CZ24206U1 - Supporting and switching system for high tension overhead line with triangular arrangement of conductors - Google Patents

Abstract

Carrying and switching system (1) for above ground electric power line voltage with a triangular arrangement of conductors (2, 3, 4) comprises a support system which is mounted on the top of the column (5) which consists of the lower arm (34) carrying the anchor chain insulator (7 ) the two outer of conductors (2, 4) and a central arm (35) carrying on the anchor chain insulator (8) the center conductor (3). Further includes a switching system arranged on the column (5) below the grid and comprising switching elements (11, 12, 13), which are using leakage wires (14, 15, 16) connected to the wires (2, 3, 4). Disclosure of solution consists of the fact that above the lower arm (34) is arranged horizontally isolated abutting console (36) for the birds which its upper contact surface is located at H => 300 mm above the phase conductors (2, 4), or of their anchor chain insulator (7), and at least leaky central conductors (15) connecting the country's center conductor (3) with a switching element (12) are isolated and / or adapted for auxiliary insulator (20), arranged transversely to the abutting console (36) and are stored in a protective insulating cover (21) at least in the area abutting console (36).

Description

The technical solution relates to a support and switching system for above-ground high-voltage power lines, where the conductors on the power lines are arranged in a triangular profile on the support system.

BACKGROUND OF THE INVENTION

Tzv. ecological power lines, characterized by the triangular arrangement of the conductors, are preferred for overhead distribution of high-voltage networks for reasons related to nature and landscape protection. These lines have a smaller width profile and at the same time prevent between phase shorts when contacting especially larger birds, thus protecting them from injury or killing much better than previously used outdoor power lines by arranging the conductors in one plane.

There are a number of load carrying and switching systems for triangular lines. E.g. utility model No. 860 discloses a support system having a central vertical support arm carrying one conductor and a horizontal wider arm carrying two conductors. This design allows a reduction in the overall width of the power lines, but does not effectively prevent the birds from hitting the horizontal wider arm, which must be sufficiently protected by poorly effective plastic covers.

According to Utility Model No. 6978, an improved support system solution is known in which the center support arm is provided at its lower part with feet in which two side arms are clamped at a 2o center support arm with an acute angle (preferably 45 °) connected to the center support arm. arm using bolt. This oblique solution, called "claw", has been considerably expanded in practice and has undergone a number of modifications, for example according to utility model No. 15405, where the central carrier is formed by two arms, converging upwards to the tip where they are joined. The connection of the arms of the central carrier is made with the possibility of their angular deflection, in the part above the head of the mast the arms are connected by a clamping bolt, and in the area under the head of the mast they are fixed to the mast by a clamp. This solution eliminates the disadvantages associated with lateral attachment and allows the installation of one universal system on columns and poles of different diameters. The inclined side supports are welded.

The utility model Nos. 10910 and 12920 are also similar with respect to the center support (without angular adjustment), but the inclined side supports are replaced by a horizontal beam with 30 tabs, where again there is a risk of injury to the birds when the horizontal beam is touched. Another variant of a similar solution is described in Utility Model No. 16221, wherein the inclined side carriers are directed obliquely upward, and the risk of injury to birds is thus reduced.

In a further known improvement of the claw support system, the inclined side carriers are additionally coupled to the central carrier by oblique barriers which enclose the narrow spaces between the central carrier and the 35 inclined side carriers, and prevent the bird from coming into these spaces.

Another known alternative to a triangular conductor arrangement is based on a horizontal wider arm carrying two conductors, which is fastened above the top of a pole or mast by a clamping system. The support system is formed as an integral weldment of this horizontal arm and two oblique beams that extend upwardly from the horizontal arm and form a substantially isosceles triangle with it. The inclined beams are connected at their apex by a horizontal bridge to fix the central insulator, the horizontal wider arm is fitted at the ends with two side insulators. Also in this solution, the inclined arms prevent the birds from accessing the triangular conduit profile.

A disadvantage of the above-described carrier systems is that they use angled arms to prevent birds from accessing the triangular space between the conductors, based on the assumption that the angled portion is difficult for the birds to touch. However, this solution is not entirely effective in practice, as some birds still try to touch these natural high points in the landscape,

In some cases, however, the sloping arms of the carrier system barriers may slide down to the insulator respectively. to the conductor and cause between phase short-circuit resp. electric shock that causes injury or death to a bird. Other injuries occur during the excretion of birds, where the birds hit the faeces when excreting parts that are under phase voltage, and if they sit on a grounded structure, a jump occurs.

