KR102601594B1 - Distribution type overhead wire joint structure - Google Patents

Abstract

The electric pole distribution overhead wire joint structure according to the present invention includes a case (10) fixed to the complete iron (F) via a fastening member (B) and having a certain space therein; A fixing plate (11) having a seating hole (h) and dividing the upper and lower parts of the space inside the case into a cylinder installation part (12) and a first spring installation part (13), respectively; a pivot rotary sphere (20) rotatably seated in the seating hole (h) of the case (10); An insulator body 30 made of an insulating material fixed to the pivot rotating sphere 20 through the first spring installation part 13 of the case 10; A fixing mechanism (40) provided at the bottom of the insulator body (30) exposed to the outside of the case (10) and fixed by engaging with a jumper wire (J); A buffer portion 50 is installed on the first spring installation portion 13 of the case 10 and elastically supports the insulator body 30 in all directions so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in the correct position. ); A cylinder 61 installed in the cylinder installation part 12 of the case 10 and disposed on the upper part of the pivot rotation sphere 20, and a piston 62 installed to be movable up and down inside the cylinder 61, A fall prevention device comprising a second spring 63 that elastically supports the piston 62 upward, and a wire 64 whose one end is connected to the piston 63 and the other end is fixed to the pivot rotor 20. apparatus (60); And a sensing unit installed in the fall prevention mechanism 60 to detect movement to the bottom dead center of the piston 62,
The sensing unit includes a sensing unit extension arm 71 that penetrates the upper part of the cylinder, is fixed to the upper part of the case, and extends toward the bottom of the cylinder 61; A sensor holder 711 extending horizontally from the bottom of the sensing unit extension arm 71; and a detection sensor 70 provided on the upper surface of the sensor holder 711 that is turned on and off depending on the contact state.

Description

Distribution type overhead wire joint structure}

The present invention relates to a distribution overhead wire joint structure.

In general, the large power generated at a power plant is transmitted to each substation as high-voltage power through transmission lines such as transmission towers, and then goes through several stages of transformation at the substation to use cables so that it can be used by consumers such as homes or buildings. It is a well-known fact that electricity goes through a distribution process to be supplied to each region.

At this time, power to general consumers is supplied through electric poles installed at regular intervals, and the overhead wires at each electric pole are connected using jumper wires stretched downward from the wire.

This conventional overhead wire connection has a problem in that breakdowns in the overhead wire frequently occur due to contact with electric poles due to wind pressure.

To solve this problem, insulators for fixing jumper wires are installed on complete steel. However, when insulators for fixing jumper wires on complete steel are installed, they cannot sufficiently absorb wind power when it occurs, so the jumper wires fixed to the insulator cannot be absorbed sufficiently. As stress becomes concentrated, there is a problem of disconnection of jumper wires.

As a prior art that partially improves these problems, Korean Patent Registration No. 10-0861795 (October 9, 2008) discloses the 'electric pole distribution overhead wire joint structure'.

However, the distribution-type overhead wire joint structure of such a conventional electric pole is caused by rotation of the insulator body due to wind power, shock generated when the insulator body falls due to wear of the pivot rotation or case seating hole, or incomplete coupling of fastening members. There is a problem that a safety accident may occur due to the case being separated from the complete iron.

(Patent Document 0001) Republic of Korea Patent Registration No. 10-1934741 (2019.01.03.) ‘Electrical distribution overhead wire joint structure’

The present invention sufficiently supports the jumper wire and prevents disconnection due to wind power, while also preventing shock or imperfection of the fastening member caused by rotation of the insulator body due to wind power or dropping of the insulator body due to wear of the pivot rotation or case seating hole. It provides a distribution-type overhead wire joint structure for electric poles to prevent the case from being separated from the complete iron due to the joint state, etc.

The electric pole distribution overhead wire joint structure according to the present invention includes a case (10) fixed to the complete iron (F) via a fastening member (B) and having a certain space therein; A fixing plate (11) having a seating hole (h) and dividing the upper and lower parts of the space inside the case into a cylinder installation part (12) and a first spring installation part (13), respectively; a pivot rotary sphere (20) rotatably seated in the seating hole (h) of the case (10); An insulator body 30 made of an insulating material fixed to the pivot rotating sphere 20 through the first spring installation part 13 of the case 10; A fixing mechanism (40) provided at the bottom of the insulator body (30) exposed to the outside of the case (10) and fixed by engaging with a jumper wire (J); A buffer portion 50 is installed on the first spring installation portion 13 of the case 10 and elastically supports the insulator body 30 in all directions so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in the correct position. ); A cylinder 61 installed in the cylinder installation part 12 of the case 10 and disposed on the upper part of the pivot rotation sphere 20, and a piston 62 installed to be movable up and down inside the cylinder 61, A fall prevention device comprising a second spring 63 that elastically supports the piston 62 upward, and a wire 64 whose one end is connected to the piston 63 and the other end is fixed to the pivot rotor 20. apparatus (60); And a sensing unit installed in the fall prevention mechanism 60 to detect movement to the bottom dead center of the piston 62,

