KR102259948B1 - High Power Pulse Generator Using Super Capacitor in Magnetic Nondestructive Measurement - Google Patents

Abstract

The present invention relates to a high-output pulse generator using a super capacitor in regard to magnetic nondestructive measurement, capable of measuring a thinning state of a pipe through a super capacitor without dismantling a warmth-keeping material. The high-output pulse generator includes: a body including an external flash memory, an external EEPROM memory and an LCD monitor, and measuring a thinning state of a pipe by receiving battery power; and a probe electrically connected with the body to measure the thinning state of the pipe. Therefore, as the probe equipped with a super capacitor applies a current to a subject, the high-output pulse generator can enable pipe thinning measurement with a small electromotive force.

Description

High Power Pulse Generator Using Super Capacitor in Magnetic Nondestructive Measurement

The present invention relates to a high-power pulse generator using a supercapacitor in the measurement of magnetic rain destruction, and more particularly, a super in an inspection system for measuring the thinning of an internal pipe without disassembling the insulating material in a carbon steel-based pipe wrapped with a thick insulating material. It relates to a device for generating a high-power pulse using a capacitor.

In a power plant or chemical plant, etc., a thinning phenomenon occurs in which the thickness of the base material becomes thinner due to corrosion between the insulating material and the base material or flow-accelerated corrosion of the pipe bend in a pipe or a storage tank covered with an insulating material.

In order to prevent the facility from being damaged due to the above-described defect, a technique for periodically measuring a change in the thickness or a defect of the pipe is required. As a prior art according to this, as suggested in Korean Patent Registration No. 10-1150486, the thickness of the inner pipe or storage container is measured from the outside of the insulation without removing the insulation of the piping or storage container made of a ferromagnetic material such as carbon steel. It is a technique for measuring pulse eddy current devices.

Looking at the prior art, a phenomenon in which magnetic flux is concentrated on the surface of a subject due to eddy current loss on the surface of a magnetic material such as carbon steel becomes serious. In addition, as the thickness of the object increases, the ability to detect defects or changes in thickness decreases rapidly. In order to measure the internal defects of a thick object, a strong alternating current with sufficient penetration depth must be applied.

A pulse eddy current technique is applied to achieve the above object, and the conventional pulse eddy current technique requires a pulse power having a sufficient pulse width. However, in order to generate a strong pulse current, a pulse-shaped signal is created using an appropriate device such as a function generator and then the signal is amplified. As a general power amplifier, a current of sufficient magnitude is generated to detect defects in the pipe covered with insulation. hard to do

In addition, since the size of the power amplifier increases in proportion to generating a high current, the size of the equipment incorporating such an amplifier is inevitably large as well, and it has the disadvantage that continuous operation is impossible due to overheating, which reduces the utility in the field.

In order to solve the above problems, the present applicant increases the defect detection capability of the probe by applying a sufficient pulse width and high output pulse current to the subject by changing the current application method and the application method, prevents overheating of the probe, and increases the resolution High-power pulse generation for pipe thinning that can measure the average thickness of the pipe by means of a large-diameter induction detection coil and simultaneously measure local defects in the pipe through magnetic sensors such as Hall, GMR, and Fluxgate at the center We want to provide a device.

Republic of Korea Patent Publication No. 10-1150486 (2012.06.07.) Republic of Korea Patent Publication No. 10-0626228 (2006.09.20.)

It is an object of the present invention to solve the above problems, to provide a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement, which is configured to measure the thinning state of a pipe using a supercapacitor without disassembling the insulating material.

Another object of the present invention is to provide a high-output pulse generator using a supercapacitor in magnetic ratio destructive measurement comprising a main body and a probe.

Another object of the present invention is that the main body receives 12.8V input power from a battery and charges the supercapacitor through the Boost circuit, and supplies the electric charge stored in the supercapacitor to the driving coil to generate a pulsed magnetic field through high output pulse current. An object of the present invention is to provide a high-power pulse generator using a supercapacitor in the measurement of magnetic ratio destruction that generates

Another object of the present invention, the main body, a power supply for generating a pulse power having a predetermined pulse width and intensity, a signal amplification filtering unit, and a high-output pulse using a supercapacitor in magnetic ratio destruction measurement consisting of a signal processing unit To provide a generator.

