KR20090040510A - Continuous flow-through system for test solution preparation - Google Patents

Abstract

A continuous flow-through system for preparing test solution is provided to supply a testing material of the fixed concentration by using a mixer even when existing chemical substance or new materials are not stable in the water solution condition. A continuous flow-through system for preparing test solution comprises a water tub(16) storing the diluted solution(water)(12); a test material solution container(17) storing the test material solution(13); the first mixing container(14) which mixes the diluted solution and test material solution by using a mixer; a pump(11) supplying the test material solution stored in the test material solution container to the first mixing container with the predetermined amount; and a controller(18) which controls the pump in order to supply the desired concentration of the test material solution.

Description

Continuous flow-through system for test solution preparation

The present invention relates to a flow-type test solution preparation device, and more specifically, it is possible to secure a quantitative concentration of dilution water (water) and a test substance solution (stock solution) by using a flow meter and a pump. The test solution is identified by first mixing dilution water (water) supplied to the mixing vessel with a test solution using a stirrer and dropping the mixture into a second mixing vessel to perform a second mixing. It relates to a flow-type test solution preparation device which is made in a concentration and then continuously supplied through the outlet of the second mixing container.

New damage caused by the increase of harmful substances due to industrialization (e.g. environmental hormone risk), ecological damage caused by the increase of waste or pesticides, which are the source of water pollution, serious severity of residual pesticides in food, heavy metal contamination in the soil, etc. Due to this, the human body and the environment are under threat.

As such, monitoring the harmfulness of chemicals that adversely affect the human body and the environment has emerged as a very important and urgent task.

Currently, there are more than 80,000 chemicals used domestically and internationally. Thousands of new substances are used each year as raw materials for food, medicine, cosmetics, medical equipment, etc. Toxic effect of these substances on the human body and the environment It is very important to accurately identify the level of exposure and exposure.

As a field to secure the safety of such chemicals, there is an environmental hazard assessment, and there are known environmental toxicity-related test items required for this purpose, and the test items are almost directly or indirectly dangerous to humans and environmental organisms. To test and analyze the possibilities.

Through this environmental hazard assessment, all data related to exposure, degradation rate, concentration rate, and toxicity are tested and analyzed, and the result is aggregated to obtain a reasonable evaluation of a single compound. Can be.

In order to diagnose these environmental hazards early and respond quickly, a wide range of environmental monitoring methods are required. Toxicity is tested in several ways using recombinant microorganisms, luminescent bacteria or yeast, or enzymes. They mainly measure the hazard by optical methods.

To protect the ecosystem from the chemicals or environmental pollutants and to promote sustainable development, we conduct toxicity tests of aquatic organisms (fish, daphnia, etc.) and terrestrial organisms on industrial chemicals, pesticides, veterinary medicines and pharmaceuticals. In addition, research is being conducted in parallel.

All test items are conducted in accordance with the test methods of each country, such as OECD test guideline and the test guideline of USA, Japan and Europe.

The most important feature of the toxicity assessment for aquatic organisms is that it has an indirect route of administration that dissolves the test substance (test substance solution) in water and moves it into the organism.

However, the exposure method is a static test that does not replace the test solution during the test period, a semistatic test in which the entire amount of the test solution is exchanged at regular intervals during the test period, and the test solution is continuously changed during the test period. It is important to select the most appropriate exposure route for each material because it varies with flow-through tests.

In addition, the flow-through formula is manufactured manually by hand to maintain the concentration of the test substance when the test substance is not stable in the aqueous solution (water) state, it is difficult to reduce the precision and continuous supply.

The present invention has been made in view of the above point, the dilution water (water) and the test substance solution is administered to the first mixing vessel, the flow rate of the dilution water can be detected by using a flow meter to adjust the correct dosage , By controlling the pump through the controller to calculate the supply amount of the test substance solution per unit time and automatically supply, mix the dilution water and the test substance solution in the correct amount into the first mixing vessel with a stirrer, and the outlet of the first mixing vessel By dropping the mixed solution into the second mixing container through the mixing once more to make a test solution of a constant concentration, it is possible to continuously supply a certain concentration of the test solution through the outlet of the second mixing container, the hazardous standard of a specific chemical The objective is to provide a flow-type test solution preparation device that can be used to verify concentration and anti-numerical concentrations.

