JPH06333453A - Lighting insulator device - Google Patents

Abstract

PURPOSE:To adjust a gap length easily for a short time by reducing the number of gap length adjusting position. CONSTITUTION:A lighting insulator part 10A and an insulating insulator part 11A are connected in series to form an insulator connection 5. This insulator connection 5 is hoisted and supported by a supporting arm 2 of an iron tower, and a jumper line 8 is supported by a charging end of the insulator connection 5. A grounding arcing horn 20a and a charging arcing horn 21b are fitted to the upper part of the lighting insulator 10A and the lower part of the insulating insulator part 11A respectively. An intermediate arcing horn 22 is provided between the insulating insulator 11A and the lighting insulator 10A, and one end 22a of the intermediate arcing horn 22 is formed so as to face upward, and the other end 22b thereof is formed so as to face downward. A protecting gap G1 is formed between the one end 22a of the intermediate arcing horn 22 and the grounding arcing horn 20a, and an aerial discharging gap G2 is formed between the other end 22b of the intermediate arcing horn 22 and the charging arcing horn 21b.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention can prevent a ground fault by immediately discharging a surge current in a power transmission line to the ground and suppressing and interrupting a follow-up current generated thereafter. The present invention relates to a lightning protection insulator device.

[0002]

2. Description of the Related Art Conventionally, a suspension type lightning arrester device is shown in FIG.
It is configured as shown in. That is, as shown in this figure, an insulator string 31 is suspended and juxtaposed on a support arm 33 of a steel tower via a U clevis 32 and the like. A jumper wire 36 is supported via 35 and the like.

The insulator string 31 is formed by connecting in series a lightning protection insulator portion 37A formed by connecting a plurality of lightning protection insulators 37 and an insulator insulation portion 38A formed by connecting a plurality of normal lightning insulators 38 in series. The arc horns 39, 40 for preventing the surface flashover of the insulator string 31 are arranged so as to face the end portions of the insulator string 31 on the grounding side and the charging side. Is attached to. The intermediate arc horn 42 is the uppermost normal insulator 38 in the insulator portion 38A.
Is attached to the cap metal fitting 43. Both ends of the intermediate arc horn 42 are formed to face upward.
Then, the ground side arc horn 39 and the intermediate arc horn 4
Protective gaps Z1 and Z2 are formed between the two ends, and air discharge gaps Z3 and Z4 are formed between the intermediate arc horn 42 and the charging side arc horn 40.

[0004]

However, in this lightning arrester device, two protective gaps Z1 and Z2 are provided between the ground side arc horn 39 and the intermediate arc horn 42.
Need to be set. Moreover, the intermediate arc horn 42
It is necessary to set two air discharge gaps Z3 and Z4 between the power supply side arc horn 40 and the charging side arc horn 40. Therefore, there are problems in that there are many places for adjusting the gap length, the setting operation is complicated, and it takes time. In addition, when the number of the normal insulators 38 increases in the heavily polluted area, the gap Z
3 and Z4 became long, and there was a problem that the required discharge gap length could not be obtained.

The present invention has been made by paying attention to the problems existing in the above prior art. It is an object of the present invention to provide a lightning arrester device that can adjust the gap length easily and in a short time by reducing the number of gap length adjustment points.

[0006]

In order to achieve the above object, in the lightning arrester device of the present invention as set forth in claim 1, a plurality of lightning protection insulator parts are formed by connecting a plurality of lightning protection insulators, and a plurality of ordinary insulators are connected. Insulators are connected in series to form a series of insulators, and this series of insulators is hung and supported on a support arm of a steel tower, and the power transmission line is supported at the end on the power-supply side of the series of insulators. The grounding side arc horn and the charging side arc horn are respectively attached to the upper part of the lightning protection insulator part and the lower part of the insulating porcelain part, and an intermediate arc horn is provided between the insulating porcelain part and the lightning protection porcelain part of the insulator series. , Forming at least one end of the intermediate arc horn upward, forming at least the other end downward, forming a protective gap for the lightning protection insulator portion between one end of the intermediate arc horn and the ground side arc horn, Middle Arkho Characterized in that the formation of the aerial discharge gap between the emissions of the other end voltage application side arcing horn.

[0007]

In the lightning arrester device of the present invention, at least one end of the intermediate arc horn is formed upward and at least the other end is formed downward. A protective gap is formed between one end of the intermediate arc horn and the ground side arc horn, and an air discharge gap is formed between the other end of the intermediate arc horn and the charging side arc horn.

