RU2454746C1 - Linear suspended insulator - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: linear suspended insulator includes metal cap, metal bar and insulating part, which are connected by means of cured cement-sand binding substance. Insulating part consists of a head and a plate. At least one annular rib is made on lower surface of the plate. Base of thickening of lower head part protrudes behind the edge of lower surface of plate. Thickening is smoothly conjugated to inner side surface of head and to lower plate surface. Height of thickening (H_n), as well as depth of reinforcement (H_o) comprise not less than 2 mm each. Value of conjugation radius of thickening to inner surface of head (R_n) is not less than 3 mm, and width (B_n) of thickening is not less than 6 mm. Base of lower part of the plate edge is of drop shape and is conjugated to projection of rectangular shape.

EFFECT: increase in values of allowable voltage as per level of radiointerference and improvement of operating reliability of garlands of insulators at atmospheric and industrial impurities.

3 cl, 5 dwg

Description

The invention relates to electrical engineering, in particular to the main elements of electrical equipment, in particular, to electrical insulators of overhead power lines, and is a linear suspension insulator device.

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

The disadvantage of these insulators is the low voltage values for the level of radio interference due to the configuration of the insulating part and the ratio of existing dimensional parameters.

Known high-voltage suspension insulator, selected as an analogue, which contains a cap, a rod and an insulating part, consisting of a head and a plate, made in the form of a segment of a sphere, and the metal cap and insulating part, as well as the metal rod and insulating part are respectively interconnected using hardened cement-sand ligaments [and.with. USSR No. 851499, MKV3 Н01В 17/02. Publ. 07/30/1981, Bull. No. 28].

The disadvantage of this insulator is the low voltage values for the level of radio interference due to the configuration of the insulating part and the ineffective ratio of existing dimensional parameters.

As the closest analogue, a linear (high-voltage) pendant insulator was chosen, which contains a metal cap, a metal rod and an insulating part made on the basis of tempered optically transparent electrical insulating glass, and consisting of a head and a plate made in the form of a sphere segment, while on the lower surface at least one annular rib is made, the base of the lower part of the head has a thickening that protrudes beyond the edge of the lower surface of the plate, and the inner surface of the metal caps and the outer surface of the head of the insulating part, as well as the outer surface of the metal rod and the inner surface of the head of the insulating part are interconnected using hardened cement-sand ligaments [patent UA No. 52677, IPC (2009) Н01В 17/02. Publ. 09/10/2010, Bull. No. 17].

The disadvantage of the closest analogue is the lack of effective ratios of the main dimensional parameters, which reduces the reliability of operation of both the isolator and the string of insulators, as well as low voltage values for the level of radio noise.

An object of the invention is to increase the permissible voltage values by the level of radio noise, to increase the reliability of operation of insulator strings under atmospheric and industrial pollution by establishing effective ratios of the main dimensional parameters, which will help reduce the electric field strength, increase the discharge characteristics of insulators, as well as the reliability of operation of a separate insulator , and garlands of the same type of insulators.

The technical task is solved in that in a linear suspension insulator, which contains a metal cap, a metal rod and an insulating part, consisting of a head and a plate, made in the form of a segment of a sphere, while at least one annular rib, a base, is made on the lower surface of the plate the lower part of the head has a thickening protruding beyond the edge of the lower surface of the plate, the inner surface of the metal cap and the outer surface of the head of the insulating part, as well as the surface of the thallic rod and the inner surface of the head of the insulating part are interconnected using hardened cement-sand ligaments, the new thing is that the thickening is made smoothly conjugated along the radii on the one hand with the inner side surface of the head, and on the other hand with the bottom surface of the plate, this thickening height value (H _n) and a reinforcement depth (H _o), which is measured vertically from the bottom surface to the nearest thickening hardened cement-sand ligament located between the dressing rhnostyu metal rod and the inner surface of the head, each comprise at least 2 mm.

The radius of the coupling of the thickening with the inner surface of the head (R _p ) is not less than 3 mm, and the width (B _p ) of the thickening, which is measured as the minimum distance in the horizontal plane between the vertical lines, the first of which is held at the place of coupling of the side surface of the thickening with the hardened cement-sand ligament, and the second - at the interface between the lower surface of the thickening and the lower surface of the plate, is at least 6 mm.

