SU1008835A1 - Power transmission line post head - Google Patents

Abstract

1. HEAD OF ELECTRICAL-REDUCING LINE SUPPORT, containing horizontal traverse with the same insulating rod elements of the same length with terminators for securing the phase wires, with the terminator of the middle isolating element located on the vertical axis of the symmetry, traverse, about. It is due to the fact that, in order to: increase the reliability and efficiency of the overhead line, the insulating elements are installed at an angle of 0-35 to the traverse, with the extreme insulating elements inclined differently. 2. .Head. According to Claim 1, about tl and h ay u and with the fact that the core insulating element is made in the form of a cylinder of polymer concrete, within which the core of fiberglass plastic with protruding ends is kneaded, one of which is fixed to a traverse, and on the second the okontsevatel is installed. in the form of a .kolpachka. . .3. The cap on pp. 1 and 2, of ti and1ch and y and the fact that the cylinder is scab-shaped longitudinal ribs and discs made of high-tracking material, and the disc is mounted on the end of the cylinder from the end of the end cap. it is made with cuts in which the ends of the longitudinal ribs are located, and the diameter of the disk exceeds the diameter of the cylinder. . ; , 4, Ogolovok on PP .. 1-4, about tl and h a and y and 11, that, for the purpose,; Preventing the damage of large birds by electric current, on the cross-arms, the insulating elements are fixed on the lower part of the cross-beam.

