JP6352567B1 - Package - Google Patents

Abstract

The present invention provides a package capable of obtaining a mixture of a plurality of substances while maintaining a desired mixed state. A packaging body 1 according to the present invention includes a first storage region portion 11 and a second storage region portion 12 that store a plurality of substances, a material that can flow, and a first storage region portion 11 and a second storage region. And communication passages 21 and 22 that allow the region portion 12 to communicate with each other. And the 1st storage area part 11 and the 2nd storage area part 12 are comprised so that it may reduce / enlarge according to the pressure from the outside, and the reduction | decrease of the said 1st storage area part 11 and the 2nd storage area part 12 / The substance is configured to flow through the communication passages 21 and 22 in accordance with the expansion. [Selection] Figure 1

Description

  The present invention relates to a package, and particularly relates to a package capable of mixing contained substances.

  Nanobubbles are nano-sized (for example, a particle size of 1000 nm or less) microbubbles present in a solvent such as water, and have properties that are significantly different from ordinary bubbles. For example, nanobubbles are expected to have excellent effects on the human body, such as growth promotion effects, antioxidant effects, and bactericidal effects.

  And it has also been studied to contain nanobubbles in various solvents using the above-mentioned properties of nanobubbles. For example, nanobubbles can be taken into the human body by containing nanobubbles in a solvent that forms a cosmetic liquid, a cleaning agent, a medicine, a beverage, or the like.

Japanese Patent Laid-Open No. 2006-120919

  On the other hand, since nanobubbles are present as microbubbles in the solvent, the amount dissolved in the solvent can decrease with time. For this reason, for example, even when the purpose is to incorporate nanobubbles into the body, there is a problem in that it is difficult to efficiently incorporate nanobubbles due to a short dissolution period in the solvent and a decrease in the dissolved amount. .

  Here, Patent Document 1 discloses a packaging bag for stably holding a liquid containing a certain component. This packaging bag has an aluminum layer, and is configured so that a liquid containing a certain component can be stored for a long period of time while ensuring light shielding properties, moisture shielding properties, and gas barrier properties.

  However, even in the packaging bag as described above, the nanobubbles can be reduced if the nanobubbles are contained in the solvent. That is, it is difficult to stably maintain the mixed state of the liquid and gas mixture. For this reason, there arises a problem that it is difficult to obtain a solvent having a large amount of dissolved nanobubbles as necessary.

  Moreover, not only nanobubbles but also a case where a mixture of a plurality of substances is contained in the packaging bag described above, it may be difficult to stably maintain the mixed state of the mixture. For this reason, the problem that it is difficult to obtain the mixture which maintained the mixed state as needed arises.

  As described above, the object of the present invention is to provide a package that can solve the above-mentioned problem that it is difficult to obtain a mixture of a plurality of substances while maintaining a desired mixed state. It is in.

The package which is one form of the present invention,
A first storage region portion and a second storage region portion having an internal space for storing a plurality of substances;
The substance is circulated, and includes a communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other.
The first storage region portion and the second storage region portion are configured such that the internal space is reduced / expanded according to pressure from the outside, and the internal space of the first storage region portion and the second storage region portion The substance is configured to circulate through the communication path according to reduction / expansion of
The configuration is as follows.

  According to the above configuration, first, when a pressure is applied by pressing the first storage region portion from the outside, the internal space of the first storage region portion is reduced, and the substance stored in the internal space of the first storage region portion is reduced. It distribute | circulates to the internal space of a 2nd accommodation area | region part via a communicating path, and the internal space of the said 2nd accommodation area | region expands according to this. Thereafter, when pressure is applied by pressing the second storage region portion from the outside, the internal space of the second storage region portion shrinks, and the substance stored in the internal space of the second storage region portion passes through the communication path. It distribute | circulates to the internal space of a 1st accommodating area | region part, and the internal space of the said 1st accommodating area | region expands according to this. By repeatedly performing such an operation, a plurality of substances flowing between the first storage area and the second storage area through the communication path are mixed, and a mixture is generated in the package. Can do. As a result, such a mixture can be obtained immediately after mixing.

