RU2417494C1 - Device to replace insulators on overhead power transmission lines - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device comprises detachable clamps (2, 3), arranged of brackets and a tightening mechanism. The clamp (2) has inserts in the form of a canted semi-tumbler of alternating cylindrical form with axial hole and flange with holes designed for fixation to brackets. The axial holes is arranged with radius R₁=(0.51÷1.6)d_p, where d_p is minimum diametre of the insulator (1) pestle, for which the device is designed. The clamp (3), similar to the clamp (2), is equipped with inserts arranged as canted semi-tumblers of cylindrical shape of identical diametre along their whole height, with a flange along side surface and a hole for fixation of the clamp (3) brackets. The hole is also arranged with the radius R₁=(0.51÷1.6)d_p. The flange is arranged at height determined based on the following ratio: h=(0.4÷0.85)H, where H is a pillar height. An insert from organosilicic rubber in the form of a cylindrical washer with flat surface at one side and circular ledges at the other side is installed on the base of the insert.

EFFECT: simplification and reduction of manufacturing and operation process cost.

8 cl, 11 dwg

Description

The invention relates to the field of electric power, in particular to devices designed to replace insulators in garlands on overhead power lines.

A device for replacing insulators on overhead power lines under voltage, comprising a detachable shaft, guiding insulating rods connected to the shaft, a support frame mounted on a support beam and made in the form of insulating rods and transverse stiffeners; moreover, the transverse stiffeners are made in the form of a beam and a base, mounted on insulating rods with the possibility of moving along them with nuts, while the device is equipped with semi-axes on which the base is fixed, a rotation mechanism rigidly connected to the base, and additional stiffening plates fixing the mechanism turning [1].

This known device for replacing insulators on overhead power lines is very structurally difficult, which is obviously due to the need to work with such a device under voltage without disconnecting the line; in addition, due to the wide variation in the shapes of the caps of the insulators, it is often necessary to change the design forms of the wiring in this device, that is, it cannot be considered a universal device.

The closest technical solution to the proposed one is a device for replacing insulators on overhead power lines, containing a detachable collar mounted on the cap of the insulator and a coupling mechanism connected to the collar [2].

This device also cannot be considered universal, suitable for replacing defective insulators with numerous design options for their caps, which have appeared recently due to the many manufacturers of insulators and linear fittings. Lines of such devices are installed on the caps of the insulators and, therefore, their design depends on the shape of the caps of the insulators. The service life of overhead power lines is 40 years, and in fact reaches 60 years. For such a long period, the shape of the caps of the insulators has changed significantly for many reasons, and this requires almost the same constructive change in the wiring itself, which is economically and technically impractical.

The applicant set himself the goal of significantly simplifying and reducing the cost of the manufacturing process for the manufacture and operation of devices for replacing insulators on overhead power lines. The indicated positive technical result was achieved in the proposed device for replacing insulators on overhead power lines due to its new set of essential design features presented in the following wording of the claims: “a device for replacing insulators on overhead power lines containing a detachable collar installed on the head of the insulator and a coupling mechanism connected to the vaim; it is equipped with an additional detachable collar mounted on a string of line insulators below the first collar so that there is a section of garland with replaceable defective insulators between the collars, each of the flanges consists of a bracket with side eyes and a second bracket connected by a hinged one-piece connection at one end and rigidly fastened from the other end when installing the wyme on the caps of the insulators, located on top of the wythe is equipped with two insert inserts made in the form of an inverted half-glass of variable color a cylindrical shape with an axial hole in the supporting surface of the insulator head lying on the end part and a flange with through holes for fastening to the brackets of the upper collar, located below the collar is equipped with two insert inserts made in the form of an inverted half-glass of cylindrical shape along its entire height with a flange on the side the surface and the hole for attaching to the brackets of the lower wiring, to prevent damage to the glass part of the insulators, a gasket is installed on the base of the insert-insert of the lower wiring, you filled in the form of a cylindrical washer with a flat surface on one side and circular protrusions on the other, repeating the shape of the insulator ribs, moreover, a hole and a cut are made in the central part of the cylindrical washer to ensure its installation on the insulator cap, while installing on the insert line the liners of the upper and lower wimes are each attached separately to the wedge brackets, forming from half-cups glasses, covering the insulator pestles and resting on the elements of their caps; the axial hole in the support lying on the end part of the insulator head of each insert insert of the upper collar is made with a radius R ₁ determined from the following ratio: R ₁ = (0.51 ÷ 1.6) d _p , where d _p is the minimum diameter of the insulator pestle, for which the device is intended; the hole in the base of each insert insert of the lower vyme made radius R ₁ = (0,51 ÷ 1,6) d _p where d _p is the minimum diameter of the insulator pestle for which the device is intended; the flange on the side surface of each insert insert of the lower wiring is made at a height h, determined from the following relation: h = (0.4 ÷ 0.85) N, where H is the height of the staples of the upper and lower wiring; the hole in the central part of the gasket is made with a diameter of 0.5 ÷ 1.5 mm larger than the diameter of the insulator pestle; the laying of the lower vaima is made of silicone rubber; swivel at one end of the brackets of the upper and lower wyme made one-piece by means of a finger-rivet; the rigid fastening from the second end of the brackets of the upper and lower heights is made by means of a screw with a wing nut. ”