In the present invention for achieving the above object in the flow-type test solution preparation device,

A water tank storing dilution water (water); A test substance solution container storing a test substance solution; A first mixing vessel supplied with a predetermined amount of dilution water (water) from the water tank, a predetermined amount of test substance solution supplied from the test substance solution container, and mixed using a stirrer; A pump for supplying a test substance solution stored in the test substance solution container to a first mixed container in a predetermined amount; And a controller configured to control the pump to supply the test substance solution to a desired concentration by calculating the solution supply amount per unit time. The test solution of a specific concentration is configured and continuously supplied through the first mixing vessel. It is done.

In a preferred embodiment, the lower portion of the tank is formed with a drain, characterized in that the flow meter and the flow control valve is installed to discharge the dilution water stored in the tank in a certain amount.

In a more preferred embodiment, the stirrer is a vertical rod installed in the vertical direction in the inner center of the first mixing vessel, a stirring blade coupled radially from the lower end of the vertical rod, and to the vertical rod to rotate the stirring blade It characterized in that it comprises a connected motor for stirring.

In addition, inside the first mixing container, water level sensors of different lengths are installed such that the upper end is located at a different height on the same line in order to measure the level of the mixed solution in which the dilution water and the test substance solution are mixed by a stirrer. It is characterized by.

In addition, a first discharge port is formed at a lower end of the first mixing vessel, a solenoid valve controlled by a controller is installed at the first discharge port, and the controller receives a detection signal from a water level sensor and the level of the mixed liquid is a predetermined height. In the above case, the solenoid valve is opened, and the solenoid valve is closed when the level of the mixed liquid is less than the predetermined height.

In particular, a second mixing vessel is installed at a lower portion of the first mixing vessel, a plurality of second outlets are installed at a lower end of the second mixing vessel, and the second mixing vessel is a first mixing vessel through a first outlet. Wherein the mixed solution is supplied, the mixed solution is mixed once more falling into the mixed solution on the bottom of the second mixing vessel, characterized in that the supply of a constant concentration of the test solution through the second outlet.

In addition, the first mixed container is provided in plurality in the lower portion of the tank to make a test solution of various concentrations, by receiving a different amount of test material solution from the plurality of test material solution containers using a pump, It is characterized in that the same amount of dilution water (water) is supplied and mixed at different concentrations.

As seen above, according to the flow-type test solution preparation device according to the present invention, even if the existing chemical or newly developed material is not stable in the aqueous solution state can be supplied to the test material of a constant concentration using a stirrer.

In addition, the flow rate of the dilution water can be precisely controlled by using a flow meter, and the amount of dilution water and the test substance solution is continuously and precisely controlled by accurately controlling the supply amount of the test substance solution per unit time through a pump controlled by the controller. However, the test solution can be continuously supplied at a constant concentration.

In addition, since the dissolved oxygen in the solution can be maintained through the continuous supply of the test solution, there is no need to install an oxygen supply.

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

1 is a block diagram showing the flow-type test solution preparation device according to an embodiment of the present invention.

The present invention has the main point that through the flow meter 10 and the pump 11 can accurately control the amount of dilution water and the test substance solution, to ensure a constant supply of the test solution of a constant concentration.

One embodiment of the present invention is a device for continuously supplying a controlled amount of the test substance to a specific concentration.

For example, in the case of producing a 6% alcohol solution, in a conventional laboratory, 94 ml of water and 6 ml of alcohol (purity: 100%), a stock solution, were added to a beaker and mixed well with a stirring bar. The invention does not make a test solution by hand, but precisely adjusts the water (12) and the test material solution (13) into the first mixing vessel (14) to mix well using the stirrer (15), and then the outlet To ensure continued supply.

One embodiment of the present invention can be used to determine the harmful standard (harmful concentration) of a particular chemical, or to determine the concentration of half-fish (that is, half of the fish die) of fish, such as trout, loach.

