RU2491672C2 - High-voltage suspended insulator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: insulating part consists of a head and a plate made as a sphere segment with variable thickness. The ratio of leakage path length (L) to plate diameter (D) is equal to 0.9-1.05. The ratio of plate thickness near top edge (h) to plate thickness in front of drop-shaped thickening of its edge (h₀) is equal to 1.2-1.4. Circular rib has a vertical section shaped as a flattened cone with rounded top and flaired with the lower surface of the plate. Thickening of the lower part of the head is flaired with inner surface of the head.

EFFECT: improving aerodynamic performance and operating reliability of insulator chains in conditions of atmospheric and industrial pollution.

3 cl, 3 dwg

Description

The invention relates to the electric power industry, and in particular to the main elements of electrical equipment, in particular to electrical insulators of overhead power transmission lines, and is a device of a high-voltage suspended insulator.

Known linear suspended plate insulators PS120B, PS160V, PS210V (GOST 27661-88), which contain a cap, rod and insulating part, consisting of a head and plates with ring ribs on the inner surface.

The disadvantage of these insulators is the low aerodynamic characteristics due to the configuration of the insulating part and the ratio of the above dimensional parameters. In addition, these insulators are poorly self-cleaning under the influence of wind and rain from pollution and require frequent cleaning.

Known high-voltage suspension insulator, selected as an analogue, which contains a cap, rod and insulating part, consisting of a head and a smooth plate made in the form of a segment of a sphere [AC USSR No. 851499, MKV ³ H01B 17/02. Publ. 07/30/1981, Bull. No. 28].

The disadvantage of this insulator is the low aerodynamic characteristics due to the configuration of the insulating part and the ratio of dimensional parameters. Such an insulator is effective in its operation in areas with minor pollution. In areas with intense pollution, the surface of the insulating part, especially its developed internal cavity, is heavily contaminated. As a result, the insulator is poorly self-cleaning under the influence of wind and rain from pollution and requires frequent (periodic) cleaning.

As the closest analogue, a high-voltage suspension insulator was selected that contains a cap, a rod, and an insulating part connected by a hardened cement-sand bond, the insulating part consisting of a head and a smooth plate made in the form of a sphere segment, and at least the lower surface of the plate at least one annular rib and / or thickening of the base of the lower part of the head, protruding beyond the edge of the lower surface of the plate [Patent UA No. 52677. IPC (2009) H01B 17/02. Publ. 09/10/2010, Bull. No. 17].

The aerodynamic characteristics of this insulator are higher than that of the analogue insulator, but they are not effective enough for use in areas with intense pollution and adverse climatic conditions (areas with low rainfall and strong winds, such as deserts, semi-deserts, steppes or areas with strong fogs). In addition, the drawback of the closest analogue is the lack of effective ratios of the main dimensional parameters of the insulator, which reduces the reliability of operation of both the insulator and the string of insulators.

The technical task of the invention is to increase the aerodynamic characteristics and increase the reliability of operation of insulator strings at atmospheric and industrial pollution by establishing effective ratios of the main dimensional parameters of the insulator, which will also contribute to increasing the reliability of operation of both the insulator and strings of the same type insulators.

The specified technical problem is solved in that in a high-voltage suspension insulator, mainly of an aerodynamic profile, which contains a metal cap, a metal rod and an insulating part connected by means of a hardened cement-sand bond, the insulating part consists of a head and a plate made in the form of a segment sphere of variable thickness, which is uniformly reduced in the area from the head to the edge of the plate, and at least one annular rib and / whether the thickening of the base of the lower part of the head, which protrudes beyond the lower surface of the plate at the junction, the edge of which is made with a droplet-like thickening, is new that the ratio of the creepage distance (L) to the diameter of the plate (D) lies within 0.9 -1.05, and the ratio of the plate thickness of the insulating part near the edge of the cap (h) to the plate thickness before the drop-like thickening of its edge (h _o ) is in the range 1.2-1.4.

The annular rib is made with a vertical section in the form of a truncated cone with a rounded top pointing downward, while the annular rib is made smoothly conjugated along the radii (r ₁ , r ₂ ) on both sides with the lower surface of the plate, and the thickening of the base of the lower part of the head is made smoothly conjugated in radius (R _p ) with the inner surface of the head.

