KR100773494B1 - Bag-typed reaction container for analysis of water quality - Google Patents

Abstract

A bag-typed reaction container for analyzing water quality is provided to perform an accurate and exact environment test and be very portable. A bag-typed reaction container for analyzing water quality(10) comprises an inlet(20) formed at the outside to inject sample into the container; at least one small-sized pack(12) installed at the inside and including a reaction inducing material for environmental test; a medium-size pack(14) for receiving the small-sized pack therein, an outlet(16) formed at one side of the container to discharge gas generated during the chemical reaction and a clip stopper(18) or a control valve mounted to the outlet to closely seal or control the gas inlet or outlet amount, wherein the small-sized pack comprises a transparent window equipped at one side of the pack to identify the reaction status and a non-transparent cover installed to shield the transparent window.

Description

Bag-typed reaction container for analysis of water quality

1 is an overall perspective view of the encapsulated reaction pack for water quality analysis of the present invention.

Figure 2 is a side view of the encapsulated reaction pack for water quality analysis of the present invention.

Figure 3 shows a cross-sectional view and a partial enlarged view of the encapsulated reaction pack for water quality analysis of the present invention.

Figure 4 shows the shape (a) of the rod or plate opening and closing means for opening the medium pack of the present invention and its use state (b).

5 shows a state in which a separate pressure reducer and a pressure reduction box are mounted in a sealed reaction pack for water quality analysis of the present invention.

Figure 6 shows the mounting state of the leaf spring-type filler in the sealed reaction pack for water quality analysis of the present invention.

The present invention relates to a reaction pack for water quality analysis, and more particularly, a sealed pack for water quality analysis that enables a simple and safe water quality analysis experiment by having a small pack including a reaction propellant for environmental experiments inside the reaction pack. It is about a reaction pack.

Environmental testing is the process of quantifying or qualitatively evaluating contaminants contained in the environment such as water, air, and soil, and includes dissolved oxygen (DO), biochemical oxygen demand (BOD), and chemical oxygen demand (COD). In addition to measuring and analyzing Chemical Oxygen Demand, it is common to measure and analyze human harmful substances such as heavy metals, chlorine, nitrogen, phosphorus, fluorine, ozone, and environmental hormones.

Environmental experiments are carried out through a variety of chemical reactions. The container for measurement analysis is generally made of chemical resistant glass or a rigid container. This is because an experimental liquid volume needs to be calibrated. use. These existing test vessels lack safety and have a high risk of breakage, so even those skilled in the experiment require special attention, and it is difficult and inconvenient to operate and carry containers during the test process.

In addition, in environmental experiments, some measurement items such as DO and BOD should be carried directly to the laboratory where the laboratory equipment is installed, and it is necessary to not include bubbles in the sample.

In addition, some analysis items require pretreatment from the time of sample collection to the time of experiment, which may cause a problem of carrying the necessary chemicals.

In addition, environmental experiments are often performed on a large number of samples, and inexperienced ones may also conduct environmental experiments. Existing glass apparatuses have structural limitations that make it difficult to reduce the cause of experimental errors and increase safety and convenience. I have it.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a sealed reaction pack for easy and accurate environmental experiments and portable water quality analysis.

