KR20110122479A - Vacuum bag for filling liquid, vacuum filling apparatus using the same and vacuum filling method using the same - Google Patents

Abstract

PURPOSE: A vacuum bag for filling liquid, a vacuum filling apparatus using the same, and a vacuum filling method using the same are provided to store liquid without bubbles. CONSTITUTION: A vacuum bag for filling liquid comprises: a filling bag main body(100) which is formed in order to accept liquid in an internal space thereof and to be vacuum-compressed by vacuum suction; an insertion sheet(200) forming a minute air channel inside the filling bag main body; an entrance tube(700) which is combined with the filling bag main body in order to communicate with the internal space of the filling bag main body.

Description

Vacuum Bag for Filling Liquid, Vacuum Filling Apparatus Using the Same and Vacuum Filling Method Using the Same}

The present invention relates to a liquid vacuum filling bag, a liquid vacuum filling apparatus and a liquid vacuum filling method using the same. More specifically, by inserting an insert for forming a fine air flow path inside the filling bag main body, the entire vacuum inside the filling bag main body is completely sucked and filled with liquid, thereby filling a liquid such as a blood calibration solution. When filling the bag, it is possible to prevent bubbles from being generated inside the bag, and it is made of a ductile metal material to make the vacuum state perfectly and easily, and the liquid vacuum filling device and liquid vacuum filling method using the same It is about.

In general, various experiments or analyses are conducted in various laboratories, school laboratories, hospitals, and the like. Especially in biochemical experiments or analyses, experiments or analyses are performed using various solutions for analysis of various research data or samples. .

For example, hospitals use a blood analyzer to measure the concentration of electrolytes, gaseous species, and metabolites in blood, or red blood cell volume ratios. To calibrate the blood analyzer readings. A calibration solution is a solution that contains components and concentrations to calibrate the blood analyzer's readings during blood analysis, and should always have a constant reference concentration and components, even if stored in the fill bag for a long time, and will not affect the blood analysis sensor. The filling bag should be filled without bubbles to prevent it.

As such, solutions used in laboratories and hospitals require high precision in storage methods to maintain reliability in the results of experiments or analyses. In general, special materials are used to prevent changes in the concentration and properties of liquids caused by storage containers. It should be stored in the storage container of the container and should be stored without bubbles.

To this end, a method of storing a liquid using a vacuum vinyl pack is also used. Such a vacuum vinyl pack has a structure in which some air layers that are not vacuum-inhaled in the inner space of the vacuum vinyl pack by partial vacuum compression generated by vacuum suction of the inner space. Will remain. In this state, when the liquid is injected into the vacuum plastic pack, bubbles are present in the vacuum plastic pack together with the liquid. Therefore, when the liquid is used in a specific test procedure, the test result is highly accurate and reliable due to the air bubbles present with the liquid. There was a problem of deterioration. In addition, the vacuum vinyl pack generally used has the property that some materials such as water molecules in the liquid can permeate due to the characteristics of the material, so that the concentration and properties of the stored liquid will change after long-term storage. There was a problem that the accuracy and reliability of the results are greatly reduced.

The present invention is invented to solve the problems of the prior art, an object of the present invention is to completely fill the liquid after the vacuum suction of the entire inner space of the filling bag body capable of storing the liquid to avoid the liquid without bubbles The present invention provides a liquid vacuum filling bag which can be stored, thereby ensuring accuracy and reliability with respect to test results using liquids, and which can prevent changes in the concentration or property of stored liquids even if stored for a long time.

Another object of the present invention is to provide a liquid vacuum filling apparatus for injecting a liquid into the filling bag body in a vacuum state by connecting a vacuum pump and a liquid supply device to the liquid vacuum filling bag.

Still another object of the present invention is to store a pure liquid without bubbles in the filling bag body by using the above-described liquid vacuum filling device, even if stored for a long time liquid vacuum filling that can prevent the change of concentration or property of the stored liquid To provide a way.

A filling bag body sealed to receive liquid in an inner space and formed to be vacuum compressed by vacuum suction; An insertion paper disposed in the filling bag main body to form a fine air flow path inside the filling bag main body while being vacuum-compressed with the inner surface of the filling bag main body; And an entrance and exit tube penetratingly coupled to the filling bag main body in communication with the inner space of the filling bag main body to enable vacuum suction and liquid injection into the inner space of the filling bag main body. It provides a liquid vacuum filling bag, characterized in that the vacuum suction to the entire internal space through the fine air flow path formed by the.

