RU64781U1 - DEVICE FOR DETECTING LOCAL DEFECTS OF STEEL ROPES - Google Patents

Abstract

The invention relates to the field of non-destructive testing of the state of ropes of steel ferromagnetic wire. A device for detecting local defects of steel ropes of steel ropes 1 consists of permanent magnets 2, designed to create a magnetizing flux 3, providing longitudinal saturation of the material of the wires of the steel rope 1, the magnetic circuit 4, which serves to bring the magnetic flux 3 to the steel rope 1, and the measuring magnetic circuit node, which consists of three elements 5, of which the two extreme are the same and are installed symmetrically, with gaps relative to the middle element, in which Laga magnetically sensitive sensors 6, parallel to the axis of the rope 1. The places of installation magnetosensitive sensor 6, on the elements 5 of the measuring unit 7 of the magnetic concentrators are magnetic leakage flux concentrators 7 8. magnetic leakage flux 8 are in the form of projections of the magnetic elements 4 of the measuring unit. The outputs of the magnetosensitive sensors 6 are connected to recording equipment 9, which includes blocks for normalizing signals 10, processing 11, and displaying results 12.

Description

The invention relates to the field of non-destructive state monitoring of ropes of steel ferromagnetic wire.

The prior art in the field of non-destructive magnetic control of such objects can be represented by the following known solutions.

A device for detecting local defects of steel ropes (DE 19601707 A1, Germany, IPC G 01 N 27/83). The device consists of permanent magnets, a magnetic circuit, and a measuring unit located between the permanent magnets. The latter is made in the form of a Sh-shaped magnetic circuit, in the middle section of which a magnetically sensitive sensor, a Hall sensor, is installed in the gap. Its output is connected to the sensor signal processing unit. By the signal of the magnetosensitive sensor of the measuring unit, a local defect is judged.

The device has the disadvantage of insufficient reliability of the detection of local defects, which is caused by the cross-sectional shape of the magnetic circuit of the measuring unit and the location of the magnetically sensitive sensor in the gap of its middle part. When a defect falls into the sensor sensitivity zone, the scattering flux caused by the defect is divided into two parts. One passes through the gap with the Hall sensor, and the other through the magnetic circuit, bypassing the sensor. Because of this, the increment of magnetic induction caused by a defect at the location of the Hall sensor decreases, and therefore, the signal from the defect decreases, and accordingly the signal-to-noise ratio.

A device (RU 2204129 C2, RF, IPC 7 G 01 N 27/82) for detecting local defects of extended ferromagnetic objects, which contains a magnetizing unit in the form of a magnetic circuit with magnetic poles located at its ends (permanent magnets), a measuring unit in the form of a between the poles of the magnetizing node. magnetic circuit and magnetosensitive sensors and a signal processing unit of magnetosensitive sensors. The magnetic core of the measuring unit is made up of three elements located along the axis of the channel for the passage of the controlled object, of which the two extreme are the same and are installed symmetrically and with a gap relative to the middle element, and the magnetically sensitive sensors of the measuring unit are installed in pairs on a line parallel to the axis of the channel for passing the controlled object in the gaps between the middle and extreme elements of the magnetic circuit of the measuring node.

The disadvantages include the low accuracy of detecting local defects due to the fact that the scattering flux caused by a local defect is evenly distributed along the magnetic circuit of the measuring unit and only part of it is detected by magnetically sensitive sensors due to the almost identical magnetic resistance between its elements.

The objective of the invention is to increase the accuracy and reliability of the detection of local defects of steel ropes.