In the package,
At least one of the substances is a gas, and at least the other one is a liquid capable of containing gas bubbles,
The communication path is configured to microbubble the gas in the liquid when the substance flows.
The configuration is as follows.

In the package,
Protrusions were provided on the inner wall surface of the communication path,
The configuration is as follows.

In the package,
In the communication path, a hole forming member having a plurality of holes through which the substance can flow is provided.
The configuration is as follows.

In the package,
The plurality of holes formed in the hole forming member provided in the communication path are formed by gaps between a plurality of polygonal shaped objects arranged in the communication path.
The configuration is as follows.

  According to the said structure, when the substance accommodated is a liquid and gas, while a liquid and gas are mixed, when passing a communicating path, gas is microbubbled in a liquid. Thereby, a liquid containing microbubbles can be obtained.

In the package,
A plurality of the communication passages are provided between the first accommodation area and the second accommodation area.
The configuration is as follows.

In the package,
At least one of the communication passages is configured to circulate a substance from the internal space of the first storage region portion to the internal space of the second storage region portion, and at least the other one is the second storage region portion. The material is configured to circulate from the internal space to the internal space of the first storage region portion.
The configuration is as follows.

In the package,
Among the communication passages, at least one of the communication passages is configured such that the width of the passage becomes narrower from the internal space of the first storage region portion toward the internal space of the second storage region portion, and at least the other one is described. It is configured such that the width of the passage is narrowed from the internal space of the two storage region portions toward the internal space of the first storage region portion,
The configuration is as follows.

  According to the said structure, the quantity of the substance distribute | circulated between a 1st accommodating area | region part and a 2nd accommodating area | region part can be increased by providing multiple communicating paths. In addition, by setting the direction in which the substance in the communication path flows, the substance can be efficiently circulated and mixed. As a result, a mixture can be obtained efficiently.

In the package,
One or more other storage area portions having an internal space for storing the substance,
The storage area is communicated with the internal space of the first storage area and / or the internal space of the second storage area via a communication path.
The configuration is as follows.

  According to the said structure, a different substance can be beforehand accommodated in each area | region part by providing more accommodation area | region parts. Then, by pressing one of the region portions from the outside and applying pressure, each substance is mixed as described above. Thereby, the mixture which mixed many kinds of substances can be obtained in a mixed state.

In the package,
A part of two flexible sheet bodies are bonded together,
Between the two sheet bodies, an internal space of the first storage region portion, an internal space of the second storage region portion, and the communication path are formed, and configured.
The configuration is as follows.

  According to the above configuration, since each configuration in which a substance is accommodated or distributed is formed between two sheet bodies, a wrapping body capable of obtaining a mixture with a simple configuration and low cost is configured. Can do.

Moreover, the package which is the other form of this invention,
A first storage area, a second storage area and a third storage area having an internal space for storing a plurality of substances;
The substance is circulated, and a first series passage that allows the internal space of the first storage region portion and the internal space of the third storage region portion to communicate with each other; the internal space of the second storage region portion; A second communication passage that communicates with the internal space of the third storage region portion, and
The first storage region portion and the second storage region portion are configured such that the internal space is reduced / expanded according to pressure from the outside, and the internal space of the first storage region portion and the second storage region portion The material is configured to flow through the first series passage and the second communication passage in response to reduction / expansion of
The configuration is as follows.

And in the above package,
When at least one of the substances is a gas and at least the other is a liquid capable of containing gas bubbles,
The first series passage and the second communication passage are configured to make a gas into microbubbles in the liquid when the substance flows.
The configuration is as follows.

  Even in the package having the above-described configuration, the substance flows between the first accommodation area and the second accommodation area through the third accommodation area through the communication path. A liquid containing bubbles can be generated.

In addition, the substance mixing method according to another aspect of the present invention includes:
The internal space of the first storage area part and the internal space of the second storage area part are alternately pressed from the outside with the first storage area part and the second storage area part in which a plurality of substances are stored in the internal space. By alternately reducing / enlarging the above, the substance is circulated through a communication path that interconnects the internal space of the first storage region and the internal space of the second storage region.
The configuration is as follows.

