KR20200091364A - Pouch assembly and apparatus for storing and discharging using therewith - Google Patents

Abstract

The present invention relates to a pouch assembly containing a liquid and a container device using the same. The pouch assembly according to an embodiment of the present invention includes a pouch unit formed of an elastic material and having a filling space for filling liquid inside, wherein the pouch unit includes: a pouch unit body having the filling space formed therein and a pouch side opening formed on one side thereof so as to communicate with the filling space; a pouch side engaging portion formed on one side of the pouch unit body and having an outer circumferential side extending further outward than an outer side of the pouch unit body while surrounding the pouch side opening; and an optional sealing unit disposed above the pouch side engaging portion and selectively opening and closing the pouch side opening.

Description

Pouch assembly and container device using the same{POUCH ASSEMBLY AND APPARATUS FOR STORING AND DISCHARGING USING THEREWITH}

The present invention relates to a pouch assembly containing a liquid and a container using the same, and more particularly, to a pouch assembly capable of storing and discharging a liquid so that all contents can be used without leaving the contents, and a container device using the same.

Figure 1a shows a storage container of a liquid content having a viscosity according to the prior art.

Liquids such as shampoos and lotions are characterized by relatively high viscosity. When the content 200 having a large viscosity is contained in the container 100, it has a property of being attached to the inner wall of the container by the viscosity of the content. However, these products are generally sold in a rigid container 100 having a relatively small opening as shown in FIG. 1A according to reasons such as aesthetics, convenience of use, and the like. That is, most of them are produced in a rigid container of the type shown in FIG. 1A for reasons such as consumer sensitivity or convenience of use. In the method of discharging contents, a pump is generally provided in the discharge unit 300 for convenience in use. Attached is a method in which the contents are sucked and discharged through the discharge pipe 310 through the pumping action by air pressure. However, it is not a problem when the contents 200 are sufficient in the storage space of the container 100 so that the contents can be discharged through the discharge pipe 310, but when there are few contents left in the container 100, the remaining contents It sticks to the inner wall of this container and does not fall off easily, causing a difficult problem of discharging the remaining contents, which acts as a major obstacle to the neat use of contents such as shampoo and lotion.

Figure 1b shows the state in the container when the remaining content in the storage container of the viscous liquid content according to the prior art is little left.

When the amount of the remaining contents 210 is small as shown in FIG. 1B, the remaining contents 210 are attached to the inner wall of the container 100 and are not easily separated from the container 100, and the discharge pipe 310 attached to the pump Since the area in which) can be sucked is limited, there is a problem that the remaining contents 210 in the container cannot be effectively discharged. This problem causes the following serious problems by making it difficult to use because it does not properly discharge a considerable amount of contents attached to the inner wall of the container.

First, the contents remain in the hard-to-reach portion of the hard container, and the contents cannot be completely used, so they are discarded, thereby promoting overconsumption.

Second, if the container is discarded while the contents such as lotion, shampoo, detergent, etc. remain, it may cause environmental pollution.

Third, in order to use the remaining contents in the container that is not discharged to the discharger, when the discharge port such as a pump is separated from the container to open the discharge port, the contents may be contaminated due to the inflow of foreign matter.

Fourth, in order to discharge the remaining contents in the container, when the container and the ejector are separated, flipped over, and attempted to discharge, there is a problem in that it is difficult to accurately discharge the amount to be used.

Fifth, it is very difficult to recycle or reuse containers because the remaining contents are buried in the outer container.

On the other hand, in order to solve the above problems, an airless container has been introduced to reduce the volume by increasing the bottom plate of the container according to the use of contents, but in the case of such a container, the container bottom plate is pulled up by reducing the pressure of the contents. It is unsuitable for, and above all, it is possible to implement only a container in the form of a cylinder, so that the freedom of container design acts as a big limitation, and there is a problem in that the cost of manufacturing the container increases.