In order to achieve the above object, the encapsulated reaction pack for water quality analysis of the present invention has an inlet for sample input on its outer surface, and the outer shape is a flexible pack form, which is installed inside the pack for environmental experiments. It characterized in that it comprises one or more small pack containing the reaction propellant.
Here, the small pack is provided with one or more to enable the step reaction, it is preferable to further include a medium pack for accommodating the small pack therein.
In addition, a plurality of the small pack is provided in the reaction pack, at least one small pack of the plurality of reaction pack is installed in the medium pack, the rest is preferably provided separately from the medium pack.
In addition, the small or medium pack, it is good to be able to move fluidly in the reaction pack.
In addition, the small or medium pack is preferably sealed in a non-reactive gas filled state or a vacuum state.
In addition, the small pack or the medium-sized pack, it is preferable that the opening part is opened on one side by the pressure.
In addition, the reaction pack and the small or medium pack, it is preferable that the molded or coated with a chemical resistance, biological resistance, heat resistance or pressure-resistant material.
In addition, the reaction pack is preferably formed with a discharge port for discharging the gas discharged during the chemical reaction on one side.
In addition, the reaction trigger is preferably a reagent or a microorganism.
In addition, the inlet may be equipped with a filter for pretreatment of the sample.
In addition, the reaction pack, a transparent window provided for checking the reaction state on one surface of the pack; Opaque cover is installed to block the transparent window; it is preferable to further include.
In addition, in the reaction pack, the mass of the reaction pack is displayed on one surface of the pack for calculating the sample volume, or a scale is displayed on the one surface of the pack.
In addition, the medium pack or the small pack is sealed with a rigid rod or plate having cutouts for opening at both top surfaces of the pack, and the cutout of the bar or plate is partially or completely broken by pressure, and the pack is opened. It is good to be.
Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the accompanying drawings, and includes the case of simple modifications and the like with the same technical spirit.
1 is an overall perspective view of an encapsulated reaction pack for water analysis according to an embodiment of the present invention, Figure 2 is a side view of the encapsulated reaction pack for water analysis according to an embodiment of the present invention. Figure 3 shows a cross-sectional view and a partial enlarged view of the sealed reaction pack 10 for water quality analysis according to an embodiment of the present invention, Figure 4 is a bar or plate opening and closing for the opening of the medium-pack according to an embodiment of the present invention The shape (a) and the state of use (b) of the means are shown, and FIG. 5 shows a separate pressure reducer 34 and a pressure reduction box 32 in the encapsulated reaction pack 10 for water quality analysis according to an embodiment of the present invention. ) Is shown, Figure 6 shows the plate spring type filler 38 is mounted on the encapsulation reaction pack 10 for water quality analysis according to an embodiment of the present invention.
The encapsulated reaction pack 10 for water quality analysis according to the embodiment of the present invention has a shape in which the inlet 20 for inputting a sample is formed on the outer surface of the pack as a pack shape having an external appearance. The reaction pack 10 is not limited to a specific shape as long as it is in the form of a bag in which a sample (water, gas) can be contained therein. It is good (FIG. 1, FIG. 2).
In addition, the inside of the pack is provided with one or more small pack 12 containing the reaction inducing body for the environmental experiment. The small pack 12 is preferably movable in the pack (FIG. 3), but may be attached in a fixed form to the reaction pack 10 as needed.
The small pack 12 provided inside the pack may include a plurality of small sized packs 12 individually provided in the pack, or one or more of the small packs 12 may enable a stepwise reaction. It may be provided inside the pack in the form embedded in the medium pack (14).
In addition, preferably, the small pack 12 may be provided inside one or more reaction packs 10 separately from the medium pack 14.
The encapsulated reaction pack 10 for water quality analysis of the present invention puts the sample to be tested through the inlet 20, closes the cap 26 of the inlet 20, and opens the small pack 12 inside the pack. By reacting the reactant and the sample, it is possible to react the sample and the reactant in a blocked state with the outside, there is an advantage that can be carried out an accurate experiment in a state that is almost unaffected by external factors.
In addition, it is convenient to carry out the experiment because it is provided with a small pack 12 containing a predetermined amount of the reaction triggers in the reaction pack 10 forming the appearance in advance, solving the problem of having to prepare a separate reagent or microorganism, etc. And, there is an advantage to increase the precision of the experiment.
In addition, although the glass-made apparatus, which has been widely used as a conventional laboratory apparatus, has a high possibility of breakage and is difficult to handle, it is difficult and dangerous to handle, but the encapsulated reaction pack 10 for water quality analysis of the present invention has a weight in the form of a pack. It is not only light, but also easy to handle and safe.