Supporting systems have also been developed, where a special horizontal support bracket for birds has been attached to the pole or mast under its own support system with a planar conductor arrangement, but this solution has not proved to be appropriate given that the birds naturally choose the highest possible point for the support, not the lower one, so they restored to the space between the hydrogen.

Regarding the placement of the switching elements (switches, disconnectors) on the support systems for power lines, in all the solutions described above, the insulators or the switching elements are arranged directly at the ends of the arms of the triangular support system.

From other documents, for example utility model No. 10972, a solution is also known in which the switching elements can be arranged on an auxiliary crossbar arranged above or under the guidance. The wires are routed directly from the yoke anchor clamp to the movable contact or the fixed contact. The solution according to UV 10972 is intended for a flat arrangement of conductors where there is a high risk of injury to birds, but it is also necessary to take into account the possibility of injury to birds in the areas of connecting lines and elements between conductors and switching elements which are also live.

SUMMARY OF THE INVENTION The object of the present invention is to provide a carrier and switch system for high-voltage power lines with a triangular arrangement of conductors which overcomes the above-mentioned drawbacks of known solutions and substantially increases the safety of the carrier and switch system for birds. injury.

The essence of the technical solution

This object is solved by providing a support and switching system according to the technical solution. A support and switching system designed for overhead high-voltage power lines with a triangular arrangement of conductors includes a support system mounted on a column top and a switching system arranged on a column below the support system.

The support system consists of a lower arm carrying two outer conductors on the anchor insulator chains and a central arm carrying a center conductor on the anchor insulator chains. The switching system comprises switching elements which are connected to the conductors conducting the high-voltage phase by means of lead wires.

The essence of the technical solution consists in the construction of a special seating bracket for birds and in the changes of the supporting and switching system made to increase the safety of the whole bird seating system. Above the lower limb there is a horizontally arranged insulated bird support bracket, the upper contact surface of which is at a height H> 300 mm, preferably H> 450 mm above the outer conductors or their anchor insulator chains, and at least central conductors connecting the central conductor to they are insulated and / or mounted on auxiliary insulators arranged transversely to the support bracket and are housed in a protective insulating cover at least in the region of the support bracket.

The advantage of the device according to the invention is that the birds can comfortably sit on the horizontal console and move safely in any place, with no risk of injury during take-off and landing, or during excretion, due to the insulated design of the landing console. Insulation of the center conductor conductors is important to prevent electric shock if the conductor comes into contact with uninsulated grounded parts of the support system (center arm or lower arm), eg when waving the wing, landing or taking off. Distance H> 450 mm is optimal for protecting all birds, including large birds of prey, in any movement on the console.

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CZ 24206 Ul

In a preferred construction of the invention, the auxiliary insulators are arranged on side beams fixed to the central arm.

In a further preferred embodiment of the invention, the protection of birds against electric shock is further increased by providing a first bird restraint on the crossbar in the spaces between the switching elements, preferably comprising a series of triangular structures arranged side by side in the spaces between the switching elements. , and anchored in the crossbeam. In terms of production costs, the cheapest solution is to manufacture the first barrier from wire formed into triangular formations.

In a further preferred embodiment of the invention, the protection of birds against electric shock is further enhanced by providing a second bird restraint at the apex of the central arm, preferably comprising a sheet metal flag having at least one sharp apex and at least one inclined surface. arranged in a plane formed by the center arm and the bearing bracket.

The barriers prevent the birds from resting on any part of the support and switching system very effectively, with the exception of a safe insulated support bracket.

The seating bracket may be insulated in a variety of ways, eg, it may be provided with a surface insulating layer. From a practical point of view, as well as from a safety, manufacturing and assembly point of view, it has proved to be the most advantageous solution where the entire support bracket is made of an electrically non-conductive material. Preferably, the material is a suitable carbon fiber dielectric composite material that is nonconductive, light but strong. It is preferred that the top of the seating bracket is provided with a roughened surface so that the bird's claws do not slip on a smooth surface, particularly in the rain or the like.

Indeed, the seating bracket was indeed the dominant point that attracted the attention of birds when selecting the seating position, it is preferred that the overall width of the seating bracket is greater than the overall width of the lower arm. The ends of the seating console, where larger predators sit, show the highest level of safety. At the same time, the wide width of the seating bracket allows the perching of more migratory birds.

