KR100408244B1 - Anti-corrosion measuring system using light transmittance rate - Google Patents

Abstract

In the corrosion evaluation system using the light transmittance of the present invention, the heat exchanger 102 is disposed vertically in the center of the sealed duct 101, and the light source 103 is coupled to one side, and the photometer 104 and A CD camera 105 is provided, and a computer 106 is installed outside the duct 101 so that light emitted from the light source 103 passes through the heat exchanger 102 so that the photometer 104 and the CD can be installed. By detecting the amount of light per unit area detected by the camera 105 and the computer 106, the degree of corrosion of the heat exchanger can be detected simply and quantitatively.

Description

Corrosion evaluation system using light transmittance {ANTI-CORROSION MEASURING SYSTEM USING LIGHT TRANSMITTANCE RATE}

The present invention relates to a corrosion evaluation system using a light transmittance, and more particularly, to a corrosion evaluation system using a light transmittance that can quantitatively evaluate the degree of corrosion by measuring the transmission amount and the transmission area of light passing through an object to be measured. It is about.

Metal is widely used for mechanical parts and electronic parts because of its strength and workability. On the other hand, metal has a disadvantage of being vulnerable to corrosion. Research into coating to cope with corrosion is actively conducted.

In addition, the method of measuring the corrosion resistance of the metal having a corrosion resistance or the metal having a corrosion layer formed on the surface is mainly left for a long time in a salt sprayer spraying 5% salt on the test piece to observe the change of the surface. It is used.

However, the above corrosion resistance measurement method using a salt spray has a problem that it is difficult to numerically indicate the corrosion degree of the test piece, the variation varies depending on the tester, and it is difficult to evaluate the superiority of the test piece with the similar corrosion degree. .

In order to compensate for this, the EIS (ELECTROCHEMISTRY IMPEDANCE SPECTROSCOPY) method, which uses a DC potentiometer or applies an AC signal and evaluates the frequency response signal, has been developed and used for quantitative evaluation of corrosion resistance, but the equipment is expensive and evaluated. To have a problem that requires a lot of professional knowledge.

Moreover, heat exchangers installed in home appliances such as refrigerators and air conditioners mainly evaluate the degree of corrosion by qualitatively evaluating the degree of discoloration, scale generation, breakage, etc. Since there is no known method for evaluating, there have been many difficulties in developing a technology for preventing corrosion.

The object of the present invention devised in view of the above problems is to measure a corrosion rate system using a light transmittance suitable for quantitatively evaluating the degree of corrosion by measuring the transmission amount and the transmission area of light passing through an object under the same conditions. In providing.

1 is a schematic configuration diagram of a corrosion evaluation system using a light transmittance according to the present invention.

** Description of symbols for the main parts of the drawing **

101: duct 102: heat exchanger

103: light source 104: photometer

105: CD camera 106: computer

111: image board

In order to achieve the object of the present invention as described above and the duct on the rectangular tube having a predetermined space portion therein,

The measured object mounted vertically in the center of the inside thereof;

A light source coupled to one side of the object to transmit light through the object,

A photometer disposed on the opposite side of the light source to detect the amount of light passing through the object,

A CD camera for detecting a transmission area of light disposed in the vicinity of the photometer and passing through the object under test;

It is installed on the outside of the duct and provided with a computer for evaluating the degree of corrosion by calculating the amount of permeation and the transmission area of light detected by the photometer and the CD camera as a unit per unit area, the corrosion evaluation system using light transmittance is provided. do.

Hereinafter, the corrosion evaluation system using the light transmittance of the present invention configured as described above will be described in more detail with reference to embodiments of the accompanying drawings.

1 is a schematic configuration diagram of a corrosion evaluation system using a light transmittance according to the present invention.

As shown in the figure, the corrosion evaluation system using the light transmittance of the present invention is equipped with a heat exchanger 102 which is a measurement object vertically in the center of the inside of a closed rectangular tubular duct (DUCT) 101 having a certain space therein. .

In addition, a light source 103 for transmitting light to the heat exchanger 102 side is coupled to one side of the heat exchanger 102, and a heat exchanger 102 is opposite to the light source 103. A photometer 104 is disposed to detect the amount of light that passes through the photometer. A CCD camera for detecting a transmission area of light passing through the heat exchanger 102 is provided around the photometer 104. 105 is disposed.

In addition, the computer 106 for evaluating the degree of corrosion is calculated outside the duct 101 by calculating the amount of light and the transmission area detected by the photometer 104 and the CD camera 105 as a transmission amount per unit area. It is installed.

Meanwhile, an image board 111 to which an image captured by the CD camera 105 is transmitted is built in the computer 106.

The method of evaluating the corrosion degree of the heat exchanger using the corrosion evaluation system using the light transmittance as described above is as follows.

First, the heat exchanger 102 to be evaluated is disposed perpendicular to the inner center of the duct 101.

Then, light is transmitted from the light source 103 installed on one side of the duct 101 to the heat exchanger 102 side, and the amount of light passing through the heat exchanger 102 is thus adjusted to the photometer 104 on the opposite side. In addition, the transmission area is detected by the CD camera 105 and transmitted to the computer 106, and the amount and area of light transmitted as such is calculated as the transmission amount per unit area in the computer 106 to determine the degree of corrosion. It is calculated quantitatively.

That is, as the corrosion of the heat exchanger 102 proceeds, the scale by oxidation progresses on the surface of the heat radiation fin of the heat exchanger 102, so that the interval between the heat radiation fins is not narrow. The amount of light transmitted will be small.

In addition, since the corrosion progresses and the oxidation scale formed on the surface of the heat sink fin increases the light absorption rate and reduces the light transmission area, the progress of corrosion is quantitatively evaluated by measuring the light transmission amount and the transmission area.

As described in detail above, the corrosion evaluation system using the light transmittance of the present invention is arranged in the heat exchanger vertically in the center of the sealed duct, and transmits the light to the light source on one side and the photometer and the CD camera on the other side By detecting the amount and area of light passing through the heat exchanger and transmitting it to a computer, the computer calculates the light transmittance per unit area, so that the degree of corrosion of the heat exchanger can be measured quantitatively simply.

Claims (3)

A duct on a rectangular tube having a certain space portion therein, The measured object mounted vertically in the center of the inside thereof; A light source coupled to one side of the object to transmit light through the object, A photometer disposed on the opposite side of the light source to detect the amount of light passing through the object, A CD camera for detecting a transmission area of light disposed in the vicinity of the photometer and passing through the object under test; And a computer installed at the outside of the duct to calculate the amount of light and the transmission area detected by the photometer and the CD camera as a transmission amount per unit area to evaluate the degree of corrosion. The corrosion evaluation system using light transmittance according to claim 1, wherein the object to be measured is a heat exchanger. The corrosion evaluation system using light transmittance according to claim 1, wherein an image board is built in the computer to receive an image from a CD camera.