And in the above substance mixing method,
At least one of the substances is a gas, and at least the other one is a liquid capable of containing gas bubbles,
When the substance is circulated through the communication path, the gas is microbubbled in the liquid in the communication path.
The configuration is as follows.

  Even in the above-described substance mixing method, the substance flows through the communication path between the first accommodation area and the second accommodation area, so that a mixture of a plurality of substances and a liquid containing microbubbles can be generated. Can do.

  By being configured as described above, the present invention can obtain a mixture of a plurality of substances while maintaining a desired mixed state.

It is a figure which shows the structure of the package in the 1st Embodiment of this invention. It is a figure which shows the mode at the time of utilization of the package disclosed in FIG. It is a figure which shows the mode at the time of utilization of the package disclosed in FIG. It is a figure which shows the structural example of the communicating path of the package disclosed in FIG. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention. It is a figure which shows the modification of the package which is this invention.

<Embodiment 1>
A first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a diagram illustrating a configuration of a package, and FIGS. 2 to 3 are diagrams illustrating a state when the package is used. FIG. 4 is a diagram illustrating a configuration example of a communication path constituting the package.

  In FIG. 1, an example of a structure of the package 1 in this embodiment is shown. Fig.1 (a) is a top view of the package 1, FIG.1 (b) is the package cut in the arbitrary positions (position in which the communicating path 21 is formed) of the up-down direction of Fig.1 (a). FIG.

  The packaging body 1 in the present embodiment is configured such that a part is bonded together in a state where two sheet bodies are laminated. The sheet body may be made of any material such as polyethylene or aluminum.

  Specifically, the packaging body 1 includes two housing region portions 11 and 12 and two communication passages 21 and 22 having an outer shape indicated by a dotted line in FIG. Other parts are laminated to form a space to be formed. That is, as shown in the cross-sectional view of FIG. 1B, the package 1 includes two stacked sheet bodies each including two storage area portions 11 and 12 and two communication paths 21 and 22. Only the constituent parts are not attached, and the other parts are attached. In addition, although the location where two sheet bodies are mutually bonded is thermobonded by the thermocompression-bonding sealer, for example, it may be bonded by any method.

  The two storage area portions 11 and 12 include a first storage area portion 11 and a second storage area portion 12. Liquid and gas are accommodated in the internal spaces of the accommodating region portions 11 and 12. For example, the liquid is a cosmetic liquid and the gas is hydrogen gas. Here, liquid and gas may be initially stored separately, such as cosmetic liquid in the internal space of the first storage region 11 and hydrogen gas in the internal space of the second storage region 12. Or it may be accommodated in each accommodation field part 11 and 12 in the state where liquid and gas were mixed. In addition, although the liquid and gas are mentioned as an example as a substance accommodated in the internal space of each accommodating area | region part 11 and 12, different types of liquids and gases may be sufficient, sol and gel, Furthermore, A solid such as a powder may be used. These substances are fluid substances that can flow through the communication passages 21 and 22, as will be described later.

  The two communication passages 21 and 22 are passages that allow the internal space of the first storage region portion 11 and the internal space of the second storage region portion 12 to communicate with each other. For this reason, the communication passages 21 and 22 can circulate so that the plurality of substances accommodated in the respective accommodating area portions 11 and 12 can pass between the accommodating area portions 11 and 12. However, the communication passages 21 and 22 are configured to define the flow direction of the substance. For example, the communication passage 22 is configured such that the width of the passage becomes narrower from the internal space of the first storage region portion 11 toward the internal space of the second storage region portion 12. For this reason, the communication path 22 functions as a valve, and is configured such that the substance flows from the first storage region portion 11 toward the second storage region portion 12. On the other hand, the communication passage 21 is configured such that the width of the passage becomes narrower from the internal space of the second storage region portion 12 toward the internal space of the first storage region portion 11. For this reason, the communication path 21 functions as a valve, and is configured such that the substance flows from the second storage region portion 12 toward the first storage region portion 11. However, the flow direction of the communication paths 21 and 22 may not necessarily be defined.

