KR100917045B1 - The monitoring device for scale in tube - Google Patents

Abstract

A scale detecting apparatus of piping is provided to establish a real time monitoring system and the pre-analysis about the scale within the piping. A scale detecting apparatus of piping comprises a high frequency oscillator(10), a radio frequency amplifier(20), a wave detection unit(30), and a current amplifier(40). The high frequency oscillator comprises a scale sense vapor of a scale detector(11), a high frequency generator(12), a standard high frequency generator(13), and a mixer(14). The high frequency generator generates the high frequency while connecting with the scale detector. The mixer outputs after mixes the high frequency from the high frequency generator and the high frequency from the standard high frequency generator. The radio frequency amplifier amplifies the high frequency outputted from the high frequency oscillator. The wave detection unit changes the amplified high frequency to the direct current value. The current amplifier receives the outputted direct current value and outputs the value by amplifying to the predetermined current value.

Description

{The Monitoring Device for scale in tube}

The present invention relates to a scale detection device of a pipe for monitoring a scale fixed to the inside of the pipe, and more specifically, to detect a change in the scale in the pipe to cut the pipe or to make a hole in the pipe by inserting an endoscope, etc. Rather than checking directly, it relates to a scale detection device for pipes that can monitor scale fluctuations such as generation and disappearance of scales in the pipes without damaging the pipes.

In general, in the industrial and commercial water treatment process, the scale is fixed in the pipe through which the fluid flows for a long time flow of the fluid. The scale fixed inside the pipe reduces the heat transfer rate if the pipe is a pipe applied to the heating system, and increases the energy consumption rate.In the case of a boiler, the scale rises in the furnace and the resulting overheating causes an explosion or the heating surface temperature. Corrosion occurs at high temperature, and it can cause serious damage such as power loss due to pressure increase due to reduction of pipe section.

In order to detect the scale inside the pipe causing the above-mentioned damage, conventionally, after the pipe was cut at the site, the inside of the pipe was visually inspected or the material was inspected to determine the degree of fixation of the scale. And costly problems, and in recent years, non-destructive evaluation techniques have emerged in order to overcome the problems of the direct inspection of the inside of the pipe. Examples of such non-destructive evaluation techniques include radiographic test, ultrasonic thickness measurement, eddy current test, and endoscope test.

Radiation test method is the most widely used non-destructive testing method, there is an advantage to see the internal state of the structure, but in the case of the water supply pipe, there is a risk of radioactive leakage and high cost problem to detect by the radiographic test method . Ultrasonic thickness measurement method is capable of flaw detection on the outer surface of the pipe, but if the surface is rough and there is an impurity, accurate flaw detection is impossible and flaw detection is possible only in some exposed parts. In addition, the diagnostic technique using an endoscope can visualize the state inside the pipe immediately, but is currently in use in the field, but there is a problem in that it is difficult to detect a place relatively far from the end of the pipe because of limitations in the shape and length of the pipe.

Therefore, the present invention has been made in order to supplement the above-mentioned problems, it is possible to detect the scale fluctuations such as the generation or disappearance of the scale generated in the pipe from the outside without breaking the pipe,

It detects the change in scale inside the pipe in advance and informs the manager so that the manager can take proper measures and management for the pipe.

To maximize the energy efficiency of the system with the pipe installed scale detection device and to prevent premature aging of the equipment.

In the first aspect of the present invention, the high frequency oscillation unit 10 for oscillating the high frequency signal to the mounting pipe 200 to the outside; A high frequency amplifier 20 for amplifying the high frequency output from the high frequency oscillator 10; A detector (30) for detecting the high frequency amplified by the high frequency amplifier (20) and converting the signal into a DC current value; And a current amplifier unit 40 which receives the DC current value output from the detector 30 and amplifies the DC current value to a predetermined current value and outputs it to the outside. to provide.

In the scale detecting apparatus 100 of a pipe according to the first aspect of the present invention, the signal output from the current amplifying unit 40 is input to change the generation caused by the generation or disappearance of the scale fixed to the pipe 200 to the outside. It may be configured to further include an indicator unit 50 to display.

