KR100446968B1 - Anti-corrosion measuring system of heat exchanger fin - Google Patents

Abstract

The corrosion measurement apparatus of the heat exchanger heat sink fin of the present invention irradiates UV light from the UV generator 103 to the corrosion surface of the heat exchanger heat sink fin, and after detecting the light reflected from the UV light to be irradiated from the detector 104, The analyzer 105 divides the signal of the light by frequency and analyzes the sum of the absorption rates of the frequencies by the integrator 106 and stores them in the computer 107 as an image graph and a data file. Quantitative measurement of the used corrosion surface is possible.

Description

Corrosion measuring device of heat exchanger heat sink fin {ANTI-CORROSION MEASURING SYSTEM OF HEAT EXCHANGER FIN}

The present invention relates to an apparatus for measuring the corrosion of a heat radiation fin of a heat exchanger, and more particularly, a heat exchanger using a light absorptivity which quantitatively evaluates the degree of corrosion by irradiating UV light to a measurement site of a measurement target and detecting an absorption rate of the irradiated light. The present invention relates to a corrosion measuring device of a heat radiating fin.

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 irradiate UV light on the corroded surface of the heat exchanger heat sink fins, and to detect the absorption rate of UV light irradiated from the corrosion surface of the heat sink fins to quantitatively evaluate the degree of corrosion. To provide a corrosion measuring device of the heat exchanger heat sink fin suitable for.

1 is a schematic configuration diagram of a corrosion measuring device of a heat radiation fin of the heat exchanger according to the present invention.

Figure 2 is a graph showing the change in absorbance compared to the initial of each sample.

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

101: heat dissipation fin 102: CD camera

103: U generator 104: Detector

105: analyzer 106: integrator

107: computer

In order to achieve the object of the present invention as described above, the generator and the UV generator for irradiating UV light to the corrosion surface of the heat exchanger heat radiation fin,

A detector for detecting light reflected from the light radiated from the generator to the radiating fins;

An analyzer for analyzing the signal of light detected by the detector by dividing the signal into frequency bands;

An integrator for calculating the sum of absorption rates for each frequency analyzed by the analyzer,

A computer for displaying as an image graph or storing it as a data file with reference to the value of the absorption rate calculated by the integrator;

Provided is a corrosion measuring apparatus for a heat exchanger heat sink fin, characterized in that it comprises a CD camera for scanning and transmitting the measurement position of the heat sink fin to the computer.

Hereinafter, with reference to the embodiment of the accompanying drawings, the corrosion measurement apparatus of the heat exchanger heat dissipation fin of the present invention configured as described above will be described in more detail.

1 is a schematic configuration diagram of an apparatus for measuring corrosion of a heat exchanger heat sink fin according to the present invention, and FIG. 2 is a graph showing a change in absorbance compared to an initial stage of each sample.

As shown, the corrosion measurement apparatus of the heat radiation fin of the heat exchanger of the present invention is a CD camera (CCD CAMERA) 102 and the heat radiation fin 101 to check the measurement position by scanning the corrosion surface of the heat radiation fin 101 UV generator 103 for irradiating 50 ~ 1000 nm UV light to the surface, and detector for detecting light reflected from the light irradiated to the object to be measured by the UV generator 103 ) 104 is assembled in the form of one assembly.

In addition, an analyzer (ANALYZER) 105 is connected to the detector 104 for analyzing the signal of light detected by the detector 104 by dividing into a frequency band, and is connected to the analyzer 105 to be connected to the analyzer 105. There is an integrator (106) for calculating the sum of the absorption rates for each frequency analyzed in the), which is represented by an image graph or a data file with reference to the value of the absorption rate calculated by the integrator 106 A computer (COMPUTER) 107 for storing data is provided.

In addition, the computer 107 has a built-in image board 111 so that the image taken by the CD camera 102 can be transmitted.

The method of evaluating the corrosion degree of the heat radiation fins of the heat exchanger using the metal corrosion measurement system using the light absorption as described above is as follows.

First, scanning is performed on the corrosion surface of the heat exchanger heat sink fin made of Al, which is the object to be measured 101, using the CD camera 102, and the scanned image is displayed on the screen of the computer 107. Select the position to measure.

Then, UV light is irradiated to the corrosion surface of the heat radiation fin to be measured using the UV generator 103, and the detector 104 detects the light reflected from the corrosion surface of the UV light thus irradiated.

Then, the light signal detected by the detector 104 is divided into frequency bands by the analyzer 105, and the absorption rate is analyzed, and the absorption rate for each frequency is calculated as the sum for each frequency in the integrator 106, and the computer 107 ), The data is stored in the computer 107 as an image graph or a data file, and quantitative evaluation is performed.

Figure 2 is a graph showing the change in the absorption rate compared to the initial sample of each sample in the same way, as shown in the graph, the sample in the bare state has a high absorption rate due to the corrosion, and the corrosion-treated samples have a low absorption rate You can see that it appears.

As described above in detail, the corrosion measurement apparatus of the heat exchanger radiating fin of the present invention irradiates UV light from the UV generator to the corrosion surface of the heat exchanger radiating fin, and detects the reflected light among the irradiated UV light in the detector. In addition, the analyzer analyzes the light signal by frequency and calculates the sum of the absorption rates by frequency in the integrator and stores them in the computer as image graphs and data files. It is possible.

Claims (4)

UV generator for irradiating UV light to the corrosion surface of the heat exchanger heat sink fins, A detector for detecting light reflected from the light radiated from the generator to the radiating fins; An analyzer for analyzing the signal of light detected by the detector by dividing the signal into frequency bands; An integrator for calculating the sum of absorption rates for each frequency analyzed by the analyzer, A computer for displaying as an image graph or storing it as a data file with reference to the value of the absorption rate calculated by the integrator; And a CD camera for scanning the measurement position of the heat dissipation fin and transmitting it to a computer. delete delete The apparatus of claim 1, wherein an image board is built in the computer to receive an image from a CD camera.