KR970066562A - Wire corrosion detection sensor - Google Patents

Abstract

The present invention relates to a sensor for detecting corrosion of a corrosion detecting device used for measuring an internal corrosion degree of a transmission line by means of an eddy current detection method and in order to easily insert the transmission line into the detection sensor, A lower semicylindrical coil part wound so that a current flows in the same direction in adjacent conductors, and a lower semicylindrical coil part in which the semicircular coil part and the lower semicylindrical coil part are correspondingly arranged, And a measuring device for measuring a change in electrical characteristic at a portion of both terminals.

Description

Wire corrosion detection sensor

Since this is a trivial issue, I did not include the contents of the text.

3 is a block diagram showing a schematic configuration of a detection sensor according to the present invention, FIG. 5 is a block diagram showing a coil unit of a detection sensor according to the present invention Wherein the semi-cylindrical panels are coupled to each other.

Claims (17)

A detection sensor for measuring the degree of internal corrosion of a wire by an eddy current detection method, comprising: an upper semi-cylindrical coil part wound so that a circular current flows in the same direction in mutually adjacent conductors; A lower semicylindrical coil portion wound so that a current flows in the mutually adjacent conductors in the same direction and a current flows in the same direction on the same circumference as the circular current flowing in the upper semicylindrical coil; And a measuring device connected to both terminals of the upper semi-cylindrical coil part and the lower semi-cylindrical coil part to measure changes in electrical characteristics. The wire corrosion detection sensor of claim 1, further comprising a semi-cylindrical panel provided to support the coil inside the upper and lower semi-cylindrical coils. The wire corrosion detection sensor according to claim 2, wherein the semicircular panel includes a plurality of projecting members provided at both ends of the semicircular panel so as to engage when the coil is wound. The method as claimed in claim 1, 2, or 3, wherein a coil wound on the upper and lower semicylindrical coil portions is gradually moved from an outermost protruding member of a plurality of protruding members provided on the semi- Wherein the directions of the circular currents wound on the left and right coils of the semicylindrical panel wound by the protruding members are opposite to each other. [3] The apparatus as claimed in claim 1 or 2, wherein the upper semi-cylindrical coil portion comprises a first coil and a second coil which are independently wound on left and right sides of a semi-cylindrical panel, and the lower half- And a third coil and a fourth coil wound independently of each other, wherein the first coil and the second coil have a symmetrical structure. 6. The apparatus of claim 5, wherein the first coil is wound in a protruding member gradually inward from an outermost protruding member in a protruding member provided in a left direction at a central portion of the half cylindrical pantel, Wherein the protruding member is gradually turned from the outermost protruding member to the inner protruding member among the protruding members provided in the rightward direction from the middle and the rear of the cylindrical panel. [7] The apparatus of claim 6, wherein the first coil is wound from the upper left side of the half-cylindrical panel to the lower side, the lower left side to the right side, the lower right side to the upper side, A wire corrosion detection sensor. The apparatus according to claim 6, wherein the second coil is wound from the top to the bottom of the leftmost outermost left corner of the semi-cylindrical panel, from the right to the left from the bottom, and from the left to the top, Wire corrosion detection sensor. The method as claimed in claim 1, wherein the upper semi-cylindrical coil part and the lower semi-cylindrical coil part correspond to the same circumference while the same circular current flows in both the upper half-cylindrical coil part and the lower semi-cylindrical coil part, Is connected to the AC power source in parallel. The method as claimed in claim 5, characterized in that the direction of the circular current in the same direction flows in the conductors of the upper semi-cylindrical coil part and the lower semi-cylindrical coil part corresponding to the same circumferential shape as the adjacent conductor, Are connected in parallel to an AC power source. 3. The wire corrosion detection sensor according to claim 2, wherein a coil region on either side of the coils wound on the right and left sides of the semi-cylindrical panel is used as a sensing region. The method as claimed in claim 5, wherein, among the first to fourth coils wound on the central portion of the upper and lower semi-cylindrical panels, an area wound around the central part of the upper and lower semi-cylindrical panels is used as a sensing area of the sensor. Corrosion detection sensor. The wire corrosion detection sensor according to claim 2, wherein opening / closing means is provided outside the semi-cylindrical panel or the semi-cylindrical panel so that the electric wires can be easily inserted into the upper and lower semi-cylindrical panels. In a sensor for detecting a corrosion detection device used for measuring an internal corrosion degree of a wire by an eddy current detection method, an upper half cylindrical type in which a coil is wound on the surface of a semi- The upper semi-cylindrical coil portion and the upper semi-cylindrical coil portion are symmetrical with each other to form a cylinder at the time of mutual coupling, and the currents flowing in mutually adjacent conductors are in the same direction, And a measuring device connected to both terminals of the upper semi-cylindrical coil part and the lower semi-cylindrical coil part to measure a change in electrical characteristics of the upper half cylindrical coil part and the lower half cylindrical coil part, A constructed wire corrosion detection sensor. 14. The wire corrosion detection sensor as claimed in claim 13, wherein the semicircular panel has a plurality of semicircular protrusions provided at opposite ends thereof so as to engage when the coil is wound. [15] The method as claimed in claim 14 or 15, wherein the coils wound on the upper and lower semi-cylindrical coil parts are wound on the inwardly protruding members gradually from the outermost protrusion member among the plurality of protrusion members provided on the semi-cylindrical panel Wherein the directions of the circular currents flowing in the coils wound on the left and right sides of the semi-cylindrical panel are opposite to each other. 15. The apparatus of claim 14, wherein the upper semi-cylindrical coil portion comprises a first coil and a second coil that are independently wound on left and right sides of a semicylinder panel, and the lower semicylindrical coil portion is independently wound on left and right sides of the semicylinder panel, Wherein the first and second coils have a symmetrical structure with respect to the first coil and the second coil. ※ Note: It is disclosed by the contents of the first application.