Another object of the present invention is to provide a high-output pulse generator using a supercapacitor in the measurement of magnetic ratio destruction, which is configured to supply DC power to the entire system.

Another object of the present invention is that the signal amplification filtering unit is electrically connected to the power supply unit, and is configured to receive, amplify and filter the measurement signal detected from the probe. To provide a generator.

Another object of the present invention is to provide a high-output pulse generator using a supercapacitor in magnetic ratio destruction measurement, which is configured to receive and process the measurement signal amplified and filtered by the signal processing unit, the signal amplification filtering unit. .

Another object of the present invention is to provide a high-power pulse generator using a supercapacitor in magnetic ratio destructive measurement, wherein the probe is electrically connected to the main body and configured to measure the thinning state of a pipe.

Another object of the present invention is to provide a high-output pulse generator using a supercapacitor in the measurement of magnetic ratio destruction, wherein the probe includes a high-output pulse current generator and a sensor.

Another object of the present invention is that the high output pulse current generator is configured to generate a pulse magnetic field by driving a driving coil using the current supplied from the power supply unit. is to provide

Another object of the present invention is that the sensor unit includes a driving coil for inducing a pulsed magnetic field generated from the high-output pulsed current generating unit to a measuring pipe and a receiving coil for detecting a change in the pulse-induced magnetic flux. An object of the present invention is to provide a high-output pulse generator using a capacitor.

Another object of the present invention is to provide a high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement, wherein the supercapacitor is configured to charge the DC current supplied from the power supply and then discharge it in the form of a pulse.

Another object of the present invention is to provide a high-power pulse generator using the supercapacitor in the magnetic ratio destruction measurement, wherein the supercapacitor is configured to generate a prismatic monopolar or bipolar pulse magnetic flux.

The feature of the high-power pulse generator using the supercapacitor in the magnetic rain destruction measurement according to the present invention for achieving the above object is to measure the thinning state of the pipe using the supercapacitor without disassembling the insulating material.

Another feature of the high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is composed of a main body and a probe.

Another feature of the high-output pulse generator using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention is that the main body receives 12.8V input power from a battery and charges the supercapacitor through the Boost circuit, and the supercapacitor It is configured to supply the stored electric charge to the driving coil to generate a pulsed magnetic field through a high output pulse current.

Another feature of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the main body includes a power supply unit for generating pulse power having a predetermined pulse width and intensity, a signal amplification filtering unit, and a signal It consists of a processing unit.

Another feature of the high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the power supply unit is configured to supply DC power to the entire system.

Another feature of the high-power pulse generator using a supercapacitor in the magnetic rain destruction measurement according to the present invention is that the signal amplification filtering unit is electrically connected to the power supply unit, and receives and amplifies the measurement signal detected from the probe. configured to filter.

Another feature of the high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the signal processing unit is configured to receive and process the measurement signal amplified and filtered by the signal amplification filtering unit.

Another feature of the high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the probe is electrically connected to the main body to measure the thinning state of the pipe.

Another feature of the apparatus for generating a high output pulse using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention is that the probe includes a high output pulse current generator and a sensor unit.

Another feature of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the high-output pulse current generator generates a pulsed magnetic field by driving a driving coil using the current supplied from the power supply. is composed

Another feature of the high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the sensor unit includes a driving coil for inducing a pulse magnetic field generated from the high-output pulse current generating unit to a measuring pipe and a pulse induced magnetic flux. It consists of a receiving coil that detects changes.

Another feature of the high-output pulse generator using the supercapacitor in the magnetic ratio destruction measurement according to the present invention is that the supercapacitor is configured to charge the DC current supplied from the power supply and then discharge it in the form of a pulse.

Another feature of the apparatus for generating a high-power pulse using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention is that the supercapacitor is configured to generate a rectangular monopolar or bipolar pulse magnetic flux.