The invention is illustrated by drawings, in which figure 1 is a General view of a device made according to the present invention and mounted on a string of insulators overhead power lines; figure 2 is the upper border of the device of figure 1, side view; figure 3 is the same as in figure 2, a top view; figure 4 is the bottom edge of the device of figure 1, side view; figure 5 is the same as in figure 4, a top view; in Fig.6 is a General view of the insert insert of the upper flange of the device of Fig.1; Fig.7 is a section along aa in Fig.6; in Fig.8 is the same as in Fig.6, isometric view; figure 9 is a General view of the insert-insert of the lower wiring of the device of figure 1; figure 10 is a section along BB in figure 9; figure 11 - gasket (compensating pillow) of the device of figure 1, a view in isometric view.

The inventive device for replacing insulators 1 on overhead power lines consists of two detachable heights 2, 3 and a tightening, for example, ratchet mechanism. Vaimy 2, 3 are installed on the caps of insulators 1 so that between them was part of the string with replaceable defective insulators 1; if it is a vertically arranged garland of insulators 1, then one vyma (upper vyma) 2 will be at the top of the garland of insulators 1, and the second vyma (lower vyma) 3, respectively, at the bottom of the garland of insulators 1. The tightening mechanism is a screw device 5, fixed between the vyma 2, 3, and actually the ratchet 6, with the help of which the position of the wyme 2, 3 is regulated according to the type of action of the turnbuckle.

Lines 2 and 3 consist, respectively, of a bracket 7 with side eyes 8 and a second bracket 9. At one end, the brackets 7, 9 are connected by a one-piece joint, for example, a rivet finger 10, and from the other end are rigidly fastened with a screw 11 with a wing nut 12 when installing wyme 2, 3 on the caps of insulators 1. The upper wyne 2 is equipped with two inserts-inserts 13, each of which is an inverted half-glass of variable cylindrical shape, in the supporting part lying on the end part of the head of the insulator 1 surface 14 th hole 15. Inserts Inserts 13 have a flange 16 with holes 17 intended for fastening to the brackets 7, 9 upper vajmy 2. An axial hole 15 in the inserts 13, the inserts performed radius R ₁ = (0,51 ÷ 1,6) d _p , where d _p is the minimum diameter of the pestle of the insulator 1 for which the device is intended. The surface 14 of the insert-inserts 13, on which the axial hole 15 is located, is the supporting part of the insert-inserts 13, which, when assembling on the end surface of the head of the cap of the insulator 1. Since different types of caps of the insulators 1 have the same number of breaking loads, the head is basically the same, the diameter its cylindrical part is well defined, and the other end cylindrical part is taken based on the maximum diameter of the cap of the insulator.

The lower flange 3, similarly to the upper flange 2, is also equipped with two insert inserts, made in the form of inverted half-cups 18 of cylindrical shape, of the same diameter over its entire height. The half-cups 18 are made with a flange 19 on the side surface and an opening 20 for fastening to the brackets 7, 9 of the lower collar 3. The surface of the half-cup 18, on which the hole 20 lies, is a supporting surface for the lower end of the insulator cap 1. A hole 20 of insert inserts (half-cups 18) the lower wiring is also carried out with a radius R ₁ = (0.51 ÷ l, 6) d _p , where d _p is the minimum diameter of the pestle of the insulator 1 for which the device is intended. The flange 19 on the lateral surface of the insert inserts 18 of the lower flange is located at a height h, determined from the following relation: h = (0.4 ÷ 0.85) N, where H is the height of the brackets 7 and 9 of the upper and lower flange. When installing on-line insert inserts 13, 18 of the upper and lower wyms 2, 3 are each attached separately to the brackets 7, 9 wymes, forming from half-cups glasses, covering the pistils of insulators 1 and resting on the elements of their caps.

To avoid damage to the glass part of the insulators 1, a gasket 22 (compensating cushion) is installed on the base 21 of the insert-insert 18 of the lower collar. The gasket 22 is made of silicone rubber and is structurally a cylindrical washer with a flat surface 23 on one side and circular protrusions 24 on the other side; the protrusions 24 repeat the shape of the ribs of the insulator 1. To install the gasket 22 on the insulator cap, a hole 25 and a cut 26 are provided in its central part. The diameter of the hole 25 in the central part of the gasket 22 is (0.5 ÷ 1.5) mm larger than the diameter of the cap of the insulator 1 .