The base of the droplet-like thickening of the plate edge is made conjugated with a rectangular protrusion, the apex of which is turned inward, while the junctions along the radii of the annular rib with the lower surface of the plate and the thickening of the base of the lower part of the head with the inner surface of the head are made to ensure

(R _p ) is greater than or equal to (r ₁ ) is greater than or equal to (r ₂ ).

The above features constitute the essence of the invention.

The presence of a causal relationship between the set of essential features of the invention and the achieved technical result is as follows.

Insulators consist of an insulating part made of electrotechnical porcelain or tempered glass, a cast-iron cap and a steel rod. Garlands are used on high voltage overhead power lines, which consist of series-connected insulators. The number of insulators in the garland is determined by the nominal line voltage and operating conditions, for example, the pollution and humidity of the atmosphere in the places where the line passes.

The overhead power line insulator is exposed to precipitation and industrial pollution. Even slight pollution significantly reduces the dielectric strength. A significant number of accidents on overhead power lines occur when the line insulators are blocked as a result of their pollution.

When operating insulators in areas with intense pollution, but with a small amount of precipitation, the aerodynamic characteristics due to the shape and size parameters of the insulating part of the closest analogue are insufficient, the conditions for self-cleaning of insulators from pollution are worsened, which increases the likelihood of overlapping insulator strings and reduces the reliability of their operation.

It was found that it is the ratio of the creepage distance to the diameter of the plate, as well as the ratio of the plate thickness of the insulating part near the edge of the cap to the plate thickness near its edge, that are one of the most important ratios that characterize the main dimensional parameters of high-voltage suspended insulators of aerodynamic profile. Moreover, it was experimentally investigated that it is the declared values of the ratios (L / D) = 0.9-1.05 that provide the most effective aerodynamic performance.

The shape of the insulating part, made in the form of a segment of a sphere with an increased diameter and small height of the plate, made of variable thickness, which gradually decreases in the section from the head to the edge of the plate, contributes to less deposition of contaminated parts on the surface of the insulating part, its high-quality air flow, which provides the possibility of self-cleaning of insulators under the influence of wind from pollution, increasing the reliability of operation of insulator strings in atmospheric and industrial pollution.

This is also facilitated by the form of thickening the base of the lower part of the head and / or the annular rib, which has a vertical section in the form of a truncated cone with a rounded apex directed downward. Moreover, the annular rib is made smoothly conjugated along the radii (r ₁ , r ₂ ) on both sides with the bottom surface of the plate and the thickening of the base of the lower part of the head is made smoothly conjugated along the radius (R _p ) with the inner surface of the head.

It was found that with the ratio of the creepage distance (L) to the diameter of the plate (D), i.e. (L / D) <0.9, the likelihood of deposition of contaminants on the upper surface of the plate increases. In turn, when the ratio (L / D)> 1.05, aerodynamic performance deteriorates and the amount of contaminants on the lower surface of the plate decreases, which leads to a decrease in discharge voltages under pollution conditions.

It was also experimentally established that when the ratio of the plate thickness of the insulating part near the edge of the cap (h) to the thickness of the plate before the droplet-like thickening of its edge (h _o ), i.e. at (h / h _o ) <1.2, the withstand impulse voltage of the insulator is low. At the same time, at (h / h _o )> 1.4, the manufacturability of the insulating part is sharply reduced, and its properties are deteriorated (in particular, the degree and uniformity of quenching).

The essence of the technical solution is illustrated in figures 1-3, where figure 1 shows a linear suspension insulator containing at the same time one annular rib and a thickening of the base of the lower part of the head, which protrudes beyond the edge of the lower surface of the plate; figure 2 presents a linear suspension insulator, which contains only one annular rib; figure 3 presents a linear suspension insulator containing only a thickening of the base of the lower part of the head, which protrudes beyond the edge of the lower surface of the plate.

The following designations are accepted here: 1 - insulating part; 2 - head; 3 - plate; 4 - metal hat; 5 - metal rod; 6 - the edge of the plate 3; 7 - cement-sand ligament; 8 - an annular rib; 9 - the bottom surface of the plate 3; 10 - drop-shaped thickening of the edge 6 of the plate 3; 11 - a ledge of a rectangular shape; 12 - thickening of the base of the lower part of the head 2; H - construction height, L - creepage distance (dashed line); D is the diameter of the plate; d is the diameter of the rod 5.

