RU2824165C1 - Nozzle-interrupter of liquid jet for washing of high-voltage insulators of power transmission lines - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates to power engineering, in particular to maintenance of high-voltage insulators of power transmission lines. Nozzle-interrupter of liquid jet for washing of high-voltage insulators of power transmission lines, containing a housing with located inside it on a common axis of a blade turbine with supply of liquid to it by means of an auxiliary shaft and a rotor with blades, which periodically overlap a continuous stream of liquid from the main shaft, characterized by that the turbine is made in the form of a rotating disc with holes of different diameters, equipped with inclined blades above these holes arranged along its circumference, and located on the axis of the fixed disc also with holes, fixed inside the housing, and at the end of the housing there is a replaceable concentrator equipped with a hole for placement in it of a hollow tube with a container for abrasive powder; at that, a screw regulating powder supply is installed on the tube.

EFFECT: wider range of equipment.

3 cl, 3 dwg

Description

The invention relates to power engineering, in particular to servicing high-voltage insulators of power transmission lines by remotely washing them with a jet of liquid by an operator located at a height, while the line is under voltage, and can also find application in other areas of industry.

The "Water-air washing gun" by Yu. P. Baranov is known, according to the USSR invention No. 159733, IPC B 05 D, class 63s. 91, declared on 04. 06. 1957.

The gun contains a body in the form of a handle with a nozzle tip provided with a thread for screwing on replaceable devices, controlled water and air valves, pipes for supplying hot water and air, and the handle is made hollow in the form of an air supply channel with a tube for supplying water concentrically located inside it.

The disadvantage of this device when washing, for example, insulators is the lack of a more powerful (pulse) effect of the liquid jet on the surface of the products. In addition, a mixture of air with water droplets creates an aerosol that affects neighboring insulators, which can lead to a short circuit between them.

Also known is the “Device for cleaning products” by the authors Ignatiev A. A., Samykin I. V. and Baranovskaya N. B. according to the USSR Author’s Certificate No. 1291219, IPC B 08B 3/02.

The device comprises a housing with a cavity for mixing air and liquid working medium via nozzles, connected to the supply lines of compressed air and liquid working medium, for supplying the mixed medium to the surface of the product, a valve for shutting off the supply of liquid medium, made in the form of an elastic plate, fixed inside the housing between the axes of the nozzles.

Another disadvantage of the device is the presence of water-air aerosol, which is unacceptable when washing high-voltage power transmission line insulators. Another disadvantage of this device is the presence of an elastic plate in the electro-pneumatic valve, the mechanical resource of bends of which is limited.

The closest analogue (prototype) of the proposed invention for washing insulators with a high-pressure washing jet is the “ORGRES Rotary Breaker”, Fig. 4.1, from the article “Insulator Surface Pollution and Control” [electronic resource] https: studopedia. ru/16_53035_zagryaznenlya-poveerhnosti-isolyatorov-i-borba-s-nimi.html.

The rotary interrupter (an attachment to a fire nozzle) contains a casing (housing), inside of which on a common axis there is a rotor with knives and a blade turbine, fed through an auxiliary nozzle and creating rotation of the common shaft. The rotor knives periodically block the flow of the main nozzle, creating its pulsating movement, and the sprayed water remains inside the casing, comes out of its lower opening and is lost for free.

The disadvantage of this rotary interrupter is the significant complexity of the design and the problems of its maintenance at high altitude when performing work, for example, on washing insulators. In addition, the disadvantage is the high consumption of water, purified and prepared according to the requirements of its electrical conductivity during this operation.

It is also not advisable to use this device when cleaning surfaces contaminated with radioactive waste with expensive solutions.

The technical problem in the proposed invention is the need to create a “Liquid jet interrupter nozzle for washing high-voltage insulators of power transmission lines” with a more multifunctional and more reliable design that economically uses water and other liquid mixtures used in this operation.

The technical problem, which is provided by the implementation of the present invention, is the expansion of the arsenal of technical means by creating an object with new parameters that meet the specified requirements: economically use solutions or purified water and simultaneously use cleaning abrasive powders in the composition of the liquid, which allows in a pulsating mode to remotely wash away previously unremovable contaminants from the surface of insulators, and also significantly reduce the costs of carrying out such work, increasing their electrical safety.

The technical results are as follows:

In a nozzle-interrupter of a liquid stream for washing contaminated high-voltage insulators of a power transmission line, comprising a housing with a bladed turbine placed inside it on a common axis with a liquid supply to it using an auxiliary barrel and a rotor with knives, which periodically block a continuous stream of liquid from the main barrel, the turbine is made in the form of a rotating disk with holes of different diameters equipped with inclined blades above these holes, located along its circumference, and a fixed disk located on the axis also with holes, fixed inside the housing, and at the end of the housing a replaceable concentrator is placed, equipped with an opening for placing a hollow tube with a container for abrasive powder in it, wherein a screw is installed on the tube, regulating the powder feed.

The technical result also consists in the fact that in the nozzle-interrupter of the liquid stream for washing high-voltage insulators of power transmission lines, the openings of the fixed disk are equipped with removable plugs or louvered plates covering the openings, and the blades of the rotating disk are made in the form of plates fixed at an angle of 30...60 degrees to the plane of the disk.

The drawings show drawings of the proposed invention, where in Fig. 1 the “Liquid jet interrupter nozzle for washing high-voltage insulators of power transmission lines” is shown in section; in Fig. 2 a - view A-A on the fixed disk; in Fig. 2 b - view B-B on the rotating disk; in Fig. 3 - side view of the blade (the image is enlarged).

