SU411396A1 - - Google Patents

Description

one

The present invention relates to devices for determining support with damaged insulation on overhead transmission lines with a voltage of 35 kV and above, reacting to the flow of damage current through metal parts of the support at the moment of damage.

The known devices of similar purpose containing a storage ferromagnetic element located in a magnetic field of a controlled current and an indicator of the magnetization of the storage element are complex in design and operation.

In order to simplify the device, increase its reliability and create ease of operation, the ferromagnetic storage element is designed as two symmetrically arranged relative to the neutral section of parts connected in series into a magnetic circuit closed around the monitored support at the points of attachment and magnetized by an external magnetic field so that the point of the neutral is controlled element section, which is equal and maximum distance from attachment points, has a magnetic potential that is equal to one The magnitude of the potentials of the points of attachment, and the magnetization indicator contains an element controlling the violation of equal magnetic potential potentials between the controlled point and the points of attachment of the element.

To simplify and increase the sensitivity, the element that closes the magnetic circuit can use a metal part of the support with a controlled current, for example, the empty corner of the metal support. In addition, to increase reliability and sensitivity, the device can be additionally equipped with a permanent magnet located near the storage element and creating a magnetic field at the point of magnetization control, the direction of the intensity of which is different.

from the direction of the intensity of the field created by the memory element.

FIG. 1 schematically shows the proposed device; in fig. 2, 3 and 4 - options for its implementation.

The embodiment of the device shown in FIG. 1, is intended for installation on reinforced concrete piers.

The stationary reacting organ of the device is made in the form of two permanent magnets 1, 2 and magnetic core 3 of a magnetically soft material. Items 1-3 are used.

at the same time as fastening parts

devices to support 4.

The trigger indicator is made in the form

two magnetic arrows 5, 6 located

on ax x A permanent magnet 7 is used to return the device to its original state. When installing devices, the permanent magnets 1, 2 of each device are magnetized by the magnet 7 in different directions, for example, as shown in FIG. 1. Magnets retain residual magnetization for a long prem.

The monitoring of the magnetization of the magnets is carried out by means of a trigger indicator. When the indicator is located near the magnets, the arrows 5, 6 of the indicator are located in the direction of the magnetic field strength in opposite directions, as shown in FIG. one.

If the insulation of the monitored support is damaged during a short circuit, a fault current flows through the metallic parts of the support. The magnetic flux, closing along the ring of elements 1-3, produces a periodic magnetization reversal of the magnets 1, 2. After the fault current is turned off, both magnetic elements are magnetized in one direction or demagnetized, which can be easily determined using a portable indicator. When the indicator is located near the magnets of a device mounted on a pole with damaged insulation, the indicator arrows do not deflect in opposite directions.

The resetting of the reacting organ to the initial state is performed by reversing the magnets 1, 2 to the initial state by a permanent magnet 7 or an electromagnet.

Other devices that control the presence of magnetization and the direction of magnetization of the magnets of the storage element, for example, one magnetic arrow, by means of which the magnetization directions of the magnets are alternately determined, can be used as an indicator of the operation of the device.

FIG. 2 shows a second variant of the device, designed to be mounted on elements of metal supports, for example, on a clear corner of the support stand.

The reactive organ of the device is made in the form of two permanent magnets 1, 2 and magnetic core 3 of a magnetically soft material. Elements -3 are used at the same time to attach the device to the metal part of the support, for example, to the stand of the support stand.

When the device is installed, the magnets 1, 2 are magnetized in different directions by the permanent magnet. When the insulation of the support is damaged during a short circuit over the angle 8, a part of the fault current flows and the magnets 1, 2 are re-magnetized as in the device in FIG. one.

As the trigger indicator, the indicator shown in FIG. one.

Due to its simplicity, devices can be used not only to determine a support with damaged insulation, but also to determine a damaged arm of insulators. For this, the devices are mounted on brackets.

