KR100927116B1 - Suspend insulator for power-transmission line steel tower - Google Patents

Abstract

PURPOSE: A suspension insulator for a transmission line pylon is provided to maintain the sag and expansion of a transmission line naturally by supporting the transmission line by a windup spring of a roller. CONSTITUTION: A combining unit(10) includes a hollow part, a connection hole, a rotary ball, and a coupling rod. A combining piece is formed in an upper side of an edge(20). A connection plate is formed in a lower side of an insulator. A transmission connection unit(30) includes a roller(36). The windup spring is positioned in the roller. One side of a connection wire is wound around the roller. The other side of the connection wire is connected to a transmission clamp. The connection wire supports the transmission line when the transmission line connected to the transmission line clamp is sagged or expanded. A jumper wire support(50) includes a support rod, a spring, and a support hole. The jumper wire is inserted into the support hole.

Description

Suspension Insulator for Transmission Line Steel Tower {SUSPEND INSULATOR FOR POWER-TRANSMISSION LINE STEEL TOWER}

The present invention relates to a suspension insulator for a transmission line pylon, and more particularly, the transmission line is connected to the lower side of the suspension insulator that connects the transmission line to the steel tower, respectively. If the transmission line sag due to strong wind or temperature change, the transmission line is naturally sag by the roller of the transmission line connector, and the sag line is restored to its original position, thereby preventing breakage or disconnection of the transmission line. It is about a suspension insulator for a transmission line pylon.

In general, electric power is transferred from a power plant to a substation, after several stages of transformation, and then to a customer through a pole transformer of a pole along a distribution line such as a concrete pole.

In addition, the high-voltage cable of each pole of the customer side is wired to have a tension of the upper support tensioned to the top of the pole, and is connected to the jumper wire upward or downward through a line post insulator fixed to the upper support.

As such, transmission lines are used as a means of transmitting power from substations, and a plurality of steel towers for supporting the transmission lines are installed in mountains or plains to connect a plurality of transmission lines to each other.

The steel tower that connects and supports these transmission lines varies depending on the transmission power, voltage, and terrain of the line, and may be as high as 60 m.

Steel towers of transmission lines usually support three-phase, two-wire, or six wires with insulators, and the distance between the steel towers is 20 to 30m, and the minimum height from the surface of the wires installed on the tower is the electrical equipment technology. It is determined by, for example, it is 6m for the 150,000V track.

In general, when crossing a wide river or deep valley, the span is long, and thus the tension of the wire is increased, so a particularly strong structure is required.

Even if the transmission line is small, or there is a pole built on a single foundation as a support for the distribution line or telephone line. Such transmission line pylons connect a plurality of transmission lines to each other. Due to the nature of being installed at high altitudes, wind, snow, and rain are affected by a lot of climatic conditions are being installed under conditions that are likely to cause vibration or amplitude.

Therefore, after a certain period of time, the transmission line is sagging, and when strong winds blow, the transmission lines are shaken up and down severely, causing friction with each other. This is the cause of large safety accidents such as short circuits or short circuits. It became.

Therefore, in order to solve this problem, the maintenance work to adjust the tension of the transmission line is periodically performed to prevent the above-mentioned safety accident caused by the sagging of the transmission line. This possible relationship caused a great inconvenience and originality of the power generation generation, and due to the problems associated with this inconvenience there was an unsafe problem due to the inability to perform maintenance work from time to time.

Accordingly, in order to prevent sagging of the transmission lines connected and installed by the steel tower and to cause sagging of the transmission line after the transmission line sag, the transmission line is again restored to its original position. Yong Hyun-soo was invented.

The prior art is provided with a steel tower bracket that can be fastened and fixed to the transmission line steel tower, the lower portion of the steel tower bracket is provided with a suspension insulator, the lower surface of the suspension insulator is made of a polymer synthetic rubber Finished insulating folding member is connected through a socket crevis, and each of the lower ends of the insulating folding member is connected to the insulated transmission line clamp that can be connected and fixed to the transmission line, the elastic spring has excellent elastic restoring force inside the insulated transmission line clamp This connection is provided, and the guide connection member is formed at the lower end of the insulated power line clamp, the guide hole for inserting and connecting the connecting projection of the insulated power line clamp to both sides, providing good wire support and insulation. In addition, the transmission line according to the tension change The minimization of drooping can be minimized to improve convenience and safety in maintenance.

