RU190784U1 - INDICATOR OF POLYMER INSULATOR OVERLAP - Google Patents

Abstract

The utility model relates to the electric power industry and concerns suspended polymer insulators for high-voltage power lines. At the moment, the main problem with linear suspended polymer insulators is that it is difficult to visually determine which insulator was damaged during the overlap on the line, since the insulator remains intact and often operable . The overlap indicator of the polymer insulator allows you to set the support on which the insulator overlap occurred. A disadvantage of the known devices can be called the fact that they do not provide for the possibility of reuse after the indicator is triggered, it requires the dismantling and replacement of the signaling element, which significantly complicates the maintenance of the line, requires additional time and financial costs. insulator. Indicator of overlap of the polymer insulator, including bracket, signaling device and fuse according to a utility model, the signal device is spherical in shape and consists of two parts connected by means of an articulated joint provided with a spring. Two parts of the signaling device are held by a fusible insert installed in the slots.

Description

The utility model relates to electric power industry and concerns suspended polymer insulators for high-voltage power lines.

At the moment, the main problem with linear suspended polymer insulators is that when they overlap on the line, it is difficult to visually determine which insulator was damaged, since the insulator remains intact and often efficient. This disadvantage limits the use of polymer insulators on the lines, despite a number of advantages over porcelain and glass insulators. Inspection of each insulator, lifting onto a support entails a loss of time and an increase in labor intensity when searching for a damaged insulator during the maintenance of a power line. The overlap indicator of the polymer insulator allows you to set the support on which the insulator overlap occurred. When bypassing the line, employees can visually determine at which insulator an overlap occurred, which prevents an erroneous ascent to the support to diagnose the condition of the insulator.

Known "Polymeric insulator with control of the state of isolation" "Patent for invention No. 2392678), which contains: electrical insulating supporting body, metal fittings and the control element, made of tempered electrical glass. The control element is destroyed during operation with a decrease in the electrical insulating properties of the carrying body.

The “Indicator of the overlap of insulators of overhead power lines” (Patent for invention No. 2668992) is a device that is attached to a metal grounded part of the insulator or to a string of insulators, or in close proximity to them on the support cross beam. It consists of an electrode, a marker and a fusible element.

A disadvantage of the known devices is that they do not provide for the possibility of reuse after the indicator is triggered, the dismantling and replacement of the signaling element is required, which significantly complicates the maintenance of the line, requires additional time and financial costs.

The technical problem that the claimed utility model is aimed to solve is the simplification of the maintenance of the power line, the possibility of multiple use of the polymer insulator overlap indicator.

The technical result is the development of easy to maintain reusable indicator overlap polymer insulator.

The technical result is achieved due to the fact that in the indicator of the overlap of the polymer insulator, which includes a bracket, a signaling device and a fusible insert, according to the utility model, the signaling device consists of two parts connected by means of a swivel joint equipped with a spring. Such an embodiment of the indicator, besides that, allows for visual inspection from the ground to determine the isolator that requires maintenance, also allows you to re-enter the indicator into operation without dismantling, returning the detector to its original position.

The spherical shape of the signaling device prevents precipitation delay, snow sticking and icing, therefore, increases the reliability of the indicator, and the execution of the signaling parts in the form of two hemispheres allows you to determine the support on which the insulator overlapped, not only by directing the power line from the ground, but also with a longitudinal view with the help of optical devices, it contributes to improving the quality and simplifying the maintenance of power lines, as it reduces the time Search for a damaged insulator and eliminates the erroneous rise of the support

The presence of grooves in the upper part of the detector and the bracket allows you to quickly return the indicator to operation by performing the replacement of the fuse link without using additional tools, which greatly simplifies the maintenance of the power line.

Insulating glass-fiber-filled polyamide plastic selected by the applicant as a material for the manufacture of a signaling device, since, besides being a dielectric, it can be used under various weather conditions, is durable and is the most suitable material for reusable use.