As described above, the apparatus for generating a high-output pulse using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is configured to generate a high-output pulse current using the supercapacitor. Therefore, the present invention has the advantage of being able to provide a compact device through an efficient design by reducing unnecessary electromotive force and heat generation by configuring without a power amplifier and a transformer essential to a pulse current generator.

In addition, the apparatus for generating a high-power pulse using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is configured such that a supercapacitor for generating a pulse eddy current is installed in the probe. Accordingly, the present invention has an advantage in that, in the case of a subject far from the ground, the cable between the main body and the probe is lengthened, and thus the defect detection efficiency can be prevented from falling.

In addition, the high-power pulse generator using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention includes a boost circuit for amplifying the battery voltage to be input to the supercapacitor, a differential amplifier circuit for accurate pulse generation having a given pulse width, and , and a time generation circuit. Therefore, in the present invention, when the thickness of the insulating material is thick or the diameter of the pipe is large, unlike a conventional device using a high-power transformer, a body and a probe equipped with a supercapacitor are used to generate and control a pulse current signal. By significantly reducing the weight, it has the advantage of greatly improving mobility and ease of use.

1 is a schematic overall configuration diagram of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention.
2 is a schematic main circuit card configuration diagram of a high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention.
3 is a schematic power interface configuration diagram of a high-power pulse generator using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention.
4 is a schematic driving power generation circuit diagram of a high-output pulse generator using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention.
5 is a schematic driving driving pulse width measurement circuit diagram of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention.
6 is a schematic internal configuration diagram showing a probe of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention.
7 is a schematic basic circuit diagram showing a driving driving coil inside a probe of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the description of the invention.

However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all changes, equivalents, or substitutes included in the spirit and scope of the present invention.

The terms or words used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Based on the principle that the concept of a term can be appropriately defined in order to describe one's invention in the best way, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

In general, pulse eddy current technology is applied to devices for measuring the thickness of pipes or storage tanks covered with insulation in power plants or chemical plants, etc. Since eddy current loss is severe on the surface of magnetic materials such as carbon steel, pulse power with sufficient pulse width is used. in need.

However, as a general power amplifier, it is difficult to generate a current of sufficient size for the detection of defects in the pipe covered with the insulating material, and since the size of the power amplifier increases in proportion to generating a high current, the size of the equipment is inevitably increased accordingly. , as it has the disadvantage that continuous operation is impossible due to overheating, the usability in the field is lowered.

The high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention saturates the subject by changing the current application method and the application method, unlike the prior art, thereby increasing the defect detection capability of the probe, and overheating the probe It is an invention related to a high-power pulse generator using a supercapacitor in magnetic rain destruction measurement, including a method for preventing and increasing resolution.

Specific features and advantages of the present invention will become more apparent from the following description with reference to the accompanying drawings.

1 is a schematic overall configuration diagram of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention, and FIG. 2 is a schematic view of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention. In the main circuit card configuration diagram, Figure 3 is a schematic power interface configuration diagram of a high-power pulse generator using a super capacitor in the magnetic ratio destruction measurement according to the present invention, Figure 4 is a super in the magnetic ratio destruction measurement according to the present invention. It is a schematic driving power generation circuit diagram of a high-output pulse generator using a capacitor, and FIG. 5 is a schematic driving driving pulse width measurement circuit diagram of a high-output pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention, FIG. A schematic internal configuration diagram showing a probe of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention, and FIG. 7 is a probe of a high-power pulse generator using a supercapacitor in magnetic ratio destruction measurement according to the present invention. It is a schematic basic circuit diagram showing the internal driving driving coil.

Referring to FIG. 1 , the high-power pulse generator using a supercapacitor in the magnetic rain destruction measurement according to the present invention is configured to measure the thinning state of the pipe using the supercapacitor without disassembling the insulating material.

A high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is composed of a main body 10 and a probe 20 .

The main body 10 of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention receives battery power and generates a pulse waveform according to a program built into the MCU, and an external flash memory, an external EEPROM It includes a memory and an LCD monitor, and is configured to communicate measured pipe thinning data.