In addition, when the existing chemicals or newly developed materials are not stable in the aqueous solution state, it is possible to supply a test solution of a certain concentration through the present invention.

One embodiment of the present invention limited the water 12 to dilution water, but other solutions are possible. The dilution water (water) is stored in a water tank 16 having a predetermined internal volume, and a drain hole is formed under the water tank 16.

One end of the water supply tube is coupled to the drain so that a predetermined amount of water 12 may be supplied to the first mixing vessel 14, and the other end of the water supply tube is connected to the inside of the first mixing vessel 14. do.

A test substance solution (17) containing the test substance solution (13) supplied to the first mixed container (14) by using the pump (11), and a predetermined amount of test substance solution (13) is contained as the pump (11) operates. ) And the test substance solution 13 is sucked and supplied to the first mixing vessel 14.

One end of the solution suction tube is connected to the inside of the test substance solution container 17, and the other end of the solution suction tube is coupled to the suction port of the pump 11. One end of the solution supply tube is coupled to the outlet of the pump 11, and the other end of the solution supply tube is connected to the inside of the first mixing container 14.

The pump 11 is controlled by the controller 18, the controller 18 is driven by a PC 19 with a built-in drive program, the drive program is a test material per unit time to accurately adjust the concentration of the test material It is configured to calculate the solution supply amount, the test material solution 13 is introduced into the first mixing vessel 14 in the correct amount through the pump (11).

In addition, a flow meter 10 capable of measuring the flow rate of the water 12 is installed in the drain port of the water tank 16, and a flow rate control valve capable of adjusting the flow rate of the water 12 is provided. The amount of water 12 is supplied to the first mixing vessel 14 by adjusting the flow regulating valve according to the flow rate of.

For example, by setting the flow rate control valve to flow 96ml of water 12 per unit time, and by setting the suction of 6ml alcohol per unit time through the pump 11, the first mixing vessel 14 of the correct amount By supplying water (12) and the test substance solution (13) it is possible to make a test solution of a certain concentration.

The water 12 and the test substance solution 13 introduced as described above are mixed through the stirrer 15, and the stirrer 15 is a vertical rod installed in the vertical direction in the inner center of the first mixing vessel 14, and a vertical rod of It is composed of a stirring blade installed in the radial direction at the bottom, and a stirring motor 20 connected to the upper end of the vertical rod, and the blade is rotated together while the vertical rod is rotated as the motor 20 is driven.

The first mixing vessel 14 is provided with a water level sensor (21a ~ 21c) for detecting the water level of the water 12 and the test substance solution 13 is introduced into the container, which is usually a different level sensor (21a) 21c) Three are installed in parallel in the vertical direction. At this time, the upper end of each level sensor (21a ~ 21c) is located on the same line, the lower end of the water level sensor (21a ~ 21c) are located differently to detect the level of the mixed liquid 24 stored in the first mixing vessel (14) do.

A first outlet is formed at the lower end of the first mixing vessel 14, and the first outlet is connected to the inside of the second mixing vessel so that the mixed liquid 24 falls into the second mixing vessel 23 through the first outlet. The solenoid valve 22 is provided in the 1st discharge port.

The solenoid valve 22 is controlled by the controller 18, the controller 18 receives the detection signal from the water level sensor 21, when the water level is high, the solenoid valve 22 is opened to the mixture liquid 24 is the second The mixing container 23 is introduced, and if the water level is low, the solenoid valve 22 is closed to rotate the blade for stirring until the water is filled at a predetermined level in the first mixing container 14 so that proper mixing is achieved.

A plurality of second outlets are formed at the lower end of the second mixing vessel 23, a shutoff valve for opening and closing is installed at the second outlet, and a predetermined amount of the mixed liquid 24 is provided in the second mixing vessel 23 by the shutoff valve. Can be kept filled.

Therefore, as the mixed pressure introduced through the first outlet falls, the effect of mixing the mixed liquid 24 laid on the bottom of the second mixed container 23 once again can be obtained, and the second mixed through the second outlet. The mixed liquid 24 of the container can be continuously supplied at a constant concentration.