The supporting system, including the bearing bracket, is symmetrical on both sides of the column. that the seating bracket is formed in two parts, wherein the right portion of the seating bracket is fastened to one side of the center arm, and the left portion of the seating bracket is fastened to the other side of the center arm, the width of the right portion of the seating bracket and the left portion of the seating bracket preferably greater than 1000 mm. With a width of one part, eg 1300 mm, the entire bearing bracket has a seating width of 2600 mm.

The split seating solution is particularly advantageous for the structure of the support system wherein the center arm is formed by the right portion of the center arm and the left portion of the center arm, the right portion and the left portion converging upward to the tip and associated with angular displacement above the head of the column. Both parts of the center arm are simultaneously connected to each other by a clamping bolt and the lower ends of the right part and the left part of the center arm are fastened to the column by means of a clamp sleeve.

The lower arm of the support system disposed beneath the support bracket may have different shapes, but in order to eliminate the risk of birds landing on this part of the support system and at the same time to overcome the jump distance of the support bracket from the conductors,

In this preferred embodiment, the lower arm is formed by the right portion of the center arm and the left portion of the center arm, wherein both the right portion and the left portion of the center arm are formed by a first section extending obliquely upward from the mast or mast; at the end of the second section anchor insulator chains for the outer conductors of the high-voltage line are fixed.

From a constructional point of view, it is advantageous if the first section is longer than the second section, forming an angle of 45 ° with the column and an angle of β = 90 ° with the second section. To increase the compactness of the bearing structure

In some cases, in the peaks formed by the first section and the second section, the right portion of the lower arm and the left portion of the lower arm are connected to the support bracket by means of holders at the peaks formed by the first section and the second section. These holders are welded to the top of both lower arm parts.

As far as switching elements are concerned, the supporting and switching system is most preferably designed with specific switching elements provided by manufacturer DR1BO sro under the type designation Fla 15/60 GB (outdoor switch disconnector with an extinguishing chamber for live mounting) or DR1BO Fic GB quenching mechanism for live mounting). These switchgear are specially designed for fitting bird restraints, and for attaching flexible copper strips either from one side or both sides, for working under voltage. The lead tapes thus fastened have a higher mechanical life and stability when moving the movable parts of the switching element. The lead conductors keep their shape and reduce the risk of short circuit during handling, or they can be insulated with additional plastic covers. The feed flags of the switching elements are shaped by a 25 ° upward bend to create an ideal shaping of the lead conductors, and are fitted with grounding shorting points for fastening the assembly shorting kits. Also, the connection between the lead conductor and the conductor is solved by a special item that prevents loosening of the screw connection during movement.

The advantages of the carrier and switching system according to the technical solution consist in a substantial increase of safety for birds, especially for large predators. The carrier and switching system, unlike the known 20 solutions, does not contain any long angled parts that the birds want to rest on, after which they can subsequently slide down to live parts and injure themselves by flapping their wings to maintain stability when sliding. The carrier and switching system according to the invention, on the other hand, provides an insulated, wide and horizontally dominant surface for the birds to sit, which is completely safe and allows the birds to move normally during landing, perching and take-off, as in the wild. The other parts of the support system are provided with insulation, anti-abutment, and spatial arrangement of the stressed parts at greater than the hopping distances in relation to the location, shape and material of the support bracket. In addition, the dielectric design of the seating bracket protects birds from electric shock even when live parts are touched or when the bird strikes the live phase conductor during excretion.

Clarification of drawings

The technical solution will be explained in more detail by means of the drawings, in which Fig. 1 shows a front view of a concrete pole of a high-voltage overhead line with a supporting and switching system forming a section switch disconnector with Fla 15/60 GB switching elements. 1, 3 shows a perspective view of a concrete pole of a high voltage overhead line with the support and switching system according to FIG. 1, FIG. 4 is a perspective view of the support and switching system constituting the disconnected cable lead, Fig. 5 is a perspective view of a load-carrying and switching system forming a disconnected branch; Fig. 6 is a perspective view of a load-carrying and switching system with leadwires formed by connection strips and with DRIBO Fic GB switching elements.

Examples of technical solutions

It is to be understood that the specific embodiments of the invention described and illustrated below are presented by way of illustration and not by way of limitation of the exemplary embodiments of the invention to the present cases. Those skilled in the art will find or will be able to detect, using routine experimentation, more or less equivalents to specific embodiments of the technical solutions specifically described herein. These equivalents will also be included within the scope of the following protection claims.

