KR20110085062A - Detecting apparatus and method for carburization of cracking tube - Google Patents

Abstract

PURPOSE: A pyrolysis tube carburization measuring device and method are provided to precisely measure carburization by finding the moment when a rotary angle of a bar is zero. CONSTITUTION: A pyrolysis tube carburization measuring device comprises a bar(100). Magnetic force is added to right or left sides of a pivot point(130) and the carburization agent of the pyrolysis tube. The bar rotates rotation point rotates around a rotary point by the magnetic force difference which applied to left and right side. An electromagnet(200) is located on the upper and lower parts. A power supply unit(300) supplies electricity to the electromagnet. A rotation sensor(400) measures the rotation angle of a bar. A feedback controller(500) controls the magnetic force intensity according to the measurement result of the rotation sensor.

Description

Pyrolysis pipe carburizing degree measuring equipment and measuring method {DETECTING APPARATUS AND METHOD FOR CARBURIZATION OF CRACKING TUBE}

The present invention relates to a pyrolysis pipe carburizing degree measuring device and a method for more specifically carburizing by measuring a magnetic force acting between a pipe and a permanent magnet because a magnetic phase is generated in the pyrolysis pipe which is a nonmagnetic material by carburizing. It relates to a method and equipment that can measure the degree.

In more detail, the pyrolysis pipe carburizing degree measuring device of the present invention is a magnetic force is applied to the left and right sides of the rotation point by the permanent magnet, the other side is applied to the magnetic force is variable, the rotation point by the difference in the magnetic force applied to the left and right It consists of a rod that rotates as a reference.

Since the fluid handled at high temperature in petrochemical devices is mainly hydrocarbon-based, various high temperature corrosion problems such as carbon precipitation, carburization, oxidation, sulfidation, etc. occur, and among them, carbon precipitation or carburization is in the steel pipe. It is very important for device management because it causes not only direct damage such as increase of differential pressure (△ P) or blockage, but also damage of strength and bowing and crack type due to internal diffusion of precipitated carbon.

Carburization is the formation of internal carbides that occur when carbon activity (ac) is less than 1 at high temperatures, resulting in poor embrittlement, cracking and oxidation resistance of materials.

As a method of measuring the degree of carburization, Japanese Patent No. 4363699 uses ultrasonic properties that proceed at the same speed as long as there is no change in the internal properties of the medium. The present invention discloses a non-destructive carburizing degree measuring device for measuring the depth of the carburizing part using the scattering ultrasonic signals while the tissue passes through the hardened part and the tissue meets the coarse matrix.

On the other hand, carburization is generally known as the cause of the magnetic phase generation of non-magnetic heat-resistant steel, forging steel, and main alloy. Carburized steel is magnetized by permanent magnets as shown in FIG. It is also used as a means.

For example, Japanese Patent No. 2539091 uses a permanent magnet having a magnetic pole placed horizontally with respect to a surface to be tested and a permanent magnet having both magnetic poles vertically disposed thereon, and the surface layer of the outer surface and the carburized layer of the inner surface as an electron permanent magnet. In addition to measuring the magnetic change caused by the influence of the above, it is proposed the method of measuring the magnetic change caused by the influence of the surface layer of the outer surface with the permanent magnet of the latter, and measuring the carburizing depth from the difference between the two measurement values. No. 2,667,27 uses an electromagnetic induction phenomenon between the excitation coil and the detection coil to select the excitation frequency of the alternating current applied to the excitation coil so that the penetration depth of the magnetic flux is greater than or equal to the thickness of the material to be measured. A method of measuring carburizing depth using amplitude or phase difference has been proposed.

However, the above methods can visually determine the degree of carburization by measuring the amount of magnetic change or the amplitude or phase difference of harmonics. The configuration of the measuring equipment is complicated and it is difficult for the measurer to immediately grasp the degree by visual observation.

The present invention is to recognize the problems as described above and to improve them by simply measuring the magnetic force of the carburizing site by a simple configuration to know the carburization degree.

It also allows the operator to visually recognize the relative carburizing degree of the carburized area.

In the pyrolysis pipe carburizing degree measuring device according to the present invention, the left and right sides of the rotation point are applied with a magnetic force by a permanent magnet, and the other side is applied with a variable magnetic force, and rotates based on the rotation point by the difference in the magnetic forces applied to the left and right. This is done by including a bar.

At this time, the electromagnet provided in any one or more of the upper or lower portion of the other side; And a power supply unit for applying electricity to the electromagnet; or a rotation sensing unit measuring a rotation angle of the rod. And a feedback control unit for controlling the magnitude of the magnetic force applied to the other side according to the measurement result of the rotation sensing unit.

On the other hand, the carburizing degree of the pyrolysis tube is determined according to the magnitude of the magnetic force applied to the other side.