In addition, the glass container is not flexible, there is a hassle in adjusting the volume of the contained solution, but the encapsulated reaction pack 10 for water quality analysis of the present invention is a flexible pack form, so that the volume of the solution in the container can be easily adjusted. There is an advantage.
On the other hand, the reaction trigger refers to a reagent or an added microorganism, etc. used to induce a biochemical reaction required in an environmental experiment, and the small pack 12 containing the reaction trigger is used to preserve the reaction trigger. Sealing in a non-reactive gas filled or vacuum condition is recommended. In addition, by quantifying the amount of the reaction inducing body and provided in the small pack 12, it is possible to improve the reliability of the experimental results by performing an accurate and standardized experiment.
On the other hand, the reaction pack 10, the small pack 12 and the medium-sized pack 14 forming the appearance of the present invention is preferably made of chemical resistance, biological resistance, heat resistance, or pressure-resistant material, and if necessary to resist the reaction Materials such as teflon, parafilm, etc., which may have, may be appropriately selected and coated. In addition, the packs 10, 12, and 14 are preferably made of or coated with a material that will not damage the pack when the chemical reaction occurs by containing the reaction propellant or reacting the sample with the reaction propellant. , Flexible materials such as vinyl, polyethylene (PE) and polypropylene (PP) may be used.
On the other hand, it is good to clean and sterilize or sterilize the container in advance for biological-related environmental inspection, in the case of a sealed reaction pack for water quality analysis of the present invention, by sterilizing the reaction pack 10 and then closing the stopper 26 It is easy to maintain in a completely sealed state and has the advantage of being easy to use in the field because it is more portable than the conventional glass container.
In addition, the encapsulated reaction pack of the present invention, after the reaction pack 10 is put into the collecting zone (water) with its own cap, and then open the stopper 26 of the inlet 20 into which the water enters to contain the sample and other external environmental factors Samples can be taken without the reaction, and the sample cap of the reaction pack 10 is re-opened for reaction by inserting the reaction propellant in the small pack 12 and the medium pack 14 in advance so that a separate reaction propellant can be added. There is no need, thus minimizing sample contamination that can occur in the air or during handling of the experimenter.
On the other hand, the small pack 12 and the medium-sized pack 14, it is preferable that the opening part 12a, 14a (see FIG. 3) which is opened by the pressure on one side thereof is formed. This is because when the pressure is applied to the small pack 12 and the medium pack 14 in a sealed state, the openings 12a and 14a, which are weak to the pressure, are opened, and the reaction inducing bodies are discharged to the outside to react with the sample.
The openings 12a and 14a may be made by weakening a portion of one side so as not to withstand the pressure when molding the pack into a portion that is weak in pressure, or by coating the remaining portions except the openings 12a and 14a with a pressure resistant material. .
In addition, preferably the medium-sized pack 14 or the small pack 12 of the present invention is a rigid rod or plate-shaped opening and closing means, that is, the film or plate 13, the cutting portion 13a for opening at both upper ends of the pack is formed. After sealing in the attached state, the pack may be opened by breaking all or part of the cut portion 13a of the rod or plate 13 by applying pressure.
When pressure is applied to the plate 13, the plate 13 is all cut off together, or part of the plate 13 is broken to open the inlet 14b of the medium pack 14 to which the plate is attached. For this purpose, it is preferable that the adhesive force between the plate 13 and the outer surface of the medium pack 14 is greater than the adhesive force of the portion where the inner surface of the medium pack 14 is in contact with each other (see FIGS. 4A and 4B).
On the other hand, the medium-sized pack 14 provided in the environmental experiment reaction pack 10 according to an embodiment of the present invention can be used during the step-by-step reaction, particularly useful when a reaction step between drugs before the reaction with the sample. When the reagents used as reaction progenitors are unstable, each of the reaction progenitors is provided in the small pack 12, and then the small packs 12 containing the respective reaction progenitors are opened in the medium-sized pack 14. By reacting with each other, the reagents can be reacted before contacting the sample.
The small packs 12 included in the medium pack 14 each contain a reaction trigger, and may be provided in a superimposed form by varying their sizes or a plurality of them at the same size. As the number of steps to be reacted increases, a plurality of small packs 12 may be provided and burst in order from the innermost innermost small pack 12, thereby allowing the reactions between the reagents to be progressed step by step.