Therefore, it is required to introduce a container and method capable of producing at a low cost while effectively injecting and discharging viscous contents while maintaining aesthetics and convenience by using a rigid container.

1. Korea Utility Model Registration No. 0289892 (name of the draft: container using a rubber balloon)

The inventor of the present invention, when a liquid, especially a highly viscous liquid, is contained in a rigid container with a narrow opening, the liquid content adheres to the inner wall of the container due to the viscosity and surface tension of the liquid content, and the pump does not have much residual content. By using, it was recognized that the problem was not practical due to difficulty in ejection. Nevertheless, it is sufficient to recognize the voices of the related industries that hard containers can only be used depending on the reason that the hard container makes the aesthetic product look luxurious and the reason that it is necessary to attach a pump or the like to the discharge part for ease of use. I was doing.

Therefore, the inventor of the present invention uses a rigid container by placing an elastic pouch (elastic pouch) in a rigid container and storing the liquid contents in the elastic pouch, while using the new container with a new and innovative method to safely and completely use the contents stored therein. Containers and devices have been devised.

In relation to the above, as described above, in order to easily discharge the contents even when the remaining amount of the contents is provided by having an elastic pouch in the rigid container, a process of filling the contents with the elastic pouch at the manufacturing stage of the product must be involved. .

2A and 2B illustrate a process of filling liquids into a hard container in a general manufacturing process such as shampoo and lotion.

As shown in FIG. 2A, in the case of products sold by placing liquids in a hard container, such as shampoo or lotion, the hard container is arranged in a line on the transfer device 500 and transferred to the content filling equipment (510). Content filling equipment may have one to multiple nozzles 600 depending on the design.

However, as shown in FIG. 2, since the elastic pouch had to be expanded in advance for filling, there is a problem that air in the outer container must be removed in advance, so that foreign substances can be introduced into the expanded elastic pouch between the elastic pouch and the filling of the contents. There was a problem that could be.

In addition, there was a problem in that the perforator had to be perforated to remove the air in the outer container, and after expanding the elastic pouch, the air leakage prevention sealing or the depressurization must be maintained to maintain the expanded state of the elastic pouch for filling. There was a problem.

The problem to be solved by the present invention is to enable the container device capable of storing and discharging the liquid according to the present invention to contain a viscous liquid so that the contents can be used without leaving any contents, a container and a manufacturing method therefor. To provide.

Another object to be solved of the present invention is to provide an elastic pouch that can be inserted into a rigid container, thereby reducing the surface area due to the contraction of the elastic pouch and the elastic pouch having elasticity (restoring force) to move the contents toward the opening. By using the pushing pressure and the discharge pressure of the discharging device, it is possible to effectively use the remaining contents, and when the elastic pouch is swollen due to the elasticity of the elastic pouch, it can be deformed into various forms that the rigid container can have. An object of the present invention is to provide an apparatus, a container, and a manufacturing method for designing a container, regardless of the shape of the rigid container.

The problem to be solved by the present invention is to provide a device, a container, and a manufacturing method for filling the elastic pouch with hygienic and efficient contents while satisfying the condition that the elastic pouch needs to be expanded by the size of the external container in order to inject the contents. Is doing.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

Pouch assembly according to an aspect of an embodiment of the present invention, in the pouch assembly for receiving a liquid, is formed of an elastic material, a pouch unit for filling a liquid therein is formed; includes, the pouch The unit includes a pouch unit body in which a pouch side opening communicating with the filling space and one side of the filling space is formed inside, and a pouch unit body formed on one side of the pouch unit body and surrounding the pouch side opening with the outer circumferential side of the pouch It includes a pouch side engaging portion that extends further to the outside than the outer surface side of the unit body, and an optional sealing unit which is disposed above the pouch side engaging portion and selectively opens and closes the pouch side opening.

