CN212366424U - Tower lightning protection system - Google Patents

Abstract

The utility model relates to a shaft tower lightning protection system, it includes the shaft tower, its characterized in that install on the shaft tower and connect out insulator chain connection horizontal pole and arrester cross arm, the outer end that the horizontal pole was connected to the insulator chain is connected with insulator chain, and insulator chain outwards is connected with the cable conductor, the outer end of arrester cross arm is connected with multicavity room arc extinguishing arrester downwards, and the arrester cross arm is hollow insulating cross arm, and insulating cross arm is provided with the inside wire, and the top of multicavity room arc extinguishing arrester is connected to the one end of inside wire, and the other end of inside wire passes insulating cross arm and carries out the ground connection, the cable conductor is close to insulator chain department and is provided with the fastener, draw forth the wire on the fastener and be connected with the bottom of multicavity room arc. The utility model provides an arc spout of a plurality of multi-chamber arc extinguishing fixed clearance ware of shaft tower lightning-arrest system sets up towards the inboard of the solid fixed ring of second and first solid fixed ring, consequently can realize being convenient for install and the effectual advantage of lightning-arrest under some environment that the space is narrow and small.

Description

Tower lightning protection system

Technical Field

The utility model relates to a shaft tower lightning protection system.

Background

With the development of social economy, the coverage area of the alternating current overhead line of the power system is wider and wider, and the reliability of the alternating current overhead line is greatly influenced by thunder and lightning. The frequent occurrence of accidents such as lightning trip, insulator flashover and the like of domestic and foreign alternating current overhead lines causes huge economic loss and seriously threatens the safe operation of the overhead lines.

The effective lightning protection measure of the high-voltage alternating-current overhead line is to install a line arrester, the line arrester used on the existing overhead line mainly comprises a line type zinc oxide arrester and a protection gap arrester, and the self-arc-extinguishing multi-gap arrester which is raised in recent years draws wide attention in the industry with higher cost performance. The line type zinc oxide lightning arrester has mature technology, can extinguish power frequency follow current, and is widely used in overhead lines; however, the performance of the system is easily degraded during operation, which results in high operation and maintenance costs.

The through-flow capacity of the protective gap lightning arrester is large, simple and practical; but the disadvantage of line tripping caused by power frequency continuous current exists in the lightning strike. The self-arc-extinguishing multi-gap lightning arrester has the advantages of large through-flow capacity of the protective gap lightning arrester, simplicity and practicability, and can extinguish power-frequency follow current to avoid tripping. Because the installation mode and the position of the line insulator and the arrester have universality, in order to ensure the safety feasibility of the line and not greatly increase the installation and maintenance difficulty and the cost of the line, the research and development of the multi-gap arrester with the insulator function becomes a direction.

And because the position of the tower is a high-frequency area hit by thunder, the lightning protection measure requirement on the position of the tower is stricter, and the lightning protection system of the tower which is convenient to install and has good lightning protection effect is particularly important for the position of the tower with limited installation space, especially for the position of the tower with a 35kv overhead line and under the environment with narrow space at the position of the tower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the above-mentioned not enough, provide can realize being convenient for under some environment that the space is narrow and small installing and the effectual shaft tower lightning protection system of taking shelter from thunder.

The purpose of the utility model is realized like this:

the utility model provides a shaft tower lightning protection system, it includes the shaft tower, its characterized in that install on the shaft tower and connect out insulator chain connection horizontal pole and arrester cross arm, the outer end that the horizontal pole was connected to the insulator chain is connected with insulator chain, and insulator chain outwards is connected with the cable conductor, the outer end of arrester cross arm is connected with multicavity chamber arc extinguishing arrester downwards, and the arrester cross arm is hollow insulating cross arm, and insulating cross arm is provided with inside wire, and the top of multicavity chamber arc extinguishing arrester is connected to the one end of inside wire, and the other end of inside wire passes insulating cross arm and carries out ground connection, the cable conductor is close to insulator chain department and is provided with the fastener, draw forth the wire on the fastener and be connected with the bottom of multicavity.