"Liquid flow interrupter nozzle for washing high-voltage insulators of power transmission lines", hereinafter: "Liquid flow interrupter nozzle" consists of a housing 1, which is attached with the inlet end by means of clamping screws 2, for example, to a fire nozzle 3, while inside the housing there is a fixed disk 4 with through holes 5 for liquid (Fig. 2,a), on the axis of which there is a rotating disk 6 (Fig. 2,b) with main holes 7, also with a hole 8 for the axis and blades 9 between the main holes of the disk, and on the outlet end of the housing a replaceable flow concentrator 10 with different diameters of the outlet hole 11 and with a hole 12 for securing a hollow tube 13, on which a container 14 with abrasive powder and an adjusting screw 15 are placed, and some of the holes in the fixed disk, depending on the frequency of oscillations of the liquid in the flow, are closed with plugs if necessary 16 (Fig. 2, a). If it is required to have a continuous flow of liquid at the outlet of the device, a brake clamp 17 is used. In Fig. 3, a curved base 18 of the blade is shown for fastening it to the rotating disk, wherein the inclined surface 19 of the blade, which receives the pressure of the liquid flow, is located and partially covers the main openings of the rotating disk (Fig. 2, b). The central opening 20 of the fixed disk is made, for example, for the thread of the axis 21 and is secured with a lock nut 22.

The jet interrupter nozzle works as follows.

Before starting work, the body 1 is put on the barrel 3 and secured with screws 2. Disk 6 is released for free rotation on axis 21 by disengaging its brake clamp 17. The required abrasive powder is poured into container 14 depending on the degree of contamination of the insulators: grinding grain, grinding powder, micro-grinding powder, etc. The degree of spillage of the abrasive powder through the hollow tube 13 into the concentrator 10 is set by adjusting screw 15 of the container.

When the pump is switched on, feeding the flow V of liquid from the fire nozzle 3 into the housing 1, the pressure of the flow is transmitted to the surfaces 19 of the blades 9 located at an angle to the surface of the disk 6 (pos. 19, Fig. 3), which force the disk 6 to rotate, while during rotation the force F through the fastening 18 on this disk creates a torque M and, accordingly, rotation of the input flow V in the area of this disk. The rotating flow of liquid, having passed through the holes 7 of the disk 6, passes further with a certain frequency through the through holes 5 of the fixed disk 4 into the concentrator 10, captures the abrasive powder pouring out of the tube 13 and through the outlet opening 11 directs it to the cleaned insulator of the power transmission line, located at the calculated distance. The number of holes 5 in the fixed disk 4 sets the frequency of flow interruptions per revolution of the rotating disk 6. If it is necessary to reduce the frequency of pulsations and increase the energy of the flow pulse, some of the holes 5 can be closed with plugs 16 (Fig. 2, a) or louvered dampers (not shown in the drawing).

The diameter of the concentrated flow at the outlet of the opening 11 of the housing is selected, for example, when working with insulators by changing the concentrator 10 for specific conditions in accordance with the table of "Minimum permissible distances along the water stream between the nozzle and the insulator being washed", which can be from 8 to 12 meters for a 500 kV high-voltage line (see Table on page 1: "Standard instructions for washing insulators of overhead lines up to 500 kV inclusive under voltage with a continuous stream of water" [electronic resource], https://ohranatruda.ru/ot biblio/norma/391906/.

If it is required to have a continuous flow of liquid or its mixture with abrasive powder at the outlet 11, then unscrew the clamps 2, remove the body 1 from the barrel 3, install the holes 7 of the rotating disk 6 opposite the open holes 5 of the fixed disk 4 and fix the disk 6 motionless with the brake clamp 17.

The operation of the "Liquid jet interrupter nozzle" further proceeds in a similar manner with a continuous liquid flow. The flow passes through the holes of both non-rotating disks, then in the concentrator 10 it captures particles of abrasive powder and is directed by the operator to the insulators being cleaned or other contaminated surfaces.

Holes 5 and 7 on disks 4 and 6 can be of an extended shape and different geometric dimensions, and their number is determined by the requirements of the task being solved for cleaning the surfaces of the object.

At present, when washing high-voltage insulators under high voltage, unproductive and dangerous to the operator's life standard fire-fighting equipment is used. The use of the proposed invention, embodied in a real design, will improve the working conditions of the operator, wash insulators with previously unwashable dirt, economically use the prepared solutions and increase labor productivity.

In addition, this invention can be used, for example, for remote pulse washing of surfaces of products contaminated with radioactive waste using appropriate types of abrasives and special liquid solutions.

Claims (3)

1. A nozzle-interrupter of a liquid stream for washing high-voltage insulators of power transmission lines, comprising a housing with a bladed turbine placed inside it on a common axis with a liquid supply to it using an auxiliary barrel and a rotor with knives, which periodically block a continuous stream of liquid from the main barrel, characterized in that the turbine is made in the form of a rotating disk with holes of different diameters, equipped with inclined blades above these holes, located along its circumference, and located on the axis of a fixed disk also with holes, fixed inside the housing, and at the end of the housing a replaceable concentrator is placed, equipped with an opening for placing in it a hollow tube with a container for abrasive powder, wherein a screw is installed on the tube, regulating the powder feed. 2. A nozzle-interrupter of a liquid stream for washing high-voltage insulators of power transmission lines according to paragraph 1, characterized in that the openings of the fixed disk are equipped with removable plugs or louvered plates covering the openings. 3. A nozzle-interrupter of a liquid stream for washing high-voltage insulators of power transmission lines according to paragraph 1, characterized in that the blades of the rotating disk are made in the form of plates fixed at an angle of 30...60 degrees to the plane of the disk.