According to a second aspect of the present invention, a plurality of high frequency oscillators 10 are provided in each of the plurality of pipes 200 and oscillate a high frequency signal to the mounting pipe 200; A high frequency amplifier 20 for amplifying the high frequency output from the high frequency oscillator 10; A detector (30) for detecting the high frequency amplified by the high frequency amplifier (20) and converting the signal into a DC current value; A current amplifier 40 which receives the DC current value output from the detector 30 and amplifies it to a predetermined current value and outputs the result to the outside; A pipe channel selector 60 for selectively receiving a signal from the current amplifier 40 for each pipe; And a pipe channel selected by the pipe channel selector 60, and receives a signal output from the current amplifier 40 of the selected pipe to externally change the scale due to generation or disappearance of the scale fixed to the pipe. It provides a scale detection device for a pipe, characterized in that consisting of; multi-indicator unit 70 for displaying.

In addition, preferably, in the scale sensing device of a pipe according to the present invention, the high frequency oscillator 10 includes a scale detector 11 installed in the pipe 200; A high frequency generator 12 connected to the scale detector 11 to generate a high frequency; A reference high frequency generator 13 for generating a reference high frequency; And a mixer 14 for mixing and outputting the high frequency generated by the high frequency generator 12 and the reference high frequency generated by the reference high frequency generator 13.

More preferably, the scale detector 11, the coil 15 is wound around the pipe 200 to be installed a predetermined number of times; And a variable capacitor 16 for measuring the capacitance of the pipe 200 in which the coil 15 is installed.

According to the present invention, the scale of the scale generated or destroyed within the pipe can be easily detected at low cost, without breaking the pipe, at low cost.

By detecting the change in scale inside the pipe in advance and notifying the manager, the manager can take proper measures and manage the target pipe.

While maximizing the energy efficiency of the system to which the pipe is installed scale detection device of the present invention is applied, it is possible to prevent premature aging of the equipment.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is a block diagram showing the configuration of a scale sensing device for a pipe according to a first aspect of the present invention in a block, FIG. 2 is a perspective view of a scale sensing device for a pipe according to a first aspect of the present invention, and FIG. It is a perspective view of the scale detection apparatus of the piping which concerns on the 2nd aspect of this invention.

As shown in FIGS. 1 and 2, the scale sensing device 100 of a pipe according to the first aspect of the present invention includes a high frequency oscillator (not shown) in a pipe 200 to detect scale fluctuations such as generation and dissipation of scale. 10) is installed, and the high frequency oscillator 10 outputs a high frequency signal for the pipe 200 installed. Preferably, the high frequency oscillation unit 10 is provided with a scale detector 11 outside the pipe, and is provided with a high frequency generator 12 which is connected to the scale detector 11 to generate a high frequency. A reference high frequency generator 13 is formed to generate a high frequency signal generated by the high frequency generator 12 and a reference high frequency generated by the reference high frequency generator 13 to receive and reduce the high frequency signal by a reference high frequency signal. The mixer 14 is provided. Preferably, the scale detector 11 winds the coil 15 at a predetermined number of times outside the pipe 200 to know the change in scale, and measures the capacitance of the pipe on which the coil 15 is wound. It can be configured as a variable capacitor (16).

In more detail, the high frequency oscillation unit 10, the coil 15 wound on the outside of the pipe a predetermined number of times has an inductance value for the pipe on which the scale is initially installed, and the scale state The capacitance of the pipe, that is, the capacitance (capacitance), which causes the resonance frequency with respect to the inductance value of the pipe, is obtained by adjusting the variable capacitor 16 provided in the scale detector 11. The high frequency generator 12 constituting the high frequency oscillation unit 10 generates a high frequency based on the inductance value of the coil 15 and the capacitance value of the pipe obtained by setting the variable capacitor 16 for the pipe in the scale state. Will print it out. The high frequency generated by the high frequency generator 12 has a high frequency value so that the mixer 14 inputs the high frequency generated by the high frequency generator 12 and the reference high frequency generated by the reference high frequency generator 13. The high frequency is reduced by the reference high frequency, and then output from the mixer 14.

