KR102156984B1 - Apparatus for of supplying solution of corrosion test - Google Patents

Abstract

The present invention relates to a corrosion test solution supply device, and more particularly, to a corrosion test solution supply device capable of safely supplying a test solution heated to a set test temperature and removed dissolved oxygen to a corrosion test equipment.
Corrosion test solution supply device according to the present invention includes a test solution manufacturing unit 100 in which the test solution is stored; A nitrogen supply unit 200 connected to one side of the test solution preparation unit 100 and supplying nitrogen to the test solution preparation unit 100; A heating unit 300 installed on one side of the test solution preparation unit 100 and heating the test solution from which dissolved oxygen has been removed by nitrogen to a set test temperature in the test solution preparation unit 100; And a test solution supply unit 400 connected to one side of the test solution preparation unit 100 and supplying the test solution prepared by the test solution preparation unit 100 to the outside.

Description

Apparatus for of supplying solution of corrosion test}

The present invention relates to a corrosion test solution supply device, and more particularly, to a corrosion test solution supply device capable of safely supplying a test solution heated to a set test temperature and removed dissolved oxygen to a corrosion test equipment.

In some metal products manufactured by a general steel manufacturing process, hydrogen organic cracking may occur even if no external force acts in an acidic gas atmosphere regardless of the strength of the material.

Therefore, after the metal product is manufactured, a specimen is taken and a corrosion test is performed in which a load is applied to the specimen in a test solution containing hydrogen sulfide gas.

As a representative method of the corrosion test, a corrosion test using the Hydrogen Induced Cracking Test is known.

However, the above corrosion test is performed in a 0.5 mol H2SO4 solution, a trace amount of KSCN, or NaCl solution, and the more oxygen in the solution, the faster the corrosion of the specimen to be tested.

In addition, oxygen is precipitated as OH-ion by the dissolved oxygen in the solution, causing an oxidation reaction, which accelerates corrosion, so that accurate test results cannot be obtained.Also, an overpotential occurs in the device itself, causing an experiment error. There is a hassle to do.

In addition, since the gases are not uniformly distributed in the solution, there is a limit to finely removing dissolved oxygen.

An example of a technique for solving this problem is disclosed in Documents 1 to 2 below.

In Patent Document 1, in a beaker equipped with a lid, a eddy pipe in a eddy shape was provided at the bottom of the beaker, and a plurality of gas injection holes were formed at equal intervals in the eddy pipe. A gas guide pipe is installed at one end of the gas guide pipe, and an oxygen discharge cock and flow meter are installed on the upper part of the gas guide pipe, and an oxygen inlet hole is formed at the bottom of the oxygen discharge cock, and an oxygen discharge pipe is installed at the top. Disclosed is an apparatus for removing dissolved oxygen in a solution for a corrosion test, characterized in that the main body of the injection nozzle apparatus is formed.

Patent Document 2 includes a base frame; A water tank installed on the base frame, in which a test solution is freshly watered and a discharge pipe is installed; A nitrogen supply unit supplying nitrogen to the water tank; And it discloses a dissolved oxygen removal device for corrosion test, characterized in that it comprises an input unit for supplying the solution freshly watered in the water tank to the test tank.

However, in the conventional technology as described above, after supplying the test solution to the corrosion test equipment, the temperature of the test solution must be raised or lowered to the test temperature in a water bath method by a thermostat connected to the corrosion test equipment, which takes a long time. There was a problem.

Republic of Korea Utility Model Publication No. 20-0150141 (registered on April 2, 1999) Republic of Korea Patent Publication No. 10-1237087 (registered on February 19, 2013)

The present invention has been devised to solve the above-described problems, and is heated to a preset test temperature before supplying a test solution from which dissolved oxygen has been removed to a corrosion test equipment, thereby significantly shortening the process time. The purpose is to provide a corrosion test solution supply device.

In addition, the level of the test solution is measured by a water level measuring device installed inside the solution reservoir, and the nitrogen pressure is measured by a pressure measuring device installed on one side of the nitrogen supply pipe, and heating device operation is automatically controlled based on the measured signal. The purpose is to provide a corrosion test solution supply device that can safely manage the device.