In addition, it may be desirable that a separate small pack 12 is provided together with the medium pack 14 containing the small packs 12 in the encapsulated reaction pack 10 for water analysis of the present invention. This is because, in addition to the reaction using the reagents prepared in the medium-sized pack 14 for the analysis of the sample, if a further reaction is required, the reaction may be performed using the small pack 12 provided separately.
Meanwhile, a plurality of medium packs 14 may be provided as necessary.
Meanwhile, referring to FIG. 3, the encapsulated reaction pack 10 for water quality analysis according to an embodiment of the present invention is preferably provided with an outlet 16 for discharging gas discharged during a chemical reaction on one side of the pack. The outlet 16 may inject or discharge gas or chemicals.
In addition, the plug stopper 18 may be installed at the outlet 16 or a control valve may be installed to completely seal the reaction pack 10 or adjust the amount of gas outflow.
When the sample is put into the reaction pack 10 through the sample inlet 20 and a reaction occurs between the sample and the reagent, a chemical reaction occurs and gas is often generated. At this time, in order to discharge the discharged gas to the outside of the reaction pack 10 in the embodiment of the present invention to form a discharge port 16 on one side of the reaction pack, preferably after installing the clip stopper 18 in the discharge port 16 , If necessary, the clip stopper 18 may be opened to discharge gas, and the clip stopper 18 may be closed to make the reaction pack 10 completely closed.
Meanwhile, referring to FIGS. 5 and 6, the reaction pack 10 according to an embodiment of the present invention may be equipped with a filter inlet 20 for a pretreatment of a sample according to an experimental use, or a reaction pack ( 10) It can be used by connecting a titration device, a pressure reducer 34 or a measuring sensor to a part. If a separate treatment is required for the sample before the sample is introduced, the apparatus may be connected or installed to the sample inlet 20, the discharge tube 16, and the reaction pack 10 itself.
In the state in which the filter 24 is mounted on the sample inlet 20 of the encapsulated reaction pack 10 for water quality analysis according to an embodiment of the present invention, as shown in FIG. When the pressure is lowered in the pressure reduction box 32 by operating the pressure reducer 34, the reaction pack 10 expands and the sample is introduced into the reaction pack 10 through the filter by the pressure. do. The reaction pack 10 is provided with a sealing washer 22 at the sample inlet so that the pressure-reducing box 32 is completely in close contact with the pressure-reducing box 32 and the pressure-reduction box is smoothly formed. The filter 24 is used to filter the filter 24. For this experimental apparatus, the sample inlet 20 may be formed at the bottom of the reaction pack, and the pressure reduction box 32 may be configured vertically.
In addition, as shown in Figure 6, by attaching a plate-shaped plate spring filler 38 in the outside of the encapsulated reaction pack 10 as a restoring mechanism of the reaction pack 10 to the sample and solution suction and discharge function. It can be configured to control the outflow rate of the contents. The leaf spring-type filler 38 has a flat panel shape, is installed in a manner of being fitted to the reaction pack 10, and a holder 36 for fixing the filler 38 attached to the outer surface of the reaction pack 10. It is good to have. After pressing the leaf spring-type filler 38 to flatten the reaction pack 10, when the hand is released, the filler 38 is slowly restored, and after mounting the filler 38 to the reaction pack 10, the filler Press and release (38) to inflate the reaction pack 10. By using the filler 38 in this configuration, a certain amount of the solution contained in the reaction pack 10 may be discharged, or a sample may be introduced into the reaction pack 10 in a predetermined amount.
In addition, by displaying a scale for quantitative confirmation on one surface of the reaction pack 10 according to an embodiment of the present invention it is possible to simply check the capacity of the sample when the sample is added.
In addition, by displaying the mass of the encapsulated reaction pack 10 itself including the small pack 12 and the medium pack 14 on one surface of the reaction pack 10 according to an embodiment of the present invention to facilitate the calculation of the volume of the sample. It is also good. This is because after the sample is added to the reaction pack 10, the total mass is measured, and the volume of the input solution can be accurately determined by calculating the density of the solution.
Meanwhile, the encapsulated reaction pack 10 for water quality analysis according to an embodiment of the present invention may be used as a tool for discharging a certain amount of solution. Referring to FIG. 6, an outlet tube having a control valve at an outlet 16 may be provided. 28) and record the total mass, then flow out as much solution as necessary to determine the mass and amount of solution discharged from the density.
In addition, after closing the stopper 26 of the sample inlet 20 of the sealed reaction pack 10, the gas outlet 16 side of the reaction pack 10 is directed downward, and then flows out to the outlet 16 The tube 28 can be installed to be used as a container for metering in which the solution in the pack can be discharged in a fixed amount. At this time, the reaction pack 10 is formed to be transparent to easily recognize the discharge of the solution, it is preferable that the scale is displayed on one surface of the reaction pack 10, the discharge pipe 28 connected to the outlet 16 is discharge control It is preferable that a control valve is installed to facilitate the adjustment. When the leaf spring-type filler 38 is installed outside the reaction pack 10, it is easy to discharge the solution inside the reaction pack 10 at a constant speed.