As a preferred, the solid fixed ring of first solid fixed ring and the solid fixed ring of second that the multi-chamber arc extinguishing arrester arranged from top to bottom, first solid fixed ring and the solid fixed ring of second are the conductor, be provided with the three discharge interface of evenly arranging under the first fixed ring, the solid fixed ring of second upwards is connected with three multi-chamber arc extinguishing fixed gap wares of vertical arrangement, and the upper end position of three discharge interface and three multi-chamber arc extinguishing fixed gap wares corresponds, and the upper end of three multi-chamber arc extinguishing fixed gap wares is close to three discharge interface, and one side of every multi-chamber arc extinguishing fixed gap ware all is provided with a vertical arrangement's arrester insulator, and the solid fixed ring of first solid fixed ring and second is connected respectively to every arrester insulator upper end and lower extreme.

Preferably, the multi-cavity arc extinguishing fixed gap device comprises a fixed base, a silica gel insulating sleeve, an insulating core rod, a top conductive joint, a bottom conductive joint and a plurality of conductive beads arranged at intervals vertically, wherein the upper end surface of the fixed base is provided with an insulating core rod inserting port and a bottom conductive joint inserting port, the insulating core rod and the bottom conductive joint are respectively inserted upwards in the insulating core rod inserting port and the bottom conductive joint inserting port, the silica gel insulating sleeve is arranged outside the insulating core rod and the bottom conductive joint, the whole silica gel insulating sleeve is of a cylinder structure, the top of the silica gel insulating sleeve is connected with the top conductive joint, one side of the silica gel insulating sleeve is provided with a plurality of arc nozzles along the height direction, the direction of the arc nozzles is just the direction of a discharge port, the plurality of arc nozzles are arranged in a row from top to bottom, the direction of the arc nozzles is transversely arranged and faces the inner sides of the first fixed ring and the second, a plurality of conductive beads are also arranged into a line from last to down, and every conductive bead all is close to the outward flange setting of the insulating cover of silica gel, and the high position of every conductive bead is located the position that exceeds between two adjacent electric arc spouts about just, and top conductive contact, a plurality of conductive beads and bottom conductive contact are interrupted the isolation by silica gel in whole silica gel insulating cover, the unable adjustment base of multicavity room arc extinguishing fixed gap ware installs on the solid fixed ring of second, and top conductive contact's upper end corresponds and leaves the clearance between the two with the interface position that discharges.

Preferably, the number of the discharge ports, the multi-chamber arc extinguishing fixed gap devices and the lightning arrester insulator is more than three, the discharge ports of the multi-chamber arc extinguishing fixed gap devices face the inner side, and arcs are staggered with each other during discharging so as not to hit any solid part.

Preferably, the discharge interface, the multi-chamber arc extinguishing fixed gap device and the lightning arrester insulator are equally arranged on the first fixed ring and the second fixed ring.

Preferably, the first fixing ring is connected with a first connecting support, the first connecting support comprises a first connecting ball, the first connecting ball is connected with three first connecting rods in an equal dividing mode obliquely downwards, the outer ends of the three first connecting rods are connected with the inner ring of the first fixing ring, the outer end positions of the three first connecting rods correspond to the upper end position of the multi-chamber arc extinguishing fixed gap device, the first connecting ball is upwards connected with a first connecting seat, and the first connecting seat is connected with the outer end of the lightning arrester cross arm.

Preferably, the second fixing ring is connected with a second connecting support, the second connecting support comprises a second connecting ball, the second connecting ball is connected with three second connecting rods in an upward direction in an inclined mode, the outer ends of the three second connecting rods are connected with the inner ring of the second fixing ring, the outer end positions of the three second connecting rods correspond to the lower end position of the multi-cavity arc extinguishing fixed clearance device, the second connecting ball is connected with a second connecting seat downwards, and the second connecting seat is connected with a lead.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a shaft tower lightning protection system hits the cable conductor back at the thunder and lightning, the electric current passes through fastener and the unable adjustment base of wire flow direction multicavity room arc extinguishing arrester, then reach the solid fixed ring of second, owing to it is provided with a plurality of multicavity room arc extinguishing fixed gap wares to connect in parallel between the solid fixed ring of second and first solid fixed ring, make the electric current shunt, the electric current on every multicavity room arc extinguishing fixed gap ware reduces gradually, and the electric current is again through releasing electric arc outside the electric arc spout after a plurality of conductive balls on the multicavity room arc extinguishing fixed gap ware, thereby make the electric current of leading first solid fixed ring reduce gradually, if finally there is partial current on arriving first solid fixed ring, then carry out ground connection release through. Because the electric arc spout of a plurality of multi-chamber arc extinguishing fixed clearance ware sets up towards the inboard of the solid fixed ring of second and first solid fixed ring, consequently can realize being convenient for install and the effectual advantage of lightning-arrest under some environment that the space is narrow and small.