The base of the lower part of the edge of the plate is made in a drop-shaped form and paired with a protrusion of a rectangular shape.

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.

It was found that it is the claimed execution form and geometric parameters of the thickening, namely, the height of the thickening (N _p ) and the depth of reinforcement (N _o ), which is measured vertically from the base of the thickening to the nearest surface of the hardened cement-sand ligament, which is located between the surface metal rod and the inner surface of the head, is one of the most significant ratios that characterize the dimensional parameters of high-voltage suspended insulators. After all, the presence of this thickening is characteristic of almost all linear insulators without exception.

At the same time, it was experimentally investigated that it is the declared values of the ratios (N _p ≥2 mm. N _about ≥2 mm) that provide effective values of the allowable voltage in terms of radio interference.

In addition, it was found that the solution of the technical problem also contributes to the fact that the radius of the mating radius of the thickening with the inner surface of the head (R _p ) is at least 3 mm, and the width of the thickening (V _p ), which is measured as the minimum distance (over horizon) between vertical lines, the first of which is drawn at the junction of the side surface of the thickening with the hardened cement-sand ligament, and the second, at the junction of the bottom surface of the thickening with the bottom surface of the plate, is n e less than 6 mm.

This also contributes to the shape of the ring rib, which has a vertical section in the form of a truncated cone with a rounded top pointing downward, while the rib on both sides smoothly conjugates with the bottom surface of the plate in radii (r ₁ , r ₂ , generally different) .

It was experimentally established that at values (H _p <2 mm, H _o <2 mm), the effective values of the allowable voltage in terms of the level of radio noise are not provided.

The presence of at least one rib on the inner surface of the insulating part of the claimed shape (the base of the lower part of the edge of the plate is drop-shaped and paired with a protrusion of a rectangular shape) also allows you to increase the creepage distance (L) of the insulator, and therefore the specific creepage distance of the garland. This reduces the likelihood of garland overlapping in a contaminated and humid state, and also increases the reliability of the operation of insulator strings in atmospheric and industrial pollution.

The essence of the technical solution is explained in figures 1-5, which shows a linear suspension insulator (figure 1), which shows the General case of H _about > N _p ; figure 2 shows the dependence of the average electric field strength (E) on the surface of the dielectric on the depth of reinforcement (N _about ); figure 3 shows the dependence of the average electric field strength (E) on the distance along the surface of the dielectric, starting from the point of contact of the inner surface of the head with a cement-sand bond; figure 4 shows the dependence of the voltage onset of the coronation (that is, the onset of the appearance of radio interference) from the electric field strength (E); figure 5 shows the distribution of the electric field (E) in the insulator in the form of equipotential lines.

Figure 1 adopted the following conventions: 1 - insulating part; 2 - head; 3 - plate; 4 - metal hat; 5 - metal rod; 6 - cotter pin; 7 - cement-sand ligament; 8 - an annular rib; 9 - the bottom surface of the plate 3; 10 - thickening; 11 - the edge of the plate 3; 12 - ledge.

Figure 2-3 adopted the following conventions: "1" - the depth of reinforcement at H _o = 22 mm; "2" is the depth of reinforcement at H _o = 2 mm; "3" is the depth of reinforcement at H _o = 12 mm; “4” - standard insulator (without thickening); "5" - the claimed insulator; U _n - voltage of the beginning of the corona.

The linear suspension insulator consists of an insulating part 1 based on tempered electrical insulating glass, consisting of a head 2 and a plate 3, a metal cap 4, mounted on the head 2 of the insulating part 1, a metal rod 5 mounted inside the head 2.

To connect the insulators in series with each other in a garland, each insulator is equipped with curved W-shaped locks / V-shaped cotter pins 6.

The inner surface of the metal cap 4 and the outer surface of the head 2 of the insulating part 1, as well as the surface of the metal rod 5 and the inner surface of the head 2 of the insulating part 1 are interconnected using hardened cement-sand ligaments 7.

At least one annular rib 8 is made on the lower surface of the insulating part 1. In addition, the annular rib 8 has a vertical section in the shape of a truncated cone with a rounded top pointing downward.

The base of the lower part of the head has a thickening 10, which protrudes beyond the edge of the lower surface 9 of the plate 3.