When collecting a sample (water, gas) in the field, using the reaction pack 10 with the plate spring filler 38 is installed in the sealed reaction pack 10, the sample can be collected more conveniently The experiment can be carried out simply by using the included reaction trigger. Press the leaf spring filler 38 installed in the encapsulation reaction pack 10 to release the air inside the pack, expose it to the sampling area (where the sample is), and clip the plug 18 of the outlet 16. ) And open the plate spring filler 38, the sample is sucked into the pack while the reaction pack 10 is expanded by the filler 38. In this case, the outlet 16 may be rigid or may be attached to an appropriate device for suction, and the sample inlet 20 may be connected to other measuring devices to analyze in real time.
On the other hand, the color of the encapsulated reaction pack 10 for water quality analysis of the present invention is advantageously molded in transparent to see the reaction state for the observation of the internal reaction or experiments that require a photochemical reaction. In experiments with discoloration of internal reactions, it is easier to have a white background on one side of the pack.
However, when light blocking is required, it is good to manufacture the reaction pack 10 in an opaque state. In this case, a transparent window for checking the reaction state is provided on one surface of the reaction pack 10, and for blocking the transparent window. It is preferable to install the opaque cover 30 (see FIG. 2). The reaction pack 10 should be opaque in order to block light in a chemical reaction-sensitive experiment. When the reaction state needs to be checked, a part of one surface of the reaction pack 10 may be transparently manufactured by a method such as coloring or a separate opacity. This is because when the experiment using the cover 30 and the reaction state needs to be checked, the degree of reaction can be checked by walking the opaque cover 30 for a while.
On the other hand, after containing the reaction trigger in the small pack 12 and the medium pack 14 provided in the reaction pack 10, the number and coloring of the reaction order on the outer surface of the small pack 12 and medium pack 14 By displaying in a pack shape or the like, a non-skilled person can easily react even when using the reaction pack 10.
Hereinafter, the use example of the encapsulated reaction pack for water quality analysis of the present invention will be described.
Use case: Dissolved oxygen (DO) quantification and biological oxygen demand (BOD) experiment using encapsulated reaction pack (10) for water quality analysis
Each of the small packs 12 was provided with a small pack ①-manganese sulfate solution, a small pack ②-alkaline potassium iodide-sodium azide solution, and a small pack ③-sulfuric acid, and sealed in the reaction pack 10. Fill the sample to be analyzed inside the reaction pack 10 through the sample inlet 20.
After the sample inlet 20 is completely sealed, the gas is removed through the outlet 16, the small pack 12 is pressurized in the reaction order, and the opening 12a of the small pack 12 is opened to react the reaction propellant (reagent). ) And react with the sample step by step. After the experiment process, the pack containing the starch solution and the sealed reaction pack 10 containing the appropriate solution may be used.
When the dissolved oxygen is analyzed through the experiment process as described above, since the chemicals are added in the pack 10, the contact with external air generated when opening and closing the existing dissolved oxygen bottle cap is reduced and the solution leaks. No precise measurement of dissolved oxygen is possible, and after the amount of the sample is determined, it reacts with the reagents, so there is no need to correct the volume lost during the experiment.
In addition, the method of discharging bubbles through the outlet 16 of the reaction pack 10 is considerably convenient and safe as compared to the method of removing bubbles attached to the dissolved oxygen bottle walls of the existing glass material.
In addition, the reagents used in the dissolved oxygen experiments have strong acidity and strong alkalinity, which is dangerous to handle, and special care is required for transporting them. The reagents are safely provided in advance in the reaction pack 10 made of a chemically-resistant material. It is possible to, and because the portability of the reaction pack 10 equipped with a reagent is good, it is possible to measure dissolved oxygen amount safely and quickly using immediately in the field.
In addition, in the biological oxygen demand (BOD) test method using the entire dissolved oxygen (DO) quantitative experiment process, the dissolved oxygen (DO) measurement of the sample that has been incubated for 5 days under the same conditions as the initial dissolved oxygen (DO) measurement conditions There is less error than existing method.
In addition, since the biological oxygen demand (BOD) experiment dilution water can be included in the reaction pack 10 in advance, it is very convenient in the case of a biological oxygen demand (BOD) experiment requiring a complicated dilution process.
In addition, the reaction pack 10 may be used by installing a suitable aeration device in the inlet or outlet 16 for degassing or aeration when the biological oxygen demand (BOD) test sample is in a low oxygen state or in a supersaturated state.
In addition, a method in which the seed packs are photo-resistant to the small pack 12 to be used when microorganisms need to be seeded may be used.