Drawings

Fig. 1 is the utility model relates to a shaft tower lightning protection system's schematic diagram.

Fig. 2 is a schematic diagram of a multi-chamber arc extinguishing arrester according to the present invention.

Fig. 3 is an external schematic view of a multi-chamber arc extinguishing fixed gap device according to the present invention.

Fig. 4 is a schematic diagram of the internal structure of the multi-chamber arc extinguishing fixed gap device of the present invention.

Fig. 5 is a first perspective view of the fixing base shown in fig. 3.

Fig. 6 is a second perspective view of the fixing base shown in fig. 3.

Wherein:

tower 100

Cross arm connecting base 200

Insulator string connecting cross bar 300

Arrester cross arm 400

Insulator string 500

Cable conductor 600

Multi-chamber arc extinguishing arrester 700

First fixing ring 701 and discharge interface 701.1

A second fixing ring 702,

The multi-cavity arc extinguishing fixed gap device 703, a fixed base 703.1, a bolt connecting hole 703.1.1, an insulating core rod socket 703.1.2, a bottom conductive connector socket 703.1.3, a silica gel insulating sleeve 703.2, an arc spout 703.2.1, an insulating core rod 703.3, a top conductive connector 703.4, a bottom conductive connector 703.5, a conductive bead 703.6

An arrester insulator 704,

A first connecting bracket 705, a first connecting ball 705.1, a first connecting rod 705.2, a first connecting seat 705.3

Second connecting bracket 706, second connecting ball 706.1, second connecting rod 706.2 and second connecting seat 706.3

Cable clamp 800

A conductive line 900.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the utility model relates to a lightning-arrest system of shaft tower, it includes shaft tower 100, install cross arm connecting seat 200 in co-altitude department according to the altitude requirement on the shaft tower 100, connect out insulator chain connection horizontal pole 300 and arrester cross arm 400 on cross arm connecting seat 200 respectively on same horizontal plane, the outer end that insulator chain connection horizontal pole 300 is connected with insulator chain 500, and insulator chain 500 outwards is connected with cable conductor 600, the outer end of arrester cross arm 400 is connected with multicavity room arc extinguishing arrester 700 downwards, and arrester cross arm 400 is hollow insulating cross arm, and insulating cross arm is provided with inside wire, and the top of multicavity room arc extinguishing arrester 700 is connected to the one end of inside wire, and the other end of inside wire passes insulating cross arm and carries out ground connection. The cable 600 is provided with a wire clamp 800 near the insulator string 500, and a lead 900 led out from the wire clamp 800 is connected with the bottom of the multi-chamber arc-extinguishing lightning arrester 700.

The multi-chamber arc-extinguishing arrester 700 comprises a first fixing ring 701 and a second fixing ring 702 which are arranged from top to bottom, the first fixing ring 701 and the second fixing ring 702 are hollow metal tubes, the first fixing ring 701 is provided with three discharge interfaces 701.1 which are uniformly arranged downwards, the discharge interfaces 701.1 are of a tubular structure, the pipe orifices of the three discharge interfaces face downwards, the second fixing ring 702 is upwards connected with three multi-chamber arc-extinguishing fixed gap devices 703 which are vertically arranged, the upper end positions of the three discharge interfaces 701.1 and the upper end positions of the three multi-chamber arc-extinguishing fixed gap devices 703 correspond to each other, the upper ends of the three multi-chamber arc-extinguishing fixed gap devices 703 are close to the three discharge interfaces 701.1, the three multi-chamber arc-extinguishing fixed gap devices 703 are arranged in a regular triangle at equal intervals, one side of each multi-chamber arc-extinguishing fixed gap device 703 is provided with a vertically arranged insulator arrester 704, three arresters 704 are totally arranged in a regular triangle, and three, the upper end and the lower end of each arrester insulator 704 are respectively connected with a first fixing ring 701 and a second fixing ring 702.