  Here, since the internal space of the first storage region portion 11 and the second storage region portion 12 described above is a space formed between two flexible sheet bodies, it is subjected to pressure from the outside. Accordingly, the internal space itself is configured to be reduced or enlarged. For example, as shown by the arrow in FIG. 2B, when the first accommodating region 11 is pushed from the outside and pressure is applied, the internal space of the first accommodating region 11 is reduced. Then, as shown by the arrow in FIG. 2 (a), the substance in the first storage region portion 11 flows through the communication path 22 and flows into the second storage region portion 12, and accordingly, The internal space of the second storage area 12 is enlarged. Thereafter, as shown by the arrow in FIG. 3B, when the second housing region 12 is pushed from the outside and pressure is applied, the internal space of the second housing region 12 is reduced. Then, as shown by the arrow in FIG. 3 (b), the substance accommodated in the second accommodating region 12 flows into the first accommodating region 11 through the communication path 21, and accordingly, The internal space of the first storage area 11 is enlarged.

  At this time, each of the communication paths 21 and 22 described above is configured to make the gas in the liquid into microbubbles when the substance flows. For example, the communication passages 21 and 22 are formed so that the width of the passage is extremely small at the inflow portion to the accommodation region portion on the downstream side, so that when the substance in which the liquid and the gas are mixed flows, the gas in the liquid flows. Microbubbles will be formed.

  Further, the communication paths 21 and 22 may be configured as shown in FIG. For example, as shown to Fig.4 (a), the convex part 21a may be provided in the inner wall face of the communicating path 21. FIG. As described above, the substance in which the liquid and the gas are mixed flows through the communication path 21 provided with the convex portion 21a, so that the gas in the liquid becomes microbubbles. Here, it is desirable that the generated microbubbles have a nano size with a particle size of 1000 nm or less, for example. The communication path 22 has the same configuration.

  Further, for example, as shown by a shaded portion in FIG. 4B, the communication passage 21 may be filled with a porous body 21b (hole forming member). The porous body 21b is made of, for example, a cotton-like fiber material and has a large number of holes. When the substance in which the liquid and the gas are mixed passes through the numerous holes, the gas in the liquid becomes microbubbles. In addition, as for the magnitude | size of a hole, it is desirable that a diameter is 1 mm or less. In addition, a large number of holes may be formed by gaps between these polygonal shaped objects, such as a honeycomb structure as described later. Good. By doing in this way, the further bubble size miniaturization can be performed efficiently.

  In the above configuration, as shown in FIG. 2 and FIG. 3, by alternately pressing externally against the first storage region portion 11 and the second storage region portion 12, the inside of the first storage region portion 11. The space and the internal space of the second storage area portion 12 are alternately reduced / enlarged. Then, the mixture of the liquid and gas accommodated in the internal space of the first storage region portion 11 and the internal space of the second storage region portion 12 repeats circulation in the communication paths 21 and 22, and the communication path 21. , 22 is a mixture of liquid and gas, and the gas is microbubbled in the liquid. As a result, a liquid containing microbubbled gas can be generated, and such a mixture can be obtained by opening the package. Thereby, since the liquid containing the microbubbles immediately after generation | occurrence | production can be obtained, the liquid with many dissolved amounts of microbubbles can be obtained.

  And as above-mentioned, cosmetics with many dissolved amounts of hydrogen microbubbles can be obtained by mixing cosmetic liquid and hydrogen, for example. In the package of the present invention, any material may be mixed. For example, you may utilize for mixing liquids, such as a cleaning agent, a chemical | medical agent, and a drink, and gases, such as oxygen and hydrogen. As a result, it is possible to obtain a mixture immediately after oxygen and hydrogen nanobubbles are generated and contained, and by using such a mixture, a living body such as a human body such as a growth promoting effect, an antioxidant action, and a bactericidal action by nanobubbles is obtained. An excellent effect can be expected. Note that the substances to be mixed may be liquids or gases. Thereby, an effective mixture can be obtained immediately after production.