In this case, the inlet and outlet pipes are vacuum suction tubes penetrated and coupled to the filling bag main body so as to communicate with the inner space of the filling bag main body so as to vacuum suction the inner space of the filling bag main body, and the liquid in the inner space of the filling bag main body. It is preferable that the liquid injection tube is penetrated and coupled to the filling bag main body so as to communicate with the inner space of the filling bag main body so as to inject.

In addition, the insertion paper may be formed of a breathable fabric paper in which micro-pores are connected.

In addition, the insertion paper may be formed in a flat plate form embossed projection on one side or both sides.

In addition, the filling bag main body may be formed of a soft metal material to prevent a change in the characteristics of the liquid filled therein over time.

In addition, a separate valve assembly capable of opening and closing the filling bag main body is coupled to communicate with the inner space of the filling bag main body, and the valve assembly communicates with the inner space of the filling bag main body according to the opening and closing operation of the valve assembly. A liquid discharge tube can be formed which is in communication with or blocked.

On the other hand, the present invention, the filling bag body is formed to be sealed to accommodate the liquid in the inner space and formed of a soft metal material to be vacuum compressed by vacuum suction, and the filling bag is disposed inside the filling bag body An insert space for forming a fine air flow path inside the filling bag main body in a vacuum-compressed state with an inner surface of the main body, and an inner space of the filling bag main body to enable vacuum suction and liquid injection into the inner space of the filling bag main body. And an inlet and outlet tube respectively connected to the filling bag body in communication with the filling bag body, wherein the filling bag body includes: a liquid vacuum filling bag configured to allow vacuum suction to the entire inner space through a fine air flow path formed by the inserting paper; A vacuum pump connected to the inlet and outlet pipes through a vacuum connection pipe so as to suck the vacuum in the inner space of the filling bag main body; A liquid supply device connected to the inlet / outlet pipe and the liquid connecting pipe to inject liquid into the inner space of the filling bag main body; And first and second open / close valves mounted on the vacuum connection pipe and the liquid connection pipe, respectively.

In this case, a separate valve assembly capable of opening and closing the filling bag main body is coupled to communicate with the inner space of the filling bag main body, and the valve assembly communicates with the inner space of the filling bag main body according to the opening and closing operation of the valve assembly. The liquid discharge pipe is formed or blocked in communication with each other, the vacuum pump may be configured to be connected to the inlet and outlet pipe and the liquid discharge pipe, respectively, through the vacuum connection pipe to vacuum suction the internal space of the filling bag body.

On the other hand, the present invention, the preparation step of preparing a liquid vacuum filling apparatus according to claim 6; A vacuum suction step of operating the vacuum pump to vacuum suction the internal space of the filling bag main body and to lock the first opening / closing valve; A liquid injection step of operating the liquid supply device after the vacuum suction step to inject liquid into the inner space of the filling bag body and to lock the second opening / closing valve; A sealing step of sealingly adhering one side of the filling bag main body such that the entry and exit pipes are in communication with the inner space of the filling bag main body; And a cutting step of cutting and removing the entry and exit pipe part from the filling bag body based on the sealing-bonded portion through the sealing step.

According to the present invention, by inserting an insert capable of forming a fine air flow path inside the filling bag main body, the entire inner space of the filling bag main body is completely vacuum-sucked and filled with liquid to store the liquid without bubbles. Therefore, the effect of bubbles on the test results using the liquid can be removed to secure accuracy and reliability.

In addition, even if stored for a long time by forming a filling bag made of a metal material to prevent changes in the concentration or properties of the stored solution, there is an effect that can give a higher accuracy and reliability for the experimental or analytical results.

In addition, by sealingly mounting a separate valve assembly to the filling bag main body, the liquid can be supplied to the external device while maintaining the vacuum state with respect to the stored liquid, so that the inflow of air is blocked even in the process of supplying and discharging the stored liquid. There is an effect that can maintain the properties for more accurately.