In addition, the optional sealing unit, a sealing unit body that completely covers the pouch-side opening, and is provided on the outside of the sealing unit body and is fixed to the upper surface of the pouch-side locking portion while being seated on the pouch-side locking portion It includes a sealing unit rim, the sealing unit body is formed of an elastic material and can be opened and closed based on a slit formed in the sealing unit body.

In addition, the lower surface of the sealing unit body may be formed to protrude toward the pouch side opening.

In addition, the lower surface of the sealing unit body may be formed to protrude the round.

In addition, the sealing unit body may continuously increase the thickness of the sealing unit body toward the center of the sealing unit body from the rim of the sealing unit body.

In addition, the upper surface of the sealing unit body may be recessed toward the lower surface of the sealing unit body.

Further, the slit may be formed in a single linear shape disposed at the center of the sealing unit body.

In addition, the slit may be disposed in the center of the sealing unit body, and may include two or more linearly arranged radially based on the center of the sealing unit body.

In addition, the pouch unit body is fitted, a guide unit on the lower side of the pouch-side locking portion of the pouch unit is seated; may further include a.

In addition, the guide unit is formed in an annular shape, is disposed in the center of the guide unit, the through hole through which the pouch unit body penetrates, and is disposed outside the guide unit than the through hole, and a part is parallel to the through hole. The flow path portion formed by may be formed.

In addition, the guide unit, the insertion unit including a guide unit body formed in an annular shape surrounding the through hole, and a plurality of insertion units surrounding the through hole and connected to a lower surface of the guide unit body and spaced apart from each other. Including, the inner diameter of the guide unit body is formed larger than the through-hole, the outer diameter of the guide unit body is formed to extend more outward of the guide unit than the outer surface of the insertion unit, the insertion unit of the insertion unit They are formed to extend in the direction in which the through-hole is formed, a part of the upper surface of the insertion unit is exposed to the outside through the through-hole, and a lower surface of the pouch-side locking portion of the pouch unit is formed on a portion of the upper surface of the inserted unit Seated, a portion of the flow path portion may be disposed between the insertion units.

In addition, one side of the flow path portion is disposed parallel to the lower end of the insertion unit, the other side of the flow path portion is disposed on the outer circumferential surface of the guide unit body, and the flow path portion is bent in the direction of the other side of the flow path portion from one side of the flow path portion Can be formed.

In addition, it is disposed on the outer circumferential surface of the pouch unit body, and further includes a plurality of guide portions formed to protrude radially, and the guide portion is bent relative to the first region and the first region contacting the outer circumferential surface of the pouch unit body. It is formed and includes a second area disposed on the lower surface of the pouch-side locking portion, and is formed along the lower surface of the pouch unit body and the lower surface of the pouch-side locking portion between one guide portion and the other guide portion adjacent thereto. The flow path portion can be arranged.

In addition, horizontal cross-sections of the first region and the second region are formed to have a curvature corresponding to the curvature of the pouch unit body and the pouch side engaging portion, and the first region and the second region are bent to each other. It is formed, and the first region and the second region may be disposed in a mutually connected portion, a stress distribution portion that is formed inclined.

Container apparatus according to another aspect of the embodiment of the present invention, the outer container having a receiving space is formed therein, the container-side opening communicating with the receiving space; And a pouch unit formed of an elastic material and having a filling space for filling a liquid therein, wherein the pouch unit includes a pouch assembly in which a part is inserted into the receiving space side through the container side opening. , The pouch unit has a pouch unit body in which an opening communicating with the filling space and the filling space is formed inside, and a pouch unit body formed on one side of the pouch unit body and surrounding the pouch side opening with the outer peripheral side It includes a pouch-side locking portion that is further extended to the outside than the outer surface side of the pouch unit body, and an optional sealing unit disposed on the pouch-side locking portion to selectively open and close the pouch-side opening, and the pouch-side locking portion and the The optional sealing portion is disposed on the container side opening side.