The sensing unit includes a sensing unit extension arm 71 that penetrates the upper part of the cylinder, is fixed to the upper part of the case, and extends toward the bottom of the cylinder 61; A sensor holder 711 extending horizontally from the bottom of the sensing unit extension arm 71; and a detection sensor 70 provided on the upper surface of the sensor holder 711 that is turned on and off depending on the contact state.

Additionally, the upper end of the sensing unit extension arm 71 may penetrate the case 10 and be fastened with a nut 712.

In addition, the buffer unit 50 includes a plurality of first-second springs S2 provided from each inner surface of the case 10 toward the center; A 1-2 spring fixing member formed in a ring shape and having an inner end of the 1-2 spring (S2) fixed to the outer surface; A ring-shaped 1-1 spring fixing member provided on the outer surface of the insulator body 30; And a 1-1 spring (S1) and an inelastic wire (Ss) connecting between the 1-1 spring fixing member (K1) and the 1-2 spring fixing member (K2),

The 1-1 spring (S1) and the :inelastic wire (Ss) may each be provided at least one.

In addition, the inelastic wire is provided on one of the virtual lines connecting the insulator body 30 in the center direction from each of the plurality of 1-2 springs (S2), and the 1-1 spring ( S1) may be provided.

It may also include an indicator light (80) installed on the top of the iron (F), electrically connected to the detection sensor (70), and controlled to blink by the detection sensor (70).

According to the present invention, by providing sufficient buffering force to the insulator body and the fixing mechanism, it has the effect of preventing disconnection of the jumper wire fixed to the fixing mechanism, and the insulator may be damaged due to rotation of the insulator body due to wind power or wear of the pivot rotating hole or case seating hole. It is effective in preventing the case from being separated from the complete iron due to shock generated when the main body is dropped or incomplete coupling of fastening members.

In addition, according to the present invention, it is possible to more effectively prevent disconnection of jumper wires by alleviating the shaking of the insulator body in a specific direction.

Figure 1 is a front view schematically showing the distribution-type overhead wire joint structure of an electric pole according to the present invention.
Figure 2 is a plan view schematically showing the distribution-type overhead wire joint structure of the electric pole according to the present invention.
Figure 3 is a cross-sectional view showing a distribution-type overhead wire joint structure of an electric pole according to an embodiment.
Figure 4 is a schematic diagram showing a sensing unit according to an embodiment.
Figure 5 is a schematic diagram showing a buffer unit according to one embodiment.
Figure 6 is a schematic diagram showing an example of an operating state of a sensing unit according to an embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. Unless otherwise specified or specified, terms indicating direction used in this description are based on the state shown in the drawings. Additionally, the same reference numerals refer to the same members throughout each embodiment. Meanwhile, the thickness or dimensions of each configuration shown in the drawings may be exaggerated for convenience of explanation, and this does not mean that they should actually be composed of the ratios between the corresponding dimensions or configurations.

The distribution overhead wire joint structure according to the present invention will be described with reference to FIGS. 1 to 6. Figure 1 is a front view schematically showing the distribution-type overhead wire joint structure of the electric pole according to the present invention, Figure 2 is a plan view schematically showing the distribution-type overhead wire joint structure of the electric pole according to the present invention, and Figure 3 is an embodiment. This is a cross-sectional view showing the distribution overhead wire joint structure of the electric pole according to . Additionally, FIG. 4 is a schematic diagram showing a sensing unit according to an embodiment, FIG. 5 is a schematic diagram showing a buffer unit according to an embodiment, and FIG. 6 is a schematic diagram showing an example of an operating state of the sensing unit according to an embodiment.

The electric pole distribution overhead wire joint structure according to the present invention includes a case 10 fixed to a complete iron (F), a pivot rotator 20 installed in the case 10 in a spherical shape, and one end of the pivot rotor 20. ), an insulator body 30 made of an insulating material, a fixing mechanism 40 provided at the bottom of the insulator body 30 to secure the jumper wire (J), and a buffer portion 50 that elastically supports the insulator body 30. ), a fall prevention mechanism 60 installed inside the case 10, a detection sensor 70 installed in the fall prevention mechanism 60, and an indicator light 80 electrically connected to the detection sensor 70.

