KR100867214B1 - Support insulator for fixing an overhead electric power line - Google Patents

Abstract

A support insulator for fixing an overhead line is provided to prevent disconnection of a jumper line fixed in a fixing device by supplying a buffering force to an insulator body and the fixing device. A case(10) includes a fixing plate(11), a cylinder installation unit(12) which is connected to a receiving hole and arranged on an upper side of the fixing plate, and a first spring installation part(13). An arm is fixed at the case. The pivot rotating unit(20) is pivotally received in the receiving hole of the case. An insulator main body made of the insulating material is inserted into the first spring installation part of the case and is fixed in a pivot rotating unit. A fixing device is prepared in the bottom of the insulator body(30) exposed to the outside of the case and is fixed and geared with the jumper wire. A buffering device(50) is composed of 3 or more first springs to elastically support the insulator body in all directions so that the insulator body and the fixing device are positioned at right positions. A falling prevention device is composed of a cylinder(61), a piston(62), a second spring supporting a piston(63) upwardly, and a wire(64). One end of the wire is connected to the piston and other end of the wire is connected to the pivot rotating unit. A detection sensor(70) senses the contact if the piston of the falling prevention device is contacted. A first control unit(80) receives a signal from the detection sensor and outputs the danger signal. A wireless transmission unit(90) is controlled by the first control unit and outputs the danger signal from the first control unit to the outside by wireless.

Description

Support insulator for fixing an overhead electric power line}

The present invention relates to a support insulator for fixing overhead lines.

In general, the large power generated in the power plant is transmitted to each substation with high voltage power through transmission lines such as power transmission towers, and then the cable is used for use in each home or building through a multi-stage transformation process at the substation. It is a well known fact that the distribution process that is supplied to each region is used.

At this time, the power supply to the general customer is supplied through the poles installed at regular intervals, and the connection of the overhead wires in each pole is connected by using jumper wires stretched downwards.

The conventional overhead wire connection frequently causes breakdown of the overhead wire due to contact with the pole due to wind pressure.

Therefore, in order to solve this problem, an insulator for fixing the jumper wire was installed in the steel

However, if the insulator for fixing the jumper wire to the complete iron is installed, the wind is not absorbed sufficiently when the wind occurs, the stress is concentrated on the jumper wire fixed to the insulator, the jumper wire is disconnected.

The present invention has been invented to solve the above problems, it is an object of the present invention to provide a support insulator for fixing the overhead line to prevent the disconnection caused by wind power while fully supporting the jumper wire.

The present invention for solving the above problems, the mounting plate having a seating hole and partitioning the cylinder mounting portion and the first spring mounting portion, the cylinder mounting portion disposed in communication with the seating hole and the upper mounting plate, and communicating with the seating hole A case fixed to the wrought iron by having a first spring installation portion disposed below the fixed plate; A pivot rotator rotatably seated in a seating hole of the case; An insulator body of an insulating material inserted into the first spring installation part of the case and fixed to the pivot rotating hole; A fixing mechanism provided at a lower end of the insulator body exposed to the outside of the case and engaged with the jumper wire; A shock absorbing mechanism provided at the first spring mounting portion of the case, the buffer mechanism comprising at least three first springs to support the insulator body in all directions so that the insulator body and the fixing mechanism fixed thereto are in position; The cylinder which is installed in the cylinder installation part of the case and is arranged on the upper pivot pivot, the piston which is installed in the cylinder so as to be movable, the second spring which supports the piston upwardly, and one end is connected to the piston and the other end is An anti-falling mechanism composed of a wire fixed to the pivot rotating hole; A detection sensor which detects the contact of the piston of the drop prevention mechanism; A first control unit which receives a signal from the detection sensor and outputs a danger signal; A wireless transmission unit which is operationally controlled by the first control unit to wirelessly output the danger signal from the first control unit to the outside; Characterized in that it comprises a.

According to the present invention as described above, by providing a sufficient buffering force to the agile body and the fixing mechanism, there is an effect of preventing the disconnection of the jumper wire fixed to the fixing mechanism.

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

1 is a front view schematically showing a support insulator for fixing a overhead line of a pole according to the present invention, Figure 2 is a plan view schematically showing a support insulator for fixing a overhead line for a pole line according to the present invention, Figure 3 is 4 is a cross-sectional view illustrating a fixing mechanism of a support insulator for fixing a overhead line of a pole, FIG. 4 is a cross-sectional view for illustrating a support insulator for a fixed insulator for a overhead line according to the present invention, and FIG. 5 is an AA cross-sectional view of FIG. 4. 6 is a configuration diagram illustrating a support insulator for fixing a overhead line of a pole according to the present invention. Referring to FIGS. 1 to 6, the support insulator for fixing the overhead line in accordance with the present invention will be described below.