In the embodiment shown in Figs. 1 to 3, the support and switching system 1 is designed to be mounted on concrete columns 5. The switching system in Figs. 1 to 3 is designed as a sectional

-4GB 24206 U1 ref. however, the technical solution can be similarly used, for example, for a disconnected branch line of a line with a vertical switch-disconnector, or for a cable connection with a vertical switch-disconnector, or for other combinations of support points with switching elements.

The conductors 2, 3, 4 of the power line are generally ALFe conductors with a cross section up to 110/22 mm ² , arranged in a triangle profile. The support system for fastening the two outer conductors 2, 4 and one central conductor 3 is a zinc-coated steel weldment, which is fixed to the pole 5 by means of a clamp sleeve 27. The clamp sleeve 27 consists of two anchor segments and two U-shaped bolts. The support system consists of a lower arm 6, 6 'carrying two outer conductors 2, 4 and a center arm 9, 9' carrying a center conductor 3. The center arm 9, 9 'of a closed steel profile is formed by the right part 9 of the center arm and the left part 9 The center arm of steel profiles, which are connected to the clamp sleeve 27 and extend along the column 5 above its head, where they converge to the tip and are connected by a bridge 31. a bolt 26 so that the support system can be adapted to different column diameters 5. Lower arm 6, 6 'of 15 The steel profile is also formed by the right lower arm portion 6 and the left lower arm portion 6 ', which are welded in the lower end region of the right center arm portion 9 and the left center arm portion 9'.

The lower arm 6, 6 'is not straight. Each of its symmetrical portions, i.e., the right lower leg portion 6 and the left lower leg portion 6 ', is formed as an angled beam, where a first longitudinal section 28 extends obliquely upwardly from a 20 column 5 followed by an inclined downwardly shorter second between the first section 28 and the second section 29 there is an angle β = 90 °, between the first section 28 and the column 5 there is an angle α = 45 °.

However, in another embodiment not shown, the lower arm 6, 6 'may be formed in one piece, may be straight, inverted U-shaped, or alternatively in another shape. At the ends 25 of the second sections 29 of the right-hand part 6 and the left-hand part 6 'of the lower arm are anchored clamps for fastening the anchor insulator chains 7 on both sides, to which the outer conductors 2, 4 are fastened.

The attachment of the center conductor 3 to the center arm 9, 9 'is carried out in a similar manner, i.e. by means of anchor insulator chains 8 fastened from both sides to the bridge 31 at the top of the center arm 9, 9'.

Lead conductors L4, F5, 16 are fastened to the conductors 2, 3, 4 in front of the anchor insulator chains 7, 8 by means of yoke anchor clamps 19, which are led to the circuit breaker switching system. The switching system in the so-called sub-cushion design is located on the column 5 below the support system. Switching elements FI, 12, 13, 35 consisting of a movable contact and a fixed contact with the arc chute are arranged on a crossbar 10 fixed to the column 5. Switching elements 11,

12, 13 comprise load disconnectors with the type designation Fla £ 5/60 GB manufactured by DRIBO s.r.o, with an arc quenching chamber, which are structurally adapted for their use in the support and switching system according to the invention. These switching elements H, 12, 13 have built-in surge arresters and by their design they allow the installation of the first bird-restraining barrier 23, further enable work under 40 voltages, simplify the mounting on the pole and facilitate handling while increasing safety. The pairs of lead wires 14, F5, 16 are connected to the contacts of the switching element H, 12, 13 switching the respective phase, ie the respective conductor 2, 3, 4. While the outer lead wires M, 16 leading to the switching elements H, 13 are made in a conventional manner , the central conductor conductors 15 leading from the central conductor 3 to the central switching element 12 are adapted so as to reduce the risk of short circuiting. In the not illustrated embodiment, the center lead conductors may be insulated cables. In another embodiment shown in Figs. 1 to 3, the center lead conductors 15 are housed in protective plastic insulating covers 21 which protect the lead conductors 15 along their entire length from the yoke anchor clips 19 to the contacts of the switching element F2. Around half the length, heads 25 are formed on the protective insulating covers 21 to protect the attachment of the lead conductors 15 in the auxiliary insulators 20 of the

The side beams 22 are bolted to the right portion 9 of the center arm.