In this case, the annular rib 8 is made smoothly conjugate along the radii (r ₁ , r ₂ ) with the lower surface 9 of the plate 3, and the thickening 10 of the base of the lower part of the head 2 is smoothly conjugated along the radius (R _p ) with the inner surface of the head 2.

The values of the height of the thickening 10 (N _p ), as well as the depth of reinforcement (N _o ), which is measured vertically from the base of the thickening to the nearest surface of the hardened cement-sand ligament located between the surface of the metal rod and the inner surface of the head (N _o ), is not less than 2 mm. As a rule, in practice, the condition Н _о ≥Н _item is satisfied.

The base of the lower part of the edge 11 of the plate 3 is made in a drop-shaped form and paired with a protrusion 12 of a rectangular shape.

The radius of the pairing (R _p ) of the thickening 10 with the inner surface of the head 2 is at least 3 mm, and the width (B _p ) of the thickening 10, which is measured as the minimum distance (horizontal) between the vertical lines, the first of which is drawn at the the surface of the thickening with the hardened cement-sand bond 7, and the second at the interface of the lower surface of the thickening 10 with the lower surface 9 of the plate 3, is not less than 6 mm

Analyzing the curves shown in figure 2, you can see that the greater the value of the depth of reinforcement (N _about ), the lower the electric field strength (E). Moreover, when H _o <2 mm (ie, at lower values that correspond to the curve "2"), the electric field strength (E) reaches a value at which the level of radio interference begins to exceed the permissible level.

From the analysis of the dependencies shown in figure 3 it follows that the implementation of thickening according to the claimed technical solution leads to a decrease in electric field strength (E) on the surface of the dielectric. And to the greatest extent this occurs in a more intense zone, located near the cement-sand ligament.

From the curve shown in figure 4, it follows that a decrease in the electric field (E) leads to a decrease in the corona voltage (U _n ), i.e. permissible level of radio interference is achieved with large permissible values of electrical voltages applied to the insulator.

Performing the surface shape of the insulating part near the rod as close as possible to equipotential (see figure 5), i.e. due to the thickening of the claimed geometric dimensions (N _p , B _p , R _p ) and shape, the desired effect of reducing the electric field strength (E) in the studied area was achieved. This also led to a decrease in radio interference.

The results of the tests of insulators for permissible voltage by the level of radio noise confirm the reduction in the probability of overlapping insulator strings due to pollution by at least 15-20%.

Among the advantages of the proposed insulator, it is also possible to note the fulfillment of the requirements of some countries for linear suspension insulators with respect to reducing the noise level that is generated by wind cooling of the insulator strings, as well as the resultant turbulence of the air flow. The claimed form of the insulating part helps to reduce turbulence of the air flow, due to which the noise level is significantly reduced.

Claims (3)

1. Linear suspension insulator, which contains a metal cap, a metal rod and an insulating part consisting of a head and a plate, made in the form of a segment of a sphere, while at least one annular rib is made on the lower surface of the plate, the base of the lower part of the head has a thickening, protruding beyond the edge of the lower surface of the plate, the inner surface of the metal cap and the outer surface of the head of the insulating part, as well as the surface of the metal rod and the inner surface of the bare the insulating part forks are interconnected using a hardened cement-sand bond, characterized in that the thickening is made smoothly conjugated along the radii on the one hand with the inner side surface of the head, and on the other hand, with the lower surface of the plate, while the thickness of the thickening (H _o ) and the depth of reinforcement (H _o ), which is measured vertically from the base of the thickening to the nearest surface of the hardened cement-sand ligament, located between the surface of the metal rod and the inner surface head, each is not less than 2 mm. 2. The linear suspension insulator according to claim 1, characterized in that the radius of the coupling of the thickening with the inner surface of the head (R _p ) is at least 3 mm, and the width (B _p ) of the thickening, which is measured as the minimum horizontal distance between vertical by lines, the first of which is drawn at the junction of the side surface of the thickening with the hardened cement-sand bond, and the second, at the junction of the bottom surface of the thickening with the bottom surface of the plate, is at least 6 mm. 3. The linear suspension insulator according to claim 1, characterized in that the base of the lower part of the edge of the plate is made in a drop-like shape and paired with a protrusion of a rectangular shape.

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