The multi-cavity arc extinguishing fixed gap device 703 comprises a fixed base 703.1, a silica gel insulating sleeve 703.2, an insulating core rod 703.3, a top conductive joint 703.4, a bottom conductive joint 703.5 and a plurality of conductive beads 703.6 arranged at vertical intervals, wherein the lower end surface of the fixed base 703.1 is provided with two bolt connecting holes 703.1.1, the upper end surface of the fixed base 703.1 is provided with an insulating core rod socket 703.1.2 and a bottom conductive joint socket 703.1.3, the insulating core rod 703.3 and the bottom conductive joint 703.5 are respectively upwards plugged in the insulating core rod socket 703.1.2 and the bottom conductive joint socket 703.1.3, a silica gel insulating sleeve 703.2 is arranged outside the insulating core rod 703.3 and the bottom conductive joint 703.5, the silica gel insulating sleeve 703.2 is integrally of a cylindrical structure, the top of the silica gel insulating sleeve 703.2 is provided with the top conductive joint 703.4, one side of the silica gel insulating sleeve 703.2 is provided with a plurality of arc spouts 703.2.1 along the height direction, the arc spouts 703.2.1 point to the discharge port direction, the arc spouts 703.2.1 are arranged in a line from top to bottom, the arc spouts 703.2.1 are transversely arranged and face the inner sides of the first fixing ring 701 and the second fixing ring 702, the conductive beads 703.6 are also arranged in a line from top to bottom, each conductive bead 703.6 is arranged close to the outer edge of the silica gel insulating sleeve 703.2, the height position of each conductive bead 703.6 is just located at the higher position between the two adjacent arc spouts 703.2.1, the top conductive joint 703.4, the conductive beads 703.6 and the bottom conductive joint 703.5 are isolated by silica gel discontinuity in the whole silica gel insulating sleeve 703.2, when the bottom conductive joint 703.5 receives an instantaneous high voltage, the current is conducted upwards along the conductive beads 703.6 from bottom to top, and the arc spouts 703.2.1 at the corresponding height are released outwards to perform arc discharge. The mounting base 703.1 of the multi-chamber arc extinguishing fixed gap 703 mounts the multi-chamber arc extinguishing fixed gap 703 to the second mounting ring 702 by bolting the multi-chamber arc extinguishing fixed gap 703 into the bolting holes 703.1.1.

The discharge ports of the multi-cavity arc extinguishing fixed gap devices 703 are arranged towards the inner rings of the first fixing ring 701 and the second fixing ring 702, and the discharge ports of the three multi-cavity arc extinguishing fixed gap devices 703 are staggered towards each other, so that the multi-cavity arc extinguishing fixed gap devices 703 cannot be aligned to other multi-cavity arc extinguishing fixed gap devices 703 and lightning arrester insulators 704.

The first fixing ring 701 is connected with a first connecting support 705, the first connecting support 705 comprises a first connecting ball 705.1, the first connecting ball 705.1 is obliquely and downwards connected with three first connecting rods 705.2 in an equal dividing mode, the outer ends of the three first connecting rods 705.2 are connected with the inner ring of the first fixing ring 701, the outer ends of the three first connecting rods 705.2 correspond to the upper end of the multi-cavity arc extinguishing fixed gap device 703, the first connecting ball 705.1 is upwards connected with a first connecting seat 705.3, and a first mounting hole is formed in the first connecting seat 705.3. The first connector 705.3 is hinged to the outer end of the arrester cross arm 400 by screwing a turning rod in the first mounting hole.

Be connected with second linking bridge 706 on the solid fixed ring of second 702, second linking bridge 706 includes second connection ball 706.1, the oblique ascending direction equipartition is connected with three second connecting rods 706.2 on the second connection ball 706.1, the inner circle of the solid fixed ring of second 702 is connected to the outer end of three second connecting rods 706.2, the outer end position of three second connecting rods 706.2 corresponds with the lower extreme position of multi-chamber arc extinguishing fixed clearance ware 703, second connection ball 706.1 is connected with a second connecting seat 706.3 downwards, be provided with the second mounting hole on the second connecting seat 706.3.