In addition, the optional sealing unit, a sealing unit body that completely covers the pouch-side opening, and is provided on the outside of the sealing unit body and is fixed to the upper surface of the pouch-side locking portion while being seated on the pouch-side locking portion It includes a sealing unit rim, the sealing unit body is formed of an elastic material and can be opened and closed based on a slit formed in the sealing unit body.

In addition, further comprising; a pump unit for discharging the liquid content filled in the filling space to the outside, a portion of the pumping pipe of the pump unit, is disposed in the filling space through the slit of the sealing unit, In a state where a part of the inner surface of the pouch unit body is in contact with each other, the inner surface of the pouch unit body formed around the center side of the pouch unit body is contacted with the pouch contact area, and is formed outside the pouch contact area. A pouch non-contact area where the inner surface of the pouch unit body is not in contact with each other is formed, and the pumping pipe can communicate with the pouch non-contact area.

In addition, the pouch assembly, the pouch unit body is fitted, further comprising a guide unit on the lower surface of the pouch-side locking portion of the pouch unit, the guide unit is formed in an annular shape and the pouch unit in the center A through-hole through which the body penetrates, and a flow path portion formed outside the guide unit and partially formed in a direction parallel to the through-hole are formed, and one side and the other side of the flow path portion communicating with each other are on the container side. The receiving space communicates with the outer side of the outer container, so that the flow path portion can communicate with the container-side receiving space and the outer side of the outer container.

In addition, the pouch unit body is formed to extend in the vertical direction, when the liquid content is accommodated in the filling space of the pouch unit body, compared to a state in which no separate pressure is applied to the pouch unit body, the pouch The length in the vertical direction of the unit body extends from 150% to 1000%, and the width in the left and right directions of the pouch unit body may extend 150% to 1000%.

In addition, in the state where the liquid content is filled in the pouch unit body, the restoring force of the pouch unit body is formed greater than the load of the liquid content, and the optional sealing unit, in the state where the slit is closed, the pouch unit It is possible to suppress that the liquid content is discharged to the outside through the pouch-side opening of the.

In addition, it is disposed on the outer circumferential surface of the pouch unit body, and further includes a plurality of guide portions formed to protrude radially, and the guide portion is bent relative to the first region and the first region contacting the outer circumferential surface of the pouch unit body. It is formed and includes a second area disposed on the lower surface of the pouch-side locking portion, and is formed along the lower surface of the pouch unit body and the lower surface of the pouch-side locking portion between one guide portion and the other guide portion adjacent thereto. And, a flow path portion communicating the receiving space of the outer container and the outer space of the outer container may be disposed.

In addition, horizontal cross-sections of the first region and the second region are formed to have a curvature corresponding to the curvature of the pouch unit body and the pouch side engaging portion, and the first region and the second region are bent to each other. It is formed, and the first region and the second region are connected to each other, the stress distribution portion is formed inclined, the stress distribution portion may be in contact with the edge of the container-side opening of the outer container.

The present invention is to solve the above problems, the container device according to the present invention has the effect of providing a device, a container and a manufacturing method therefor that can be used entirely without leaving the contents by allowing to contain a viscous liquid .

The device, the container, and the manufacturing method according to an embodiment of the present invention have elastic pouch that can be inserted into a rigid container, thereby reducing the surface area due to shrinkage of the elastic pouch and elasticity by the elastic (resilient) of the elastic pouch. By utilizing the pressure that the pouch pushes the contents toward the opening and the discharge pressure of the discharge device, the remaining contents can be effectively used, and when the elastic pouch is swollen due to the elasticity of the elastic pouch, the rigid container can have It can be transformed into various shapes, providing the effect of designing a container regardless of the shape of the rigid container.

The device, the container, and the manufacturing method according to the embodiment of the present invention satisfy the condition that the elastic pouch needs to be expanded by the size of the external container in order to inject the contents, and the device can hygienically and efficiently fill the elastic pouch with contents. It is to provide a container and a manufacturing method therefor.

