KR200437126Y1 - Receptacle pack containing reaction progenitors for water quality analysis - Google Patents

Abstract

A pack body accommodating a reaction inducing body for inducing a biochemical reaction with a sample for environmental experiments, having a flexibility and forming a pack-shaped appearance; An entrance provided in the pack body; A receiving pack is provided containing a reaction trigger for water quality analysis, including; opening and closing means coupled to the pack body so as to be opened when necessary in a sealed state.

Reaction packs, storage packs, seals, water analysis, samples, reagents, packs, portability, microorganisms

Description

A pack-typed container to contain a reaction matter for analysis of water qulity}

1 is a schematic perspective view showing an encapsulated reaction pack to which an accommodating pack for accommodating a reaction trigger for water quality analysis according to a first embodiment of the present invention is applied.

Figure 2 is a side view showing the encapsulated reaction pack shown in FIG.

3 is a schematic plan view of the encapsulated reaction pack shown in FIG. 1.

Figure 4 is a perspective view showing an example of use of the sealed reaction pack shown in FIG.

5 is a view showing another example of use of the sealed reaction pack shown in FIG.

Figure 6a is a perspective view showing a receiving pack shown in FIG.

Figure 6b is a perspective view showing a state opening the receiving pack shown in Figure 6a.

Figure 7 is a perspective view showing a receiving pack for receiving the reaction trigger for water quality analysis according to a second embodiment of the present invention.

Figure 8 is a perspective view showing a receiving pack for receiving the reaction trigger for water quality analysis according to a third embodiment of the present invention.

FIG. 9 is a cross-sectional view taken along the line II of FIG. 8. FIG.

<Description of Symbols for Major Parts of Drawings>

10..Reaction pack 11,110,210..Pack body

12. Reagent inlet 13. Plug

14..outlet 15..scale

Transparent window 20,30,100,200..Package

23,120,130,220 .. Sealing member 40..Clip member

51 filter 61 decompression box

62. Reducer 71. External restoration unit

71..Plate spring filler 72..Pillar holder

80. Opaque cover 81. Cover holder

90. Outlet pipe 91. Control valve

230. Blocker 240. Protection pack

The present invention relates to an accommodating pack for accommodating a reaction progenitor for water quality analysis. More specifically, it is possible to safely receive a reaction progenitor for an environmental experiment therein and to easily remove the contained reaction progenitor as needed. The present invention relates to an accommodating pack containing a reaction trigger for water quality analysis that enables experiments.

Environmental test is a process to quantitatively or qualitatively evaluate contaminants contained in the environment such as water, air, soil, etc. In addition to measuring and analyzing chemical oxygen demand, it is common to measure human harmful substances such as heavy metals, chlorine, nitrogen, phosphorus, fluorine, ozone, and environmental hormones.

Environmental experiments are conducted through a variety of chemical reactions, which are usually made of chemically resistant glass or rigid containers, as it is necessary to calibrate the volume of the liquid in the experiment and, therefore, most Use a container. Such existing experimental containers lack safety and have a high risk of damage, so even those skilled in the experiment require special attention, and it is difficult and inconvenient to operate and carry containers in the process of experiments.

In addition, in the environmental test, some measurement items such as DO and BDO should be carried directly to a laboratory where a laboratory apparatus 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 carried out on a large number of samples, and inexperienced ones are to conduct environmental experiments, the existing experimental instruments made of glass is difficult to reduce the cause of experimental errors, structural and difficult to increase safety and convenience There is a limit.

In addition, for environmental experiments, so-called reaction progenitors, which mean reagents or microorganisms, are used to cause biochemical reactions with samples taken, that is, water or air. These reaction propellants must be stored in a sealed state or in a vacuum state until the environmental test by reacting with the collected sample, it is difficult to store and transport.

In addition, for accurate and standardized environmental experiments, it is necessary to quantify the amount of the reactant so that it can be stored, transported, and carried.

In addition, it is important that the reaction progenitor reacts with the sample in an environmental experiment to induce a biochemical reaction with the sample in the state of being blocked from the outside. Therefore, for accurate and accurate environmental experiments, there is an urgent need for a structure capable of removing the seal of the reaction inducing body in a container in which a sample is prepared.

The present invention was devised to improve the above problems, and can safely accommodate the reaction inducing body for environmental experiments, and for improving the water quality of the structure to easily remove the seal in the environmental experiment container The purpose is to provide a receiving pack for receiving a reaction propellant.