Therefore, when the protective gap and the air discharge gap are adjusted, the gap is adjusted at at least one position. Therefore, the structure for adjusting the gap is simple, and the work for adjusting the gap can be performed easily and in a short time.

[0009]

【Example】

(First Embodiment) A first embodiment in which the present invention is embodied in a lightning arrester device having a single housing cylinder portion housing a current limiting element will be described in detail with reference to FIG.

The U clevis 1 is attached to a support arm 2 of a steel tower, and an upper horn mounting bracket 4 is horizontally supported on the U clevis 1 via a clevis link 3. The insulator string 5 is suspended and supported by the upper horn mounting member 4 with a bolt via a ball clevis, and the lower end portions thereof are connected to the lower horn mounting member 6. The electric wire clamp 7 is attached to the center of the lower horn mounting member 6, and a jumper wire 8 is supported by the electric wire clamp 7. A plurality of weights 9 are attached to the electric wire clamp 7.

The insulator string 5 is composed of a lightning protection insulator portion 10A formed by connecting a plurality of lightning protection insulators 10 and an insulator insulation portion 11A formed by connecting a plurality of normal insulators 11 in series. In addition, when the voltage class is 66 KV, 3 to 4 of the normal insulators 11 of the insulator portion 11A are connected, and the insulator 11 can be applied in a heavy pollution area. The lightning protection insulator 10 in the lightning protection insulator portion 10A is configured such that the cap fitting 13 is joined and fixed to the upper part of the insulator body 12 by cement or the like, and the pin fitting 14 is joined and fixed to the lower part of the insulator body 12 by cement or the like. . The accommodating cylinder portion 15 of the insulator main body 12 accommodates a current limiting element 16 whose main component is zinc oxide and has a non-linear voltage-current characteristic, and both ends of the current limiting element 16 are connected via lead wires or the like. It is connected to the cap fitting 13 and the pin fitting 14.

As the normal insulator 11 in the insulator portion 11A, a deep pleated anti-fouling insulator is used. Further, the normal insulator 11 is configured such that the cap metal fitting 18 is joined and fixed to the upper portion of the insulator main body 17 with cement or the like, and the pin metal fitting 19 is joined and fixed to the lower portion of the insulator main body 17 with cement or the like.

The arc horns 20a and 20b and the arc horns 21a and 2 for preventing the surface flashover of the insulator string 5.
1b is the horn mounting brackets 4, 6 on the upper and lower sides so as to be arranged so as to face the ground-side and voltage-side ends of the insulator string 5.
Is attached to. The intermediate arc horn 22 is attached to the cap fitting 18 of the uppermost normal insulator 11 in the insulator 11A. This intermediate arc horn 2
2, one end 22a faces upward, and the ground side arc horn 20
The other end 22b of the intermediate arc horn 22 faces downward and faces the power-supply side arc horn 21b. Then, the ground side arc horn 20 and the intermediate arc horn 22
A protective gap G1 is formed between one end 22a of the intermediate arc horn 22 and the other end 2 of the intermediate arc horn 22.
An air discharge gap G2 is formed between 2b and the charging side arc horn 21b. Note that the normal protection gap G
1 is set to be larger than the air discharge gap G2.

The ground-side arc horn 20a and the charging-side arc horn 21b are mounted on the horn mounting portions of the horn mounting brackets 4 and 6 of the insulator string 5 so that their positions can be adjusted with a plurality of bolts. Then, the protective gap G1 and the air discharge gap G2 are adjusted by adjusting the positions of these arc horns 20a and 21b.

Next, the operation of the lightning arrester device constructed as described above will be described. In the lightning arrester device of this embodiment, when a lightning surge current enters the jumper wire 8 due to a lightning strike, the lightning surge current flashes over the air discharge gap G2 from the charging side arc horn 21b of the insulator string 5 to the middle. It flows to the other end 22b of the arc horn 22.

After that, the electric current flows from the intermediate arc horn 22 to the support arm 2 through the lightning protection insulator portion 10A of the insulator series 5, the upper horn mounting member 4 and the like, and is discharged from the steel tower to the ground. Further, the subsequent flow due to the operating voltage generated thereafter is suppressed and cut off by the current limiting element 16 and the air discharge gap G2 in the lightning protection insulator portion 10A of the insulator string 5.

Further, when an overcurrent exceeding the set value flows through the lightning protection insulator portion 10A, the limiting voltage generated across the lightning protection insulator portion 10A exceeds the flashover voltage of the protection gap G1. Then, the lightning surge current flashes over the protection gap G1 from the one end 22a of the intermediate arc horn 22 and flows into the ground side arc horn 20a. As a result, the lightning protection insulator portion 10A of the insulator string 5 is protected from overcurrent.