In addition, the main body 10 of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention includes a power supply unit 110 , a signal amplification filtering unit 120 , and a signal processing unit 130 . is composed

The power supply unit 110 of the present invention is configured to supply DC power to the entire system.

The signal amplification filtering unit 120 of the present invention is electrically connected to the power supply unit, and is configured to receive, amplify and filter the measurement signal detected from the probe 20 .

The signal processing unit 130 of the present invention is configured to receive and process the measurement signal amplified and filtered by the signal amplification filtering unit 120 .

The main body 10 of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention will be described in more detail with reference to FIG. 2 as follows.

An ARM core processor (MCU) is configured in the main board 10-1 of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention to generate a high-output pulse signal.

In addition, the main board 10-1 of the high-output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is configured with auxiliary devices and means for accurate pulse generation and pulse period adjustment.

As the auxiliary device and means of the present invention, an external 'flash memory' is mounted for the measurement data storage function, and an 'external EEPROM memory' is mounted to store the dummy data file point and the number of times of pulse application, and is installed in the Driver Coil. To apply a pulse, a 'Boost output circuit' is mounted to charge the super capacitor, and to measure the input pulse width, the 'CPU internal count' is used to measure the pulse input width, and for the input button processing, the 'internal GPIO module' ' is used to process the signal.

In addition, the sensing coil output of the present invention adjusts the differential or single-ended signal input to the measurable output range through a comparator, and then measures the correct pulse width through the CPU logic count through the photocoupler. A 7〃 TFT HMI Touch Screen LCD is installed to display the measured information and check the status.

In addition, the circuit card operating power of the main board 10-1 of the present invention is supplied with a lithium ion battery voltage, and the LCD operating power +24V and CPU operating power +3.3V are supplied using a DC/DC converter.

The power interface of the high-output pulse generator using a super capacitor in the magnetic ratio destruction measurement according to the present invention will be described with reference to FIG. 3 . The power design is a TFT LCD (+24V DC) receiving power from a battery (+12.8V DC). ), CPU (+3.3V DC), and Analog (+12.8V DC) power, respectively.

The TFT LCD power supply of the present invention operates at +24V DC. It is configured to supply the required power by designing the μModule Buck-Boost Regulators (Analog Device, LTM8056) module by receiving battery power.

The CPU power supply of the present invention operates at +3.3V DC. It is configured to supply the necessary power by designing a Step-down μModule (Power Module) Converter (Analog Device, LTM8029) module by receiving battery power.

The analog power supply of the present invention receives power required for analog measurement for sensing coil output measurement from a battery and measures a required input value.

Referring back to FIG. 1 , the probe 20 of the high-power pulse generator using a supercapacitor in the magnetic non-destructive measurement according to the present invention is electrically connected to the main body 10 to measure the thinning state of the pipe. configured to measure.

In addition, the probe 20 of the high output pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention includes a high output pulse current generator 210 and a sensor 220 .

The high-output pulse current generator 210 of the present invention is configured to include a supercapacitor 211 configured to be charged by a program preset in the MCU using the current supplied from the power supply 110 . .

It is configured to generate a pulsed magnetic field by driving the pulse generation time by controlling the pulse generation time.

The sensor unit 220 of the present invention detects a driving coil 221 for inducing a pulsed magnetic field generated from the supercapacitor 211 of the high-output pulse current generating unit 210 to a measuring pipe, and a pulse induced magnetic flux. and a receiving coil 222 that senses a measurement signal by detecting a change in the pulse induced magnetic flux while doing the same.

The supercapacitor 211 of the present invention is configured to charge the DC current supplied from the power supply unit 110 and then discharge it in the form of a pulse.

In addition, the supercapacitor 211 of the present invention is configured to generate a prismatic monopolar or bipolar pulsed magnetic flux.

4, the supercapacitor 211 of the present invention is configured to charge the supercapacitor with 18V 5A power by applying +12.8V DC power from the battery 111 of the power supply 110 to the Boost circuit. do.