Figure 1a shows a storage container of a liquid content having a viscosity according to the prior art.
Figure 1b shows the state in the container when the remaining content in the storage container of the viscous liquid content according to the prior art is little left.
2A shows a process of filling liquids into a hard container in a general manufacturing process such as shampoo and lotion.
2b shows a process for filling liquids into a hard container in a general manufacturing process such as shampoo and lotion.
3 is a view showing a container according to an embodiment of the present invention.
4 is a view showing a cross section along the IV-IV diagram of FIG. 3.
FIG. 5 is a view showing the pouch assembly of FIG. 3.
6 and 7 are views showing the configuration of the guide unit of FIG. 5.
8 to 11 are views showing a process of filling the liquid contents in the container of FIG. 3.
12 and 13 are views illustrating a process of discharging the liquid contents to the outside in a state in which the liquid contents are filled in the container of FIG. 3.
14 is a view showing a part of a cross section of a container according to another embodiment of the present invention.
15 is a view showing a pouch unit of a container according to another embodiment of the present invention.
16 and 17 are diagrams showing a pouch assembly of a container device according to another embodiment of the present invention.
18 is a view showing a cross-section in a state in which the pouch assembly of FIG. 16 is installed in an outer container.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains. It is provided to fully inform the person having the scope of the invention, and the present invention is only defined by the scope of the claims.

Although the first, second, etc. are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are only used to distinguish one component from another component. Therefore, it goes without saying that the first component mentioned below may be the second component within the technical spirit of the present invention.

The same reference numerals refer to the same components throughout the specification.

Each of the features of the various embodiments of the present invention may be partially or entirely combined or combined with each other, and technically various interlocking and driving may be possible as those skilled in the art can fully understand, and each of the embodiments may be implemented independently of each other. It can also be implemented together in an associative relationship.

On the other hand, the potential effects that can be expected by the technical features of the present invention, which are not specifically mentioned in the specification of the present invention, are treated as described in the present specification, and this embodiment is applied to those skilled in the art. It is provided to describe the present invention more completely, and the contents shown in the drawings may be exaggeratedly expressed as compared to the actual implementation of the invention, and a detailed description of a configuration determined to unnecessarily obscure the subject matter of the present invention Is omitted or briefly described.

As used herein, the term liquid refers to a wide range of liquid states, not solid or gaseous states. In other words, it means all states that have a short intermolecular distance and low kinetic energy, but are not strongly attached like solid molecules, and are used to include both viscous liquids such as water and viscous liquids such as gels. .

The elastic pouch in the present specification is a soft pouch having a fixed appearance or not having a fixed appearance, and a pouch having resilience to return to its original shape when it expands or expands with elasticity while the shape changes due to external force. And as a simple soft bag, it has a fixed appearance and it is a pocket whose shape changes by external force.

In the present specification, the container means all kinds of containers having a rigid material having a certain appearance, such as plastic, glass, metal, and paper, and can be used interchangeably with a'rigid container'.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. The present invention can be implemented in many different forms and is not limited to the embodiments described herein. In the drawings, parts not related to the description are omitted in order to clearly describe the present invention, and the same reference numerals are attached to the same or similar elements throughout the specification. In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to what is illustrated.

3 is a view showing a container according to an embodiment of the present invention, and FIG. 4 is a view showing a cross section along the IV-IV diagram of FIG. 3.

3 and 4, the container 1 according to the present embodiment receives a liquid content 1 therein and discharges the liquid content 1 to the outside to use the container device 1 In, it is characterized by a configuration in which the liquid content 1 does not remain on the inner wall surface of the container device 1.