In order to achieve the above object, the apparatus for supplying a corrosion test solution according to the present invention comprises: a test solution preparation unit 100 in which the test solution is stored; A nitrogen supply unit 200 connected to one side of the test solution preparation unit 100 and supplying nitrogen to the test solution preparation unit 100; A heating unit 300 installed on one side of the test solution preparation unit 100 and heating the test solution from which dissolved oxygen has been removed by nitrogen to a set test temperature in the test solution preparation unit 100; And a test solution supply unit 400 connected to one side of the test solution preparation unit 100 and supplying the test solution prepared by the test solution preparation unit 100 to the outside.

In addition, the test solution preparation unit 100 is characterized in that it includes a solution storage tank 110 in which a space is formed therein, and a lid 111 is opened and closed at the top thereof.

In addition, the test solution preparation unit 100 and the nitrogen supply unit 200 are installed on a support frame 500 that is movable by a wheel 510, and a storage space is formed in the upper portion of the support frame 500. It is characterized in that the chamber 600 is installed in front of the door 610 to be opened and closed.

In addition, a dissolved oxygen measuring unit 640 is installed on the front of the door 610 to check the amount of dissolved oxygen in the test solution stored in the solution storage tank 110.

In addition, a temperature controller 320 for controlling the operation of the heating unit 300 and checking the temperature of the test solution is installed on the front of the door 610, and a power supply for controlling the power supply of the heating unit 300 It characterized in that the switch 612 is installed.

In addition, the nitrogen supply unit 200 includes a nitrogen storage tank 210 installed outside the chamber 600; A nitrogen supply pipe 220 connected between the nitrogen storage tank 210 and the solution storage tank 110; And a nitrogen supply valve 230 installed at one side of the nitrogen supply pipe 220 to supply or block nitrogen in the nitrogen storage tank 210 to the solution storage tank 110.

In addition, the heating unit 300 is a heating device 310 installed inside the test solution manufacturing unit 100 to transfer heat; It characterized in that it comprises a; temperature controller 320 for controlling the operation of the heating device 310.

In addition, the test solution supply unit 400 is a test solution supply pipe 410 connected to one side of the test solution preparation unit 100 to supply the test solution to the outside; A supply pump 420 installed at one side of the test solution supply pipe 410 to pump the test solution; And a supply hose 430 connected to the test solution supply pipe 410.

In addition, it characterized in that it comprises a water level measuring device 700 installed inside the test solution manufacturing unit 100 to measure the change in the level of the test solution and transmit a signal to the temperature controller 320 of the heating unit 300 To do.

In addition, a pressure measuring device 800 that is installed at one side of the nitrogen supply pipe 220 to measure the pressure change of nitrogen supplied into the solution storage tank 110 and transmits a signal to the temperature controller 320 of the heating unit 300 It characterized in that it comprises a.

As described above, the corrosion test solution supply device according to the present invention is heated to a preset test temperature before supplying the test solution from which dissolved oxygen has been removed to the corrosion test equipment, thereby significantly shortening the process time for testing. It has the effect of greatly improving the accuracy.

In addition, when there is no test solution in the solution storage tank or when the nitrogen pressure in the nitrogen supply pipe falls below the set pressure, the heating device is not operated, thereby preventing the occurrence of fire due to overheating of the heating device.

1 is a perspective view showing a corrosion test solution supply device according to the present invention.
Figure 2 is a plan view showing a corrosion test solution supply device according to the present invention.
Figure 3 is a front view showing a corrosion test solution supply device according to the present invention.
Figure 4 is a front view showing the door open state of the corrosion test solution supply device according to the present invention.
Figure 5 is a block diagram showing the control flow of the corrosion test solution supply device according to the present invention.
Figure 6 is a rear view showing the door open state of the corrosion test solution supply device according to the present invention.

Hereinafter, in order to describe in detail enough that those of ordinary skill in the art can easily implement the present invention, the most preferred embodiment of the present invention will be described in detail.

As shown in Figures 1 to 3, the corrosion test solution supply device according to the present invention includes a test solution manufacturing unit 100 in which the test solution is stored; A nitrogen supply unit 200 connected to one side of the test solution preparation unit 100 and supplying nitrogen to the test solution preparation unit 100; A heating unit 300 installed on one side of the test solution preparation unit 100 and heating the test solution from which dissolved oxygen has been removed by nitrogen to a set test temperature in the test solution preparation unit 100; And a test solution supply unit 400 connected to one side of the test solution preparation unit 100 and supplying the test solution prepared by the test solution preparation unit 100 to the outside.