Referring to FIG. 5, as a circuit diagram for measuring the driving driving pulse width of the probe 20 of the present invention, the input drive coil voltage is differentially input and adjusted to a measurable output range through a comparator (not given). is composed

At this time, the comparator increases the accuracy of pulse width measurement through reference input processing, and the signal output from the comparator measures the accurate pulse width through a photocoupler and CPU logic count.

Also, at this time, the reference input circuit can be adjusted through an amplifier (reference numeral not assigned) and a variable resistor.

The high-power pulse generator using a supercapacitor in the magnetic ratio destruction measurement according to the present invention has the following advantages.

First, the apparatus for generating a high output pulse using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is configured to generate a high output pulse current using the supercapacitor.

Therefore, the present invention has the advantage of being able to provide a compact device through an efficient design by reducing unnecessary electromotive force and heat generation by configuring without a power amplifier and a transformer essential to a pulse current generator.

In addition, the apparatus for generating a high-power pulse using a supercapacitor in the magnetic ratio destruction measurement according to the present invention is configured such that a supercapacitor for generating a pulse eddy current is installed in the probe.

Accordingly, the present invention has an advantage in that, in the case of a subject far from the ground, the cable between the main body and the probe is lengthened, and thus the defect detection efficiency can be prevented from falling.

In addition, the high-power pulse generator using a supercapacitor in the measurement of magnetic ratio destruction according to the present invention includes a boost circuit for amplifying the battery voltage to be input to the supercapacitor, a differential amplifier circuit for accurate pulse generation having a given pulse width, and , and a time generation circuit.

1: High-power pulse generator using super capacitor
10: body
10-1 : main board
110: power supply
111: battery
120: signal amplification filtering unit
130: signal processing unit
20: Probe
210: high output pulse current generator
211: super capacitor
220: sensor unit
221: drive coil
222: receiving coil (sensing coil)

Claims (5)

In a high-power pulse generator using a supercapacitor in magnetic rain destruction measurement for measuring the thinning state of a pipe using a supercapacitor without disassembling the insulation,
a main body 10 including an external flash memory, an external EEPROM memory, and an LCD monitor, and configured to communicate measured pipe thinning data;
and a probe 20 electrically connected to the body 10 and configured to detect the thinning state of the pipe with a pulsed magnetic field;
The main body 10 includes a power supply unit 110 for supplying DC power to the entire system, and is electrically connected to the power supply unit, and receives, amplifies, and filters the measurement signal detected from the probe 20. Signal amplification It consists of a filtering unit 120 and a signal processing unit 130 for receiving and processing the measurement signal amplified and filtered by the signal amplification filtering unit 120,
The probe 20 includes a high output pulse current generator 210 that generates a pulsed magnetic field using the current supplied from the power supply 110 and a pulsed magnetic field generated from the high output pulse current generator 210 . It consists of a sensor unit 220 that detects a change in the pulse induced magnetic flux and generates a measurement signal while detecting the pulse induced magnetic flux induced in the measurement pipe by the
The high-output pulse current generator 210 is configured with a supercapacitor 211 that receives a DC current from the power supply unit 110, charges it, and discharges it in the form of a pulse,
The supercapacitor 211 is configured to generate a prismatic monopolar or bipolar pulse magnetic flux by controlling the charging and pulse generation time by the MCU,
The sensor unit 220 includes a driving coil 221 for inducing a pulse magnetic field generated from the supercapacitor 211 of the high output pulse current generator 210 to a measuring pipe, and the pulse inductor while detecting the pulse induced magnetic flux. and a receiving coil 222 for sensing a measurement signal by detecting a change in speed,
The probe 20 further includes a comparator for adjusting a measurable output range for measuring driving driving pulse width,
The comparator includes a Boost output circuit that charges a super capacitor to apply a pulse to the Driver Coil, a CPU internal count that measures the input pulse width, and input button processing to increase the accuracy of pulse width measurement through reference input processing. High-output pulse generator using a supercapacitor in magnetic ratio destruction measurement, characterized in that it is configured to interwork with an internal GPIO module and a photocoupler that measures accurate pulse width. delete delete delete delete

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