The number of the discharge interfaces 701.1, the multi-cavity arc extinguishing fixed gap devices 703 and the lightning arrester insulator 704 may be three or more, so long as it is ensured that the discharge ports of the multi-cavity arc extinguishing fixed gap devices 703 face inward after the installation is completed and are displaced during discharge, and the discharge ports of the multi-cavity arc extinguishing fixed gap devices 703 face inward and arcs are displaced from each other during discharge so as not to hit any solid component. A physical component refers to any of the components referred to above. The inward discharge enables a larger arc to be released in a narrower installation area, so that interference between two adjacent multi-chamber arc-extinguishing arresters 700 or other nearby components is not caused.

The working principle is as follows:

after the thunder hit the cable conductor, the electric current flows to the unable adjustment base of multi-chamber arc extinguishing arrester through fastener and wire, then reach the solid fixed ring of second, owing to be provided with three or three more than multi-chamber arc extinguishing fixed gap ware between solid fixed ring of second and first solid fixed ring in parallel, make the electric current shunt, the electric current on every multi-chamber arc extinguishing fixed gap ware reduces gradually, and the electric current is again through releasing electric arc outside the electric arc spout after a plurality of conductive beads on the multi-chamber arc extinguishing fixed gap ware, thereby make the electric current of leading first solid fixed ring reduce gradually, if finally there is partial current on reaching first solid fixed ring, then carry out ground connection release through inside wire. When the multi-chamber arc extinguishing arrester works, most of space in the areas of the first fixing ring and the second fixing ring of the multi-chamber arc extinguishing arrester is occupied by the direction of arc release, so that the multi-chamber arc extinguishing arrester is suitable for installation in narrow space.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (9)

1. A tower lightning protection system comprises a tower (100), and is characterized in that an insulator string connecting cross rod (300) and a lightning arrester cross arm (400) are arranged on the tower (100), the outer end of the insulator string connecting cross rod (300) is connected with an insulator string (500), the insulator string (500) is connected with a cable (600) outwards, the outer end of the arrester cross arm (400) is downwards connected with a multi-chamber arc-extinguishing arrester (700), the arrester cross arm (400) is a hollow insulating cross arm, the insulating cross arm is provided with an internal conducting wire, one end of the internal conducting wire is connected with the top of the multi-chamber arc-extinguishing arrester (700), the other end of the internal conducting wire passes through the insulating cross arm to be grounded, a cable clamp (800) is arranged at the position of the cable (600) close to the insulator string (500), and a lead (900) led out from the wire clamp (800) is connected with the bottom of the multi-cavity arc extinguishing lightning arrester (700).

2. The tower lightning protection system according to claim 1, wherein the multi-chamber arc-extinguishing lightning arrester (700) comprises a first fixing ring (701) and a second fixing ring (702) which are arranged up and down, the first fixing ring (701) and the second fixing ring (702) are both conductors, the first fixing ring (701) is provided with three discharge interfaces (701.1) which are uniformly arranged downwards, the second fixing ring (702) is connected with three multi-chamber arc-extinguishing fixed gap devices (703) which are vertically arranged upwards, the upper end positions of the three discharge interfaces (701.1) and the three multi-chamber arc-extinguishing fixed gap devices (703) correspond to each other, the upper end of each multi-chamber arc-extinguishing fixed gap device (703) is close to the three discharge interfaces (701.1), one side of each multi-chamber arc-extinguishing fixed gap device (703) is provided with a vertically arranged lightning arrester insulator (704), and the upper end and the lower end of each lightning arrester insulator (704) are respectively connected with the first fixing ring (701) and the second fixing ring (702) .