Receiving pack for receiving the reaction trigger for water quality analysis of the present invention for achieving the above object, accommodates the reaction trigger for inducing a sample and biochemical reaction for environmental experiments, has flexibility and pack-shaped appearance A pack body which comprises; An entrance provided in the pack body; And opening and closing means coupled to the pack body so as to be opened when necessary in the sealed state of the doorway.

Here, the pack body is preferably sealed in a non-reactive gas filled state or a vacuum state.

In addition, the pack body is preferably formed of a chemical resistance, biological resistance, heat resistance or pressure resistant material.

In addition, the reaction trigger is preferably a reagent or a microorganism.

In addition, the opening and closing means is coupled to the entrance and the clamping of the pack body, and includes a sealing member having a cutout for opening of the entrance, the cutout of the sealing member is preferably cut by the external force can open the doorway. .

In addition, the cutout may be formed in a crisscross (+) shape.

In addition, the sealing member is provided at at least one end, it is preferable that the operating portion is formed so as to disperse the pressure from the outside in the direction in which the cut-out.

In addition, the operation portion, it is preferable that the grooves are formed on both ends of each of the sealing member to form a groove.

In addition, the pack body is preferably made of a plurality of receiving sections that are isolated from each other so that the inside can be opened in stages based on the doorway.

In addition, it is preferable to further include a blocking member provided to maintain the boundary of the plurality of receiving sections in a sealed state and to open the sealed state step by step if necessary.

In addition, the blocking member, the clamping member having a cutout to close the sealing between the receiving space by clamping the boundary between the receiving space from the outside, and is broken by the external force to release the sealed state. It is good to include.

In addition, the pack body may be a portion corresponding to the plurality of receiving spaces from the doorway is wrapped with a flexible protective pack.

In addition, the pack body, the entrance is provided at each end, the interior space is separated into two spaces based on the respective entrance and exit, the opening and closing means, is coupled by clamping the entrance of each of the pack body And first and second sealing members having cutouts for individually opening the respective entrances, and the cutouts of each of the first and second sealing members are broken by an external force so that the respective entrances can be opened individually. .

Hereinafter, with reference to the accompanying drawings will be described in detail the receiving pack containing the reaction trigger for water quality analysis according to an embodiment of the present invention.

1 is a schematic perspective view showing an encapsulated reaction pack 10 for water quality analysis in which an accommodating pack 20 containing a reaction progenitor for water quality analysis according to an embodiment of the present invention is stored.

Here, the reaction inducing body for the environmental experiment is contained in the accommodating pack 20. One or more of the accommodating packs 20 may be accommodated in the reaction pack 10, and a medium accommodating pack 30 having a slightly increased size of the accommodating pack 20 may be installed in the reaction pack 10. . The receiving pack 20, 30 can be opened in the reaction pack 10 to perform an environmental experiment.

In addition, the accommodating pack 20 may be installed in the reaction pack 10 in a state in which one or more are accommodated in the medium-sized accommodating pack 30 having a relatively large size. When the plurality of accommodating packs 20 are accommodated in the medium accommodating pack 30, the plurality of accommodating packs 20 may be provided to react stepwise.

The two accommodating packs 20 and 30 differ only in their size, and the specific configuration may be the same. Therefore, hereinafter, the relatively small receiving pack 20 will be described in detail as a main example.

On the other hand, the reaction propellant contained in the receiving pack 20 means a reagent or an added microorganism or the like used to induce a biochemical reaction required in the environmental experiment. The male pack 20 containing such a reaction inducer may be sealed in a non-reactive gas filled state or in a vacuum state to preserve the reaction inducer. In addition, since the amount of the reaction trigger can be quantified and accommodated in the accommodating pack 20, it is possible to improve the reliability of the experimental results by performing an accurate and standardized experiment.

Meanwhile, referring to FIGS. 1, 2, and 3, the encapsulated reaction pack 10 for water quality analysis includes a pack main body 11 and a pack main body 11 forming a pack-shaped appearance having flexibility. It is provided with an inlet 12 provided on one side of, and a stopper 13 for opening and closing the inlet 12.