In more detail, the container device 1 is coupled to the outer container 200 in which the receiving space 211 is formed, and the outer container 200 is partially inserted into the receiving space 211 of the container device 1 And a pouch assembly 100 having a pouch unit 110 whose volume is expanded by filling a liquid content in a state. That is, in the container device 1 according to the present embodiment, the liquid contents 1 are not filled in the receiving space 211 of the outer container 200, but are filled in the filling space 112 of the pouch assembly 100. , In the process of using, the liquid content (l) does not remain on the inner wall surface of the outer container 200, and the liquid content (l) can be used without maximal residue. In addition, the volume of the filling space 112 of the pouch assembly 100 is reduced in the process of discharging the liquid content 1, so that the residual content of the liquid content 1 can be suppressed as much as possible.

The outer container 200 has an outer container body 210 in which a receiving space 211 is formed, and a diameter of a size that is disposed above the outer container body 210 and is smaller than the diameter of the outer container body 210. It has a neck portion 220 having an opening 221 in communication with the receiving space 211 on the upper surface. For example, the outer container 200 may be formed of a material having a certain size of strength to maintain its appearance, such as plastic, metal, paper, or glass. Meanwhile, a configuration in which the outer container 200 is formed in a cylinder shape without being divided into the neck portion 220 and the outer container body 210 is also included in the embodiment of the present invention.

In the present embodiment, the receiving space 211 of the outer container 200 communicates with the outside through the opening 221, and the through hole excluding the opening 221 is described in a configuration in which the outer container 200 is not formed. . However, a configuration in which other through holes or a plurality of voids are formed in the outer container body 210 of the outer container 200 in addition to the opening 221 is also included in the embodiment of the present invention.

The pouch assembly 100 accommodates liquid content in a state coupled to the outer container 200. The pouch assembly 100 is formed of an elastic material, a pouch unit 110 in which a filling space for filling a liquid is formed, and a part of the pouch unit 110, for example, the pouch unit body 111, has It may be fitted and may include a guide unit 120 on which the lower surface of the other part of the pouch unit 110, for example, the pouch side locking portion 114, is seated on the upper side.

The pouch unit 110 is exemplarily formed of an elastic material, formed of an extensible material, and exemplarily formed of silicone, natural or synthetic latex rubber or a polymer material.

In a state in which a part of the pouch unit 110 is fitted in the guide unit 120, the pouch assembly 100 is installed on the opening 221 side of the outer container 200. That is, the guide unit 120 is disposed between the inner surface side of the opening 221 of the pouch unit 110 and the outer container 200, that is, the inner surface of the neck portion 220.

The guide unit 120 is formed of a material having higher strength than the pouch unit 110. Therefore, in the state in which the pouch assembly 100 is installed in the outer container 200, the pouch unit by the external force applied to the upper surface of the pouch unit 110 in the process of the pump for discharging the liquid contents (1) to the outside It is possible to prevent a portion of the 110 from being deformed or rolled toward the opening 221 of the outer container 200.

In addition, by arranging between the pouch unit 110 and the outer container 200 to secure the flow path portion 123 of a predetermined size, the receiving space 211 of the outer container 200 and the outside of the container device 1 You can make it communicate.

Hereinafter, the configuration of the pouch assembly 100 according to the present embodiment will be described in more detail.

FIG. 5 is a view showing the pouch assembly of FIG. 3, and FIGS. 6 and 7 are views showing the configuration of the guide unit of FIG. 5.

5 to 7, the pouch unit 110 of the pouch assembly 100 includes a pouch unit body in which a filling space 112 and a pouch side opening 113 communicating with the filling space are formed on one side. (111) and a pouch side locking portion 114 formed on one side of the pouch unit body 111 and the outer circumferential side extending outwardly more than the outer surface side of the pouch unit body 111 in a state surrounding the pouch side opening 113 ) And an optional sealing unit 115 which is disposed above the pouch side locking portion 114 and selectively opens and closes the pouch side opening 113.