When the test solution used in the corrosion test is stored in the test solution manufacturing unit 100 and then the nitrogen supply unit 200 is operated, the nitrogen generated from the nitrogen supply unit is supplied to the test solution manufacturing unit, so that the oxygen contained in the test solution is reduced to nitrogen. Reacts with and produces gas.

The gas generated by the test solution manufacturing unit 100 is discharged to the outside, and the test solution from which dissolved oxygen has been removed is supplied to the corrosion test equipment through the test solution supply unit 400. At this time, the test solution supplied through the test solution supply unit 400 is heated by the heating unit 300 to a set test temperature and is supplied to the corrosion test equipment.

Conventionally, after supplying the test solution to the corrosion test equipment, the temperature of the test solution must be raised or lowered to the test temperature by a water bath method by a thermostat connected to the corrosion test equipment, so that the process time is long. In order to solve this, the present invention is supplied in a heated state to a preset test temperature before supplying a test solution from which dissolved oxygen has been removed to a corrosion test equipment, thereby significantly shortening the process time.

The test solution preparation unit 100 includes a solution storage tank 110 in which a space is formed therein, and a lid 111 is opened and closed at the top thereof.

Various substances (distilled water, sodium chloride, acetic acid, etc.) are injected into the solution storage tank 110 to prepare a test solution used for a corrosion test. To this end, a lid 111 that can be opened and closed is formed on the upper portion of the solution reservoir to facilitate the introduction of the substance into the solution reservoir.

A gas outlet 120 for discharging the gas generated in the solution storage tank to the outside is connected to an upper side of the solution storage tank 110.

The gas outlet 120 may be formed in the lid 111 or may be formed in the upper side of the solution storage tank 110.

Although not shown in the drawing, a temperature sensor (not shown) for measuring the temperature of the test solution is installed at one side of the solution storage tank 110. The test solution temperature signal sensed by the temperature sensor is transmitted to a temperature controller to be described later.

The test solution preparation unit 100 and the nitrogen supply unit 200 are installed on a support frame 500 that is movable by a wheel 510.

A storage space is formed in the upper portion of the support frame 500, and a chamber 600 in which the door 610 is opened and closed is installed in the front.

A moving handle 650 is formed on one side of the upper portion of the chamber 600 to facilitate device movement.

As shown in FIG. 4, a switchboard 620 that forms an electrical circuit connection point of each component is mounted inside the chamber 600.

A hook 630 is formed on one side of the upper portion of the chamber 600 so as to mount the supply hose 430 of the test solution supply unit 400.

The present invention relates to an apparatus for preparing a test solution used in corrosion test equipment. Therefore, it should be possible to easily provide the test solution prepared according to the present invention to the corrosion test equipment. To this end, in the present invention, a plurality of wheels 510 are installed so as to easily move to a desired location. In addition, in the present invention, various devices and accessories are installed to prepare a test solution, and a chamber 600 is installed to accommodate them. By allowing the devices and accessories to be accommodated inside or outside the chamber, there is an advantage in that it is good for appearance and easy to maintain. In particular, by mounting the supply hose on the hanger after the work of supplying the test solution from which dissolved oxygen has been removed to the corrosion test equipment is completed, storage is easy and the test solution can be prevented from being discharged.

A dissolved oxygen measuring unit 640 is installed at the front of the door 610 to check the amount of dissolved oxygen in the test solution stored in the solution storage tank 110.

The dissolved oxygen measuring unit 640 includes a sensing cable 641 connected to the solution storage tank 110; A dissolved oxygen amount measuring sensor 642 connected to the sensing cable 641 to measure the amount of dissolved oxygen in the test solution stored in the solution storage tank 110; And a display 643 installed on the front of the door 610 to display the amount of dissolved oxygen in accordance with the signal transmitted from the dissolved oxygen amount measuring sensor 642.

That is, while the operation of supplying nitrogen to the solution storage tank 110 is in progress, the amount of oxygen contained in the test solution stored in the solution storage tank is measured by the dissolved oxygen amount measuring sensor 642, and the signal transmitted from the dissolved oxygen measuring sensor Accordingly, the amount of dissolved oxygen is displayed on the display 643.