The pack body 11 has an encapsulation form in which a sample (water, gas) can be contained therein, and the inlet 12 is formed on an upper side or a lower side of the pack body 11. The pack body 11 is not limited to a particular shape, and preferably, the bottom of the lower side is flat in view of the convenience of mounting the test tool.

The pack body 11 may be made of a chemical, biotic, heat resistant, or pressure resistant material, and may be appropriately selected and coated with a material such as Teflon or parafilm, which may have a resistance to a reaction, if necessary. .

In addition, the pack body 11 is preferably made of or coated with a material that will not damage the pack body 11 when a chemical reaction occurs by reacting the sample and the reaction trigger, Teflon, vinyl, polyethylene (PE) ), Polypropylene (PP) is preferably formed of at least one or more flexible material selected from the group containing.

Unlike the flexible pack body 11, the inlet 12 may be formed of a plastic material having no flexibility such that the stopper 13 may be screwed, for example.

The stopper 13 is coupled to selectively close and open the inlet 12, for example, as a stopper for a beverage bottle.

According to the above configuration, it is preferable to wash and sterilize the container, that is, the pack body 11 in advance for the biological-related environmental inspection, in the case of the reaction pack 10 using a stopper 13 after sterilization By closing the inlet 12, it is easy to keep it in the fully sealed state. Therefore, it is easy to use in the field because it is more portable than the existing glass container.

In addition, the reaction pack 10 may collect the sample without any external environmental factors by putting the sample itself by opening the stopper 13 of the inlet 12 into which the water enters the sample into the collecting zone (water). . And the reaction pack 10 can be accommodated in advance, the accommodating pack 20 according to the present invention therein, by opening the stopper 13 of the reaction pack 10 again for the reaction to separate reaction propellants There is no need to inject. Therefore, it is possible to minimize the sample contamination process that can occur in the air or during the handling of the experimenter.

On the other hand, when the sample is put into the pack main body 11 through the inlet 12, and a reaction occurs between the sample and the reagent, a gas or the like is often generated while a chemical reaction occurs. At this time, in order to discharge the generated gas to the outside, the pack body 11 further includes a discharge port 14 for discharging the gas discharged during the chemical reaction therein. The outlet 14 is formed to extend in a predetermined length and width from one end of the pack body (11). Gas or chemicals may be injected into the pack main body 11 through the discharge port 14, or gas generated therein may be discharged.

As shown, the outlet 14 may be completely sealed using a predetermined opening / closing member, or the amount of gas inlet and outlet may be adjusted. Clip member 40 may be employed as the opening and closing member. The clip member 40 can be clamped while being in close contact with the outlet 14 in the form of a forceps. In addition, as the opening / closing member, a separate control valve is coupled to the outlet 14, so that the pack body 11 may be completely sealed from the outside, or the amount of gas outflow may be adjusted.

In addition, the reaction pack 10, as shown in Figure 4, is installed in the inlet 12, the pre-treatment of the sample introduced into the pack main body 11 through the inlet 12 to suit the intended use. The filter 51 is further provided.

The filter 51 may include, for example, filter paper. The filter 51 may be interposed between the sealing washer 52 and the stopper 13 coupled to the outside of the inlet 12 in a state supported by the filter holder 53. The installation method of such a filter 51 may be various examples.

Here, in the case of the sealing washer 52, as shown in Figure 4, the reaction pack 10 is put in the pressure reduction box 61, by connecting the pressure reducer 62 to the pressure reduction box 61 to the pressure reduction box (61) When reducing the internal pressure, it serves to seal between the inlet 12 and the pressure reduction box (61). As such, the filter 51 may be installed in the inlet 12 together with the sealing washer 52 when the reagent is added, or may be independently or detachably installed in the inlet 12.

On the other hand, the reaction pack 10 in the same state as shown in Figure 4 in the decompression box 61, by connecting the decompressor 62 to the decompression box 61 to operate the decompressor 62, the decompression box 61 As the pressure inside is lowered, the sample may be introduced into the reaction pack 10 through the filter 51 and the inlet 12 by the pressure while the reaction pack 10 is expanded. As such, by installing the sealing washer 52 in the sample inlet 12 so that the reaction pack 10 is in close contact with the pressure reduction box 61, the pressure reduction inside the pressure reduction box 61 may be smoothly performed.

In addition, as shown in FIG. 5, when the external force is removed in a state in which the reaction pack 10 is deformed (for example, crimped) by applying an external force to the pack body 11, the external form is automatically returned to restore the external shape. Unit 70 is provided.

