KR100851205B1 - Test apparatus for Eddy current tester - Google Patents

Abstract

The present invention relates to an inspection apparatus for an eddy current flaw detector that can easily and safely perform the performance test of the eddy current flaw detector, in order to easily and quickly inspect the eddy current flaw installed in the field, combined with the connector of the eddy current flaw detector A connector unit including a plurality of connection terminals electrically connected to each pin of the connector; A tester unit having a +/− terminal and measuring and displaying a resistance value between the +/− terminals; And a plurality of selection terminals connected to the plurality of connection terminals of the connector portion, and fixed terminals connected to the + and − terminals of the tester portion, wherein the + and − terminals of the tester portion are selected to the plurality of connection terminals of the connector portion. It is configured to include a switch unit for connecting.

Eddy current flaw detector (ECT), tester, connector, cable,

Description

Test apparatus for Eddy current flaw detector

1 is a view schematically showing a wire rod process,

2a to 2c is a structural diagram of the eddy current flaw detector,

3 is a block diagram showing an inspection apparatus for the eddy current flaw detector of the present invention, and

4 is a view showing a state in which the inspection apparatus according to the present invention is connected to the actual eddy current flaw detector.

The present invention relates to an inspection apparatus for an eddy current flaw detector to easily and safely perform the performance inspection of the eddy current flaw detector for detecting the surface defects of the wire rod in the wire rod process.

In general, wire rod manufacturing is to heat the billet of the rolled material (S) to a rollable temperature of about 940 ~ 1200 ℃ by a heating furnace, and then the temperature through the rough rolling, intermediate rough rolling, intermediate finishing rolling process A wire rod having a temperature of 1000 ° C. or more is produced, and then cooled to approximately 800 ° C. or more through a water cooling process to perform a wire winding process. In addition, the surface defects of the wire rod products cooled to about 300 to 500 ° C. through air-cooled heat treatment are visually inspected to finally determine the degree of defects of the wire rod products.

1 shows such a wire rod manufacturing process, an eddy current flaw detector (ECT) 2 is arranged between the finishing mill 1 and the water cooling stage 3 to detect the discontinuous surface defects of the wire rod product online. The wire rod having passed through the water cooling stand 3 is wound in a circle by the cold head-con 5 via a pinch roll 4.

In this case, the eddy current flaw detector 2 has a magnetic field such as a solenoid formed in the coil through which the alternating current flows, and when the wire passes through the wire into the magnetic field, an eddy current is generated to the wire surface, and the eddy current is a wire rod product. Defects on the surface of the wire rod are detected by the principle of being transformed by discontinuous defects.

2a to 2c show the structure of the eddy current flaw detector 2, first, as shown in FIG. 2a, the eddy current flaw detector 2 is a circuit, the primary for generating the eddy current by the magnetic field 24 The coil 21 and the differential type secondary coil 22 for detecting the change of the eddy current by the surface defect of a wire rod are included. 2B and 2C, the main body 25 in which the primary coil 21 and the secondary coil 22 are wound and a hole for passing the wire rod 23 therein is formed. And a connector 26 connected to the main body 25 for inputting and outputting electrical signals of the primary coil 21 and the secondary coil 22.

The eddy current flaw detector 2 having such a structure is an important facility for wire rod quality control, and the variation in reliability of the detection result is severe depending on how the sensor is managed.

The inspection of the current eddy current flaw detector 2 is performed by contacting each pin of the connector 26 shown in FIG. lost.

However, such a conventional inspection method takes excessive inspection time, and when the test rod is brought into contact with each pin of each installed eddy current flaw detector 2 by going to the actual site, it is caused by burn injury due to heat of the material and blow due to cobble. There is a big problem in stability, such as a disaster, and in addition, there is a problem that it is difficult to check the connector and signal cable.

The present invention has been proposed to solve the above-mentioned problems, and an object thereof is to provide an inspection apparatus for an eddy current flaw detector that can easily and safely perform performance inspection of the eddy current flaw detector.