  In addition, when it is desirable that different substances are stored in the two storage area portions 11 and 12 without being mixed before mixing, the substances are separately stored in the storage area portions 11 and 12, respectively. In a state in which the communication path 21 is accommodated, the communication paths 21 and 22 may be closed with clips or the like. And when mixing of a substance is required, the state which pinched | interposed the communication paths 21 and 22 may be cancelled | released, and mixing of a substance may be performed as mentioned above. In addition, you may perform the method of plugging the communicating paths 21 and 22 by what kind of method.

Here, the experimental result which generated the microbubble in the liquid using the package 1 mentioned above is shown. In the experiment, the size and number of microbubbles generated in the liquid were examined by video analysis. As a result, it was observed that 2 to 1.4 billion nanobubbles having 1 to 1000 nm were generated per 1 cm ^{3 of} liquid. When a general bubble generating device is used, only about 3000 to 50 million microbubbles are generated per 1 cm ^{3 of} liquid, whereas in the package 1 according to the present invention, a liquid having a larger amount of dissolved nanobubbles. Can be generated.

  Next, a modification of the present invention will be described with reference to FIGS. First, as shown in FIG. 5, the package 1 includes four communication paths. Among them, the two communication paths indicated by reference numeral 22 are configured to circulate the substance from the first accommodation area portion 11 toward the second accommodation area portion 12 as indicated by arrows in FIG. Moreover, the two communicating paths shown by the code | symbol 21 are comprised so that a substance may be distribute | circulated from the 2nd accommodating area | region part 12 toward the 1st accommodating area | region part 11, as shown by the arrow of FIG.5 (b). The number of communication paths is not limited to the number described above, and more communication paths may be provided.

  In this way, by providing a plurality of communication passages that serve as the material outlet and inlet for one storage region, the amount of the material flowing between the storage regions can be increased. In particular, the material can be efficiently mixed by setting the direction in which the material in the communication path flows.

  Moreover, as shown in FIG. 6, the package 1 may be provided with more accommodating area | region parts. Specifically, the package 1 shown in FIG. 6 includes a third storage region portion 13 in addition to the first storage region portion 11 and the second storage region portion 12. Along with this, a communication path 23 that distributes the substance from the third storage area part 13 toward the first storage area part 11, and a communication path that distributes the substance from the first storage area part 11 toward the third storage area part 13. And a passage 24.

  In each of the storage area portions 11, 12, and 13, different substances are stored in advance. For example, liquid is stored in the first storage region 11, and different gases are stored in the second storage region 12 and the third storage region 13, respectively.

  In the configuration as described above, the substances in the storage area portions 11, 12, and 13 can be mixed by repeatedly pressing the storage area portions 11, 12, and 13. For example, first, by pressing the second storage region portion 12, the substance in the second storage region portion 12 is allowed to pass through the communication path 21 as shown by the arrow in FIG. The substance in the first storage area 11 is circulated in the third storage area 13 through the communication path 24. Thereafter, by pressing the third storage region portion 13, the substance in the third storage region portion 13 circulates to the first storage region portion 11 via the communication path 23 as shown by the arrow in FIG. Then, the substance in the first storage region portion 11 flows into the second storage region portion 12 through the communication path 22. And by repeating the press of each accommodation area | region mentioned above, the mixture of the liquid and gas accommodated in the inside will repeat distribution | circulation in each communicating path, and gas will be microbubbled in the liquid. .

  In the example of FIG. 6, a communication path is not provided between the second storage area 12 and the third storage area 13, but a communication path may be provided between the storage areas 12 and 13. . In the example of FIG. 6, the example in which the three accommodation area portions 11, 12, and 13 are provided has been described, but more accommodation area portions may be provided. In this case, a communication path may be provided between all the storage area parts, or a communication path may be provided only between specific storage area parts.