1 and 2 are a perspective view schematically showing the shape of a liquid vacuum filling bag according to an embodiment of the present invention,
3 is a cross-sectional view conceptually showing an internal structure of a liquid vacuum filling bag according to an embodiment of the present invention;
4 is a cross-sectional view conceptually showing an internal structure of a liquid vacuum filling bag according to another embodiment of the present invention;
5 is a cross-sectional view schematically showing the structure of the valve assembly of the liquid vacuum filling bag according to an embodiment of the present invention;
6 is a conceptual diagram schematically showing the configuration of a liquid vacuum filling apparatus according to an embodiment of the present invention;
7 is an operation flowchart showing a step by step flow of the liquid vacuum filling method according to an embodiment of the present invention,
8 and 9 are operation state diagrams schematically showing the operating state of the liquid filling method through a liquid vacuum filling apparatus according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 and 2 are perspective views schematically showing the shape of a liquid vacuum filling bag according to an embodiment of the present invention.

Liquid vacuum filling bag according to an embodiment of the present invention is a storage container for vacuum filling the liquid, to store the liquid in a vacuum to prevent the generation of bubbles affecting the experimental or analytical results and is made of a soft metal material By preventing the stored solution from permeating into the filling bag, it can be used as a storage means for liquids used in precision applications such as sample solution by preventing the concentration or property change of the stored solution. In addition to its simple structure, its portability is simple, and thus can be easily used for a portable tester. The liquid vacuum filling bag 10 includes a filling bag main body 100, an insertion paper 200 disposed inside the filling bag main body 100, and an entrance and exit pipe 700 coupled to the filling bag main body 100. It is configured to include.

The filling bag main body 100 is formed to be sealed to accommodate the liquid in the inner space and is formed of a soft material to be vacuum compressed by vacuum suction. That is, as shown in FIG. 1, two thin film-like members formed in the same shape may be bonded to each other along the outer circumference thereof to seal the liquid receiving space therein. Therefore, the outer circumference of the filling bag main body 100 is formed as shown in Figure 1, the bonding portion 110, the bonding method of the bonding portion 110 is the form of the inner bag is sealed in the form of the filling bag main body 100 It can be applied in various ways depending on the material and properties, for example, it can be applied by laminating bonding in the form of thermal fusion using heat.

The filling bag main body 100 is coupled to the filling bag main body 100 through the entrance and exit pipe 700 in communication with the internal space of the filling bag main body 100. At this time, the entrance and exit pipe 700 is preferably disposed so as to be close to each other as shown in Figure 1 is coupled to be located in the corner portion of the main body 100. This is to facilitate the removal after the filling of the liquid filling the main body 100, a detailed description thereof will be described later. The entrance and exit pipe 700 is mounted to inject a liquid after vacuum suction the inner space of the filling bag main body 100, as shown in Figure 1, the end of the entry and exit pipe 700 is a suction pipe for vacuum suction ( 710 and two branch tubes of the injection tube 720 for liquid injection.

The inlet and outlet pipe 700 is preferably formed separately from the vacuum suction pipe 300 and the liquid injection pipe 400 as shown in Figure 2 so that the vacuum suction and the liquid injection process can be performed independently of each other. . That is, the inlet and outlet pipes 700 are vacuum suction pipes 300 which are penetrated and coupled to the filling bag body 100 so as to communicate with the inner spaces of the filling bag body 100 so as to vacuum suction the inner spaces of the filling bag body 100. And separated into a liquid injection tube 400 penetrated and coupled to the filling bag main body 100 so as to communicate with the inner space of the filling bag main body 100 so as to inject liquid into the inner space of the filling bag main body 100. It is preferable. Hereinafter, unless otherwise specified, the entry and exit pipe 700 will be described based on the vacuum suction pipe 300 and the liquid injection pipe 400 in this separated form. Here, the inlet / outlet pipe 700, that is, the vacuum suction pipe 300 and the liquid injection pipe 400 may be formed by using separate vacuum pumps 20 (see FIG. 6) and a liquid supply device 30 (see FIG. 6), which will be described later. It is configured to enable vacuum suction and liquid injection to the filling bag body 100.