The support insulator for fixing the overhead line of the pole according to the present invention includes: a case 10 fixed to the finished steel F, a pivot rotating tool 20 installed in the case 10 in a spherical shape, and one end of the pivot rotating tool. Insulating the insulator body 30 of the insulating material to be fixed to the 20, the fixing mechanism 40 is provided at the lower end of the insulator body 30 to fix the jumper wire (J), and the insulator body 30 is supported Receives a signal from the shock absorbing mechanism 50, the drop prevention mechanism 60 installed in the case 10, the detection sensor 70 installed in the drop prevention mechanism 60, and the detection sensor 70 A first control unit 80 for outputting a danger signal, and a wireless transmission unit 90 for wirelessly outputting the danger signal from the first control unit 80 to the outside.

Here, the wrought iron F has a rectangular case shape having a space formed therein and is fixed to the pole P by a bolt or the like.

The case 10 is installed at the lower end of the wrought iron F via the fastening member B. At this time, the fastening member (B) is a long bolt, penetrates through the wrought iron (F) and the case 10, by screwing each of the wrought iron (F) and the case 10, thereby connecting the wrought iron (F) and the case (10) Secure to each other. Here, the case 10 is partitioned into the cylinder mounting portion 12 and the first spring mounting portion 13 by the fixing plate 11 formed in the horizontal direction.

On the other hand, the fixing plate 11 has a mounting hole (h) penetrated vertically in the center. At this time, the seating hole (h) is rounded toward the inside, which is the bottom surface of the pivoting hole (20) is inserted into the seating hole (h), the pivoting hole (20) and the seating hole (h) is the maximum surface This is for making the fixed plate 11 support the pivoting rotation hole 20 stably by making contact.

The pivot rotating hole 20 has a spherical shape, and has a through hole 21 penetrated up and down, the lower surface is seated in the seating hole (h) of the case 10, the upper surface is the cylinder installation portion 12 It is exposed and rotates in all directions.

At this time, the through hole 21, the fastening portion 21a which is screwed with the upper end of the insulator body 30 is provided at the bottom, the wire fixing portion 21b in communication with the fastening portion 21a is fastening portion ( 21a).

The insulator body 30 is made of an insulating material, the pivot rotating hole 20 is screwed to the top, the fixing mechanism 40 is screwed to the bottom.

The fixing mechanism 40 has a 'c' shaped support member 41 having a groove g on which a jumper wire J is seated on the bottom surface, and a support member 41 via a separate fastening member. It is fastened to the lower end of the insulator body 30 is composed of a fixing member 42 which is fastened and tightly fixed to the jumper wire (J) seated in the groove (g) of the support member (41).

At this time, the jumper wire (J) serves to connect the overhead wire (L) from the substation and the overhead wire (L) from the consumer, which is fixed to the wrought iron (F) via a separate insulator (A), It hangs below the fully iron F.

The shock absorbing mechanism 50 is installed in the first spring mounting portion 13 of the case 10, so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in place, all around the insulator body 30. It is composed of at least three or more first spring (S) to support the shot.

In the present embodiment, four first springs S are installed along the surface of the first spring installation unit 13. At this time, one end of each of the first spring (S) is fixed to the lower portion of the first spring installation portion 13 of the case 10, the other end of the insulator body 30 via the first spring fixing member (K) It is connected to the upper lower portion, and supports the insulator body 30 in the horizontal direction.

The drop prevention mechanism 60 is installed in the cylinder installation portion 12 of the case 10 and is installed in the cylinder 61 and the cylinder 61 which is disposed above the pivot rotation hole 20 so as to be movable in the cylinder 61. A piston 63, a second spring 63 installed inside the cylinder 61 to support the piston 63 upwardly and one end thereof is connected to the piston 63, and the other end is connected to the pivot rotating hole 20. It consists of a wire 64 to be fixed.

At this time, the cylinder 61 is provided with a support portion 61a protruding upward from the inner bottom surface, and supports the piston 63 when the piston 63 descends downward.

One end of the wire 64 is connected to the piston 63, and the other end of the wire 64 penetrates the bottom surface of the cylinder 61 to be fixed to the pivot rotation hole 20.

The detection sensor 70 is installed on the support portion 61a of the drop prevention mechanism 60, and detects mechanical contact with the piston 62 moved to the bottom dead center, and outputs a signal indicating the first control unit 80. To be sent. At this time, four detection sensors 70 are installed to correspond to the first spring (S).

The first control unit 80 is installed in the cylinder mounting portion 12 of the case 10, and receives a signal from the sensor 70 to output a danger signal.

The wireless transmission unit 90 is installed in the cylinder mounting portion 12 of the case 10, the operation is controlled by the first control unit 80, the danger signal from the first control unit 80 to the outside Wireless output.

On the other hand, a separate management room may be provided with a second control unit 100 for receiving a danger signal from the wireless transmission unit 90, and a display device 110 that is operationally controlled by the second control unit 100. .

The second control unit 100 receives a danger signal from the wireless transmission unit 90, and controls the display apparatus 110 to operate.

The display apparatus 110 is operated and controlled by the second control unit 100, and outputs excessive rotation of the pivot rotating mechanism 20 to the outside.