  Moreover, although the structure provided with the some communication path between a pair of accommodation area | region parts 11 and 12 was shown above, as shown in FIG. 7, the package 1 of this invention is a pair of accommodation area | region parts 11, Only one communication path 25 may be provided between the twelve. Even with such a configuration, the substance can be circulated between the accommodating region portions 11 and 12 via the communication path 25, and the substance can be mixed or the gas can contain gas microbubbles.

  At this time, for example, as shown in FIG. 8A, the communication passage 25 may be filled with a honeycomb structure. Specifically, the communication path 25 may be configured such that a plurality of polygonal shaped objects such as hexagonal shaped objects are laid in the communication path 25 and the substance flows through the gaps between these polygonal shaped objects. At this time, the polygonal shaped object in the communication path 25 may be configured by, for example, thermocompressing two sheets forming the package 1 into a polygon, or by laying a polygonal shaped object. Also good.

  In addition, the communication path mentioned above may be provided in the edge between the 1st accommodating area | region part 11 and the 2nd accommodating area | region part 12, as shown in FIG.8 (b), for example. That is, as shown in FIG. 8B, in the example in which the first storage region portion 11 and the second storage region portion 12 are formed in a trapezoidal shape, the communication paths 26 and 27 may be provided at the apex portions that are close to each other. Good. When the structure shown in FIG. 8B is used, for example, the left and right sides of the packaging body 1 are gripped with the left and right hands and twisted to press the receiving area portions 11 and 12 into the liquid. Gaseous microbubbles can be included. Therefore, mixing of substances and generation of microbubbles are facilitated.

  Here, in the above description, the outer shape of the packaging body 1 is a rectangle, and the two storage area portions 11 and 12 are also illustrated in a rectangular shape. However, the shape of the packaging body 1 and the storage area portions 11 and 12 is as follows. Any shape is possible. For example, the outer shape may be a rhombus as shown in FIG. 9A, a heart shape as shown in FIG. 9B, or an ellipse as shown in FIG. And the accommodating area | region parts 11 and 12 may be the shape which divided the external shape of these package 1 itself into two substantially. Moreover, the 1st accommodation area | region part 11 and the 2nd accommodation area | region part 12 are not necessarily limited to being the same shape. For example, as shown in FIG. 10 (b), the packaging body 1 has a rectangular outer shape, the first accommodation area 11 is a quadrangle, the second accommodation area 12 is a triangle, and the like. , 12 may be different in shape.

  Moreover, although the case where two sheet bodies were bonded together and the package body 1 was comprised was illustrated above, the package body 1 may be what kind of structure. For example, each of the storage area portions may be formed of a container, and the communication path may be formed of a tube or a through hole. As another configuration example of the package 1, the package 1 having the configuration shown in FIG. 11 will be described. The package 1 shown in this figure is an intermediate region formed by two substantially cylindrical storage region portions 11 and 12 having flexibility and an internal space, the outer shape of which is narrower than the storage region portions 11 and 12. 14 is connected. And in the intermediate | middle area | region 14, the member which forms the outer surface of the package 1 in the center part 14a is bonded together, and the said center part 14a is the state closed. As a result, the space formed between the central portion 14a located around the central portion 14a and the outer surface communicates the internal space between the first storage region portion 11 and the second storage region portion 12. 28. As described above, the communication path 28 is formed to be extremely small, and is configured to make the gas in the liquid into microbubbles when the liquid flows. In addition, a discharge passage that is open to the outside is formed at the tip of the first accommodating region 11, and a discharge port that is an open end is closed by a cap 30. The communication path 28 is not necessarily limited to the configuration described above. For example, the first storage region portion 11 and the second storage region portion 12 are connected via an intermediate member, and the first storage region portion 11 and the second storage region portion 12 are communicated with the intermediate member. A passage may be formed.

  In the package 1 having the above-described configuration, the liquid containing the gas in each of the storage area portions 11 and 12 can communicate with the communication path 28 by alternately grasping the first storage area portion 11 and the second storage area portion 12. It will be distributed. Thereby, the liquid containing a microbubble can be produced | generated like the above-mentioned. Then, by removing the cap 30 and opening the discharge port of the discharge passage, the liquid containing microbubbles can be discharged. For example, when the liquid is a liquid fertilizer for plant cultivation, the liquid fertilizer containing microbubbles can be added to the plant by stabping the package 1 shown in FIG. 11 into the soil of a pot or a planter from the discharge port side. Can be given.