Accordingly, while checking the amount of dissolved oxygen displayed on the display, the amount of nitrogen supplied is adjusted, and when the amount of dissolved oxygen reaches the target value, the operation of the nitrogen supply unit 200 is stopped.

A temperature controller 320 for controlling the operation of the heating unit 300 and checking the temperature of the test solution is installed on the front of the door 610, and a power switch for controlling power supply to the heating unit 300 ( 612) is installed.

The test solution from which the dissolved oxygen stored in the solution storage tank 110 is removed is heated by a heating unit 300 to a temperature suitable for the test temperature before being supplied to the corrosion test equipment. The operation of the heating unit is controlled by the temperature controller 320. Therefore, the temperature controller 320 for controlling the operation of the heating unit and the power switch 612 for supplying power must be easily operated. To this end, a temperature controller and a power switch are installed in the front of the door.

A nitrogen flow meter 613 for measuring the flow rate of nitrogen is installed on the front of the door 610.

A certain amount of nitrogen should be supplied to the solution storage tank 110 in which the test solution is stored. Therefore, a nitrogen flow meter 613 for displaying the nitrogen flow rate is installed in the door 610. The operator needs to check the amount of nitrogen supplied to the solution storage tank, and this can be observed with the naked eye through the nitrogen flow meter.

A power ON/OFF switch 614 for controlling main power supply is installed on the front of the door 610, a pump ON/OFF switch 615 for controlling the supply pump operation is installed, and A lamp 616 is installed to check whether the test solution in the storage tank 110 is at a low level.

The solution storage tank 110 is equipped with a water level measuring device for measuring the level of the test solution. Therefore, when the water level measuring device detects the water level inside the solution reservoir and falls below a certain level, the lamp 616 is operated, and through this, it can be confirmed that the test solution is in a low water level.

The nitrogen supply unit 200 includes a nitrogen storage tank 210 installed outside the chamber 600; A nitrogen supply pipe 220 connected between the nitrogen storage tank 210 and the solution storage tank 110; And a nitrogen supply valve 230 installed at one side of the nitrogen supply pipe 220 to supply or block nitrogen in the nitrogen storage tank 210 to the solution storage tank 110.

The nitrogen supply pipe 220 passes through the solution storage tank 110 and extends along the bottom of the solution storage tank, and a plurality of discharge holes 221 are formed.

Oxygen contained in the test solution stored in the solution storage tank 110 is removed by nitrogen supplied from the nitrogen storage tank 210. That is, the nitrogen stored in the nitrogen storage tank is supplied to the solution storage tank through the nitrogen supply pipe 220, and the amount of dissolved oxygen in the test solution gradually decreases as nitrogen is bubbled. At this time, the dissolved oxygen amount can be checked through the dissolved oxygen measuring unit.

Nitrogen discharged to the solution storage tank through the discharge hole 221 of the nitrogen supply pipe 220 is supplied to the solution storage tank, and the gas generated in the process of removing oxygen by nitrogen is discharged to the outside through the gas outlet 120 do. The test solution from which dissolved oxygen has been removed is supplied to the corrosion test equipment through the test solution supply unit 400. On the other hand, nitrogen supplied through the nitrogen supply pipe is bubbled by the discharge hole 221 to remove dissolved oxygen and evenly transfer heat generated from the heating unit.

As shown in FIG. 5, the heating unit 300 includes a heating device 310 installed inside the test solution manufacturing unit 100 to transfer heat; And a temperature controller 320 for controlling the operation of the heating device 310.

In the conventional test solution supplying device, in order to control the test temperature, the test solution is first put into the corrosion test equipment, and the test temperature is controlled in a water bath method by a thermostat connected to the corrosion test equipment. Therefore, there is a slight difference depending on the season, but there is a problem in that it takes about 1 hour to 1 hour 30 minutes to increase the test temperature by about 15 ~ 20 ℃. To solve this, the present invention is supplied in a heated state by the heating unit 300 to a predetermined test temperature prior to supplying the test solution from which dissolved oxygen has been removed to the corrosion test equipment, thereby increasing the process time. By shortening it, the test accuracy can be greatly improved.