Insertion paper 200 is disposed inside the filling bag main body 100 and is configured to form a fine air flow path (R) inside the filling bag main body 100 in a vacuum compressed state with the inner surface of the filling bag main body 100. . That is, as described in the prior art, the filling bag main body 100 of the soft material having a smooth inner surface is vacuum-compressed with each other when the inner surfaces of the filling bag main body 100 are instantaneously vacuumed through the vacuum suction pipe 300. In this case, in the process of vacuum-packing the filling bag main body 100, an air layer, which is not vacuum sucked, remains in a bubble shape surrounded by a vacuum-compressed portion in some space of the filling bag main body 100. Since the air layer does not communicate with the vacuum suction pipe 300 by vacuum compression of the filling bag main body 100 and occupies an independent space, even if the vacuum suction is continued, the air is not sucked and continues inside the filling bag main body 100. Will remain. Thus, the fill bag body 100 having a smooth inner surface generally does not allow the entire space to be completely vacuumed in. In order to solve this problem, the liquid vacuum filling bag 10 according to the exemplary embodiment of the present invention has an inserting paper 200 capable of forming a fine air flow path R in the filling bag main body 100.

Since the inserting paper 200 forms a fine air flow path R in the filling bag main body 100 in a state in which the filling bag main body 100 is vacuum compressed, the filling bag main body 100 is conventionally in the process of vacuum pressing. There is no air bubble in the form of bubble like technology. That is, even when the filling bag main body 100 is vacuum-compressed, the fine air flow path R is formed in the inner space of the filling bag main body 100 by the insertion paper 200 disposed on the filling bag main body 100. Through this, all the air is vacuum sucked in the entire inner space of the filling bag main body 100.

According to this structure, the liquid vacuum filling bag 10 according to the exemplary embodiment of the present invention has no air layer in the filling bag body 100 in the state where the filling bag body 100 is vacuum sucked through the vacuum suction pipe 300. Since the liquid is injected into the filling bag main body 100 through the liquid injection tube 400 afterwards, only the pure liquid is stored in the filling bag main body 100 without bubbles, and thus the filling bag main body 100 When the sample solution is stored, more accurate test results can be obtained when the test is performed using the sample solution. In addition, since the liquid vacuum filling bag 10 has a simple structure and can be manufactured in a small size, the liquid vacuum filling bag 10 may be conveniently used and portable and transported because it is easy to manufacture and carry.

3 and 4 are cross-sectional views conceptually illustrating an internal structure of a liquid vacuum filling bag to which various inserts are applied according to various embodiments of the present disclosure.

Insertion paper 200 according to an embodiment of the present invention is formed in a flat plate shape as shown in Figure 3 may be configured in the form of embossing protrusion 210 is formed on one side or both sides. In this case, as shown in (b) of FIG. 3, the filling bag main body 100 is shown in FIG. 3 (b) in the state where the inserting paper 200 is inserted into the filling bag main body 100. When the vacuum is sucked, the inner surface of the filling bag main body 100 is vacuum-compressed with both sides of the inserting paper 200. At this time, since the embossing protrusion 210 is formed on both sides of the inserting paper 200, the micro air flow path R by the embossing protrusion 210 is formed between both sides of the inserting paper 200 and the inner surface of the filling bag main body 100. ) Is formed. Accordingly, all of the air is vacuum sucked through the micro air flow path R in the entire inner space of the filling bag main body 100. In this case, since the embossing protrusion 210 forms the same fine air flow path R even when formed only on one side of the inserting paper 200, the effect may be almost the same.

On the other hand, the inserting paper 200 may be formed of a breathable textile paper in which the micro voids 220 are continuously formed therein as shown in FIG. 4. Such breathable woven paper may be used as a nonwoven fabric, and a variety of woven paper in the form of inclined weft yarns may be used in the range in which the micro voids 220 are formed. Since the inserting paper 200 has a fine air flow path R formed in the filling bag main body 100 by the micro voids 200 in a state in which the filling bag main body 100 is vacuum compressed as illustrated in FIG. 4, In the same principle as described above, all the air is vacuum sucked in the entire interior space of the filling bag main body 100.

The inserting paper 200 may be formed in various ways in addition to forming a fine air flow path R in the inner space of the filling bag main body 100 in a state in which the filling bag main body 100 is vacuum compressed. For example, a plurality of orthogonal transverse and longitudinal wire frames may be combined or in the form of a plate in which air flow paths orthogonal are formed therein.