  Moreover, as shown in FIG. 12, the packaging body 1 of this invention may form each accommodating area | region parts 11 and 12 and the communicating path 29 which connects between these with elastic members, such as rubber | gum. And in the example of FIG. 12, the inside of the communicating path 29 has a honeycomb structure. Further, in the example of FIG. 12, a discharge passage communicating with the inside of the second storage region portion 12 is formed, and a cap 30 is provided at a discharge port serving as an opening end of the discharge passage. With such a configuration, it is possible to generate a liquid containing a large amount of microbubbles by pressing each of the storage area portions 11 and 12 alternately with a hand or a leg. Thus, the liquid produced | generated in large quantities can be utilized as an agrochemical etc., for example.

  In addition, although the case where the two accommodation area | region parts 11 and 12 were connected directly above was illustrated, as shown in FIG. 13, intermediate accommodation between the 1st accommodation area | region part 11 and the 2nd accommodation area | region part 12 is carried out. You may provide the area | region part 15 (3rd accommodation area | region part). Then, one or a plurality of first series passages 31 for communicating the first accommodation area 11 and the intermediate accommodation area 15, and one or a plurality for communicating the second accommodation area 12 and the intermediate accommodation area 15. The second communication passage 32 is provided. In such a configuration, by pressing only the first storage region portion 11 and the second storage region portion 12 at both ends, the substance flows through the communication passages 31 and 32 through the intermediate storage region portion 15, and more efficiently and minutely. Bubbles can be generated.

  Here, the above-described packaging body 1 itself may be formed of a water-soluble material. In that case, a substance accommodated in the packaging body 1, for example, a contained liquid is defined as a substance that does not dissolve the packaging body 1. Also good. For example, the substance accommodated in the package 1 is preferably water or a substance other than water. Thereby, for example, a liquid detergent that does not dissolve the packaging body 1 and a predetermined gas are accommodated and mixed in the packaging body 1, thereby obtaining a mixture containing gas fine bubbles in the liquid detergent. it can. Then, by putting the packaging body 1 itself into the washing machine in a state where microbubbles are generated, the packaging body 1 is dissolved in the washing water in the washing machine, and the liquid detergent in a state where the microbubbles are contained is contained in the washing machine. Can be poured into washing water. Thereby, effects, such as a bactericidal action by the nano bubble with respect to the laundry, can be expected. Note that the package 1 is not necessarily limited to being water-soluble, and may be formed of a material that is dissolved in a specific substance such as a liquid other than water. In that case, the package 1 is accommodated in the package 1. The substance to be made may be other than the specific substance in which the package 1 is dissolved.

  Although the present invention has been described with reference to the above-described embodiment and the like, the present invention is not limited to the above-described embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

  The present invention relates to a patent application of Japanese Patent Application No. 2006-204402 filed on October 18, 2016 in Japan, and Japanese Patent Application No. 2017 filed on April 14, 2017 in Japan. The benefit of the priority claim based on the -080428 patent application is enjoyed, and all the contents described in the patent application are included in the present specification.

DESCRIPTION OF SYMBOLS 1 Package 11 1st accommodation area | region part 12 2nd accommodation area | region part 13 3rd accommodation area | region part 14 Intermediate | middle area 15 Intermediate | middle accommodation area parts 21-29, 31, 32 Communication path 21a Protrusion part 21b Porous body 30 Cap

Claims (11)