However, in the prior art as described above, the elastic spring is configured inside the clamp connecting the power transmission line so that the transmission line is expanded and contracted by the elastic restoring force of the elastic spring, but the elastic restoring means is configured as the elastic spring. As a result, corrosion occurs in the elastic spring due to seasonal changes during the long-term installation, which causes the elastic spring to break.

In addition, the elastic spring is caused by the contraction and expansion of the transmission line is repeated, as the action is repeated, the elastic restoring force of the elastic spring is reduced, causing a problem that the elastic spring must be replaced frequently.

In addition, since the transmission line is drawn and connected by the hinge opening and closing of the transmission line clamp, there is a problem that the transfer of electricity is not properly made through the jumper wire connecting the clamp because the close contact between the transmission line and the transmission line clamp is not made.

The present invention has been devised to solve the problems of the suspension line insulators for the transmission line of the conventional transmission line, respectively, the transmission line connector on the lower side of the insulator, respectively, and the roller is inserted into the spring of the transmission line connector by the roller By allowing the transmission lines to be connected to each other, the roller is rotated when the transmission line contracts due to sag, which causes the transmission line to sag and the expansion of the transmission line is maintained by the spring spring inserted in the roller when the sagging transmission line is inflated again. By supporting the transmission line by the spring, the deflection and expansion of the transmission line are naturally maintained to prevent breakage of the transmission line. To improve the electrical connection of the The purpose is to provide a suspension insulator for the transmission line to be made active.

Suspension insulator for pyrotechnic tower steel line according to the present invention as a means for achieving the above object, the coupling sphere is provided with a coupling rod formed with a circular rotating ball is formed inside the hollow portion of the arc and through the fastening hole; An insulator formed at an upper end of the coupling bar provided at the inner side of the coupling unit and coupled by a pin, and having a connecting plate formed at a lower end thereof; The insulator rods connected to both sides of the insulator connecting plate and bent downwards are formed on both sides of the insulated rod connected to the bottom of the insulator and inserted into the bracket of the insulated rod. A transmission line connector configured of a roller through which a knot hole is formed; A connection wire that is connected to a transmission line clamp, one side of which is knotted in a knot hole of the transmission line connector, the other side of which is connected to a transmission line coupled to the transmission line, to support the transmission line when the transmission line is coupled to the transmission line clamp; And a support rod extending toward the lower side of the connecting plate of the insulator, a spring inserted into the support rod, and a jumper wire support elastically supported by the spring and supported by a jumper wire inserted into the lower portion of the insulator.

Suspension insulator for the transmission line pylon of the present invention, the transmission line connector is formed on both lower sides of the insulator, but the roller is inserted in the transmission line connector when the transmission line is deflected by sag spring due to the roller is inserted into the spring. The expansion of the transmission line is maintained by a spring interpolated in the rollers as it rotates to cause the transmission line to sag and the sagging transmission line expands again.

In addition, the transmission line is supported by the springs interpolated in the rollers so that sagging and inflation of the transmission line are naturally maintained, thereby preventing the transmission line from being broken.

In addition, the contact connecting plate is further formed inside the transmission line clamp connecting the transmission line to the transmission line connector, but by forming a contact protrusion on the inner surface of the contact connecting plate to strongly compress and connect the transmission line, the electrical connection of the transmission line by the jumper wire Improved, smoothly transfer of electricity.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

1 is an exploded perspective view showing a suspension insulator for the transmission line of the present invention, the transmission tower is a perspective view showing the suspension insulator for the tower of the transmission line of the present invention, Figure 3 is a state in which the transmission line is connected by the suspension line for the transmission tower of the present invention 4 is a schematic view showing the configuration of a coupler which is a constituent of a suspension insulator for a transmission line steel tower of the present invention, Figure 5 is a configuration showing the configuration of a roller that is a constituent of a suspension insulator for a transmission tower steel tower of the present invention FIG. 6 is a block diagram showing the configuration of a fold-up wire supporter which is a constituent of a suspension insulator for a transmission line of a transmission line according to the present invention, and FIG. It is a block diagram.