The outer return unit 70 includes a leaf spring-type filler 71 provided to pack the pack body 10, and a pillar holder 72 for supporting the filler 71 on the pack body 11. . The filler 71 is formed of a material that is elastically deformable and resilient, such as a plastic or thin iron plate structure, and may be formed in a closed loop shape as a predetermined width. The filler 71 and the pack body 11 may be coupled to each other by inserting the pack body 11 into the filler 71. In addition, a plurality of the filler holder 72 is attached to the outside of the pack body 11 at predetermined intervals to support the filler 71.

In the case of the appearance return unit 70 having the above configuration, by restoring the appearance of the reaction pack 10, the sample and solution suction and discharge functions can be performed. That is, after pressing the leaf spring-type filler 71 by hand to make the reaction pack 10 flat, and then releasing the hand, the filler 71 is slowly restored, and the filler 71 is coupled to the reaction pack 10. When pressed and released in the state, the reaction pack 10 is inflated. Therefore, the filler 71 may be used to discharge a certain amount of the solution and gas contained in the reaction pack 10, or a sample may be introduced into the sample through the inlet 12 or the like.

In addition, as shown in FIG. 1, a scale 15 for quantitative confirmation is displayed on an outer surface of the pack body 11 so that the capacity of the sample can be easily checked when the sample is added.

In addition, the mass of the encapsulated reaction pack 10 itself including the accommodation packs 20 and 30 may be displayed on one surface of the pack body 11 to facilitate the calculation of the volume and mass of the sample. This is because the volume of the injected solution can be accurately determined by calculating the mass after weighing the sample and considering the density of the solution.

In addition, the color of the pack body 11 may be made transparent so that the reaction state can be seen, which may be advantageous for observation of an internal reaction or an experiment requiring a photochemical reaction. And in the experiment on the internal reaction discoloration can be observed more easily and accurately by having a white background on one surface of the pack body (11).

In addition, when light blocking is required, the pack body 11 may be manufactured in an opaque state. In this case, as shown in Figure 2, a transparent window 16 for confirming the reaction state of the inside from the outside on one surface of the panel body 11 is provided with a predetermined area, to block the transparent window 16 An opaque cover 80 is provided. The transparent window 16 may be formed by transparently forming a part of the pack main body 11 in a state in which most of the pack body 11 is opaque.

The opaque cover 80 may be installed to be detachable and attached to the outside of the pack body 11 by an adhesive or the like. In addition, the opaque cover 80 may be detachably installed in the holder 81 provided on the outside of the pack body (11).

When the transparent window 16 and the opaque cover 80 is provided as described above, in the state where the reaction pack 10 is opaque as a whole to block light in a chemical reaction-sensitive experiment, when the reaction state needs to be checked After checking the reaction degree by walking the opaque cover 80 for a while, the transparent window 16 may be covered again.

On the other hand, the accommodating pack 20 according to the first embodiment of the present invention that can be accommodated in the reaction pack 10 having the above configuration in advance, as shown in Figure 6a and 6b, the pack body 21 At one end of the door), an entrance 21a is provided. The doorway 21a is provided to be opened by the opening and closing means. As the opening and closing means, there is provided a sealing member 23 having a cutting line 23b and coupled in a sealed state by clamping the entrance and exit 21a of the pack body 21. 6A and 6B, the sealing member 23 has a cut line 23b having a substantially crisscross '+' shape, and has an operating portion 23a at both ends thereof. Therefore, when the user presses the operating part 23a on both sides by hand and presses it hard, as shown in FIG. 6B, the cutting line 23b is torn off and the sealing member 23 is cut to open the doorway 21a. . In such a form, when the accommodation pack 20 has the entrance 21a opened in the reaction pack 10, the reaction propellant in the accommodation pack 20 may be introduced into the reaction pack 10.

Since the reaction pack 10 is formed of a soft material, it is possible to open in the same manner as described above in a state in which the accommodating pack 20 is accommodated inside the reaction pack 10.

As described above, in the state of accommodating the accommodating pack 20 in the reaction pack 10 in advance, after putting the sample to be tested through the inlet 12, closing the inlet 12 with a stopper 13, By opening the receiving pack 20 to react the reactant and the sample in the receiving pack 20, the sample and the reactant can be reacted in a blocked state with the outside. There is an advantage to proceed with accurate experiments.