In the lightning arrester device of this embodiment, the protective gap G1 is located at the one end 2 of the intermediate arc horn 22.
It is provided at one place between 2a and the grounding side arc horn 20a. Further, one air discharge gap G2 is provided between the other end 22b of the intermediate arc horn 22 and the charging side arc horn 21b. Therefore, the protection gap G1
When adjusting the air discharge gap G2, the gaps G1 and G2 may be adjusted at one location. Therefore, the structure for adjusting the gaps G1 and G2 is simple, and the work for adjusting the gaps G1 and G2 can be performed easily and in a short time.

Further, since the protective gap G1 formed by the grounding side arc horn 20a and the intermediate arc horn 22 is provided corresponding to each accommodating cylinder portion 15 of the lightning protection insulator portion 10A, inside the accommodating cylinder portion 15 When the current limiting element 16 housed in is released, its arc can be easily captured.

In addition, the other end 22 of the intermediate arc horn 22
Since b extends downward, the air discharge gap G2 can be set to a predetermined value even if the number of the normal insulators 11 of the insulator portion 11A is three or more. Therefore, the lightning protection insulator device of this embodiment can be used even in a heavily damaged area. (Second Embodiment) Next, a second embodiment in which the present invention is embodied in a lightning arrester device in which a housing cylinder portion is provided at two locations will be described with reference to FIG.

In this embodiment, the housing cylinder portion 15 for housing the current limiting element 16 is provided at two locations corresponding to the shade portion of the lightning protection insulator 10 by 180 degrees. Ground side arc horn 2
0a and 20b are mounted on the horn mounting bracket 4 on both sides of the lightning protection insulator portion 10A so as to correspond to the accommodating cylinder portion 15. The auxiliary arc horn 23 is the intermediate arc horn 22.
Is joined and fixed to the other end 22b by welding so as to face upward. A protective gap G3 is formed between the auxiliary arc horn 23 and the ground side arc horn 20b.

In this embodiment, the protective gaps G1 and G3 are
Is provided so as to correspond to the two housing cylinder portions 15, it is possible to reliably capture the arc of any of the housing cylinder portions 15 when the pressure is released.

The present invention is not limited to the configuration of the above-described embodiment, and may be embodied by arbitrarily changing the configuration of each part as follows, for example, within the scope not departing from the spirit of the present invention. Good. (A) In the first embodiment, the grounding side arc horn 20b on the side where the housing cylinder portion 15 is not provided and the charging side arc horn 21a on the side where the protective gap G2 is not formed are omitted. (B) The number and size of the lightning protection insulators 10 in the insulator series 5,
Usually, the number and size of the insulator 11 should be changed appropriately. (C) As the normal insulator 11, use a normal pleat insulator instead of the deep pleat-shaped fouling-resistant insulator.

[0024]

Since the present invention is configured as described above, it has an excellent effect that the gap length can be adjusted easily and in a short time by reducing the number of the gap length adjustment points. .

[Brief description of drawings]

FIG. 1 is a front view showing a first embodiment of a lightning arrester device embodying the present invention.

FIG. 2 is a front view showing a second embodiment of the lightning arrester insulator device.

FIG. 3 is a front view showing a conventional lightning protection insulator device.

[Explanation of symbols]

2 ... Support arm, 5 ... Insulator series, 10 ... Lightning arrester, 10A
... Lightning arrester part, 11 ... Normal insulator, 11A ... Insulator part,
20a ... Grounding side arc horn, 21b ... Charging side arc horn, 22 ... Intermediate arc horn, G1 ... Protective gap,
G2 ... Air discharge gap, G3 ... Protective gap.

Claims (1)

[Claims] 1. A lightning insulator portion formed by connecting a plurality of lightning insulators and an insulator portion formed by connecting a plurality of normal insulators are connected in series to form an insulator string, and the insulator string is formed by a support arm of a steel tower. Suspend and support the transmission line at the end of the insulator side of the insulator side, and attach the grounding side arc horn and the charging side arc horn to the upper part of the lightning protection insulator part and the lower part of the insulator part, respectively. An intermediate arc horn is provided between the insulator portion and the lightning protection insulator portion of the insulator string, at least one end of the intermediate arc horn is formed upward, and at least the other end is formed downward, and the intermediate arc horn is formed. A protective gap for the lightning protection insulator portion is formed between one end of the intermediate arc horn and the grounding side arc horn, and an air discharge gap is formed between the other end of the intermediate arc horn and the charging side arc horn. Lightning protection Apparatus.