KR101050825B1 - Defoamer Performance Tester - Google Patents

Abstract

The present invention relates to a performance tester for antifoaming agent, which is reliable by circulating a fluid at an appropriate temperature and measures the amount of defoaming so as to be similar to the actual use environment. To provide.

The present invention is to form a space therein to accommodate the fluid, at least one of the side wall portion is formed of a transparent material to be observed from the outside, the transparent side wall portion is a scale (111) to measure the amount of bubbles ) Is formed, and the inner tank 110 for dividing the internal space from side to side is formed in the inclined in one direction; A fluid supply pipe 120 for supplying a fluid to an internal space of the water tank 110; A fluid discharge tube 130 for discharging the fluid contained in the internal space of the water tank 110; A circulation pump (140) configured between the fluid supply pipe (120) and the fluid discharge pipe (130) to circulate the fluid; A heater unit 150 arranged in a hermetic space at the lower side of the water tank 110 to generate a heating operation when power is supplied; Adjusting unit 160 for controlling the operation of the circulation pump 140 and the heater unit 150; and comprises a distance, the distance between the end of the fluid supply pipe 120 and the fluid contained in the water tank 110 The first bubble is generated by the falling drops when the fluid is supplied, and the second bubble is caused by another drop between the inner wall portion 112 and the fluid in the process of moving the fluid beyond the inner wall portion 112 to the adjacent space. Characterized in that is generated.

Defoamer, performance tester, circulation pump, heater

Description

Testing device of defoamer compositions

The present invention relates to an apparatus for testing the performance of an antifoaming agent, and more particularly, in a configuration in which bubbles are generated by repetition of forced dropping and circulation of a fluid, when a variety of antifoaming agents are added, It relates to a performance test apparatus.

In general, a chemical used to remove harmful bubbles formed in a fluid is called an antifoaming agent. Such defoamers are being researched to provide more improved performance, and the defoamers that have been researched and developed are determined to be used as defoamers after a test process by a predetermined method.

In the conventional antifoaming performance test method, by receiving the fluid in the glass container hollow inside and shaking through the shaker device to generate air bubbles at this time, the foaming agent can be added and shaken to generate air bubbles, and then the antifoaming agent is added to the antifoaming performance. To measure.

However, the conventional antifoaming performance test method described above is performed in a state in which no fluid flows, which is different from most environments in which actual fluid is used, and thus, accurate test results could not be obtained.

In addition, the non-circulating fluid has a problem that it is impossible to measure the sustained force of the generated bubbles and continuously breaks, thus making it difficult to calculate accurate data.

In addition, since the bubble amount of the fluid also affects the temperature of the fluid, in order to accurately test the performance of the antifoaming agent, a temperature control function of the fluid was also required, but such a function could not be realized in the conventional configuration.

Accordingly, an object of the present invention is to provide a performance testing apparatus for an antifoaming agent which is devised to solve the above-mentioned problems of the prior art, which is reliable in results and can standardize a method.

In addition, another object of the present invention is to provide an apparatus for testing the performance of the antifoaming agent capable of measuring the amount of defoaming by circulating a fluid at an appropriate temperature so as to be similar to the actual use environment.

As a technical means for achieving the above object, the present invention is to form a space therein to accommodate the fluid, at least one side wall portion is formed of a transparent material to be observed from the outside, the transparent side wall portion A scale having a scale to measure the amount of bubbles, and an inner wall of which has an inner wall portion inclined in one direction to divide the internal space from side to side; A fluid supply pipe for supplying a fluid to an inner space of the tank; A fluid discharge pipe for discharging the fluid contained in the inner space of the tank; A circulation pump configured between the fluid supply pipe and the fluid discharge pipe to circulate the fluid; A heater unit in which heat wires are arranged in an airtight space at a lower side of the tank to generate heat during power supply; The control unit for controlling the operation of the circulation pump and the heater unit; and comprises a spaced distance between the end of the fluid supply pipe and the fluid contained in the water tank to generate a primary bubble due to falling drops during fluid supply In the process of moving the fluid beyond the inner wall to the adjacent space, the secondary bubble is generated by another fall between the inner wall and the fluid.

Preferably, the inner wall portion is formed at a position spaced upwardly from the inner bottom surface of the water tank, the fluid flows to the lower side of the inner wall portion is characterized in that the bubble moves to the upper side of the inner wall portion.

According to the performance test apparatus of the antifoaming agent according to the present invention, since the amount of defoaming is measured in a state in which the fluid is heated and circulated so as to be similar to the execution environment, the reliability of the result is improved.

In addition, in the process of supplying the fluid in the tank, there are also effects that can generate and maintain sufficient bubbles by two forced drops.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing a performance tester of the antifoaming agent according to the present invention, Figure 2 is a front sectional view, Figure 3 is a plan view.

1 to 3, the test apparatus 100 according to the present invention includes a water tank 110 in which fluid is accommodated, and a fluid supply pipe 120 for supplying and discharging fluid to the water tank 110. And a fluid discharge pipe 130, a circulation pump 140 for circulating fluid between the fluid supply pipe 120 and the fluid discharge pipe 130, and a heater 150 for maintaining a proper temperature in the water tank 110. And, it comprises a control unit 160 for controlling the operation of the circulation pump 140 and the heater unit 150.