In addition, since the receiving pack 20 containing a predetermined amount of the reaction propellant contained in the reaction pack 10 forming the appearance in advance, it is convenient to carry out the experiment, and to prepare and move the reagent or microorganism separately There is an advantage to solve the problem and increase the precision of the experiment.

In addition, the glass-made apparatus, which has been frequently used as a conventional laboratory apparatus, has a high possibility of damage and is heavy and difficult to handle, but is transported, stored, and managed while the receiving pack 20 is placed inside the reaction pack 10. The pack has the advantage of being lightweight and easy to handle and safe.

In addition, the conventional glass container is not flexible, it is troublesome to adjust the volume of the contained solution, but when the reaction pack 10 is a flexible pack form, the volume of the solution in the container can be easily adjusted.

In addition, when the reaction pack 10 includes a plurality of receiving packs 20 therein, in addition to the reaction using a reagent prepared in one receiving pack 20, if additional reactions are required in addition, another accommodation provided separately The pack 20 can also be used to cause a reaction.

On the other hand, the reaction pack 10 may be used as a tool for discharging a certain amount of solution. That is, as shown in Fig. 5, after installing the outlet pipe 90 having a control valve 91 in the outlet 14, and record the total mass, the amount of the solution and the density of the solution by flowing out as needed The amount of solution discharged can be known based on the calculation.

In addition, after the cap 13 of the sample inlet 12 of the reaction pack 10 is completely closed, the gas outlet 14 of the reaction pack 10 is disposed downward, and then the outlet pipe 14 is disposed in the outlet 14. It can also be used as a container for the metered dose to install the 90 and to discharge the solution in the reaction pack 10 in a quantitative manner. At this time, the reaction pack 10 is formed to be transparent so that the discharge of the solution can be easily recognized, it is possible to easily know the amount of the solution discharged through the above-described scale (15; FIG. 1). And it is possible to easily control the discharge of the solution by using the control valve 91 installed in the outlet pipe (90). In addition, as described with reference to FIG. 5, the filler 71 may be used to quantitatively discharge the solution inside the reaction pack 10 at a constant speed.

Specifically, when collecting a sample (water, gas) in the field, if the filler 71 is installed in the encapsulated reaction pack 10 is installed, the sample can be collected more conveniently, and the reaction induced The experiment can be performed simply using a sieve. That is, by pressing the leaf spring-shaped filler 71 installed in the reaction pack 10 to remove the air inside the pack 10, and exposed to the sampling area (where the sample is) in that state, the clip of the outlet 14 When the member 40 is opened and the plate spring filler 71 is placed, the sample is sucked into the pack 10 while the reaction pack 10 is expanded by the filler 71. At this time, the outlet 14 may be rigid or may be attached to a suitable device for suction, and the sample inlet 12 may be connected to other measuring devices in real time.

On the other hand, the accommodating pack 20 that can be used in a state contained in the reaction pack 10 in the same manner as described above, may be formed of the same material as the reaction pack 10. For example, the accommodating pack 20 is in the form of a pack formed of a flexible material so as to be able to move fluidly in the reaction pack 10, it is preferable to be made of a chemical resistance, heat resistance, biological resistance, or pressure-resistant material, If necessary, a material such as Teflon and parafilm, which may be resistant to the reaction, may be appropriately selected and coated. In addition, the accommodating pack 20 contains a reaction propellant or reacts the sample with the reaction propellant, so that the chemical reaction occurs, without damaging the pack, so as to have flexibility, Teflon, vinyl, polyethylene (PE) It may be coated or manufactured with a material such as polypropylene (PP).

In addition, the entrance 21a of the accommodation pack 20 is a portion that is weak in pressure, so that a portion of one end is weakened so as not to withstand the pressure when the pack is formed, or all of the rest except the main surface of the entrance 21a as a pressure resistant material. Can be made by coating. Therefore, when the entrance 21a is normally in close contact with each other and sealed, and the pressure is applied by compressing the accommodation pack 20, the main surface of the entrance 21a, which is weak to pressure, is blown out, and the internal reaction inducing body is discharged and the sample is discharged. Can react with