In another embodiment shown in Fig. 6, the outer lead conductors 14, 16 are formed by copper connecting strips, which are connected to the outer conductors 2, 4 by means of connecting terminals 33 for working under voltage. Also, the lower part of the center conductor 15 is formed by a connecting strip. The upper portion of the central conductor 15 is of circular cross section, is housed in a protective insulating cover 21 between the auxiliary insulator 20 and the center conductor 3, and is fastened to the center conductor 3 by means of the yoke anchor clamp Γ9. Copper connection strips contribute to a higher stiffness of the entire switching element and live work can be carried out on the switching element by means of special connection terminals ίο. The switching elements H, 12, 13 in this exemplary embodiment comprise switch-disconnectors of the type designation DRIBO Fic GB, with a spring extinction mechanism, which are structurally adapted for their use in the support and switching system according to the technical solution. These switching elements 11, 12, 13, by their construction, allow the installation of the first bird-restraining barrier 23, furthermore enable working under voltage, easy and quick installation of surge arresters, simplification of pole mounting and facilitating handling while increasing safety.

In order to prevent the birds 18 from resting between the switching elements 11, 12, 13, the space between the switching elements 11, 12, 13 on the crossbar 10 according to the first and second exemplary embodiments is filled with a first barrier 23 formed by triangular bent wire. . The first barrier 23 is fastened to the crossbar 10. On the bridge 31 at the top of the central arm 9, 9 'there is a second barrier 24 against the birds 18, consisting of a sheet metal flag with a sharp tip and a connected inclined surface. The flag is arranged transversely to the direction of the conductors 2, 3, 4 so that the birds 18 cannot touch it.

For the safe abutment of birds 18, a special insulated insulated support bracket 17, 17 'of dielectric material is provided in the carrier and switching system 1, which is arranged above the lower arm 6, 62. It consists of a right part 17 and a left part 172, each part 17 17 'forms a composite carbon I profile 100 mm high, which is bolted at one end to the center arm 9, 9' and extends above the lower arm 6, 62. The length of the right-hand section 17 and the left-hand section 17 'is 1300 mm. while the right-hand part 6 and the left-hand part 6 'of the lower arm are in the plan view of a projection of about 900 mm long, i.e. of approx. The support bracket 17, 17 ' on both sides substantially extends beyond the contour of the lower arm 6, 6 ' and thus constitutes the widest and highest point at which the birds 18 can rest. The upper bearing surface of the bearing bracket 17, 17 'is at a height H ~ 450 mm above the outer conductors 2, 4, respectively. above their anchor insulator chains 7, which is a sufficient distance to prevent skipping and to protect birds 18 from injury when discharging conductive droppings 35. The upper bearing surface is 50 mm wide and is roughened to keep birds 18 better on it.

To increase the compactness of the structure, the bearing bracket 17, 17 'is connected to the lower arm 6, 6' by means of couplings 30.

Figs. 4 and 5 show other embodiments of the carrier and switching system 1 according to the invention, namely the so-called disconnected cable lead with a vertical switch-disconnector (Fig. 4) and the disconnecting line 40 with a vertical switch-disconnector (Fig. 4). 5). The switching elements 11, 12, 13 are arranged vertically on the frames 32, on the upper surfaces of which the second barriers 24 against the contact of the birds 18 are fixed.

Industrial applicability

The carrier and switching system according to the invention can be used for high-voltage overhead power lines 45 with a triangular arrangement of conductors, in particular for section switch-disconnectors, branches and cable glands.

Claims (22)