The problem is solved using a device for detecting local defects of steel ropes, which consists of permanent magnets designed to create a magnetizing flux that provides longitudinal saturation of the material of the wires of the steel rope, a magnetic circuit that serves to bring the magnetic flux to the steel rope, and the magnetic circuit of the measuring unit, which consists of three elements, of which the two extreme ones are the same and are installed symmetrically, with gaps relative to the middle element, in which magnetically sensitive sensors are located symmetrically, parallel to the axis of the rope. In the places of installation of magnetosensitive sensors, on the elements of the magnetic circuit of the measuring unit, there are scattering magnetic flux concentrators that allow it to be concentrated in the place of their installation, thereby increasing the signal / noise ratio and thereby increasing the accuracy and reliability of detecting local defects Magnetic flux concentrators are made in the form of protrusions elements of the magnetic circuit of the measuring unit, the width of which is equal to the width of the active zone of the magnetically sensitive sensors, and the length is determined Xia subtraction of the gap required for installing magnetosensitive sensor of half the distance between the elements of the magnetic circuit of the measuring unit, wherein the amount of clearance for installation magnetosensitive sensor is much less than the gap between the magnetic circuit elements of the measuring unit. The outputs of the magnetosensitive sensors are connected to recording equipment, which includes blocks for normalizing signals, processing and displaying the results.

Figure 1 shows a General view of a device for detecting local defects, figure 2 - distribution of scattering flux in the presence of a local defect.

A device for detecting local defects of steel ropes of steel ropes 1 consists of permanent magnets 2, designed to create a magnetizing flux 3, providing longitudinal saturation of the material of the wires of the steel rope 1, the magnetic circuit 4, which serves to bring the magnetic flux 3 to the steel rope 1, and the measuring magnetic circuit node, which consists of three elements 5, of which the two extreme are the same and are installed symmetrically, with gaps relative to the middle element, in which

magnetically sensitive sensors 6 are located symmetrically, parallel to the axis of the rope 1. At the installation sites of the magnetically sensitive sensors 6, there are scattering magnetic flux concentrators 7 on the elements 5 of the magnetic circuit of the measuring unit 8. Concentrators 7 of the magnetic flux scattering 8 are made in the form of protrusions of the magnetic circuit elements 4 of the measuring unit. The outputs of the magnetosensitive sensors 6 are connected to the recording equipment 9, which includes blocks for normalizing the signals 10, processing 11 and displaying the results 12.

The section of the steel rope 1 is longitudinally magnetized to the state of magnetic saturation with the help of permanent magnets 2, which are the source of the magnetic flux 3, and magnetic circuit 4. The magnetic circuit of the measuring unit consists of three elements 5, of which the two extreme ones are identical and are installed symmetrically, with a gap relative to the middle element. In the places of installation of the magnetosensitive sensors 6, on the elements of the magnetic circuit 5 of the measuring unit there are concentrators 7 of the magnetic flux of scattering 8. The outputs of the magnetosensitive sensors 6 are connected to recording equipment 9, which includes blocks for normalizing signals 10, processing 11, and displaying results 12.

In the process of monitoring the steel rope 1, when a local defect occurs, a scattering flux 8 occurs, captured by the elements 5 of the magnetic circuit of the measuring unit. Without concentrators 7, the scattering flux 8 crosses the air gap between the elements 5 of the magnetic circuit of the measuring unit relatively uniformly distributed, due to their high conductivity, with a certain concentration at the location of the local defect. Due to the presence of concentrators 7, the magnetic flux of scattering 8 crosses the air gap between the elements 5 of the magnetic circuit of the measuring unit at the installation site of the magnetically sensitive sensors 6.

When monitoring the state of steel ropes, the device moves relative to it and searches for local defects along its length. Length measurements are synchronized using a length sensor, technical solutions for which are widely known and therefore not shown.

The proposed technical solution allows to increase the accuracy and reliability of the detection of local defects and thereby increase the safety of operation of steel ropes.

Claims (1)

A device for detecting local defects, consisting of permanent magnets, a magnetic circuit, a measuring unit, which includes three elements of the magnetic circuit, of which the two extreme are the same and are installed symmetrically with a gap relative to the middle, between which are located symmetrically in pairs on the same line, parallel to the axis of the rope, magnetosensitive sensors, the outputs of which are connected to recording equipment, which includes blocks for normalizing signals, processing and displaying results, characterized in that that on the elements of the magnetic circuit of the measuring unit, hubs are made that have the form of protrusions at the installation sites of the magnetically sensitive sensors.