In addition, in the state which sealed the entrance 21a using the sealing member 23 which is the opening / closing means mentioned above, it is also possible to open the entrance 21a later as needed. Here, the sealing member 23 is formed so that the extraction portion 23b can be cut while being broken by an external force. And both ends of the sealing member 23 is provided with an operating portion (23a) formed in a substantially 'V' shaped groove. Therefore, in a state in which the accommodating pack 20 is provided inside the reaction pack 10, when the experimenter presses each of the operating parts 23a of the sealing member 23 by hand and presses it hard, the cutting part 23b is cut by the pressure. ), The entrance 21a is opened. The sealing member 20 is formed of a piece of wood or plastic, the cutout portion 23b is formed weaker than other portions, the adhesion between the sealing member 23 and the outer surface of the receiving pack 20 is a receiving pack It is preferable that it is larger than the adhesive force of the part which abuts inner surfaces of (20).

In addition, referring to Figure 7, the receiving pack 100 for receiving the reaction trigger for water quality analysis according to a second embodiment of the present invention, the pack body 110, the interior of which is divided into two internal spaces (111, 112) And an opening and closing means that can be opened when necessary in a sealed state of the entrances provided at both ends of the pack body 110.

The pack body 110 may be formed of the same material and shape as the accommodating pack 20 according to the first embodiment described above, except that two interior spaces are completely isolated by the boundary portion 113. It is formed to have (111,112). And both ends of the pack body 110 is provided with an entrance, so that each of the inner space (111, 112) has an independent entrance.

The opening and closing means are provided at both ends of the pack body 110, and include first and second sealing members 120 and 130 for individually sealing and opening the respective inner spaces 111 and 112. The first and second sealing members 120 and 130 have the same configuration. Therefore, when the first sealing member 120 is described, it has the same configuration as that of the sealing member 23 described above with reference to FIGS. 6A and 6B. That is, the first sealing member 120 has a cutout portion 121 and an operation portion 122 provided at each end. The first sealing member 120 having such a configuration may be cut in the same manner as described with reference to FIGS. 6A and 6B to open the inner space 111 to the outside, and the second sealing member 130 may be opened in the same manner. This is possible. Here, the boundary portion 113 can be sealed by a method such as vacuum pressing, laser pressing.

As such, when two receiving spaces 111 and 112 are separated from each other in one receiving pack 100, each of the receiving spaces 111 and 112 contains different kinds of reaction progenitors and bursts step by step. You can also experiment with the reaction.

In addition, as shown in Figure 8, the receiving pack 200 for receiving the reaction trigger for water quality analysis according to the third embodiment of the present invention, the body of the pack divided into a plurality of spaces (211,212,213) ( 210, a sealing member 220 as an opening / closing means for opening when necessary in a sealed state of an entrance provided at one end of the pack body 210, and a blocking member 230 for sealing the boundaries of the respective inner spaces 211,212,213. ).

The pack body 200 is provided at one end thereof with an entrance and is open to the outside by the sealing member 220. The pack body 200 is formed of the same material as the above-described receiving pack 20, has the same or similar encapsulation form, and has a softness.

The internal spaces 211, 212, 213 may be provided in the same volume so as to contain the reaction capillaries of the same capacity. In addition, each of the internal spaces 211, 212, 213 may be provided with different capacities. Each of the internal spaces 211, 212, and 213 may contain different kinds of reaction triggers. Therefore, by opening the respective inner space (211,212,213) step by step, it is possible to easily perform the experiment to react with the sample step by step.

The sealing member 220 has a cutout portion 221 and an operation portion 222, and has the same configuration as the sealing member 20 described above with reference to FIGS. 6A and 6B, and is cut by the same method to pack it. The entrance and exit of the main body 210 can be opened.

In addition, the blocking member 230 is to isolate the respective internal spaces 211, 212, 213. As illustrated in FIG. 9, the boundary parts of the pack body 210 are clamped from the outside to closely contact and accommodate the receiving spaces 211, 212. ) Can be sealed. That is, as shown in FIG. 9, the blocking member 230 has first and second clamping members 231 and 233 coupled to face each other with the pack body 210 interposed therebetween, and each of the clamping members 231 and 233 may be coupled to each other. It has locking parts 231a and 233a which are complementarily coupled to each other with the pack body 210 interposed therebetween. Therefore, when the locking parts 231a and 233a are coupled in a compressed state to the pack body 210, the two receiving spaces 211 and 212 may be sealed. In addition, a cutout 235 is formed at an approximately middle portion of the blocking member 230, and an operating part 237 is provided at each end. The operation unit 237 has the same structure as the operation unit 23a described with reference to FIG. 6A.