The water tank 110 is formed in the space to accommodate the fluid, at least one side wall portion is formed of a transparent material to be observed from the outside, the scale 111 in the vertical and horizontal direction on the transparent side wall portion It was possible to measure the amount of bubbles generated by the formation.

The inner wall part 112 for dividing the inner space of the water tank 110 from side to side at a predetermined distance upwardly from the bottom of the inner space in which the fluid is accommodated in the water tank 110 is formed. ) Forms an inclination angle in one direction and has an inclined form. That is, primary bubbles are generated in the one space around the inner wall portion 112 by the dropping of the fluid from the fluid supply pipe 120, and the bubbles are moved to the adjacent space beyond the inclined inner wall portion 112. Another drop is made in the course of bubbles and fluids passing through the inner wall portion 112, thereby generating secondary bubbles. As described above, the test apparatus 100 according to the present invention is capable of generating sufficient bubbles.

In addition, another space is formed on the bottom of the space in which the fluid is accommodated in the water tank 110, which may control the experimental temperature of the fluid by receiving the heater unit 150 to be described later.

The fluid supply pipe 120, the fluid discharge pipe 130, and the circulation pump 140 circulate the fluid contained in the water tank 110, and the water tank 110 from the fluid discharge pipe 130 connected to the inner bottom of the water tank 110. ) Is to discharge the fluid contained in the inside, the discharged fluid is re-supplied to the water tank 110 through the fluid supply pipe 120, but a predetermined drop is formed between the water tank 110 and the end of the fluid supply pipe 120 fluid Bubbles are generated from the water surface when falling. In addition, the discharge and supply process of the fluid is made by the driving of the circulation pump 140.

The heater unit 150 is formed in the airtight space at the lower side of the water tank 110, and the heating wires 151 are arranged to generate heat when the operating power is supplied, and the heat is transferred to the fluid contained in the water tank 110. It is possible to artificially form the proper temperature of the fluid for the experiment.

The adjusting unit 160 applies or controls operating power to the circulation pump 140 and the heater unit 150, and adjusts the driving environment to satisfy various experimental conditions.

The performance tester of the antifoaming agent having the above configuration is tested by the following procedure. Figure 4 is a state diagram showing the operation of the antifoaming performance tester according to an embodiment of the present invention.

First, after receiving the fluid in the water tank 110 to operate the circulation pump 140 so that the fluid is discharged through the fluid discharge pipe 130 and the recirculation process is supplied through the fluid supply pipe 120 is made.

In this case, the fluid supply pipe 120 is fixed at a position spaced upwardly from the water tank 110, and the fluid dropped in the fluid supply process due to a predetermined drop formed between the fluid supply pipe 120 and the water tank 110 forms bubbles. To generate.

In addition, the inner wall portion 112 that divides the left and right spaces are formed at an angle inside the water tank 110, and bubbles and fluids generated by the first drop are moved beyond the inner wall portion 112 to the adjacent space while being inclined at an angle. By dropping the car will improve the effect of bubble generation.

Preferably, a blowing agent may be added to improve the foaming performance of the fluid.

Measure the height of the bubbles generated by repeating the bubble generation operation as described above through the graduation 111 formed on the side wall of the water tank 110, and observed the bubbles are reduced by repeating the cycle after administering the antifoaming agent to the fluid Will be measured again.

By repeating the above process, the performance of various antifoaming agents can be measured by a reliable method.

As described above, although the technical idea of the present invention has been described with reference to the preferred embodiments, those skilled in the art will be able to vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified and changed.

1 is a front view showing the performance test apparatus of the antifoaming agent according to the present invention,

Figure 2 is a front sectional view showing a performance tester of the antifoaming agent according to the present invention,

3 is a plan view showing the performance test apparatus of the antifoaming agent according to the present invention,

4 is a state diagram showing the operation of the performance test apparatus of the antifoaming agent according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: test apparatus 110: water tank

111: graduation 112: inner wall portion

120: fluid supply pipe 130: fluid discharge pipe

140: circulation pump 150: heater

160: control unit

Claims (2)

At least one sidewall portion is formed of a transparent material for viewing from the outside, and a scale 111 is formed at the transparent sidewall portion to measure the amount of bubbles. The inner tank 112 for dividing the inner space to the left and right is formed in an inclined form in one direction; A fluid supply pipe 120 for supplying a fluid to an internal space of the water tank 110; A fluid discharge tube 130 for discharging the fluid contained in the internal space of the water tank 110; A circulation pump (140) configured between the fluid supply pipe (120) and the fluid discharge pipe (130) to circulate the fluid; A heater unit 150 arranged in a hermetic space at the lower side of the water tank 110 to generate a heating operation when power is supplied; It comprises a; control unit 160 for controlling the operation of the circulation pump 140 and the heater unit 150, Primary air bubbles are generated by falling drops when the fluid is supplied by forming a spaced distance between the end of the fluid supply pipe 120 and the fluid accommodated in the water tank 110, and the fluid passes over the inner wall portion 112 to an adjacent space. Performance test apparatus of the antifoaming agent, characterized in that the secondary bubble is generated by another falling between the inner wall portion 112 and the fluid during the movement. The method of claim 1, The inner wall portion 112 is formed at a position spaced upwardly from the inner bottom surface of the water tank 110, the fluid flows to the lower side of the inner wall portion 112 and bubbles are above the inner wall portion 112. An apparatus for testing performance of antifoaming agent, characterized in that it moves.

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