The linear suspension insulator consists of an insulating part 1 based on tempered optically transparent electrical insulating glass, which consists of a head 2 and a plate 3 made in the form of a sphere segment, a metal cap 4, mounted on the head 2 of the insulating part 1, a metal rod 5 mounted inside the head 2.

The plate 3 is made of variable thickness, which gradually decreases in the area from the head 2, where its value is (h), to the edge 6 of the plate 3, where its value is (h _o ). The caps 4 and the rod 5 with the insulating part 1 are fastened with a cement-sand bond 7. At least one annular rib 8. is made on the lower surface of the insulating part 1. That is, an annular rib 8 or a thickening 12 of the base of the lower part of the head 2 protrudes beyond the lower surface 9 of the plate 3 at the junction.

The ratio of the creepage distance (L) (indicated by dashed lines in FIG. 1) to the diameter (D) of the plate 3 lies in the range 0.9-1.05, and the ratio of the thickness of the plate 3 near the edge of the cap 4 (h) to the thickness plates 3 before the droplet-like thickening 10 of the edge 6 of the plate 3 (h _o ) is in the range of 1.2-1.4.

In addition, the annular rib 8 is made with a vertical section in the form of a truncated cone with a rounded apex directed downward. In this case, the annular rib 8 is made smoothly conjugate along the radii (r ₁ , r ₂ ) with the bottom surface 9 of the plate 3, and the thickening 12 of the base of the lower part of the head 2 is made smoothly conjugate along the radius (R _p ) with the inner surface of the head 2.

In turn, the pairing points along the radii of the annular rib 8 with the lower surface 9 of the plate and the thickening 12 of the base of the lower part of the head with the inner surface of the head 2 are made with the condition R _p ≥r ₁ ≥r ₂ .

The base of the droplet-like thickening 10 of the edge of the plate 2 is made conjugated with a ledge of rectangular shape 11, the apex of which is turned inward and towards the axis of symmetry of the insulator (not indicated in FIGS. 1-3). The thickening 12 of the base of the lower part of the head 2 protrudes beyond the edge of the lower surface 9 of the plate 2.

The claimed aerodynamic profile of the insulating part makes this type of insulator optimal for use in areas with strong winds (deserts, steppes, coastal areas). All contaminants are easily blown away by the wind from the surface of the insulating part.

The results of the conducted tests of insulators confirm a 15-20% reduction in the probability of overlapping insulator strings as a result of pollution. In addition, it was found that the claimed dependence of the increase in the plate thickness near the cap provides an increase in the withstand impulse voltages by 5-7%, and the shape of the ribs also by 3-5%, i.e. the total increase in impulse withstand voltages is at least 8-12%.

In addition, the proposed insulator when installing it first (top) in the garland of typical insulators can be used as an "umbrella" to protect other insulators of the garland from pollution (for example, bird droppings).

Among the advantages of the proposed insulator, one can also note the fulfillment of the requirements of some countries for linear suspension insulators with respect to the reduction of the noise level that is generated by the wind cooling of a string of insulators, as well as the resultant turbulence of the air flow. The claimed aerodynamic shape of the insulating part helps to reduce the turbulence of the air flow, due to which the noise level is significantly reduced.

Claims (3)

1. A high-voltage suspended insulator of a predominantly aerodynamic profile, which contains a metal cap, a metal rod and an insulating part connected by a hardened cement-sand bond, the insulating part consisting of a head and a plate made in the form of a segment of a sphere of variable thickness, which is uniformly reduced at least one annular rib and / or thickening of the base of the lower part of the head is made on the section from the head to the edge of the plate, and on the lower surface of the plate another protrudes beyond the bottom surface of the plate at the junction, the edge of which is made with a drop-like thickening, characterized in that the ratio of the creepage distance (L) to the diameter of the plate (D) lies in the range 0.9-1.05, and the ratio of the plate thickness the insulating part near the edge of the cap (h) to the thickness of the plate before the droplet-like thickening of its edge (h _o ) is in the range 1.2-1.4. 2. The high-voltage suspension insulator according to claim 1, characterized in that the annular rib is made with a vertical section in the form of a truncated cone with a rounded top pointing downward, while the annular rib is made smoothly conjugated on both sides with the bottom surface of the plate, and the base base is thickened part of the head is made smoothly mated in radius with the inner surface of the head. 3. The high-voltage suspension insulator according to claim 1, characterized in that the base of the droplet-like thickening of the plate edge is paired with a rectangular protrusion, the apex of which is turned inward.

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