The high frequency signal output from the high frequency oscillator 10 is amplified while passing through the high frequency amplifier 20. The high frequency signals output from the high frequency oscillator 10 are mixed with high frequencies of various frequency bands, and the high frequency amplifier 20 amplifies the high frequencies of the intermediate frequency bands to a predetermined frequency. Preferably, the high frequency amplification unit 20 includes two or more intermediate frequency amplifiers in multiple stages so as to amplify the desired frequency.

The detector 30 receives the high frequency signal amplified and output by the high frequency amplifying unit 20, detects the high frequency of the amplified intermediate frequency band, and converts the high frequency signal into DC.

In the current amplifier 40, the converted DC current value is amplified to 4 to 20 mA and output to the external device. Preferably, it may be provided with an indicator unit 50 that can receive a signal output from the current amplifier 40 to display the changes, such as the generation or disappearance of the scale fixed to the pipe.

Hereinafter, the operation of the scale detection apparatus of the pipe according to the present invention in detail, the scale detector 11 is installed in the pipe to detect the change in scale. Preferably, the scale detector 11 may be composed of a coil 15 and a variable condenser 16. The coil 15 is wound around the outside of the pipe a predetermined number of times. In consideration of the inductance and capacitance of the wound coil 150, it may be wound around 30 times.The variable capacitor 16 is provided at both ends of the coil 15, and the coil 15 and the variable An high frequency generator 12 is connected to a circuit provided with a capacitor 16. Preferably, an oscillator may be used as the high frequency generator 12. A variable connected to a coil 15 wound outside the pipe. Capacitance causing resonance can be obtained by adjusting the capacitor 16, and a high frequency wave having a frequency represented by Equation 1 is generated through the oscillator based on the inductance of the installed coil 15 and the obtained capacitance. do.

Where L is an inductance value for the coil 15 wound around the pipe 200, C is a capacitance value that causes resonance with respect to the pipe 200 in which the coil 15 is wound, f is the resonant frequency from the given inductance value and the capacitance value that causes resonance.)

The frequency signal emitted from the high frequency generator 12 has a high frequency band so that the high frequency output from the reference high frequency generator 13 is reduced and mixed in the mixer 14 to reduce the frequency. Preferably, a local oscillator may be used as the reference frequency generator 13.

A plurality of high frequency signals are mixed in the high frequency signal reduced and output by the high frequency oscillator 10, and the high frequency amplification unit 20 amplifies the frequency of the intermediate frequency band among them. In this case, amplification may be performed in multiple stages using two or more amplifiers in order to amplify a predetermined desired frequency.

The detector 30 receives the amplified and output high frequency signal to detect a high frequency of the amplified intermediate frequency band, converts the signal into direct current, and outputs the converted DC current value from 4 to 4. Amplified to 20 mA and output to external equipment. At this time, when the scale detection device such as a scale generated in the pipe is generated or extinguished after setting the value displayed on the external device or the indicator unit 50 at the time of installing the scale sensor of the pipe for the first time as a reference value, The frequency variation in the high frequency oscillator 10 due to the scale is represented by the variation of the DC current value in the current amplifier 40, which is varied from the reference value of the indicator unit 50, resulting in scale due to generation or disappearance of the scale. You will be able to see the fluctuation and degree of.

The scale sensing device of the pipe according to the second aspect of the present invention, as shown in Figure 3, the scale sensing devices of the pipe of the first form is installed in a plurality of pipes, respectively, And a high frequency oscillator 10 for oscillating a high frequency signal with respect to the installation pipe, and a high frequency amplifier 20 for amplifying the high frequency output from the high frequency oscillator 10 and amplified by the high frequency amplifier 20. A detector 30 for detecting a high frequency and converting the signal into a DC current value and a current amplifier 40 for receiving the DC current value output from the detector 30 and amplifying the DC current value to a predetermined current value are output to the outside. It is provided. In addition, the pipe channel selection unit 60 for selectively receiving a signal of the current amplifier 40 for each of the pipes, and the pipe channel selected by the pipe channel selection unit 60 to display the selected of the pipe The multi-indicator unit 70 is configured to receive a signal output from the current amplifying unit 40 and to externally display a change due to generation or disappearance of a scale fixed to a corresponding pipe.