Here, the complete iron (F) has a rectangular case shape with a space formed inside, and is fixed to the electric pole (P) with a bolt or the like.

The case 10 is installed at the lower end of the complete iron (F) via a fastening member (B). At this time, the fastening member (B) is a long bolt that penetrates the complete iron (F) and the case (10) and is screwed to each of the complete iron (F) and the case (10), thereby connecting the complete iron (F) and the case (10). mutually fixed. Here, the inside of the case 10 is divided into a cylinder installation part 12 and a first spring installation part 13 by a fixing plate 11 formed in the horizontal direction.

The fixing plate 11 is formed with a seating hole (h) penetrating upward and downward in the center. At this time, the seating hole (h) is rounded inward, which means that when the lower surface of the pivot rotary sphere (20) is inserted into the seating hole (h), the pivot rotary sphere (20) and the seating hole (h) are as close as possible. This is to allow the fixing plate 11 to stably support the pivot rotary sphere 20 by contacting it.

The pivot rotary sphere 20 is spherical in shape and has a through hole 21 penetrating upward and downward. The lower surface is seated in the seating hole (h) of the case 10, and the upper surface is exposed to the cylinder installation portion 12. and rotates in all directions.

At this time, the through hole 21 is provided at the bottom with a fastening part 21a screwed to the upper end of the insulator body 30, and a wire fixing part 21b in communication with the fastening part 21a is connected to the fastening part 21a. ) is placed at the top of the.

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

The fixing mechanism 40 is fastened to the 'ㄷ' shaped support member 41 having a groove (g) formed on the bottom surface into which the jumper wire (J) is seated, and to the support member 41 via a separate fastening member. It consists of a fixing member 42 that closely fixes the jumper wire (J) seated in the groove (g) of the support member 41, and is fixed to the lower end of the insulator body 30.

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 complete iron (F) through a separate insulator (A). ) hangs downward.

The buffer portion 50 is installed on the first spring installation portion 13 of the case 10 and moves the insulator body 30 in all directions so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in the correct position. I support you with a bang.

The buffer unit 50 is formed in a ring shape with a plurality of 1-2 springs (S2) provided toward the center from each of the inner surfaces of the case 10, and the 1-2 springs (S2) on the outer surface. ) includes a 1-2 spring fixing member (K2) to which the inner end of the insulator is fixed and a ring-shaped 1-1 spring fixing member (K1) provided on the outer surface of the insulator body 30. In addition, the buffer 50 includes a 1-1 spring (S1) and an inelastic wire (Ss) connected between the 1-1 spring fixing member (K1) and the 1-2 spring fixing member (K2). . At this time, the 1-1 spring (S1) and the above: at least one inelastic wire (Ss) may each be provided, and at this time, the inelastic wire (Ss) keeps the insulator body 30 bound within a certain area. . For example, as shown in FIG. 5, the inelastic wire is provided on one of the virtual lines connecting each of the plurality of first-second springs S2 to the insulator body 30 in the center direction, and the other When the 1-1 spring (S1) is provided on the virtual line, the insulator body 30 moves only to the first region (R1) where the radius of the inelastic wire (Ss) is within a certain length by the inelastic wire (Ss). This is possible.

When the insulator body 30 moves in the R1 direction, considering only the spring in the opposite direction that provides the greatest elastic force, the total length of the spring is equal to the 1-1 spring (S1) and 1-2 spring (S1) in the upper direction in the drawing. The spring (S2) is the sum of the lengths of the two springs, so the elastic force is reduced accordingly. Conversely, when the insulator body (30) moves in the opposite direction of R1 (towards the top in the drawing), the inelastic wire (Ss) below and the first -2 The spring (S2) provides elastic force for restoration, and the elastic force increases by the effect of reducing the total spring length. That is, when the insulator body 30 is shaken, the elastic force for restoration to the original position varies depending on the specific direction. For example, the elastic restoring force in the direction of the electric pole is reduced to reduce the possibility of collision with the electric pole, or by providing the direction of the restoring force, the amplitude of the shaking is attenuated through the action of rotating the insulator body 30 when it is shaken. It can work.

The fall prevention mechanism 60 includes a cylinder 61 installed inside the cylinder installation portion 12 of the case 10 and disposed on the upper part of the pivot rotary sphere 20, and a piston installed to be able to move up and down inside the cylinder 61. (63) and a second spring (63) installed inside the cylinder (61) to elastically support the piston (63) upward, one end of which is connected to the piston (63) and the other end of which is fixed to the pivot rotor (20). It is composed of a wire 64.