The heating device 310 is for transferring heat to the inside of the solution storage tank 110 to increase the temperature of the test solution accommodated in the solution storage tank, and a heating wire, a heater, a thermoelectric element, etc. can be used, and exhibiting the same purpose and effect. It can be used by replacing it with a heating device.

The test solution supply unit 400 includes a test solution supply pipe 410 connected to one side of the test solution preparation unit 100 to supply the test solution to the outside; A supply pump 420 installed at one side of the test solution supply pipe 410 to pump the test solution; And a supply hose 430 connected to the test solution supply pipe 410.

When the supply pump 420 is operated after the removal of dissolved oxygen is completed in the test solution manufacturing unit 100, the test solution stored in the test solution manufacturing unit 100 is tested for corrosion through the test solution supply pipe 410 and the supply hose 430. Supplied to the equipment.

Since the supply hose is made of a flexible synthetic resin material, when the distance between the test solution manufacturing unit and the corrosion test equipment is long, the supply hose can be pulled and easily extended toward the corrosion test equipment.

At one side of the supply hose 430, a solution flow meter 431 is installed to measure the flow rate of the test solution supplied to the corrosion test equipment.

That is, it is possible to accurately grasp the flow rate of the test solution supplied to the test corrosion equipment through the flow meter.

One side of the test solution supply pipe 410 is connected to a drain pipe 411 for draining the test solution remaining in the solution storage tank 110 of the test solution preparation unit 100 to the outside, and one side of the drain pipe 411 In the drain valve 412 is installed.

Therefore, when the test solution remains in the solution storage tank 110 after supplying the test solution to the corrosion test equipment, the drain valve 412 is opened to discharge the test solution remaining in the solution storage tank to the outside.

The present invention includes a water level measuring device 700 installed inside the test solution preparation unit 100 to measure a change in water level of the test solution and transmit a signal to the temperature controller 320 of the heating unit 300.

The water level measurement device 700 is for measuring the level of the test solution stored in the solution storage tank 110, and a level sensor or the like may be used, and may be replaced with a sensor that has the same purpose and effect. .

The water level measuring device 700 is a contact-type device that is turned on when the water level in the solution storage tank falls below a specific water level required for safe operation of the device, and is turned off above that.

In general, the cause of overheating of the heating device occurs when it is operated without the test solution. In order to prevent this, the present invention interlocks the water level measuring device 700 and the heating part 300 to each other, so that when the test solution stored in the solution storage tank falls below a certain level, the heating device 310 is Make sure it doesn't work.

As shown in Figure 6, the present invention is installed on one side of the nitrogen supply pipe 220 to measure the pressure change of nitrogen supplied to the inside of the solution storage tank 110, the signal to the temperature controller 320 of the heating unit 300 It includes a pressure measuring device 800 for transmitting.

The pressure measuring device 800 is for measuring the pressure change of nitrogen supplied to the inside of the solution storage tank 110, and a pressure switch or the like may be used, and may be replaced with a device that exhibits the same purpose and effect. have.

The pressure measuring device 800 is installed in the nitrogen supply pipe, and detects when the nitrogen pressure of the nitrogen supply pipe falls below a preset pressure, and is turned on when the nitrogen pressure falls below a preset pressure, and is turned off above that. .

In the present invention, the pressure measuring device 800 and the heating unit 300 are interlocked so that the heating device 310 is not operated when the nitrogen pressure in the nitrogen supply pipe falls below the set pressure.

On the other hand, in the corrosion test solution supply device according to the present invention, the prevention of overheating of the heating device 310 can be prevented with only the water level measuring device 700, but the heat around the heating device is purged with nitrogen in the test solution. It delivers evenly and prevents temperature rise in only a small part.

That is, if the pressure of nitrogen falls below the set value, the heating device does not operate, and thus the test temperature of the test solution cannot be increased.

As such, the present invention measures the level of the test solution by a water level measuring device installed inside the solution reservoir, measures the nitrogen pressure by a pressure measuring device installed at one side of the nitrogen supply pipe, and automatically operates the heating device based on the measured signal. By controlling, the heating device can be safely managed.