The optional sealing unit 115 is provided on the outside of the sealing unit body 117 that completely covers the pouch-side opening 113 and the sealing unit body 117, and the pouch is seated on the pouch-side locking portion 114 Includes a sealing unit frame 116 fixed to the upper surface of the side locking portion 114, the sealing unit body 117 is formed of an elastic material and based on the slit 118 formed in the sealing unit body 117 It is formed to be openable.

On the other hand, in the present embodiment, although the optional sealing unit 115 is described as being seated on the pouch-side locking portion 114, the pouch-side locking portion 114 is not formed separately and the end side of the pouch unit body 111 An optional sealing unit 115 is provided on the pouch side opening 113 to selectively open and close the configuration of the present invention. The optional sealing unit 115 may be integrally formed with the pouch unit 110 or may be formed as a separate member distinct from the pouch unit 110 and fixed to the end side of the pouch unit 110.

The optional sealing unit 115 performs various functions for forming a flow path in the pouch unit 110. In more detail, the optional sealing unit 115 may serve as a check valve capable of selectively opening or closing the inner filling space 112 of the pouch unit 110. The optional sealing unit 115 may provide a structure through which a structure such as a nozzle and a pump can pass, while acting as a check valve, thereby securing the possibility of mass production.

In addition, the optional sealing unit 115 is part of the optional sealing unit 115 is rolled into the filling space 112 in the state where a pump (dispenser) for discharging the liquid contents filled in the filling space 112 is installed outside By securing the set space, it is possible to prevent the flow path closing caused by the close contact with the inner surface of the pouch unit 110.

At this time, the lower surface of the sealing unit body 117 is formed to protrude toward the pouch side opening 113, and the lower surface of the sealing unit body 117 is formed to be round. And, the sealing unit body 117 is continuously increased in thickness toward the center of the sealing unit body 117 from the rim of the sealing unit body 117. On the other hand, the configuration in which the sealing unit body 117 is formed in a hemispherical or straight shape is also included in the embodiment of the present invention, the thickness of the sealing unit body 117 is the sealing unit body 117 at the edge of the sealing unit body 117 It can be formed in the same way to the central side of.

In this embodiment, the lower surface of the sealing unit body 117 may be formed in a hemispherical shape having a diameter corresponding to the diameter of the pouch side opening 113, and the upper surface of the sealing unit body 177 is formed in a flat shape. At this time, the slit 118 may be formed as a single line having a size smaller than the diameter of the sealing unit body 117, the slit 118 is symmetrical based on the center point of the sealing unit body 117 do.

When the liquid content (l) is filled in the filling space 112 of the pouch unit 110, the optional sealing unit 115 is opened by the filling means 500 for filling the liquid content (l), and the optional sealing When the unit 115 is opened, the liquid content 1 is filled toward the filling space 112. When the filling means 500 is removed while the filling of the liquid contents 1 is completed, the slit 118 of the optional sealing unit 115 is closed again by the elasticity of the optional sealing unit 115, and the filling space 112 ) It is suppressed that the liquid content (l) flows out from the pouch unit 110 to the outside.

Meanwhile, the guide unit 120 is formed in an annular shape and is formed of a material having greater rigidity than the pouch unit 110, for example, a material such as plastic, metal or paper.

The guide unit 120 is disposed in the center of the guide unit 120, the guide unit side through hole 125 through which the pouch unit body 111 penetrates, and the guide unit 120 than the guide unit side through hole 125 A flow path portion 123 is formed, which is disposed outwardly and partially formed in a direction parallel to the guide unit side through hole 125 and the through hole 125.

The guide unit 120 surrounds the guide unit side through hole 125 and is formed in an annular shape, and the guide unit body 121 surrounds the guide unit side through hole 125 and the lower surface of the guide unit body 121. It includes an insertion portion including a plurality of insertion units 122 are connected and spaced apart from each other. At this time, a portion of the flow path portion 123 is disposed between the insertion units 122.