As described above, the liquid vacuum filling bag 10 according to the exemplary embodiment of the present invention is configured to include an inserting paper 200 capable of forming a fine air flow path R in the filling bag main body 100. The structure may be more useful when the protrusions may not be formed on the inner side of the filling bag body 100. That is, as a method for vacuum intake of air in the entire inner space of the filling bag main body 100, a protrusion is formed on the inner side of the filling bag main body 100 to form a fine air passage therein during vacuum compression of the filling bag main body 100. May be formed, but due to the nature of the material of the filling bag body 100 for storing the liquid does not form a protrusion on the filling bag body 100 or forming the protrusion is very difficult in manufacturing, in one embodiment of the present invention The liquid vacuum filling bag 10 having the insert 200 according to the present invention may be particularly effective.

In more detail, as described in the prior art, the filling bag for storing liquid should be configured such that the characteristics of the liquid stored therein do not change with time, but maintain the same characteristics. Some components, such as water molecules, can permeate the vacuum plastic pack, so that the liquid stored in the vacuum plastic pack may change its concentration and other properties over time. Therefore, in order to prevent such a characteristic change, the liquid vacuum filling bag 10 according to the exemplary embodiment of the present invention is preferably formed of a metal material such that the filling bag main body 100 cannot transmit liquid. For example, it may be formed in the form of a thin metal plate such as aluminum to prevent permeation to some components of the liquid, thereby keeping the concentration and other properties of the stored liquid the same at all times.

As described above, the filling bag main body 100 according to the embodiment of the present invention is preferably formed of a metal material, and the filling bag main body 100 of the metal material cannot be formed with protrusions for forming a fine air passage on the inner surface. Therefore, through the structure of inserting the inserting paper 200 inside the filling bag body 100 as described above, it is possible to more fully perform the vacuum suction to the interior space.

Figure 5 is a schematic cross-sectional view showing the structure of the valve assembly of the liquid vacuum filling bag according to an embodiment of the present invention.

As illustrated in FIGS. 1 and 5, a separate valve assembly 500 may be penetrated through the filling bag body 100 so as to communicate with an inner space of the filling bag body 100. That is, since the liquid stored in the filling bag main body 100 may be used after a specific test procedure, the valve assembly 500 may be mounted to provide the stored liquid to a specific external device without contacting air. The valve assembly 500 has a liquid discharge pipe 530 which is in communication with or blocked from the internal space of the filling bag body 100 according to the opening and closing operation of the valve assembly 500 is formed, through the filling bag body 100 It is formed to supply and discharge the stored liquid.

The valve assembly 500 may be formed in various ways according to a user's needs. For example, as illustrated in FIG. 5, a through hole 512 is formed at a center thereof to penetrate the filling bag body 100. Communicating with the valve body 510 to be coupled, the valve rod 520 inserted into the through hole 512 of the valve body 510 to be linearly coupled, and the through hole 512 of the valve body 510. It may be configured to include a liquid discharge pipe 530 to be formed. In this case, a liquid supply passage 513 is formed on the inner circumferential surface of the through hole 512 to communicate with the inner space of the filling bag main body 100, and the first sealing to prevent external leakage of liquid is formed on the outer circumferential surface of the valve rod 520. The member 521 and the second sealing member 522 are mounted to block and unblock the liquid flow to the liquid discharge pipe 530 as the valve rod 520 moves. Therefore, when the valve rod 520 is pressed inward from the state of FIG. 5A to the state of FIG. 5B, the second sealing member 522 moves and the liquid supply passage 513 and the liquid discharge pipe ( 530 are in communication with each other, and thus the liquid is supplied and discharged from the inner space of the filling bag main body 100 through the liquid discharge pipe 530. Subsequently, when the valve rod 520 returns to the state of FIG. 5A, the communication between the liquid supply passage 513 and the liquid discharge pipe 530 is interrupted to stop supplying liquid.

According to this structure, in order to supply the liquid stored in the filling bag main body 100 to a specific external device 600 (see FIG. 8), the specific external device 600 is connected to the liquid discharge pipe 530, and the valve rod 520 is provided. By opening the valve assembly 500 in such a way as to pressurize it, the liquid may be supplied to the external device 600.

