side.

In this case, a pair of coupling holes 122 are formed in the connection piece 123, and a pair of fastening bolts 124 having nuts N fastened to ends thereof are formed at the engaging jaw 125.

In addition, a plurality of partition plates 127 are protruded from the lower portion of the connector 120, and installation holes 126 are formed in the partition plates 127. At this time, the installation hole 126 is coupled to the coupling bolt (P) is fastened to the nut (N) at the end. A slit groove 128 opened downward is provided between the partition plate 127 and the partition plate 127, and an anti-rotation pin (see FIG. 3; 129) protrudes from an upper surface of the slit groove 128. Is formed.

On the other hand, the pair of guide plate body 130 is inserted into each slit groove 128 of the connector 120 is fixed by the coupling bolt (P).

At this time, the guide plate body 130 has a coupling hole 131 is formed in communication with the installation hole 126 on the upper side. Accordingly, the coupling bolt (P) is inserted into the installation hole 126 and the coupling hole 131 communicated with each other and the nut (N) is fastened to the end thereof, the connector 120 and the guide plate body 130 is It is a close bond.

In addition, a pair of guide grooves 135 inclined to be lowered in mutually opposite directions are formed on both sides of the coupling hole 131, and the anti-rotation pin 129 is inserted into the guide plate body 130. The connecting groove 133 is formed.

Meanwhile, the pair of guide rollers 140 slide along the guide groove 135 between the guide plate body 130 and the guide plate body 130 to guide the jumper wire 50 branched from the power line 40. It is movably connected.

At this time, the guide roller 140 is provided with a spiral portion 143 at both ends thereof is provided with a rubber material rotating body 145 having an elastic force inside the guide pin 141 is inserted into the guide groove 135, Semicircular grooves 147 are formed on the outer circumferential surface of the rotating body 145 to prevent the jumper wire 50 from being separated.

On the other hand, the weight 150 is fastened to both ends of the guide roller 140 to maintain the tension of the jumper wire 50 to prevent the fluctuation in the climate change.

At this time, the weight 150 is formed with a fastening groove 151 to which the spiral portion 143 of the guide pin 141 is fastened on one side thereof, and a plurality of fastening holes 153 are integrally formed on the other side thereof. Prepared.

Accordingly, when the weight of the weight 150 is low, by contacting the weight 150 with another weight 150 to the surface by fastening the bolt to the fastening hole 153 communicated with each other, the weight ( 150) to increase the weight.

Therefore, the jumper wire connecting device for the transmission line having the above configuration prevents the jumper wire from swinging in response to external climate change and breakage of the wire line structure installed at the position of the jumper wire and adjacent to the jumper wire. It will be able to block in advance, the construction relationship according to this will be described in detail.

3 is a sectional view showing main parts of a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention, Figure 4 is a state diagram showing the jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention.

3 and 4, first, the first bolt portion 111 of the insulator 110 is inserted into the connection hole 30 of the light beam 20 installed in the transmission tower 10, and then the end thereof. To the nut (N). Accordingly, the insulator 110 is firmly fixed to the light bracing 20.

Thereafter, the second bolt portion 113 of the light braid 20 is bolted to the spiral groove 121 of the connector 120, thereby coupling the connector 120 to the insulator 110.

Thereafter, the guide plate body 130 is inserted into each slit groove 128 of the connector 120, and then the coupling hole 131 of the installation hole 126 and the guide plate body 130 of the connector 120 communicated with each other. Insert the coupling bolt (P) to the fastening nut (N) at its end. At this time, the anti-rotation pin 129 is inserted into the connection groove 133 of the guide plate body 130.

Accordingly, the connector 120 and the guide plate body 130 forms a rigid coupling structure by the coupling bolt (P).

Thereafter, the spiral portions 143 formed at both ends of the guide pin 141 are connected to the guide groove 135 and the guide groove 135 formed on the pair of guide plate bodies 130.

Thereafter, a jumper wire 50 is connected to the outer circumferential surface of the rotating body 145 of the guide roller 140. At this time, the jumper wire 50 is inserted into the semicircular groove 147 of the rotating body 145 to a depth such that it is not separated from the rotating body 145 to form a close connection with the guide roller 140.

Thereafter, the spiral portion 143 of the guide pin 141 is fastened to the fastening groove 151 of the weight 150.

Accordingly, the jumper wire 50 can be prevented from fluctuating due to external climate change by maintaining the tension of the jumper wire 50 by the lower shelf of the weight 150.

5 is a perspective view showing another embodiment of a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention.

Referring to FIG. 5, the jumper wire connecting device 100 of the present invention may be bolted to the connector 120 according to the number of connection of the jumper wire 50.

That is, after seating the connecting piece 123 of the one end connector 120 to the engaging jaw 125 of the other connector 120, after inserting the fastening bolt 124 into the coupling hole 122 of the connection piece 123, By fastening the nut (N) to the end of the fastening bolt 124, it becomes usable.

Accordingly, the jumper wire connecting device 100 for the transmission line of the present invention can be easily used regardless of the number of jumper wire (50).

1 is a perspective view showing a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention;

Figure 2 is an exploded perspective view showing a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention,

3 is a sectional view showing the main parts of a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention;

Figure 4 is an installation state diagram showing a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention and

5 is a perspective view showing another embodiment of a jumper wire connecting device for a transmission line according to a preferred embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

10: transmission tower 20: light money

40: power line 50: jumper wire

110: insulator 120: connector

130: guide plate 135: guide groove

140: guide roller 141: guide pin

150 weight

Claims (1)

The end is inserted into the connection hole 30 of the light beam 20 to be fastened to the light beam 20 of the transmission tower 10 installed to connect the power line 40 in each section of the transmission line. An insulator 110 having a first bolt portion 111 to be fastened to a nut N and a second bolt portion 113 provided at a lower portion thereof; A spiral groove 121 is coupled to the second bolt portion 113 at an upper portion thereof so as to be connected and fixed to the insulator 110, and a pair of couplings are adjacent to one side and the other side of the spiral groove 121. A connecting piece 123 having a ball 122 and a pair of fastening bolts 124 protruding from each other are provided with a locking jaw 125 formed with a pair of fastening bolts 124 at an end thereof. A plurality of partition plates 127 having 126 are formed to protrude, and a slit groove 128 opened downward between the partition plate 127 and the partition plate 127 is provided, and an anti-rotation pin 129 on the upper surface thereof. Connector 120 protruding; The coupling hole 131 is formed in the upper side to communicate with the installation hole 126 is inserted into each slit groove 128 of the connector 120 is fixed by the coupling bolt (P), the anti-rotation on the top A plurality of guide plates 130 are formed in which a connection groove 133 into which the pin 129 is inserted is formed, and a pair of guide grooves 135 inclined downwardly in mutually opposite sides of the coupling hole 131 are integrally formed. ); Sliding movement is connected between the guide plate body 130 and the guide plate body 130 along the guide groove 135 so as to guide the jumper wire 50 branched from the power line 40, and both ends of the spiral line ( 143 is provided to the inside of the guide pin 141 is inserted into the guide groove 135 is provided with a rubber material having a resilient rubber 145, the jumper wire 50 is formed on the outer peripheral surface of the rotating body 145 A pair of guide rollers 140 formed with a semicircular groove 147 to prevent them from being separated; Fastening grooves are fastened to both ends of the guide roller 140 to maintain the tension of the jumper wire 50 to prevent fluctuations in the climate change, the spiral portion 143 is fastened to one side and the other side ( 151 and a plurality of fastening holes 153 is a jumper wire connecting device for a transmission line, characterized in that it comprises a weight 150 provided integrally.

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