As shown in the present invention, the transmission line suspension tower for the present invention, as shown in Figures 1 and 2 arc-shaped hollow portion 11 is formed therein, the fastening hole 12 is through the hollow portion 11 Coupling tool 10 provided with a coupling rod 14 formed with a circular rotating ball 13 to be introduced into the inside, and the coupling rod 14 provided in the coupling tool 10 is introduced into the pin 21 Combination piece 22 is coupled to the upper end and the lower insulator 20 having a connecting plate 23 formed on the lower end, respectively connected to both sides of the connecting plate 23 of the insulator 20 and bent downward And an insulating rod 32 having a bracket 31 connected to the lower end thereof, and roller shafts 33 which are inserted into the bracket 31 of the insulating rod 32 and rolled out, are formed on both sides, and a spring spring 34 is formed on the inner side thereof. One side is provided at the transmission line connector 30 is composed of a roller 36 through which the knot hole 35 is provided in the center, and the knot hole 35 of the transmission line connector 30. And is wound on the roller 36 and connected to the power line clamp L1 coupled to the power line L to support the power line L when sagging or expanding the power line L coupled to the power line clamp L1. By the connecting wire 40, the support rod 51 extending to the lower surface side of the connecting plate 23 of the insulator 20 and the spring 52 and the spring 52 interpolated inside the support rod 51 It is composed of a jumper wire supporter 50 which is elastically supported and has a support hole 53 through which a jumper wire J is inserted and supported at the bottom thereof.

The coupler 10 is coupled to the transmission line pylon 101 to support the insulator 20 and the transmission line connector 30, as shown in Figure 4, the transmission line pylon 101 and the coupling The coupling of the sphere 10 is fastened to the fastening hole 12 through the coupling hole 10, or by fastening means such as other fastening pins.

In addition, the coupling sphere 10 is formed with an arc-shaped hollow portion 11 and the circular rotating ball 13, which is the upper end side of the coupling rod 14 is inserted into the arc-shaped hollow portion 11 is configured Since, for example, even if the wind blows strongly, the circular rotating ball 13 of the coupling rod 14 can be freely flows inside the arc-shaped hollow portion 11 of the coupling hole 10 is the insulator 20 Decreases the impact of the wind received.

Suspension insulator for the transmission line pylon of the present invention configured as described above, as shown in Figure 3, the transmission line (L) for transferring electricity is installed to be connected to the transmission line connector 30, respectively, the transmission line connector (30) As shown in FIG. 5, as the roller 36 is rolled out by the roller shaft 33 inside the bracket 31, and the spring 34 is interpolated inside the roller 36. One side is knotted in the knot hole 35 of the roller 36 and the winding and unwinding operation of the connection wire 40 wound on the outer surface of the roller 36 is performed.

Accordingly, since the transmission line clamp L1 of the transmission line L connected to the connection wire 40 can be opened or narrowed to the left / right side, for example, the transmission line is caused by a strong wind or a temperature change. If (L) is sag, the connection wire 40 is released from the roller 36 to support the power transmission line (L), the wind does not blow or the temperature is hot, the state of the sagging power transmission line (L) is inflated When maintained, the connection wire 40 is wound on the roller 36 to support the power transmission line L. Even if the power transmission line sags due to a strong wind, temperature change, or falling snow, the power transmission line is cut or To prevent it.

In addition, since the connection wire 40 is firmly supported by the transmission line L by the winding or unwinding of the roller 36 side, a failure does not occur even when installed for a long time, and a spring spring is formed inside the roller 36. Since the 34 is interpolated, the spring spring 34 is prevented from being corroded by rainwater or moisture or temperature change, and thus the long-term use is possible, thereby solving the problem of the prior art in which parts must be replaced at any time. .

Furthermore, the present invention, the transmission line pylon suspend insulator, as shown in Figure 6 by the spring 52, the jumper wire support 50 for supporting the jumper wire (J) is interpolated inside the support rod 51 As the elasticity is applied, even if the wind blows or the jumper wire (J) is shaken, the support force of the jumper wire (J) can be improved, so that the electrical safety accident that the jumper wire (J) is broken and the electricity is shorted can be prevented in advance. have.

In addition, as shown in FIG. 7, the inside of the power transmission line clamp L1 to which the power transmission line L is coupled to closely contact the inner surface of the power transmission line L introduced into the inner side of the power transmission line clamp L1 to be in close contact with the inner surface 61. ) Is closely interposed between the contact plate 60 is formed, the contact plate 60 is fastened to the bottom of the transmission line clamp (L1) fastener of the jumper wire connector (J1) is connected to the jumper wire (J) It is comprised so that the transmission line L drawn in in the inside of the transmission line clamp L1 may be in close contact with each other by the operation.