Thus, the applicants solved the problem posed - to simplify the maintenance of the power line, the possibility of multiple use of the overlap indicator of the polymer insulator. The set of essential features of the utility model allows to achieve the technical result set: the creation of an easy-to-maintain reusable indicator of the overlap of a polymer insulator

Patent research did not reveal technical solutions characterized by the claimed set of essential features, therefore, it can be assumed that this utility model meets the criterion of "novelty."

In addition, the proposed technical solution can be manufactured on an industrial scale using standard equipment and will find application in the power industry, i.e. characterized by the criterion "industrial applicability"

Brief Description of the Drawings:

FIG. 1 - General view of the indicator overlap polymer insulator (vertical section), attached to the insulator.

FIG. 2 - Top view of the indicator indicator overlap polymer insulator

The overlap indicator of the polymer insulator contains a bracket 1, a signaling device 2 and a fusible insert 3, and the signaling device has two parts connected by means of a swivel 4. The hinge connection 4 is equipped with a spring 5. The signaling device 2 is a sphere consisting of two parts: the upper part 6 signaling device 2 and the lower part 7 of the signaling device 2. The upper part 6 of the signaling device 2 is made in the shape of a hemisphere and has a groove 8. The lower part 7 is a signaling device device 2 is made in the form of a hemisphere, and is fixed by bolting 9 on the bracket 1, which has a groove 10. The fusible insert 3 is made of special solder and in the initial position installed in the groove 8 of the upper part 6 of the signaling device 2, and the groove 10 bracket 1. The signaling device 2 is made of electrically insulating glass-filled polyamide plastic. Bracket 1 is made of metal.

The overlap indicator of the polymer insulator is attached directly to the valve (end fitting, screen) of the insulator next to the live wire. It is intended for operation on AC lines with a voltage of 6-1150 kV, frequency up to 100 Hz in an atmosphere with varying degrees of pollution, at maximum operating temperatures from minus 60 to plus 55 degrees Celsius.

The polymer insulator breakdown indicator works as follows: in the initial position, the upper part 6 of the signaling device 2 and the lower part 7 of the signaling device 2 are held by the fusible insert 3. This position of the signaling device indicates that the insulator is in working condition. When an emergency situation occurs on the line (lightning strike, insulator overlap), high short-circuit currents are formed, and the electric arc passes through the shortest discharge distance between the fusible insert 3 and the upper screen of the insulator (not indicated in the drawing). Since the fusible insert 3 is made of a material having a low melting point, it is destroyed due to heating. When the fuse link 3 is destroyed, the spring 5 is activated and the upper part 6 of the signaling device 2 rotates at an angle from 90 to 180 degrees relative to the lower part 7 of the signaling device 2. This indicates that an insulator is required to be inspected. The specialist during the ascent to the support on which the breakdown indicator has been triggered, conducts diagnostics of the condition of the isolator and makes a decision about the possibility of further operation. Often the insulator remains operational and its replacement is not required. In this case, the upper part 6 of the signaling device 2 is returned to the initial position by a specialist manually, a fusible insert is inserted into the slots 8 and 10. Due to the deepening made in the groove 8 of the upper part 6 of the signaling device 2 and the impact of the spring, the fusible link is securely fixed in the slots 8 and 10.

Claims (7)

1. The indicator overlap polymer insulator, comprising a bracket, a signaling device and a fuse insert, characterized in that the signaling device consists of two parts connected by means of a swivel joint, equipped with a spring. 2. The indicator overlap polymer insulator under item 1, characterized in that the signaling device has a spherical shape. 3. The overlap indicator of the polymer insulator according to claim 1, characterized in that the upper part of the signaling device is a hemisphere, at the base of which a protrusion is made with a groove intended for mounting a fusible insert. 4. The indicator for the overlap of the polymer insulator according to claim 1, characterized in that the lower part of the detector is fixed on the bracket and is a hemisphere. 5. The overlap indicator of the polymer insulator according to claim 4, characterized in that the bracket has a groove for mounting the fusible link. 6. The indicator of the overlap of the polymer insulator according to claim 1, characterized in that the signaling device is made of electrically insulating glass-filled polyamide plastic. 7. The indicator overlap polymer insulator under item 1, characterized in that the bracket is made of metal.

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