SU1532890A2 - Transmitter of electromagnetic field of underground power cable - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used in determining the places of damage in power cables by the induction method. The purpose of the invention is to improve the accuracy of finding the place of damage and shorten the time to search for damage, which is achieved by detuning from the influence of the field of a single current. The device contains extreme induction coils 1 and 2, spaced along the axis by half the twist pitch of the cores of the cable 3 being monitored, to the damaged elements of which an audio frequency generator 4 is connected. Between coils 1 and 2 there is an additional coil 5, which can move along the axis of the sensor, which provides a tune-up from the effect of the field of a single current. This improves accuracy and shortens the time to look for damage. In the description are examples of the implementation of the device, providing the movement of the additional coil 5 along the axis of the sensor. 3 il.

Description

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figure 1

The invention relates to electrical measuring equipment, can be used in determining the location of damage in power cables by induction method.

The purpose of the invention is to improve the accuracy of finding the place of damage and shorten the search time for damage. 1532890-4

orientation of the longitudinal axis of the sensor along the cable axis.

Thus, due to the fact that the coil 5 is capable of moving along the longitudinal axis of the sensor, it is possible to unambiguously identify the nature of the change in the signal from the electromagnetic field of the underground blue by detuning the cable from the interfering influence-JQ. Damage location

is fixed when the operator moves along the cable path, when the signal at the output of the sensor changes from smooth to uniform or disappears completely. The accuracy of determining the damage month is more than half the twisting pitch of the residential cable.

nor the field of a single current due to the displacement along the longitudinal axis of the sensor of the additional coil.

FIG. 1 shows a diagram of the device; in fig. 2 and 3 are examples of the structural design of a unit for moving an additional coil.

The electromagnetic field sensor of the underground power cable contains the first and second 2 extreme induction coils, spaced axially by half the twisting pitch of the wires of the monitored cable 3, whose sound elements are connected to an audio frequency generator 4. Between coils 1 and 2 there is an additional coil 5 which can move along the axis of the sensor. Coils 1 and 2 are connected to each other in series according to, and with coil 5 - opposite. Sensor output terminals 6, to which the indicator device is connected.

The sensor works as follows.

When searching for a place of damage, the operator installs a sensor on the ground above the route of the damaged cable, focusing on the minimum signal at terminal 6 of the sensor. Then, moving the coil 5 along the axis of the sensor, the operator, if he is at the point of damage, fixes on. terminal 6 is a periodic change of the signal from the current field in accordance with the twist of the cable cores 3. If the operator is behind the fault, then moving the coil 5, it will record either no signal or a linear (uniform) change in the signal from the current flow. At the same time in the course of the work there is no change of the change cable. Damage location

is fixed when the operator moves along the cable path, when the signal at the output of the sensor changes from periodic to uniform or disappears completely. The accuracy of determining the location of damage is no more than half the twisting pitch of the wires of a given cable.

In the case of discrete movement of the magneto receiver (Fig. 2), the outer coils 1 and 2 of the sensor are rigidly fixed on the bars 7 and 8. The upper bar 7 is made with holes into which the operator manually alternately inserts an additional coil 5 during the search, thus moving it discretely along the longitudinal axis of the sensor.

FIG. The 3 outer coils 1 and 2 of the sensor are rigidly fixed with screws 9 at the ends of the guides IO and P. The hubs J 2 and 13 are fixed to the housings of these coils, which serve as supports for the screw axis 14. A nut 16 is fixed on the body of the additional coil 15, axle component screw pair. Three damage control, the operator manually rotates the handle 1.7 of the screw axis, while moving smoothly the coil J5 along the guides 0 and 1J.

Claims (1)

Invention Formula Electromagnetic floor sensor underground power cable auth.St. No. 504988, characterized in that, in order to improve the accuracy of finding the place of damage and shorten the time to search for damage, the additional coil is adapted to move along the longitudinal axis of the sensor. Editor 0. Arrogant FI.5 Compiled by N. Varlamov Tehred M.Didyk Proofreader M.Maksimishinets f /