Description

The agreement relates to the construction of power lines, or more precisely, regarding the design of the heads of the power transmission towers. .. - The well-known head of the power transmission line for mass use at the present time, containing the end of the support column, the traverse and the insulating elements arranged vertically. In this cap, the wires are fastened to insulators located either along the support stand or on the traverse l. The use of this cap leads to the clasp of the wires as a result of wind loads, icing and discharge. Single-phase overlap can keep the ground in the network for a long time and destroy the insulator. There are cases of a single-phase transition to a two-phase transition. ..... Also known is a cap, made in the form of a traverse made of glass-ulop-shaped glass-clamps with fastening of the wires of the outer phases to the upper ends, and the middle phase in the saddle of the arms. However, in case of overvoltages, as well as cases of formation of a dirty and wetted surface, single phase phases are possible. Shut off the middle phases and stable grounding. The development and upward movement of the arc can lead to two-phase overlaps and the disconnection of the overhead line. A similar situation arises with induced overvoltages, which occur much more frequently than direct lightning strikes. Together with in the case of thunderstorm overvoltages, and for other reasons, single phase overlaps should not cause outages in networks with insulated neutral. . . The possibility of a single-phase overlap to a two-phase transition in this construction reduces its thunderstorm. There is an overhead line due to the high resistance of the overhead line. In addition, there is a tip in this design. It is also possible to whip the wires when exposed to wind, fumes from cables and for other reasons. The construction in question cannot be manufactured. From a material with limited tracking cracking due to the absence of elements limiting the formation of partial discharges,. . Doug ground points at overlap Formed on wire and on wire, this weakens them, which often leads to wire breaks. . Closest to the offer is. The head support of the transmission line contains a horizontal traverse with rod insulating elements of the same length installed with terminators for fastening phase wires, the terminator of the middle insulating element is located on the vertical axis of symmetry of the traverse 3. However, the well-known tip does not contribute to improving the reliability of air lines. In the power transmission line with the odds with these heads, any overlap of the extreme elements becomes two-phase, which leads to the switching off of the line. The overlap of the middle insulating element in this 0m cap leads 4, single-phase closure - the occurrence of an electric arc between the middle wire and the support stand. In this case, the arc is maintained for a long time, since the increase in the length of the arc on the vertical insulating element is insignificant, and this can lead to damage of the insulating element. The arc is supported by the nominal voltage. The arc during a long circuit on a rack can damage the insulating element and cause damage to the iron rack. The last OS is ablated, which creates a danger for electricians to climb onto it. The loss of mechanical strength leads to its breakage when exposed to regulatory loads. During the period of closure (arc burning), the approach to the rack is dangerous for people and animals. Thus, in the considered tip, the middle insulating element and the wire attached to it are subject to prolonged exposure to electrical others, which causes damage to them. Damage to the wires of the extreme phases is also possible with two-phase overlaps. The purpose of the invention is to increase the reliability and efficiency of the line. This value is achieved by the fact that in the top of the transmission line support, which contains a horizontal traverse with insulating elements of the same length installed on it at the same time with terminators for wires, the terminator of the middle insulating element is located on the vertical axis of symmetry of the traverse, the insulating elements are installed under angle 30-35 to the traverse, with the extreme insulating elements tilted in different directions. The rod insulating element can be made in the form of a cylinder of polymer concrete, inside of which a core of fiberglass with protruding ends is concentrically placed, one of which is attached to the traverse, and the second end fitting is installed in the form of a cap. The cylinder of the insulating element can be equipped with longitudinal ribs and a disk made from a high tracking material, the disk is fixed on the cylinder end from the terminator and made with cutouts in which the ends of the longitudinal ribs are located, and the diameter of the disk exceeds the diameter of the cylinder. In order to prevent the destruction of large birds :; electric current on the (Traverse insulating elements can be fixed on the lower part of the crosshead. Figure 1 shows the head of the support, the view in Fig. 2 and 3 - the insulating element, front and top view, respectively; fig.4 - the head with insulating elements , fixed on the lower part of the crosshead, general view. The cap consists of identical insulating elements 1 and crosshead 2 In turn, each insulating element 1 contains fiberglass plate 3 with protective casing 4, for example, from polymer concrete, longitudinal ribs 5, located the diametrically opposed forming insulating element, the end 6, from which side the wire 7 is attached, and the grounded end 8. The longitudinal ribs 5 are 6–9 mm wide, and the diameter of the end 6 is larger than the insulating element. the sleeves 9 welded to the cross beam 2. The use of the sleeves allows the replacement of insulators during their operation.At the protruding end of the rod 3, the end fitting 10 is made in the form of a cap. The cap can be made either of metal when directly fastening the wire or of a polymer material using additional porcelain insulators in areas of high contamination. the atmosphere. In places where there is a risk of electric shock of large birds, the insulating elements 1 are located below the base of the crosshead while maintaining the inclination angle of 30-35. The wire collapses usually with vertical wire movements with some deviation to the side. This is possible with the discharge of ice, take-off of birds sitting on the wire and exposure to wind. The proposed device provides a horizontal arrangement of wires, in which this threat is practically absent or can occur very rarely. Single-phase overlaps take place between the ends of the insulating elements i along the top or bottom of the forming / the resulting electric arc due to the high temperature quickly. The ro rises up and its length increases to a critical one. At a critical length, the arc self-extinguishing occurs. The highest current that can occur in distribution networks with an isolated neutral is 30 A. At this current, self-extinction occurs at distances between the reference points in the horizontal plane no more than 20 cm. The greater the distance the safer and more self-extinguishing. For each current value, the distance in the horizontal plane between the |) porous points of the arc at which mass suppression occurs is strictly defined. At the same time, the angle of inclination of the insulating element o (. 30-35 ° is determined from the conditions of tracking resistance of the structure. Hence the length of the insulating element is determined from the formula COSOi / where B is the length of the insulating part of the element, cm; a is the projection of the insulating element on the horizontal; oL f the angle of inclination of the ionic element. At the angle of inclination of the insulating elements 30-35, the ability of the moisture drops to form and the formation of a continuous film of water or solution in the presence of contaminants is retained. This means that 4acTH4jHge discharges are possible only at the end or along the generators, where the surface is made of a material with high tracking resistance. The explanation of this process is possible differently. The design of the isolating elements is such that high; leakage current density is created; on the toroidal surface K, therefore, 1-part-discharges can form only near the rod on the end surface of the potential end of the insulating element. The resulting partial discharges heat the surface and accelerate the drying, accelerating the formation of dry zones. This process reduces leakage current and accelerates the occurrence of partial discharges. On the cylindrical surface of the insulating element, the leakage current density is much lower, as a result of which the latter cannot cause partial discharges. However, in order to avoid local surface concentrations of leakage current at any points of the cylindrical surface due to possible non-uniformity of the contamination, the insulating element on the diametrically opposed ones has longitudinal ribs of a material with high torsion resistance. The insulating element is intended for air lines that are built in areas with an uncontaminated atmosphere. The electrical strength of an insulating element can be reduced in the event of an increase in atmospheric pollution, which is often the case during operation under the conditions of modern intensive agriculture and industrial construction. It is necessary to increase the electric strength in this case easily by mounting a pin insulator at the end of the insulating element and transferring the wire to its neck. Therefore, the length of the protruding end of the rod from the vertical part of the rod must be growth-resistant to fit the pin insulator, i.e. 5-7 cm depending on the type. electric arc when closing occurs between the end fittings. At the same time, its reference point is separated from the wire and viscous, which eliminates the likelihood of burning or breaking. There are a large number of blackouts in distribution grids and, therefore, significant interruptions in the work of agricultural consumers. Even the magnitude of blackouts is 90 hours per 100 km per year. . ,, of the indicated disconnections of at least 75% single phase overlaps, which means frequent ground penetration on the line. The elimination of single-phase short circuits requires considerable expenditure of manpower and resources. In particular, an automatic phase shunting (ASF) device has been developed and is being implemented. In networks, operating personnel have to use relatively expensive devices to search for a punctured isolator. Moreover, their use, the search for a place of defectiveness is possible only in wet rainy time, which is associated with additional difficulties. . The proposed device is impenetrable and eliminates single-phase ceilings by itself. Thus, the need for ASF and devices for searching a punched insulator is eliminated, and labor costs for eliminating the consequences of overlapping are also saved. For the manufacture of insulating elements, cheap materials are used, the electricity consumption for their manufacture is significantly reduced, since molding and polymerization is carried out at a temperature of cm. Approximately the savings from the implementation of the proposed device will be Me less than 500 rubles. per year on, 10 km OT. ...

Claims (4)

1. HEAD OF THE SUPPORT OF THE ELECTRIC TRANSMISSION LINE, containing horizontal. traverse with rod insulating elements of the same length mounted on it with terminators for fastening phase conductors, and the end of the middle insulating element is located on a vertical axis of symmetry, traverse, about t and characterized in that, in order to increase reliability and economy: of an overhead line, the insulating elements are installed at an angle of 30-35® to the traverse, and the extreme insulating elements are inclined in different directions. 2. The head according to claim 1, with the fact that the rod insulating element is made in the form of a cylinder of polymer concrete, inside which a fiberglass rod with protruding ends is concentrically placed, one of which is fixed to the traverse, and on the second there is a terminal. in the form of a cap. . .3. The heading of claims 1 and 2, according to the fact that the cylinder is provided with longitudinal ribs and discs made of high tracking material, the disc being mounted on the end of the cylinder from the side of the evaluator and made with cutouts in which the ends are located longitudinal ribs, while the diameter of the disc exceeds the diameter of the cylinder. ’. ,4. The heading according to claims 1 to 4 is limited by the fact that, in order to prevent electric birds from injuring large birds on traverses, insulating elements are fixed on the lower part of the traverse. , _m $ and „..1008835 Fig. / Ί008835