FIG. 3 shows a simplified version of the device 5. The responsive organ of the device is now in the form of a storage element 1 113 magnetto) dog (; m; 1 teria. / I1n douh of fixtures 9, 10 of magnetically soft material. The fixers are used for the roll locking element 10 to the metal parts of the support, for example, to a clear corner .

As a magnetic conductor for the pickup element in the device, a self-resetting corner is used, through which a current of damage 15 flows.

When the device is installed, the storage element 1 is conventionally divided into two equal parts, which are then magnetized in different directions, for example, as shown in FIG. 3

If the insulator arm becomes damaged during a short circuit along the angle 8, a part of the fault current flows and parts of the storage element 1 re-magnetize the same way 5 as the magnets 1, 2 in the device of FIG. 1. An indicator in the form of a single magnetic needle can be used as a trigger indicator. When such an indicator is located near the memory element 0 of the support with intact insulation, the indicator arrow is located in the direction of the magnetic field of its element, as shown in FIG. 3

After the current flows through the damage to the monitored element of the support, parts of the clamping element are re-magnetized and the indicator arrow changes direction.

FIG. 4 shows a variant of the device, the reacting element of which is made in the form of a ring 1 of a magnetically hard material. Clamps 9, 10 of magnetically soft material are used to attach the ring to the support part 8. The device contains an additional permanent magnet 11 fixed 5 under the ring with the help of a clamp 12 of a non-magnetic material.

When the device is put into operation, the ring is magnetized by a permanent magnet so that the points at which the ring is connected to clamps 9, 10 have an equal magnetic potential, and the points a and b are different magnetic potential, for example, as shown in FIG. 4. Optional magnet

5 11 is magnetized so that it acts on the magnetic needle 5 in the direction opposite to that of the magnetic ring. The parameters of magnets 1 and 11 are chosen such that the effect of magnetic

0 rings were bblschim. Under these conditions, the arrow is positioned as shown in FIG. 4. When current flows through the test piece 8, the ring 1 is magnetized in the direction of the points of attachment to the latches 9, 10

5 either completely demagnetized. In both

In these cases, the direction of the indicator needle will change (by 180 °).

The magnetic field of the Earth can be used as an additional orienting magnetic field in devices. In this case, an additional permanent magnet in the device is not used, and the device is mounted on the monitored support part so that the directions of the magnetic zero of the Earth and the storage element at the point of control of the intensity ne do not coincide, for example, they differ by 180 °.

Pointers of the type described can be installed on power lines to continuously monitor damaged insulation or for a specific time in order to identify the reasons for shutting off the insulation and working out recommendations for choosing the best insulation for different operating conditions.

Subject invention

Claims (3)

1. A device for determining the support of an air-insulated power line with damage and isolation by controlling the current of damage flowing through the metal parts of the support at the time of damage, containing a storage ferromagnetic element located in the magneto-magnetic field of the current being monitored, and an indicator of magnetization of the storage element characterized in that , in order to simplify the device, increase its reliability and create convenience in operation, zapomipayusya ferromagnetic element made in the form of two symmetrically located relative to the neutral cross section of parts connected in series in a magnetic circuit closed around a monitored support at attachment points and magnetized by an external magnetic field so that the neutral point of the element is controlled to be at an equal and greatest distance from the attachment points, has a magnetic potential that is equal in magnitude to the potentials of the attachment points, and the magnetization indicator contains control of violation of equality of differences magnetic potentials between the controlled point and the points of attachment of the element. 2. The device according to claim 1, that is, nt e e with the fact that, with the goal of unence and sensitivity, and as an element that closes the magnetic circuit, the metal part of the support with a controlled current is used, for example, a metal corner. 3. The device according to claim 1, characterized in that, in order to increase reliability and sensitivity, it additionally contains a permanent magnet located near the storage element and creating a magnetic field at the point of control of magnetization, the direction of the intensity of which differs from the direction of the intensity of the field created by the storage element. / U 5 N N 5 / 4- / 1 B KZa /