In order to achieve the object of the present invention as described above, the inspection device for the eddy current flaw detector of the present invention,

A connector unit coupled to the connector of the eddy current flaw detector and including a plurality of connection terminals electrically connected to each pin of the connector;

A tester unit having a +/− terminal and measuring and displaying a resistance value between the +/− terminals; And

And a plurality of selection terminals connected to the plurality of connection terminals of the connector portion, and a fixed terminal connected to the + and − terminals of the tester portion, wherein the fixed terminals are selectively connected to the plurality of selection terminals to provide +, And a switch unit for selectively connecting a terminal to a plurality of connection terminals of the connector unit.

In addition, in the inspection apparatus for the eddy current flaw detector, the connector unit, the first and second connection terminals electrically connected to both ends of the primary coil of the eddy current flaw detector, and electrically connected to both ends of the secondary coil of the eddy current flaw detector, respectively. And third and fourth connection terminals connected to each other, a fifth connection terminal connected to the ground terminal of the eddy current flaw detector, a grounded sixth connection terminal, and a seventh connection terminal for grounding the body of the eddy current flaw detector. do.

In addition, in the inspection device for the eddy current flaw detector of the present invention, the switch unit, the first connection terminal and the second connection terminal of the connector portion, the third connection terminal and the fourth connection terminal, or the first It is configured to connect with the fixed terminal by selecting any one of the connection terminal to the fourth connection terminal and the fifth connection terminal, or by selecting the sixth connection terminal and the seventh connection terminal.

In addition, in the inspection device for the eddy current flaw detector of the present invention, the switch unit is characterized in that implemented by a rotary switch.

In addition, in the inspection device for the eddy current flaw detector of the present invention, the switch unit and the tester unit is configured in one main body, the connector unit is characterized in that configured to be connected to the main body via a cable.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used for parts having similar functions and functions throughout the drawings.

In addition, throughout the specification, when a part is said to be 'connected' to another part, it is not only 'directly connected' but also 'electrically connected' with another element in between. Include. In addition, the term 'comprising' a certain component means that the component may be further included, without excluding the other component unless specifically stated otherwise.

In addition, in the pins provided in the connector of the eddy current flaw detector for convenience of description, the pins connected to both terminals A and B of the first coil 21 are referred to as first and second pins, respectively, and the second coil ( The pins connected to both terminals D and E of FIG. 22 are referred to as third and fourth pins, respectively, and the pins connected to ground G are referred to as fifth pins. The connector 26 of the eddy current flaw detector basically includes the first to fifth pins.

3 is a block diagram schematically illustrating an inspection apparatus for an eddy current flaw detector according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the inspection apparatus for the eddy current flaw detector according to the present invention includes a connector unit 110, a switch unit 120, and a tester unit 130.

The connector unit 110 is to be coupled to the connector of the eddy current flaw detector and to be electrically connected to each pin of the connector, it may be coupled in an inserting manner, more specifically, the first to the provided in the connector of the eddy current flaw detector And a plurality of connection terminals electrically connected to the plurality of pins including the fifth pin. For example, a first connection terminal 131 connected to a first pin provided in the connector of the eddy current flaw detector, a second connection terminal 132 connected to the second pin, and a third pin connected to a third pin And a third connection terminal 133, a fourth connection terminal 134 connected to the fourth pin, and a fifth connection terminal 135 connected to the fifth pin, and further include a sixth connection terminal grounded ( 136 and a seventh connection terminal 137 for grounding the body of the eddy current flaw detector.