On the other hand, the present invention provides a liquid vacuum filling device for vacuum filling the liquid by using the liquid vacuum filling bag (10).

FIG. 6 conceptually illustrates a configuration of the liquid vacuum filling apparatus. The liquid vacuum filling apparatus according to an embodiment of the present invention includes the above-described liquid vacuum filling bag 10 and the inside of the filling bag main body 100. The vacuum pump 20 connected through the inlet / outlet pipe 700 and the vacuum connection pipe 21 so that the space can be sucked in the vacuum, and the inlet / outlet pipe 700 so as to inject liquid into the inner space of the filling bag main body 100. ) And the liquid supply device 30 connected through the liquid connection pipe 31, and the first and second on-off valves 40 and 50 mounted on the vacuum connection pipe 21 and the liquid connection pipe 31, respectively. It is configured to include. At this time, one end of the vacuum connection pipe 21 and the liquid connection pipe 31 is mounted and connected to the vacuum pump 20 and the liquid supply device 30, respectively, and the other end of the filling bag body (C) through a separate connector (C). It is configured to be sealingly coupled to the entry and exit pipe 700 of 100. In addition, the liquid supply device 30 is configured in such a manner that the liquid is injected into the filling bag main body 100 by hydraulic pressure from a separate external liquid reservoir when the second opening / closing valve 50 is opened or a separate liquid supply pump. It can be configured in a variety of forms, such as configured to force injection into the filling bag body 100 using the. Here, the entry and exit pipe 700 is preferably formed to be separated into the vacuum suction pipe 300 and the liquid injection pipe 400, as shown in Figure 6, in this case the vacuum suction pipe 300 is connected to the vacuum pump 20 And the liquid injection pipe 400 is connected to the liquid supply device 30.

Looking at the operation method of the liquid vacuum filling apparatus according to an embodiment of the present invention according to this configuration, first the vacuum connection pipe 21 and the liquid connection pipe 31, respectively, the vacuum suction pipe 300 and the liquid injection pipe 400 To. Thereafter, the first opening / closing valve 40 of the vacuum connection pipe 21 is opened and the vacuum pump 20 is operated to vacuum suction the internal space of the filling bag main body 100. At this time, the inner space of the filling bag main body 100 is formed with a fine air flow path (R) by the above-described inserting paper 200, the vacuum crimping in the state that no air remains in the entire inner space of the filling bag main body 100 do. As such, when the filling bag main body 100 is vacuum compressed, the first opening / closing valve 40 is locked to maintain the vacuum pressing state of the filling bag main body 100. Thereafter, the second opening / closing valve 50 of the liquid connection pipe 31 is opened and the liquid supply device 30 is operated to inject liquid into the filling bag main body 100. When a certain amount of liquid is injected, the liquid filling operation is completed by locking the second opening / closing valve 50 to stop the liquid injection.

At this time, the method of determining the completion state of the liquid injection is applied by measuring the amount of the liquid supplied from the liquid supply device 30 through a separate sensor (not shown) or the weight of the filling bag body 100 It can be changed in various ways, such as may be applied to measure the amount of the liquid injected into the filling bag body 100 through a separate electronic balance (not shown) to measure. In particular, the second on-off valve 50 is applied in the form of a solenoid valve that operates according to an electrical signal, and the second on-off valve 50 is provided through a separate control unit (not shown) according to the liquid injection amount measured by the electronic scale. It may be configured to open and close automatically. The same may be applied to the first on-off valve 40 in the form of a solenoid valve, and may be configured to be automatically opened and closed by the controller.