The operation of the apparatus for detecting a scale of a pipe according to the second aspect of the present invention is also the same as that of the first aspect described above, except that the pipe channel for selecting and displaying signals of the current amplifier 40 for a plurality of pipes. The selection unit 60 is provided, and a multi-indicator unit 70 for displaying the fluctuation of the piping channel and scale for the selected pipe to the outside is provided.

Although some embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof.

Accordingly, the described embodiments are to be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are included within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The block diagram which shows the structure of the scale detection apparatus of the piping which concerns on the 1st aspect of this invention in block.

2 is a perspective view of a scale sensing device for piping according to a first aspect of the present invention; And

3 is a perspective view of an apparatus for detecting a scale of a pipe according to a second aspect of the present invention.

       Explanation of symbols on the main parts of the drawings

10: high frequency oscillation unit 11: scale detector

12: high frequency generator 13: reference high frequency generator

14 mixer 15 coil

16: variable capacitor

20: high frequency amplifier 30: detector

40: current amplifier 50: indicator unit

60: pipe channel selection unit 70: multi indicator unit

100: pipe scale detection device

110: scale detection device of multiple pipes

200: piping

Claims (5)

A scale detector 11 installed in the pipe 200, a high frequency generator 12 connected to the scale detector 11 to generate a high frequency, a reference high frequency generator 13 to generate a reference high frequency, and the high frequency generator A high frequency oscillator 10 comprising a mixer 14 for mixing and outputting the high frequency generated at 12 and the high frequency generated at the reference high frequency generator 13; A high frequency amplifier 20 for amplifying the high frequency output from the high frequency oscillator 10; A detector (30) for detecting the high frequency amplified by the high frequency amplifier (20) and converting the signal into a DC current value; And And a current amplifying part (40) for receiving the DC current value output from the detector (30) and amplifying the DC current value to a predetermined current value. The method of claim 1, Piping characterized in that it further comprises an indicator unit 50 for receiving the signal output from the current amplifying unit 40 to display the variation due to the generation or disappearance of the scale fixed to the pipe 200 to the outside Scale sensing device. A high frequency oscillation unit 10 installed in each of the plurality of pipes and oscillating a high frequency signal with respect to the installation pipe; A high frequency amplifier 20 for amplifying the high frequency output from the high frequency oscillator 10; A detector (30) for detecting the high frequency amplified by the high frequency amplifier (20) and converting the signal into a DC current value; A current amplifier 40 which receives the DC current value output from the detector 30 and amplifies it to a predetermined current value and outputs the result to the outside; A pipe channel selector 60 for selectively receiving a signal from the current amplifier 40 for each pipe; And Display the pipe channel selected by the pipe channel selector 60, and receives the signal output from the current amplifying unit 40 of the selected pipe to display the fluctuation caused by the generation or disappearance of the scale attached to the pipe to the outside Multi-indicator unit 70 to the; scale detection device of the pipe, characterized in that consisting of. The method of claim 3, wherein The high frequency oscillation unit 10, A scale sensor 11 installed on the pipe 200; A high frequency generator 12 connected to the scale detector 11 to generate a high frequency; A reference high frequency generator 13 for generating a reference high frequency; And And a mixer (14) for mixing and outputting the high frequency generated by the high frequency generator (12) and the reference high frequency generated by the reference high frequency generator (13). The method according to any one of claims 1, 2 or 4, The scale detector 11, A coil 15 wound and installed on the pipe 200 a predetermined number of times; And Scale capacitor of the pipe, characterized in that consisting of; a variable capacitor (16) for measuring the capacitance of the pipe (200) in which the coil (15) is installed.

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