PROTECTION REQUIREMENTS A support and switching system (1) for overhead high-voltage power lines having a triangular arrangement of conductors (2, 3, 4), comprising a support system mounted on top of a pole (5), comprising a lower arm (6, 6) supporting anchor insulator of the strings (7), two outer conductors (2, 4), and a center arm (9, 9 ') carrying a center conductor (3) on the anchor insulator chains (8), and further comprising a switching system arranged on the column (5) below the support system and comprising switching elements (11, 12, 13) which are connected to the conductors (2, 3, 4) by means of the lead conductors (14, 15, 16), characterized in that above the lower arm (6, 6 ') is an insulated bird bearing bracket (17, 17 ') horizontally arranged, the upper bearing surface of which is at a height H> 300 mm above the outer conductors (2, 4) or above their anchor insulator chains (7), and at least central - conductor conductors (15) for connecting the center conductor (3) to the switching element (12) are insulated and / or mounted on auxiliary insulators (20) arranged transversely to the bearing bracket (17, 17 ') and are housed in protective insulating covers (21) at least in area of the bearing bracket (17, 17 '). Support and switching system according to claim 1, characterized in that the auxiliary insulators (20) are arranged on side beams (22) fixed to the center arm (6). Supporting and switching system according to claim 1 or 2, characterized in that a first barrier (23) against contact with birds (18) is arranged on the crossbar (10) in the spaces between the switching elements (11, 12, 13). Support and switching system according to claim 3, characterized in that the first barrier (23) is formed by a series of triangular formations arranged side by side in the spaces between the switching elements (II, 12, 13) and fixed to the cross-member (10). Supporting clamping system according to claim 4, characterized in that the first barrier (23) is made of a wire formed into triangular formations. Support and switching system according to at least one of Claims 1 to 5, characterized in that a second barrier (24) against the contact of the birds (18) is arranged at the top of the center arm (9, 9 '). Support and switching system according to claim 6, characterized in that the second barrier (24) is formed by a sheet metal flag provided with at least one sharp apex and at least one inclined surface adjoining the apex. Support and switching system according to claim 7, characterized in that the second barrier (24) is arranged in a plane formed by the center arm (9, 9 ') and the bearing bracket (17, 17'). Support and switching system according to at least one of Claims 1 to 8, characterized in that the protective insulating covers (21) are provided with heads (25) for protecting the fastenings in the auxiliary insulators (20). Support and switching system according to at least one of Claims 1 to 9, characterized in that the support bracket (17, 17 ') is made of an electrically non-conductive material. The support and switching system of claim 10, wherein the electrically nonconductive material is a carbon fiber composite material. -7EN 24206 Ul Support and switching system according to at least one of Claims 1.10, II, characterized in that the upper side of the bearing bracket (17, 17 ') is provided with a roughened surface. Support and switching system according to at least one of Claims 1, 10, II, 12, characterized in that the overall width of the bearing bracket (17, 17 ') is greater than the overall width of the lower arm (6, 6). Support and switching system according to at least one of Claims 1.10 to 13, characterized in that the bearing bracket (17, 17 ') is formed in two parts, wherein the right portion (17) of the bearing bracket is fixed to one side of the center arm (17). 9), and the left portion (17 ') of the bearing bracket is fixed to the other side of the center arm (9'). A support and switching system according to claim 14, characterized in that the width of the right side (17) of the bearing bracket and the left side (17 ') of the bearing bracket is greater than 1000 mm. Support and switching system according to at least one of Claims 15 to 15, characterized in that the center arm (9, 9 ') is formed by the right part (9) of the center arm and the left part (9) of the center arm, the right part (9). and the left-hand part (9 ') converges upwardly and is connected with the possibility of its angular deflection, wherein above the head of the column (5) the two parts (9, 9') of the central arm are connected to each other by a clamping bolt (26) and the ends of the right-hand part (9) and the left-hand part (9 ') of the center arm are fixed to the column (5) by means of a clamping sleeve (27). Support and switching system according to at least one of Claims 1 to 16, characterized in that the lower arm (6, 6 ') is formed by the right lower arm part (6) and the left lower arm part (6'), the right part (6) the left-hand part (6 ') of the lower arm is formed by a first section (28) extending obliquely upward from the pole (5) or mast, and a second section (29) descending obliquely from the end of the first section (28) The anchor insulator chains (7) for the outer conductors (2, 4) are fastened to the second section (29). Support and switching system according to claim 17, characterized in that the first section (28) is longer than the second section (29), the first section (28) forms an angle α-45 ° with the column (5), and the first section (28). 28) forms an angle β = 90 ° with the second section (29). Supporting and switching system according to claim 17 or 18, characterized in that at the peaks formed by the first section (28) and the second section (29), the lower leg (6) and the lower leg (6 ') are connected to by a support bracket (17, 17 ') by means of brackets (30). Support and switching system according to at least one of Claims 1 to 19, characterized in that the upper bearing surface of the insulated bird bearing bracket (17, 17 ') is located at a height H> 450 mm above the outer conductors (2). , 4) or above their anchor insulator chains (7) - Support and switching system according to at least one of Claims 1 to 20, characterized in that at least one of the conductor conductors (14, 15, 16) is formed by a copper connecting strip. Supporting and switching system according to claim 21, characterized in that at least one of the lead conductors (14, 15, 16) is fastened to the conductor (2, 3, 4) by means of a connection terminal (33) for working under voltage.