Meanwhile, as described above, the filling bag main body 100 may be equipped with a separate valve assembly 500 in which the liquid discharge pipe 530 is formed. In this case, the vacuum pump 20 may include a separate vacuum connection pipe 21. It is configured to communicate with the liquid discharge pipe 530 through, so that when the vacuum pump 20 is operated, the filling bag main body 100 is not only sucked vacuum through the vacuum suction pipe 300 but also through the liquid discharge pipe 530 Vacuum suction. At this time, the valve rod 520 of the valve assembly 500 will be manipulated in such a way that the liquid discharge pipe 530 is pressed inward as described above so that the liquid discharge pipe 530 communicates with the internal space of the filling bag body 100. Through such a configuration, the filling bag main body 100 may be vacuum sucked from both sides through the vacuum suction pipe 300 and the liquid discharge pipe 530, so that the vacuum suction can be performed more smoothly and effectively. Here, the liquid discharge pipe 530 is connected to the vacuum pump 20 and used for vacuum suction of the filling bag main body 100. However, when the vacuum suction of the filling bag main body 100 is completed, a vacuum connection is made from the liquid discharge pipe 530. The pipe 21 must be removed to return the valve assembly 500 to be sealed off, and then the liquid discharge pipe 530 can be used for supplying liquid to the other external device 600 according to the above-described principle.

On the other hand, the present invention provides a method for vacuum filling a liquid using the liquid vacuum filling apparatus described above, Figure 7 is an operation flow chart showing the operation flow for the liquid vacuum filling method step by step, 8 and FIG. 9 is an operating state diagram conceptually showing an operating state of the liquid vacuum filling method.

In the liquid vacuum filling method according to an embodiment of the present invention, a liquid vacuum filling apparatus is prepared by first connecting the vacuum pump 20 and the liquid supply device 30 to the liquid vacuum filling bag 10 as described above. (S1), and then operates the vacuum pump 20 to vacuum suction the internal space of the filling bag main body 100, and then locks the first opening / closing valve 40 (S2), and then operates the liquid supply device 30. After operation, the liquid is injected into the inner space of the filling bag main body 100 and the second opening / closing valve 50 is locked (S3). Since this is performed in the manner described in the operation description of the above-described liquid vacuum filling device, a detailed description thereof will be omitted.

After the liquid injection is completed in the interior space of the filling bag main body 100 as described above, the entrance and exit pipe 700, that is, the vacuum suction pipe 300 and the liquid injection tube 400 as shown in Figure 7 Sealing and bonding one side of the filling bag main body 100 so as to be in communication with the internal space of the 100 (S4). Such sealing adhesion is performed such that a new adhesive portion 111 is formed along the adhesive line adjacent to the corner portion where the vacuum suction pipe 300 and the liquid injection pipe 400 are formed as shown in FIG. 8. Subsequently, as shown in FIG. 8, the vacuum connection pipe 21 and the liquid connection pipe 31 are separated and removed from the vacuum suction pipe 300, the liquid injection pipe 400, and the liquid discharge pipe 530, respectively, and illustrated in FIG. 9. As described above, the vacuum suction tube 300 and the liquid injection tube 400 are cut from the filling bag main body 100 based on the sealingly bonded portion along the new bonding part 111 with respect to the newly sealed filling bag main body 100. Remove (S5). Through this process, the vacuum filling operation of the filling bag main body 100 is completed. At this time, the method of forming a new adhesive portion 111 may be performed by a laminate bonding method by thermal fusion as in the conventional adhesive portion 110 forming method described above.

In the liquid vacuum filling method according to an embodiment of the present invention, after filling the filling bag main body 100 with the liquid, the sealing bag main body 100 is newly sealed to maintain the vacuum state, and the vacuum suction tube 300 and the liquid are filled. It proceeds by removing the injection tube 400 forming part. Therefore, the vacuum suction pipe 300 and the liquid injection pipe 400 are formed adjacent to each other in the corner portion of the filling bag main body 100 for minimizing and easy removal of the removal portion for the filling bag main body 100. Would be preferred.

As such, the filling bag main body 100 having the new adhesive parts 110 and 111 is connected to the external device 600 and the connector C through the liquid discharge pipe 530 of the separate valve assembly 500 as shown in FIG. 9. It may be connected and used to supply and discharge liquid to the external device 600. Even in this case, the inner space of the filling bag main body 100 is blocked from the outside so as to maintain a vacuum state, and since there is no bubble in the inner space of the filling bag main body 100, the liquid is supplied to the external device 600 to perform the test process. If used, it will give higher accuracy and reliability to the test results.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

10: liquid vacuum filling bag 20: vacuum pump
21: vacuum connection valve 30: liquid supply device
31: liquid connection valve 40: first opening and closing valve
50: second on-off valve 100: filling bag main body
200: insertion sheet 300: vacuum suction pipe
400: liquid injection pipe 500: valve assembly
530: liquid discharge pipe 600: external equipment
700: entry and exit