A first storage region portion and a second storage region portion having an internal space for storing a plurality of substances;
The substance is circulated, and includes a communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other.
The first storage region portion and the second storage region portion are configured such that the internal space is reduced / expanded according to pressure from the outside, and the internal space of the first storage region portion and the second storage region portion The material is configured to circulate through the communication path in response to reduction / expansion of
The communication passage is formed so that the width of the passage is smaller than the other portions at the inflow portion into the internal space that accommodates the downstream substance.
Packaging body. A first storage region portion and a second storage region portion having an internal space for storing a plurality of substances;
The substance is circulated, and includes a communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other.
The first storage region portion and the second storage region portion are configured such that the internal space is reduced / expanded according to pressure from the outside, and the internal space of the first storage region portion and the second storage region portion The material is configured to circulate through the communication path in response to reduction / expansion of
The communication passage is configured such that the width of the passage becomes narrower from the internal space of the first storage region portion toward the internal space of the second storage region portion.
Packaging body. A first storage region portion and a second storage region portion having an internal space for storing a plurality of substances;
The substance is circulated, and includes a communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other.
The first storage region portion and the second storage region portion are configured such that the internal space is reduced / expanded according to pressure from the outside, and the internal space of the first storage region portion and the second storage region portion The material is configured to circulate through the communication path in response to reduction / expansion of
Further, at least one of the substances is a gas, and at least the other one is a liquid capable of containing gas bubbles,
The communication path is configured to microbubble the gas into bubbles having a particle size of 1000 nm or less in the liquid when the substance flows.
A plurality of the communication passages are provided between the first accommodation area and the second accommodation area.
Packaging body. The package according to claim 3 ,
At least one of the communication passages is configured to circulate a substance from the internal space of the first storage region portion to the internal space of the second storage region portion, and at least the other one is the second storage region portion. The material is configured to circulate from the internal space to the internal space of the first storage region portion.
Packaging body. The package according to claim 3 or 4 ,
Among the communication passages, at least one of the communication passages is configured such that the width of the passage becomes narrower from the internal space of the first storage region portion toward the internal space of the second storage region portion, and at least the other one is described. It is configured such that the width of the passage is narrowed from the internal space of the two storage region portions toward the internal space of the first storage region portion,
Packaging body. A package according to any one of claims 1 to 5 ,
One or more other storage area portions having an internal space for storing the substance,
The storage area is communicated with the internal space of the first storage area and / or the internal space of the second storage area via a communication path.
Packaging body. A first storage region portion and a second storage region portion having an internal space for storing a plurality of substances;
The substance is circulated, and includes a communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other.
The first storage region portion and the second storage region portion are configured such that the internal space is reduced / expanded according to pressure from the outside, and the internal space of the first storage region portion and the second storage region portion The material is configured to circulate through the communication path in response to reduction / expansion of
Further, at least one of the substances is a gas, and at least the other one is a liquid capable of containing gas bubbles,
The communication path is configured to microbubble the gas into bubbles having a particle size of 1000 nm or less in the liquid when the substance flows.
One or more other storage area portions having an internal space for storing the substance,
The storage area is communicated with the internal space of the first storage area and / or the internal space of the second storage area via a communication path.
Packaging body. The package according to any one of claims 1 to 7,
A part of two flexible sheet bodies are bonded together,
Between the two sheet bodies, an internal space of the first storage region portion, an internal space of the second storage region portion, and the communication path are formed, and configured.
Packaging body. A package according to any one of claims 1 to 8,
The package is formed of a water-soluble material,
The substance contained in the package is a substance that does not dissolve the package.
Packaging body. The internal space of the first storage area part and the internal space of the second storage area part are alternately pressed from the outside with the first storage area part and the second storage area part in which a plurality of substances are stored in the internal space. Are alternately reduced / enlarged, when the substance is circulated through the communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other, Circulating the substance through the communication passage formed at a location where the material flows into the internal space where the width of the passage is smaller than other locations;
Substance mixing method. The internal space of the first storage area part and the internal space of the second storage area part are alternately pressed from the outside with the first storage area part and the second storage area part in which a plurality of substances are stored in the internal space. Are alternately reduced / enlarged, and when the substance is circulated through the communication path that allows the internal space of the first storage region portion and the internal space of the second storage region portion to communicate with each other, Circulate the substance through the communication passage configured to narrow the width of the passage from the internal space of the storage region portion toward the internal space of the second storage region portion;
Substance mixing method.

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