According to the above configuration, the sealing member 220 is first cut to open the innermost space 211 at the outermost end first, and then the reaction propellant contained in the inner space 211 is discharged to primarily react with the sample. It can be raised.

Next, by cutting and removing the blocking member 230 between the two inner spaces (211,212), by opening the second inner space (212) to react the reactant in the inner space 212 secondary It becomes possible. In addition, by removing the remaining blocking member 230, the reaction propellant contained in the third internal space 213 may be discharged to cause the third reaction. Here, the process of cutting the blocking member 230 is the same as the process of cutting the sealing member (23). That is, when the operation unit 237 is held on both sides and pressed, the cutting unit 235 is cut by the pressure, thereby releasing the engagement of the locking units 231a and 233a. Thus, the sealing between neighboring inner spaces 211, 212, 213 can be released.

In addition, as shown in FIG. 8, the accommodation pack 200 may further include a flexible protective pack 240 that encloses and receives the entire pack body 210 except for the sealing member 220.

The protective pack 240 may be made of the same material as the pack body 210. One end of the protective pack 240 is coupled to the sealing member 220 to accommodate the pack body 210. In the process of removing the blocking member 230, the protective pack 240 may be broken or broken due to the tearing or breaking of the pack body 210, and the reaction inducing agent in the pack body 210 reacts with the sample. Can be blocked.

Hereinafter, an example of using the accommodating pack 20 containing the reaction trigger for analyzing water according to the first embodiment of the present invention is enclosed in the encapsulated reaction pack 10.

As an example of use, it relates to an experiment for obtaining dissolved oxygen (DO), quantification and biological oxygen demand (BOD) using the accommodation pack 20 and the reaction pack 10.

For the experiment, the manganese sulfate solution is contained in the pack 1, the alkaline potassium iodide-sodium azide solution is packed in the pack 2 and the sulfuric acid is packed in the pack 3, respectively. Then, as described above, each containing pack containing the reaction propellant is put in the reaction pack 10, and the sample to be analyzed is filled into the reaction pack 10 through the sample inlet 12.

After the sample inlet 12 is completely sealed using the stopper 13, gas is removed from the outlet 14. Then, by applying pressure to the receiving pack 12 in the reaction order, the sealing member 23 of the receiving pack 20 is operated to open the entrance 21a by popping the cutout 23b. Then, the reaction progenitors (reagents) are flowed out in the reaction order through the entrance and exit 21a of each of the accommodation packs 20 to react with the sample step by step. Afterwards, the pack containing the starch solution and the sealed reaction pack 10 containing the titration solution may be used in the experimental process.

When the dissolved oxygen is analyzed through the experiment process as described above, since the chemicals are added in the reaction pack 10, the chance of contact with the outside air generated when opening and closing the existing dissolved oxygen bottle cap is reduced and leaks. Accurate dissolved oxygen measurement experiment is possible without solution. In addition, since the amount of the sample is determined and then reacted with the reagent, there is no need to correct the volume lost during the experiment.

In addition, the method of discharging bubbles through the outlet 14 of the reaction pack 10 may be considerably convenient and safe as compared to the method of removing bubbles adhered to the dissolved oxygen bottle walls of the existing glass material.

In addition, the reagents used in the dissolved oxygen experiment have strong acidity and strong alkalinity, which is dangerous to handle, and special care is required for transporting the reagents. It can be transported, because the portability of the receiving pack 20 equipped with a reagent and the reaction pack 10 that can accommodate the receiving pack 20 is good, so that the dissolved oxygen amount can be measured safely and quickly by using it immediately in the field. It is possible.

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 in the same manner as the initial dissolved oxygen (DO) measurement conditions There is less error than existing method.

In addition, the biological oxygen demand (BOD) experimental dilution water can be included in the reaction pack 10 in advance, it is very convenient in the case of biological oxygen demand (BOD) experiment that requires a complicated dilution process.

In addition, the reaction pack 10 may be used by installing a suitable aeration apparatus in the inlet or outlet 14 for degassing or aeration when the biological oxygen demand (BOD) test sample is in a low oxygen state, or in the supersaturated state.

In addition, when the microorganisms need to be seeded, there is also a method of using the seed pack in the receiving pack 20.