The cylinder 61 is provided with a support portion 61a that protrudes upward on the inner bottom surface, and supports the piston 63 when the piston 63 moves downward. One end of the wire 64 is connected to the piston 63, and the other end penetrates the bottom surface of the cylinder 61 and is fixed to the pivot rotating sphere 20.

The sensing unit is installed on the support portion 61a of the cylinder 61 and detects movement of the piston 63 to the bottom dead center. Specifically, the sensing unit according to this embodiment includes a sensing unit extension arm 71 and a sensor mounting unit 711. The sensing unit extension arm 71 penetrates the upper part of the cylinder, is fixed to the upper part of the case, and extends to the bottom of the cylinder 61. The sensor holder 711 extends in the horizontal direction from the bottom of the sensing unit extension arm 71, and the detection sensor 70 is provided on the upper surface of the sensor holder 711 and is turned on and off depending on the contact state. At this time, the upper end of the sensing unit extension arm 71 may penetrate the case 10 and be fastened with a nut 712.

In this embodiment, a typical ON-OFF switch is used as the detection sensor 70, which turns on when the piston 63 moving to the bottom dead center is contacted, and in addition, as shown in FIG. 6, the cylinder 61 is Even if it breaks away and falls, it can be detected and the indicator light 80 can be turned on.

Although the preferred embodiments of the present invention have been described above, the technical idea of the present invention is not limited to the above-described preferred embodiments, and can be implemented in various ways without departing from the technical idea of the present invention specified in the patent claims. there is.

10: Case
20: pivot rotary sphere
30: Insulator body
40: Fixing mechanism
50: buffer part
60: Fall prevention mechanism
70: Detection sensor
80: indicator light
S1: 1-1 spring
S2; 1-2 spring
Ss: Inelastic wire

Claims (5)

A case (10) fixed to the iron (F) via a fastening member (B) and having a certain space therein;
A fixing plate (11) having a seating hole (h) and dividing the upper and lower parts of the space inside the case into a cylinder installation part (12) and a first spring installation part (13), respectively;
a pivot rotary sphere (20) rotatably seated in the seating hole (h) of the case (10);
An insulator body 30 made of an insulating material fixed to the pivot rotating sphere 20 through the first spring installation part 13 of the case 10;
A fixing mechanism (40) provided at the bottom of the insulator body (30) exposed to the outside of the case (10) and fixed by engaging with a jumper wire (J);
A buffer portion 50 is installed on the first spring installation portion 13 of the case 10 and elastically supports the insulator body 30 in all directions so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in the correct position. );
A cylinder 61 installed in the cylinder installation part 12 of the case 10 and disposed on the upper part of the pivot rotation sphere 20, and a piston 62 installed to be movable up and down inside the cylinder 61, Fall prevention comprising a second spring 63 that elastically supports the piston 62 upward, and a wire 64 whose one end is connected to the piston 62 and the other end is fixed to the pivot rotary sphere 20. apparatus (60); and
It includes a sensing unit installed in the fall prevention mechanism 60 and detecting movement to the bottom dead center of the piston 62,
The sensing unit,
a sensing unit extension arm 71 that penetrates the upper part of the cylinder, is fixed to the upper part of the case, and extends to the bottom of the cylinder 61;
A sensor holder 711 extending horizontally from the bottom of the sensing unit extension arm 71; and
A detection sensor 70 provided on the upper surface of the sensor holder 711 is turned on and off depending on the contact state,
The upper end of the sensing unit extension arm 71 penetrates the case 10 and is fastened with a nut 712,
The buffer unit 50,
A plurality of 1-2 springs (S2) provided from each inner surface of the case 10 toward the center;
A 1-2 spring fixing member formed in a ring shape and having an inner end of the 1-2 spring (S2) fixed to the outer surface;
A ring-shaped 1-1 spring fixing member provided on the outer surface of the insulator body 30; and
A 1-1 spring (S1) and an inelastic wire (Ss) connected between the 1-1 spring fixing member (K1) and the 1-2 spring fixing member (K2),
The 1-1 spring (S1) and the :inelastic wire (Ss) are each provided with at least one,
The inelastic wire is provided on one of the imaginary lines connecting each of the plurality of 1-2 springs (S2) to the insulator body 30 in the center direction, and the 1-1 spring (S1) is provided on the remaining imaginary line. ) is provided,
A distribution-type overhead wire joint structure of an electric pole including an indicator light (80) installed on the top of the complete iron (F), electrically connected to the detection sensor (70), and controlled to blink by the detection sensor (70). delete delete delete delete