7 to 8 is an operation view showing the operation of the support line for fixing the overhead line of the pole, the operation state of the support line for fixing the overhead line of the overhead line according to the present invention with reference to FIGS. same.

First, in the state as shown in FIG. 4, when the wind acts on the insulator body 30, the insulator body 30 rotates in the wind direction with respect to the pivot rotation hole 20, as shown in FIG. 7. At this time, while the first spring (S) in the wind blowing direction is tensioned and the first spring (S) on the opposite side is contracted, each of the first spring (S) interacts, the insulator body 30 and the fixing mechanism The wind acting on 40 is offset.

On the other hand, if the pivot rotor 20 is used for a long time, the wear occurs in the seating hole (h) of the pivot rotor (20) or case 10 by the rotation of the pivot rotor (20) insulator body 30 ) May fall.

At this time, when the insulator body 30 falls, as shown in FIG. 8, the piston 62 moves downward by the wire 64 to press the second spring 63, and the moved piston 62 moves the cylinder ( It rests on the support part 61a of 61.

At this time, the piston 62 of the drop prevention mechanism 60 contacts the detection sensor 70.

Thereafter, the first control unit 80 receives a signal indicating that the piston 62 of the drop prevention mechanism 60 has been contacted by the detection sensor 70, and outputs a danger signal. Wireless output to the outside.

Subsequently, the second control unit 100 receiving the danger signal from the wireless transmitting unit 90 indicates that the insulator body 30 has fallen on the display apparatus 110.

As described above, the support insulator for fixing the overhead line in accordance with the present invention, while rotating the insulator body 30 and the fixing mechanism 40, the insulator body 30 and the fixing mechanism (through the buffer mechanism 50) A sufficient buffering force is provided to 40 so that stress is not concentrated on the jumper wire J fixed to the fixing mechanism 40.

That is, while preventing the jumper wire (J) from contacting the electric pole (P) as much as possible, it is possible to prevent the disconnection of the jumper wire (J) by stress concentration, so that power is safely supplied to each customer.

In addition, even if the insulator body 30 is exposed to the danger of falling due to the long-term use of the pivoting rotating tool 20, the insulator body 30 does not fall by the anti-drop mechanism 60, so that the vicinity of the pole P It is possible to ensure the safety of the passenger passing through, and the manager in a separate management room can immediately check the defect of the pivoting rotary device 20 through the display device (110).

1 is a front view schematically showing a support insulator for fixing a overhead line of a pole in accordance with the present invention;

Figure 2 is a plan view schematically showing a support insulator for fixing the overhead line of the electric pole according to the present invention,

3 is a cross-sectional view showing a fixing mechanism of the support insulator for fixing the overhead line of the electric pole according to the present invention,

Figure 4 is a cross-sectional view for showing the support insulator for fixing the overhead line of the electric pole according to the present invention,

5 is a cross-sectional view taken along line A-A of FIG.

Figure 6 is a cross-sectional view showing a support insulator for fixing the overhead line of the electric pole according to the present invention,

7 and 8 is an operation showing the operation of the support insulator for fixing the overhead line.

Explanation of terms for main parts of attached drawings

10; Case 20; Pivot rotor

30; Aza-body 40; Fixture

50; Shock absorber 60; Drop prevention mechanism

70; Detection sensor 80; First control unit

90; Wireless Transmission Unit

Claims (1)

Fixed plate 11 having a mounting hole (h) to partition the cylinder mounting portion 12 and the first spring mounting portion 13, and the cylinder installation in communication with the mounting hole (h) disposed on the fixed plate 11 A case 10 having a first spring mounting portion 13 which is in communication with the portion 12 and the mounting hole h and is disposed below the fixing plate 11 and fixed to the wrought iron F; A pivot rotation hole 20 rotatably seated in the seating hole h of the case 10; An insulator body 30 made of an insulating material inserted into the first spring installation part 13 of the case 10 and fixed to the pivot rotation hole 20; A fixing mechanism 40 provided at a lower end of the insulator body 30 exposed to the outside of the case 10 and engaged with the jumper wire J to be fixed; At least three installed on the first spring mounting portion 13 of the case 10 to support the insulator body 30 in all directions so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in place. A shock absorbing mechanism 50 composed of the first springs S; The cylinder 61 installed in the cylinder mounting portion 12 of the case 10 and disposed above the pivot rotating hole 20, the piston 62 installed in the cylinder 61 so as to be movable, and the piston ( A drop prevention mechanism (60) consisting of a second spring (63) which upwardly supports (63) 63 and a wire (64) having one end connected to the piston (63) and the other end fixed to the pivot rotating hole (20); A detection sensor 70 which detects the contact of the piston 62 of the anti-drop mechanism 60; A first control unit 80 which receives a signal from the detection sensor 70 and outputs a danger signal; A wireless transmission unit 90 which is operationally controlled by the first control unit 80 to wirelessly output the danger signal from the first control unit 80 to the outside; The support insulator for fixing the overhead line of the pole characterized in that it comprises a.

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