The present invention has been described with reference to the accompanying drawings, but it is apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the present invention from this description. Accordingly, the scope of the invention should be interpreted by the claims set forth to include examples of such many modifications.

100: test solution manufacturing unit 110: solution storage tank
111: lid 120: gas outlet
200: nitrogen supply unit 210: nitrogen storage tank
220: nitrogen supply pipe 221: discharge hole
230: nitrogen supply valve 300: heating part
310: heating device 320: temperature controller
400: test solution supply part 410: test solution supply pipe
411: drain pipe 412: drain valve
420: supply pump 430: supply hose
431: solution flowmeter 500: support frame
510: wheel 600: chamber
610: door 612: power switch
613: nitrogen flow meter 614: power ON/OFF switch
615: pump ON/OFF switch 616: lamp
620: switchboard 630: hook
640: dissolved oxygen measuring unit 641: sensing cable
642: dissolved oxygen measurement sensor 643: display
650: mobile handle 700: water level measuring device
800: pressure measuring device

Claims (10)

Test solution manufacturing unit 100 in which the test solution is stored therein;
A nitrogen supply unit 200 connected to one side of the test solution preparation unit 100 and supplying nitrogen to the test solution preparation unit 100;
A heating unit 300 installed on one side of the test solution preparation unit 100 and heating the test solution from which dissolved oxygen has been removed by nitrogen to a set test temperature in the test solution preparation unit 100; And
Includes; a test solution supply unit 400 connected to one side of the test solution preparation unit 100 and supplying the test solution prepared by the test solution preparation unit 100 to the outside,
The nitrogen supply unit 200 includes a nitrogen storage tank 210 installed outside the chamber 600, a nitrogen supply pipe 220 connected between the nitrogen storage tank 210 and the solution storage tank 110, and the nitrogen supply pipe 220 It is installed on one side of the nitrogen storage tank 210 and includes a nitrogen supply valve 230 for supplying or blocking nitrogen in the solution storage tank 110,
The heating unit 300 includes a heating device 310 installed inside the test solution manufacturing unit 100 to transfer heat, and a temperature controller 320 for controlling the operation of the heating device 310,
And a water level measuring device 700 installed inside the test solution manufacturing unit 100 to measure a change in the level of the test solution and transmit a signal to the temperature controller 320 of the heating unit 300,
Includes a pressure measuring device 800 installed at one side of the nitrogen supply pipe 220 to measure the pressure change of nitrogen supplied into the solution storage tank 110 and transmit a signal to the temperature controller 320 of the heating unit 300 And
The water level measuring device 700 and the heating part 300 are interlocked to each other so that the heating device 310 is not operated when the test solution stored in the solution storage tank falls below a certain level, and the pressure is measured. Corrosion test solution supply device, characterized in that the heating device 310 is not operated when the nitrogen pressure of the nitrogen supply pipe falls below the set pressure by interlocking the device 800 and the heating part 300 with each other.
The method according to claim 1,
The test solution preparation unit 100 is a corrosion test solution supplying device, characterized in that the space is formed therein, and comprises a solution storage tank 110 in which the lid 111 is opened and closed at the top.
The method according to claim 1,
The test solution preparation unit 100 and the nitrogen supply unit 200 are installed on a support frame 500 that is movable by a wheel 510,
A corrosion test solution supply device, characterized in that a storage space is formed in the upper part of the support frame 500, and a chamber 600 in which the door 610 is opened and closed is installed in the front.
The method of claim 3,
A corrosion test solution supplying device, characterized in that a dissolved oxygen measuring unit 640 for checking the amount of dissolved oxygen in the test solution stored in the solution storage tank 110 is installed on the front of the door 610.
The method of claim 3,
A temperature controller 320 for controlling the operation of the heating unit 300 and checking the temperature of the test solution is installed on the front of the door 610, and a power switch for controlling power supply to the heating unit 300 ( 612) is installed, characterized in that the corrosion test solution supply device.
delete delete The method according to claim 1,
The test solution supply unit 400 includes a test solution supply pipe 410 connected at one side to the test solution preparation unit 100 to supply the test solution to the outside;
A supply pump 420 installed at one side of the test solution supply pipe 410 to pump the test solution; And
Corrosion test solution supply device comprising a; supply hose 430 connected to the test solution supply pipe (410).
delete delete

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