In addition, the pyrolysis pipe carburizing degree measuring method according to the present invention is applied to the magnetic force is applied to the left and right sides of the rotation point by the permanent magnet and the other side is applied to the variable magnetic force, based on the rotation point by the difference in the magnetic force applied to the left and right Measuring a rotation angle of the rotating rod;

And determining the strength of the magnetic force applied to the other side according to the rotation angle.

At this time, it is characterized in that the strength of the magnetic force applied to the other side until the rotation angle becomes zero by feeding back the measurement result of the rotation angle in real time.

In this case, when the rotation angle is zero, calculating the carburization degree of the pyrolysis tube according to the strength of the magnetic force applied to the other side;

The carburization degree of the pyrolysis tube can be measured by a non-destructive method.

In particular, by visually showing the inclination of the bar, the measurer can visually judge the carburization degree and quickly determine the main measuring unit.

Furthermore, by feeding back the amount of current balanced by the magnetic force through the rotation detecting unit and the feedback control unit, the carburizing degree can be precisely measured by finding the instant when the rotation angle of the bar becomes zero.

1 is a carburizing degree measuring device using infrared rays
2 is a magnetization state of low permeability steel by permanent magnet
3 is a carburizing degree measuring apparatus of a pyrolysis pipe using conventional magnetization
4 is a carburizing degree measuring apparatus of a pyrolysis pipe using conventional magnetization
5 is the change of magnetic force according to the change of permeability
Figure 6 is a perspective view of the carburizing degree measuring equipment according to the present invention
7 is a view showing a feedback configuration of the carburizing degree measuring equipment of FIG.

With reference to the accompanying drawings will be described in detail the carburizing degree of the pyrolysis pipe according to the present invention and its measuring method.

5 is a graph of the change in magnetic force according to the change in permeability.

6 is a perspective view of a carburization degree measuring apparatus according to the present invention and FIG. 7 is a carburization diagram of FIG. 6.

The feedback configuration of the measuring equipment is shown.

As described above, the carburized pyrolysis tube is magnetized by the permanent magnet, and thus the carburization degree may be measured using a magnetic force.

Referring to Figure 5 can determine the degree of change in the magnetic force according to the change in permeability and the present invention focuses on this point pyrolysis tube carburizing degree measuring apparatus and method that can determine the carburizing degree by measuring the magnitude of the magnetic force of the carburizing site To provide.

In the pyrolysis pipe carburizing degree measuring apparatus according to the present invention, the left and right sides of the rotation point 130 are applied with a magnetic force by a permanent magnet, and the other side is applied with a variable magnetic force. A rod 100 rotating about 130; An electromagnet 200 provided on at least one of the upper part and the lower part of the other side; And a power supply unit 300 for applying electricity to the electromagnet 200. Rotation sensing unit 400 for measuring the rotation angle of the rod 100; And a feedback control unit 500 for controlling the magnitude of the magnetic force applied to the other side according to the measurement result of the rotation detecting unit 400. The carburizing of the pyrolysis pipe is made including the magnetic force applied to the other side. It is characterized by determining the degree.

The rod 100 is a general rod 100 to which the rotation point 130 is fixed so as to be rotated based on the rotation point 130. The left permanent magnet 110 of the rotation point 130 is a magnetic of a pyrolysis pipe. The magnetic force is applied to the right side 120 of the rotation point 130 and receives the magnetic force to rotate to the left 110 or the right 120 according to the magnitude of both magnetic forces. The rod 100 itself may be made of a magnetic material, but in the present invention, both ends of the non-magnetic rod 100 are arranged on the left side 110 and the right side 120 by the magnetic material in consideration of the accuracy of the measurement. Sensitive magnetic forces can be applied to both ends.

The carburized pyrolysis tube is placed on the lower left 110 of the rod 100. The right and left sides of the rod 100 are balanced before the measurement so that the rotation angle becomes 0. It is desirable to make it easy to detect.

The rod 100 in which the pyrolysis tube is placed in the lower part because the balance of the rod 100 itself may be balanced by the magnetic force of the pyrolysis tube itself regardless of carburization. The upper left of the permanent magnet 110 is preferably provided with a low permeability steel 600 that can counter the magnetic force of the pyrolysis pipe itself. The low permeability steel 600 is preferably provided to be variously replaceable according to the required magnetic force.

When the carburized pyrolysis tube is placed on the lower left 110 of the rod 100, the cartilage portion is inclined and rotated to the left 110 by the magnetic force of the carburized portion. The electromagnet 200 is provided on the right side 120 against the magnetic force caused by carburization.

The electromagnet 200 may be provided on any one or more of the upper or lower portion of the other side of the magnetic force received by the carburizing. Referring to FIG. 6, a coil is provided on the upper and lower sides of the right side 120 of the rod 100. It can be confirmed that all are provided.