According to the accommodating pack for accommodating the water-producing reactant of the present invention described above, it has a flexible bag shape, and is easy to quantify the volume using mass and density, and is light in weight and handled. This fragment has the advantage of being safe.

In addition, since the encapsulated reaction pack can be provided with one or more accommodating pack containing the reaction propellant, there is an advantage that can proceed to the reaction for simple and fast environmental experiments without the preparation of a separate reagent.

In addition, by dividing the accommodating pack containing the reaction progenitor into a plurality of internal spaces stepwise, it is possible to facilitate the experiment to react stepwise with the sample.

In addition, by having a structure that can be opened in stages in a state in which different types of reagents are contained in the inner space separated from each other, there is an advantage that the reaction experiment is easy and simple.

In the above, specific preferred embodiments of the present invention have been shown and described. However, the present invention is not limited to the above-described embodiment, any person having ordinary knowledge in the technical field belonging to the present invention without departing from the spirit and spirit of the present invention claimed in the utility model registration claims And modifications will be possible.

Claims (14)

A pack body accommodating a reaction inducing body for inducing a biochemical reaction with a sample for environmental experiments, having a flexibility and forming a pack-shaped appearance; An entrance provided in the pack body; And opening and closing means coupled to the pack body to open the door when necessary in a sealed state. The opening and closing means, It is coupled by clamping the door of the pack body, and includes a sealing member having a cutout for opening the door, Receptacle pack for accommodating the reaction trigger for water quality analysis, characterized in that the cutout portion of the sealing member is broken by an external force can be opened. The method of claim 1, wherein the pack body, An accommodating pack containing a reaction propellant for water quality analysis, which is sealed in a non-reactive gas filled state or a vacuum state. The method of claim 1, wherein the pack body, Receiving pack for containing the reaction propellant for water quality analysis, characterized in that formed of chemical, biologic, heat-resistant or pressure-resistant material. The method of claim 1, wherein the pack body, An accommodation pack containing a reaction propellant for water quality analysis, which is coated with a chemical resistance, bioactivity, heat resistance or pressure resistant material. The accommodation pack of claim 1, wherein the reaction progenitor is a reagent or a microorganism. delete The receiving pack of claim 1, wherein the cutout portion is formed in a crisscross (+) shape. The method of claim 1, wherein the sealing member, A receiving pack provided at at least one end, the operation portion is provided to disperse the pressure from the outside in the direction in which the cut off is provided. According to claim 8, The operating unit, Receiving pack for accommodating the reaction trigger for water quality analysis, characterized in that the groove is formed on both ends of each of the sealing member to form a groove. A pack body accommodating a reaction inducing body for inducing a biochemical reaction with a sample for environmental experiments, having a flexibility and forming a pack-shaped appearance; An entrance provided in the pack body; And opening and closing means coupled to the pack body to open the door when necessary in a sealed state. The pack body accommodating a reaction pack for receiving a water-producing reaction body, characterized in that consisting of a plurality of receiving sections are separated from each other so that the inside can be opened in stages based on the entrance. The method of claim 10, further comprising a blocking member provided to maintain the boundary of the plurality of receiving sections in a sealed state, and to open the sealed state step by step if necessary. Accommodation pack. The method of claim 11, wherein the blocking member, Water quality analysis, characterized in that it comprises a clamping member having a cutout to close the sealing between the receiving space by clamping the boundary between the receiving space from the outside to close, and to be broken by an external force to release the sealed state Receiving pack for receiving reaction propellants. The receiving pack of claim 10, wherein the pack main body has a portion corresponding to the plurality of receiving spaces from the entrance and is surrounded by a flexible protective pack. A pack body accommodating a reaction inducing body for inducing a biochemical reaction with a sample for environmental experiments, having a flexibility and forming a pack-shaped appearance; An entrance provided in the pack body; And opening and closing means coupled to the pack body to open the door when necessary in a sealed state. The pack body is provided with the entrance and exit at each end, the inner space is separated into two spaces based on the respective entrance, The opening and closing means, A first and a second sealing member coupled to each of the pack bodies by clamping the entrances and having cutouts for the individual opening of each entrance; Receptacle pack for accommodating the reaction trigger for water quality analysis, characterized in that the cutout of each of the first and second sealing member is broken by an external force so that each of the entrance and exit can be opened individually.

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