Claims (9)

A filling bag body sealed to receive liquid in an inner space and formed to be vacuum compressed by vacuum suction;
An insertion paper disposed in the filling bag main body to form a fine air flow path inside the filling bag main body while being vacuum-compressed with the inner surface of the filling bag main body; And
Inlet and outlet pipes coupled to the filling bag body in communication with the inner space of the filling bag body to enable vacuum suction and liquid injection into the inner space of the filling bag body
And the filling bag body is capable of vacuum suction of the entire internal space through a fine air flow path formed by the insert.
The method of claim 1,
The entrance and exit pipe is
A vacuum suction tube penetratingly coupled to the filling bag main body so as to communicate with the inner space of the filling bag main body so as to suck the vacuum in the inner space of the filling bag main body, and to inject liquid into the inner space of the filling bag main body. The liquid vacuum filling bag, characterized in that the liquid injection tube is separated into the liquid injection tube is coupled to the filling bag body in communication with the inner space of the filling bag body.
The method of claim 1,
The insertion paper is a liquid vacuum filling bag, characterized in that formed in the breathable fabric paper in which micro-pores are connected.
The method of claim 1,
The insertion paper is a liquid vacuum filling bag, characterized in that formed in a flat plate-shaped embossed projection formed on one side or both sides.
The method according to any one of claims 1 to 4,
The filling bag main body is a liquid vacuum filling bag, characterized in that formed of a ductile metal material to prevent changes in the characteristics of the liquid filled therein with time.
The method of claim 5, wherein
A separate valve assembly operable to open and close is connected to the filling bag body so as to communicate with the inner space of the filling bag body, and the valve assembly communicates with or communicates with the inner space of the filling bag body according to the opening and closing operation of the valve assembly. Liquid vacuum filling bag, characterized in that the liquid discharge pipe to be blocked is formed.
A filling bag body formed to seal liquid in an inner space and formed of a soft metal material so as to be vacuum compressed by vacuum suction, and disposed inside the filling bag body and vacuumed inside the filling bag body. The filling bag to form a micro air flow path inside the filling bag main body in a compressed state, and to communicate with the inner space of the filling bag main body to enable vacuum suction and liquid injection into the inner space of the filling bag main body. A filling-in and out-tube respectively coupled to the main body, wherein the filling-bag main body comprises: a liquid vacuum filling bag configured to allow vacuum suction to the entire inner space through a fine air flow path formed by the inserting paper;
A vacuum pump connected to the inlet and outlet pipes through a vacuum connection pipe so as to suck the vacuum in the inner space of the filling bag main body;
A liquid supply device connected to the inlet / outlet pipe and the liquid connecting pipe to inject liquid into the inner space of the filling bag main body; And
First and second on-off valves respectively mounted on the vacuum connection pipe and the liquid connection pipe
Liquid vacuum filling apparatus comprising a.
The method of claim 7, wherein
A separate valve assembly operable to open and close is connected to the filling bag body so as to communicate with the inner space of the filling bag body, and the valve assembly communicates with or communicates with the inner space of the filling bag body according to the opening and closing operation of the valve assembly. A liquid discharge pipe is formed to be blocked, and the vacuum pump is connected to the entry and exit pipes and the liquid discharge pipe, respectively, through a vacuum connection pipe, and the liquid vacuum filling apparatus, characterized in that configured to vacuum suction the internal space of the bag body.
A preparation step of preparing a liquid vacuum filling apparatus according to claim 6;
A vacuum suction step of operating the vacuum pump to vacuum suction the internal space of the filling bag main body and to lock the first opening / closing valve;
A liquid injection step of operating the liquid supply device after the vacuum suction step to inject liquid into the inner space of the filling bag body and to lock the second opening / closing valve;
A sealing step of sealingly adhering one side of the filling bag main body such that the entry and exit pipes are in communication with the inner space of the filling bag main body; And
A cutting step of cutting and removing the entry and exit pipe part from the filling bag body based on the sealing-bonded portion through the sealing step
Liquid vacuum filling method comprising a.

Images