The magnetic force formed by the current flowing through the coil corresponds to the magnetic force due to carburization of the pyrolysis tube to determine the rotation angle of the rod 100.

The power supply unit 300 is configured to apply electricity to the electromagnet 200, but it is preferable that the measurer can control the supply amount of power in advance, but is automatically adjusted by a control device to be described later.

The rotation detecting unit 400 is a device for measuring the rotation angle of the rod (100). The present invention not only enables the measurer to visually check the change of the rotation angle, but also enables the measurement of the precise rotation angle by the rotation detecting unit 400.

The rotation detection unit 400 may display a scale so that the rotation angle change can be visually confirmed, and of course, the rotation detection unit 400 may transmit the rotation angle as a signal to a feedback control unit to be described later.

The feedback control unit controls the magnitude of the magnetic force applied to the other side according to the measurement result of the rotation detecting unit 400. The carburizing degree at the current measurement point can be relatively determined in consideration of the rotation angle and the power supply amount of the current state, and further, the current of the upper and lower coils can be adjusted until the rotation angle becomes O.

The most stable carburizing degree is calculated according to the power supply at the moment when the final rotation angle becomes zero.

By the configuration as described above, the measurer can easily identify the carburized or severe parts particularly by grasping the degree of rotation of the rod 100 with an eye.

At the same time, through the electromagnet 200, the power supply 300, the feedback control unit 500, the rotation detection unit 400 of the right side 120 of the bar 100, it is possible to measure the precision carburizing degree as a value .

Looking at the measurement method using the pyrolysis pipe carburizing degree measuring device of the above configuration First, the left and right sides of the rotating point 130 is applied to the carburization of the pyrolysis pipe and the other side is applied to the magnetic force is variable, the magnetic force applied to the left and right By measuring the rotation angle of the rod 100 to rotate based on the rotation point 130 by the difference.

Then, in the step of determining the strength of the magnetic force applied to the other side according to the rotation angle determines the strength of the magnetic force which is determined that the left and right of the rod 100 to balance the power and the current through the power supply unit 300 to the coil To flow.

The strength of the magnetic force corresponds to the carburization degree of the pyrolysis tube. In this case, the result of the rotation angle is fed back in real time so that the strength of the magnetic force applied to the other side until the rotation angle becomes zero is changed. It is preferable to measure the strength of the magnetic force in the balanced state, that is, the strength of the magnetic force generated by supplying to the power supply unit 300 when the rotational angle of equilibrium is 0 corresponds to the magnetic force of the measuring point on the right side 120. As a result, the carburization degree of the measuring point can be known.

More preferably, such a series of feedback measurements are made in real time to move the pyrolysis pipe carburizing degree measuring instrument at a constant speed while moving the pyrolysis pipe carburizing degree measuring device at a lower portion of the rod 110 on the bottom of the rod 110. It is a good idea to be able to quickly and quickly measure carburization.

The present invention is not limited to the above-described embodiment, and the scope of application is of course various modifications can be made without departing from the gist of the present invention claimed in the claims.

100: rod 110: left (permanent magnet)
20: right 130: rotation point
200: electromagnet 300: power supply
400: rotation detection unit 500: feedback control unit
600: low permeability

Claims (7)

The left and right side of the rotation point 130 is a magnetic force is applied to the carburization of the pyrolysis pipe and the other side is applied to a variable magnetic force, the rod that rotates based on the rotation point 130 by the difference in the magnetic force applied to the left and right (100) ), Including pyrolysis pipe carburizing degree measuring equipment.
The method of claim 1,
An electromagnet 200 provided on at least one of the upper part and the lower part of the other side; And
Pyrolysis tube carburizing degree measuring equipment further comprises a; power supply unit for applying electricity to the electromagnet 200.
The method of claim 1,
Rotation sensing unit 400 for measuring the rotation angle of the rod 100; And
And a feedback control unit (500) for controlling the magnitude of the magnetic force applied to the other side according to the measurement result of the rotation detecting unit (400).
The method according to any one of claims 1 to 3,
Pyrolysis tube carburization degree measuring equipment, characterized in that for determining the carburization degree of the pyrolysis tube according to the magnitude of the magnetic force applied to the other side.
The left and right side of the rotation point 130 is a magnetic force is applied to the carburization of the pyrolysis pipe and the other side is applied to a variable magnetic force, the rod that rotates based on the rotation point 130 by the difference in the magnetic force applied to the left and right (100) Measuring a rotational angle of;
And determining the strength of the magnetic force applied to the other side according to the rotation angle.
The method of claim 5, wherein
And feeding back the measurement result of the rotation angle in real time to change the strength of the magnetic force applied to the other side until the rotation angle becomes zero.
The method according to claim 5 or 6,
And calculating the carburization degree of the pyrolysis tube according to the strength of the magnetic force applied to the other side when the rotation angle is zero.

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