As the close contact plate 60 is formed in a shape in which one side is curled inward like a spring, the jumper wire connector J1 is closely connected when the jumper wire connector J1 is tightened to the inside of the power transmission line clamp L1. By strongly pressing the end of the plate 60, the close contact plate 60 is pressed and pressed can strongly press the power transmission line (L) drawn into the inside of the power transmission line clamp (L1).

Accordingly, the power transmission line L connected by the power transmission line clamp L1 is strongly adhered to the close contact plate 60 at the inner side of the transmission line clamp L1, and the jumper wire connector (S) is attached to the close contact connection plate 60. J1) is configured to be in close contact to facilitate the transfer of electricity.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the techniques that can be used by those skilled in the art to which the present invention pertains are naturally included in the technical scope of the present invention.

1 is an exploded perspective view showing a suspension insulator for a transmission tower of the present invention.

Figure 2 is a perspective view showing the suspension insulator for the transmission line of the present invention.

3 is a perspective view showing a state in which a transmission line is connected by a suspension insulator for a transmission tower of the present invention.

Figure 4 is a block diagram showing the configuration of the coupler that is the main component of the suspension insulator for transmission tower of the present invention.

Figure 5 is a block diagram showing the configuration of the roller, which is a constituent of the suspension insulator for transmission line steel tower of the present invention.

Figure 6 is a block diagram showing the configuration of the fold wire supporter that is the main component of the suspension insulator for transmission line pylon of the present invention.

Figure 7 is a block diagram showing the configuration of the close contact plate as a main component of the suspension insulator for transmission line of the present invention.

<Description of the symbols for the main parts of the drawings>

10: coupler 11: hollow part

12: fastening hole 13: circular rotating ball

14: binding rod 20: insulator

21: pin 22: coupling piece

23: connecting plate 30: transmission line connector

31 Bracket 32 Insulation Rod

33: roller shaft 34: spring

35: knot hole 36: roller

40: connecting wire 50: jumper wire support

51: support rod 52: spring

53: support hole 60: contact plate

61: contact protrusion L: power transmission line

L1: Transmission line clamp J: Jumper line

J1: Jumper Wire Connector

Claims (2)

Coupling hole 10 is provided with a coupling rod 14 formed with a circular hollow ball 11 is formed inside the hollow portion 11, the fastening hole 12 is passed through the hollow 11 )Wow; The insulator 20 in which the coupling rod 14 provided in the coupling hole 10 is inserted inward and coupled to the coupling piece 22 by the pin 21 is configured at the upper end and the connecting plate 23 is formed at the lower end thereof. Wow; The insulating rod 32 connected to both sides of the connecting plate 23 of the insulator 20 and bent downward, and the bracket 31 is connected to the lower end and charged into the bracket 31 of the insulating rod 32 A power transmission line connector 30 formed of rollers 33 formed on both sides of the roller shaft 33 to be rolled up and provided with a spring 34 on the inner side and a knot hole 35 through the center; One side is knotted in the knot hole 35 of the transmission line connector 30 is wound on the roller 36 and the other side is connected to the transmission line clamp (L1) coupled to the transmission line (L) is coupled to the transmission line clamp (L1) A connection wire 40 supporting the power transmission line L when the power transmission line L sags or expands; A support rod 51 extending toward the lower surface side of the connecting plate 23 of the insulator 20, a spring 52 inserted into the support rod 51, and a spring 52 inserted into the support rod 51 and a jumper wire under the spring 52. J) suspension insulator for transmission line pylon, characterized in that it comprises a jumper wire support 50 formed with a support hole 53 is supported. The method of claim 1, A close contact plate 60 in which a close contact protrusion 61 is formed on the inner surface of the transmission line clamp L1 to which the transmission line L is coupled to strongly contact the transmission line L introduced into the inner side of the transmission line clamp L1. More interpolated, The close contact plate 60 is fastened to the lower portion of the power line clamp L1 and is connected to the inside of the power line clamp L1 by a tightening operation of a jumper wire connector J1 to which a jumper wire J is connected. A suspension insulator for a transmission line pylon, which is configured to be in close contact with (L).

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