The replacement of insulators on the garland of overhead power lines using the proposed device is as follows.

The overhead power lines 2, 3 are supplied assembled, therefore, before starting work on replacing defective insulators 1, the upper and lower supports 2, 3, respectively, are each disconnected by unscrewing the wing nuts 12 of the screws 11. Then, one after another, parting the small and large staples 9, 7 of the upper collar, install it on the cap of the adjacent insulator from the side of the replaced insulators 1 of the garland and fix the collar 2 with the wing nut 12 of the screw 11; in the same way, install and fix on the cap of the normal insulator the lower collar 3 so that between the flanges 2, 3 all defective insulators 1 to be replaced remain. After installing the flanges 2, 3, a tightening device (clamping mechanism) 5 is mounted on their eyes 8 and by ratchet 6, the section of the garland is tightened with defective insulators 1, after having previously removed the locks from the replaced insulators 1. After the clamping mechanism 5 is replaced from the replaced insulators 1, they are disengaged and put in their place suitable insulators 1. At the final stage, remove the load from both wires 2, 3, install the locks on the newly mounted normal insulators and in the reverse order remove the coupling mechanism 5.

The inventive device for replacing insulators on overhead power lines is a universal device suitable for installation on lines with almost any structural forms of caps of suspended insulators of one row of destructive loads; the device is quite simple in design, does not require large material costs, as it consists mainly of simple standard units and parts, it is easily and quickly mounted on the line, reliable in operation. Currently mastered mass production of these devices.

Information sources

1. Description of the invention to the copyright certificate “Device for replacing insulators on overhead power transmission lines under voltage” No. 936135, Н02G 1/02, declared: 11/28/1979, published: 06/15/1982 Bulletin No. 22.

2. Description of the invention to the copyright certificate “Device for enhancing insulation on high voltage overhead power transmission lines under voltage” No. 515199, Н02G 1/02, declared: 03/30/1973, published: 05/25/1976 Bulletin No. 19.

Claims (8)

1. A device for replacing insulators on overhead power lines, comprising a detachable collar mounted on the cap of the insulator and a coupling mechanism connected to the collar, characterized in that it is provided with an additional detachable collar mounted on a string of line insulators below the first collar so that between the flanges there was a section of a garland with replaceable defective insulators, each wyme consists of a bracket with side eyes and a second bracket connected by a one-piece swivel joint at one end and tightly fastened from the other end when installing the wye on the insulator caps, the top of the wiring is equipped with two insert inserts made in the form of an inverted half-glass of variable cylindrical shape with an axial hole in the supporting surface lying on the end part of the insulator head and a flange with through holes for fastening to brackets the upper vaima located below the vaima is equipped with two insert inserts made in the form of an inverted half-glass of cylindrical shape along its entire height with a flange on the side surface and the hole for attaching to the brackets of the lower collar, to prevent damage to the glass part of the insulators, a gasket is installed on the base of the insert-insert of the lower collar made in the form of a cylindrical washer with a flat surface on one side and circular protrusions on the other, repeating the shape of the insulator ribs, moreover, a hole and a cut are made in the central part of the cylindrical washer, designed to ensure its installation on the cap of the insulator, while when installing on the line of the insert-liner top each and the bottom wime are attached separately to each wye brackets, forming from half-cups glasses, covering the insects pestles and resting on the elements of their caps. 2. The device according to claim 1, characterized in that the axial hole in the support lying on the end part of the insulator head of each insert insert of the upper collar is made with a radius R ₁ determined from the following ratio: R ₁ = (0.51 ÷ 1.6) d _p where d _p is the minimum diameter of the insulator pestle for which the device is intended. 3. The device according to claim 1, characterized in that the hole in the base of each insert insert of the lower border is made with a radius R ₁ = (0.51 ÷ 1.6) d _p , where d _p is the minimum diameter of the insulator pestle for which it is intended device. 4. The device according to claim 1, characterized in that the flange on the side surface of each insert insert of the lower collar is made at a height h, determined from the following relation: h = (0.4 ÷ 0.85) H, where N is the height of the staples upper and lower wime. 5. The device according to claim 1, characterized in that the hole in the central part of the gasket is made with a diameter of 0.5 ÷ 1.5 mm larger than the diameter of the insulator pestle. 6. The device according to claim 1, characterized in that the gasket of the lower flange is made of silicone rubber. 7. The device according to claim 1, characterized in that the swivel at one end of the brackets of the upper and lower weights is made inseparable by means of a finger-rivet. 8. The device according to claim 1, characterized in that the rigid fastening from the second end of the brackets of the upper and lower sheath is made by means of a screw with a wing nut.

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