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As described above, according to the encapsulated reaction pack for water analysis of the present invention, the encapsulated reaction pack for water analysis having the appearance of a flexible encapsulated form is easy to quantify the volume using mass and density. It is light weight, easy to handle and safe.

In addition, by providing one or more small and medium packs containing the reaction propellant in the encapsulated reaction pack, it is possible to proceed with the reaction for simple and fast environmental experiments without preparing a separate reagent.

In addition, by pre-incorporating the quantitative reaction triggers in the small and medium packs, there is an advantage that can be obtained accurate experimental results without being influenced by external factors.

In addition, by quantifying the amount of the reaction trigger, it is possible to improve the reliability of the results by conducting accurate and standardized experiments, it is very useful for environmental analysis and analysis method that repeatedly performs a large number of experiments.

Claims (13)

Inlet is formed on the outer surface for the sample input, the outer shape is a flexible pack form, the water quality characterized in that it is installed inside the pack includes one or more small pack containing a reaction inducing agent for environmental experiments Analytical sealed reaction packs. According to claim 1, The small pack is provided with one or more to enable a step reaction, Encapsulated reaction pack for water quality analysis, characterized in that it further comprises a medium-pack to accommodate the small pack therein. The method of claim 2, wherein the plurality of small packs are provided in the reaction pack, at least one small pack of the plurality of small packs are installed in the medium pack, the rest is provided separately from the outside of the medium pack Encapsulated reaction pack for water quality analysis. According to claim 1 or 2, wherein the small pack or medium pack Encapsulated reaction pack for water quality analysis, characterized in that it can move fluidly in the reaction pack. According to claim 1 or 2, wherein the small pack or medium pack Encapsulated reaction pack for water quality analysis, characterized in that the sealed non-reactive gas filled or vacuum. According to claim 1 or 2, wherein the small pack or medium pack Encapsulated reaction pack for water quality analysis, characterized in that the opening is formed by opening on one side. The method of claim 1 or 2, wherein the reaction pack and the small or medium pack Encapsulated reaction pack for water quality analysis, characterized in that the molded or coated with a chemical, biological, heat-resistant or pressure-resistant material. The method of claim 1, wherein the reaction pack is an encapsulated reaction pack for water quality analysis, characterized in that the outlet for discharging the gas discharged during the chemical reaction on one side. The method of claim 1, wherein the reaction trigger is Encapsulated reaction pack for water analysis, characterized in that the reagent or microorganism. The method of claim 1, wherein the inlet Encapsulated reaction pack for water quality analysis, characterized in that the filter for pretreatment of the sample is equipped. The method of claim 1, wherein the reaction pack, A transparent window provided on one surface of the pack for checking a reaction state; Encapsulated reaction pack for water quality analysis, characterized in that it further comprises; an opaque cover is installed to block the transparent window. The method of claim 1, wherein the reaction pack The mass of the reaction pack is displayed on one side of the pack to estimate the sample volume, Encapsulated reaction pack for water quality analysis, characterized in that the scale is displayed on one side of the pack According to claim 1 or 2, wherein the medium pack or small pack Sealed with hard rods or plates with cutouts for opening at the top of both outer sides of the pack, Encapsulated reaction pack for water quality analysis, characterized in that the part of the rod or plate cut by the pressure, or part of the cut off.

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