The switch unit 120 includes a plurality of selection terminals connected to the plurality of connection terminals of the connector unit 110 and fixed terminals connected to the + and − terminals of the tester 130. The + and-terminals of 130 are selectively connected to one of the plurality of connection terminals of the connector unit 110. More preferably, the first and second connection terminals of the connector unit are selected, or a third terminal is connected. Selecting a connection terminal and a fourth connection terminal, selecting any one of the first connection terminal and the fourth connection terminal and the fifth connection terminal, or selecting the sixth connection terminal and the seventh connection terminal to connect with the fixed terminal It is configured to. The switch unit 120 may be implemented as a rotary switch.

The tester 130 measures and displays a resistance value between +/− terminals, and basically includes a resistance measurement circuit and display means for displaying the resistance measurement value. For example, when the switch unit 120 selects the first connection terminal and the second connection terminal of the connector unit 110, the tester unit 130 is the primary of the eddy current flaw detector connected to the connector unit 110. Measure and display the resistance value of the coil, and when selecting the third connection terminal and the fourth connection terminal of the connector 110, by measuring the resistance value of the secondary coil, and displays the first connection terminal or the fourth connection When one of the terminals and the fifth connection terminal are selected, the resistance value of each terminal of the primary and secondary coils is measured and displayed, and the sixth connection terminal and the seventh connection terminal of the connector unit 110 are selected. The sensor grounding state of the eddy current flaw detector is measured and displayed.

The switch unit 120 and the tester unit 110 may be configured in one main body, and in this case, the connector unit 110 may be connected to the main body through a cable. In this case, after connecting the connector 110 to the connector of the eddy current flaw detector to be inspected, the eddy current flaw can be inspected by operating the main body at a position far away from the inspector.

4 is a view showing an actual application of the inspection apparatus according to the present invention, the connector portion 110 of the inspection apparatus of the present invention is connected to the connector 26 of the eddy current flaw detector 2, the connector portion 110 The switch unit 120 and the tester unit 130 are provided in the main body 200 connected with a cable. Operation means 122 for externally operating the switch unit 120 on the main body 200, and display means for displaying the measurement results of the tester 130 is provided.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art.

According to the above-described configuration, the present invention can safely and easily inspect various states by connecting the connector to the connector of the eddy current flaw detector during the inspection of the eddy current flaw provided in the wire rod process, and by operating the relay part at a distant position. In addition, there is an excellent effect that can be inspected more accurately than when contacting the tester rods one by one, and by simplifying the quality control of the eddy current flaw detector, it is possible to prevent the error and failure of the eddy current flaw detector, wire process Can improve the working efficiency.

Claims (5)

A connector unit coupled to the connector of the eddy current flaw detector and including a plurality of connection terminals electrically connected to each pin of the connector; A tester unit having a +/− terminal and measuring and displaying a resistance value between the +/− terminals; And And a switch unit having a plurality of selection terminals connected to the plurality of connection terminals of the connector unit, and fixed terminals connected to the + and − terminals of the tester unit. The switch unit selectively connects the + and-terminals of the tester unit to a plurality of connection terminals of the connector unit by selectively connecting the fixed terminals to the plurality of selection terminals. The method of claim 1, wherein the connector portion First and second connection terminals electrically connected to both ends of the primary coil of the eddy current flaw detector, third and fourth connection terminals electrically connected to both ends of the secondary coil of the eddy current flaw detector, and ground terminals of the eddy current flaw detector And a fifth connection terminal connected to the ground terminal, a grounded sixth connection terminal, and a seventh connection terminal for grounding the body of the eddy current flaw detector. The method of claim 2, wherein the switch unit Selects a first connection terminal and a second connection terminal of the connector unit, selects a third connection terminal and a fourth connection terminal, selects one of a first connection terminal and a fourth connection terminal and a fifth connection terminal, And a sixth connection terminal and a seventh connection terminal, and configured to connect with the fixed terminal. The method according to claim 1 or 3, The switch unit inspection device for eddy current flaw detector, characterized in that implemented by a rotary switch. The method of claim 1, The switch unit and the tester unit is configured in one main body, and the connector unit for the eddy current flaw detector, characterized in that configured to be connected to the main body via a cable.

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