In addition, it is possible to maintain the amount of dissolved oxygen in the solution through the continuous supply of test solution, there is no need to install an oxygen supply separately.

Figure 2 is a flow-type test solution preparation device according to another embodiment of the present invention, the suction using the pump (11) from different test material solution containers (27a ~ 27d) to supply a test solution of various concentrations, respectively The structure which supplies to the other 1st mixing containers 24a-24d using the pump 11 is shown.

At this time, each of the first mixing vessel (24a ~ 24d) is supplied with the same amount of water 12 from the water tank (16), different amounts of test substance solution (13) from the pump (11) to various concentrations The test mixture is mixed with each other, and a constant concentration of test substance is supplied through different outlets.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to these embodiments, and has been claimed by those of ordinary skill in the art to which the invention pertains. It includes all the various forms of embodiments that can be carried out without departing from the spirit.

1 is a block diagram showing a flow-type test solution preparation device according to an embodiment of the present invention,

Figure 2 is a schematic diagram for explaining the flow-type test solution preparation device according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: flow meter 11: pump

12: dilution water (water) 13: test solution

14,24a ~ 24d: first mixing vessel 15: stirrer

16: water tank 17,27a ~ 27d: test material solution container

18: controller 19: PC

20: stirring motor 21: water level sensor

22: solenoid valve 23: second mixing vessel

25: mixed liquid

Claims (7)

In the flow type test solution preparation device, A water tank storing dilution water (water); A test substance solution container storing a test substance solution; A first mixing vessel supplied with a predetermined amount of dilution water (water) from the water tank, a predetermined amount of test substance solution supplied from the test substance solution container, and mixed using a stirrer; A pump for supplying a test substance solution stored in the test substance solution container to a first mixed container in a predetermined amount; A controller for controlling the pump to supply the test substance solution at a desired concentration by calculating the test substance solution supply amount per unit time; It is configured to include, flow-through test solution preparation device characterized in that to continuously supply a test solution of a certain concentration through the first mixing vessel. The method according to claim 1, A drainage port is formed in the lower part of the water tank, and the water flow type test solution preparation device, characterized in that a flow meter and a flow control valve is installed to discharge the dilution water (water) stored in the water tank in a certain amount. The method according to claim 1, The stirrer includes a vertical rod installed in a vertical direction in the inner center of the first mixing vessel, a stirring blade coupled radially from the lower end of the vertical rod, and a stirring motor connected to the vertical rod to rotate the stirring blade. Flow-type test solution preparation device, characterized in that. The method according to claim 1, In order to measure the level of the mixed solution in which the dilution water (water) and the test substance solution are mixed by a stirrer, level sensors having different lengths are installed in the first mixing vessel so that the upper end is located at the same height at the lower end. Flow-type test solution preparation device, characterized in that. The method according to claim 4, A first outlet is formed at a lower end of the first mixing vessel, a solenoid valve controlled by a controller is installed at the first outlet, and the controller receives a detection signal from a water level sensor and the level of the mixed liquid is above a predetermined height. And the solenoid valve is opened, and the solenoid valve is closed when the level of the mixed liquid is less than a predetermined height. The method according to any one of claims 1 to 5, A second mixing vessel is installed at a lower portion of the first mixing vessel, a plurality of second outlets are installed at a lower end of the second mixing vessel, and the second mixing vessel is mixed in the first mixing vessel through the first outlet. The mixed solution is supplied, but the mixed solution falls into the mixed solution laid on the bottom of the second mixing vessel is mixed once more, flow-type test solution preparation, characterized in that continuously supplying a test solution of a constant concentration through the second outlet Device. The method according to any one of claims 1 to 5, The first mixed container is provided in plurality in the lower portion of the water tank to make a test solution of various concentrations, by receiving a different amount of test material solution from a plurality of test material solution containers using a pump, the same amount from the water tank Flow-type test solution preparation device, characterized in that mixed with different concentrations receiving the dilution water (water).

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