3. The tower lightning protection system according to claim 2, wherein the multi-chamber arc extinguishing fixed gap device (703) comprises a fixed base (703.1), a silica gel insulating sleeve (703.2), an insulating core rod (703.3), a top conductive joint (703.4), a bottom conductive joint (703.5) and a plurality of conductive beads (703.6) which are vertically arranged at intervals, the upper end surface of the fixed base (703.1) is provided with an insulating core rod socket (703.1.2) and a bottom conductive joint socket (703.1.3), the insulating core rod socket (703.1.2) and the bottom conductive joint socket (703.1.3) are internally and upwardly plugged with the insulating core rod (703.3) and the bottom conductive joint (703.5), the silica gel insulating sleeve (703.2) is arranged outside the insulating core rod (703.3) and the bottom conductive joint (703.5), the silica gel insulating sleeve (703.2) is integrally of a cylindrical structure, the top of the silica gel insulating sleeve (703.2) is provided with the top conductive joint (703.4), one side of silica gel insulating sleeve (703.2) is provided with a plurality of arc spouts (703.2.1) along the direction of height, the directional department of arc spout (703.2.1) is exactly the discharge opening direction, and a plurality of arc spouts (703.2.1) arrange into a column from last to bottom, and the inboard of first solid fixed ring (701) and the solid fixed ring of second (702) is transversely set up and towards in the direction of arc spout (703.2.1), a plurality of conductive balls (703.6) also arrange into a column from last to bottom, and every conductive ball (703.6) all is close to the outward flange setting of silica gel insulating sleeve (703.2), and the high position of every conductive ball (703.6) lies in the position of being higher than between two adjacent arc spouts (703.2.1) from top to bottom just, and top conductive joint (703.4), a plurality of conductive balls (703.6) and bottom conductive joint (703.5) are interrupted by silica gel in whole silica gel insulating sleeve (703.2) and are kept apart, the unable adjustment base (703.1) of multi-chamber fixed gap ware (703) of extinguishing installs on the solid fixed ring of second (702), the upper end of the top conductive contact (703.4) corresponds to the position of the discharge interface (701.1) and a gap is left between the upper end and the discharge interface.

4. A tower lightning protection system according to claim 2, characterized in that the number of the discharge interface (701.1), the multi-chamber arc extinguishing fixed gap device (703) and the lightning arrester insulator (704) is more than three, the discharge ports of the multi-chamber arc extinguishing fixed gap device (703) face inward, and the arcs are staggered to each other during discharging and do not hit any solid part.

5. A tower lightning protection system according to claim 4, characterized in that the discharge interface (701.1), the multi-chamber arc extinction fixed gap (703) and the lightning arrester insulator (704) are equally spaced on the first fixed ring (701) and the second fixed ring (702).

6. A tower lightning protection system according to claim 2, characterized in that the first fixing ring (701) is connected with a first connecting support (705), the first connecting support (705) comprises a first connecting ball (705.1), the first connecting ball (705.1) is connected with three first connecting rods (705.2) in an inclined downward direction and in equal intervals, the outer ends of the three first connecting rods (705.2) are connected with the inner ring of the first fixing ring (701), the outer end positions of the three first connecting rods (705.2) correspond to the upper end position of the multi-chamber arc extinguishing fixed gap device (703), the first connecting ball (705.1) is connected with a first connecting seat (705.3) in an upward direction, and the first connecting seat (705.3) is connected with the outer end of the lightning arrester cross arm (400).

7. A tower lightning protection system according to claim 6, characterized in that the number of the discharge interface (701.1), the multi-chamber arc extinguishing fixed gap device (703), the lightning arrester insulator (704) and the first connecting rod (705.2) is more than three and equally divided.

8. A tower lightning protection system according to claim 2, characterized in that the second fastening ring (702) is connected with a second connecting bracket (706), the second connecting bracket (706) comprises a second connecting ball (706.1), the second connecting ball (706.1) is connected with three second connecting rods (706.2) in an equal manner in an upward direction, the outer ends of the three second connecting rods (706.2) are connected with the inner ring of the second fastening ring (702), the outer end positions of the three second connecting rods (706.2) correspond to the lower end positions of the multi-chamber arc extinguishing fixed clearance device (703), the second connecting ball (706.1) is connected with a second connecting seat (706.3) in a downward direction, and the second connecting seat (706.3) is connected with the conducting wire (900).

9. The tower lightning protection system according to claim 8, characterized in that the number of the discharge interface (701.1), the multi-chamber arc extinguishing fixed gap device (703), the lightning arrester insulator (704) and the second connecting rod (706.2) is more than three and equally divided.

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