The inner diameter of the guide unit body 121 is formed to be larger than the guide unit side through hole 125, and the outer diameter of the guide unit body 121 is formed to extend outward of the guide unit 120 than the outer surfaces of the insertion units 122. do.

The insertion unit 122 of the insertion portion is formed extending in the direction in which the guide unit side through hole 125 is formed, that is, in the vertical direction, and a part of the upper surface 126 of the insertion unit 122 is guide unit side through hole 125 It is exposed to the outside through. At this time, the lower surface of the pouch-side locking portion 114 of the pouch unit 110 is seated on a part of the upper surface 126 of the exposed insertion unit, so that the pouch unit 110 is caught by the guide unit 120.

The outer diameter of the insertion portion including the insertion units 122 is formed to a size corresponding to the diameter of the opening 221 of the outer container 200, the insertion portion of the insertion unit 122 of the insertion portion in the opening 221 The outer surface is in close contact with the inner surface of the neck portion 220 of the outer container 200. At this time, the lower surface 128 of the guide unit body 121 is formed radially extending toward the outside than the insertion portion is seated on the end side of the neck portion 220 of the outer container 200.

On the other hand, one side of the flow path portion 123 is disposed parallel to the lower end 129 of the insertion unit 122, and the other side 124 of the flow path portion 123 is disposed on the outer circumferential surface of the guide unit body 121. Based on the lower surface 128 of the guide unit body 121 of the other side 124 of the flow path portion 123, it is formed in a recessed shape toward upward. Therefore, the flow path portion 123 is formed in a shape bent in the other direction of the flow path portion 123 from the one side of the flow path portion 123. As an example 123, the flow path portion 123 is formed in a bent shape by approximately 90 degrees.

The one side and the other side 124 of the flow path portion 123 communicating with each other are in communication with the outside of the container side receiving space 211 and the container 200, so that the flow path portion 123 is in contact with the container side receiving space 211. The outside of the container 200 is communicated with each other.

Hereinafter, a process of filling the liquid content 1 in the container device 1 according to the embodiment of the present invention will be described in detail.

8 to 11 are views showing a process of filling the liquid contents in the container of FIG. 3.

Referring first to FIG. 8, the pouch assembly 100 in which the pouch unit 110 is coupled to the guide unit 120 is installed at the opening 221 side of the outer container 200, and an optional sealing unit of the pouch assembly 100 The filling means 500 is moved to the 115 side. When the filling means 500 presses the central side of the optional sealing unit 115 with a pressure greater than a predetermined size, the slit 118 of the optional sealing unit 115 is opened, and a part of the filling means 500 is a pouch unit It is inserted into the filling space 112 side of (110).

At this time, a part of the sealing unit body 117 may be rolled into the container-side opening 221 side during the insertion of the filling means 500.

Next, referring to FIG. 9, a part of the filling means 500 is inserted into the filling space 112 of the pouch unit 110 so that the end 510 of the filling means 500 is in contact with the end of the pouch unit 110. In the contacted state, when the filling means 500 continues to descend, the pouch unit 110 is extended toward the lower inner surface of the container 200. When the end of the pouch unit 110 reaches a predetermined position that does not contact the lower inner surface of the container 200, the movement of the filling means 500 is stopped.

The end of the filling means 500 may be formed to be rounded to prevent damage to the pouch unit 110 in contact, and the end of the pouch unit 110 may also be formed to be rounded. A large pressure may be applied to a portion where the end of the filling means 500 directly contacts the pouch unit 100. Therefore, the supply hole 511 formed at the end of the filling means 500 is supplied to the side of the supply hole 511 so that the contents can be discharged even though the end of the filling means 500 is pressed by the pouch unit 100 ) May be extended. In addition, the supply hole 511 may be formed at an eccentric position in the center, not in the center of the end of the filling means 500.

Next, referring to FIG. 10, the filling space 112 of the pouch unit 110 through the supply hole 511 formed at the end 510 of the filling means 500 in the state where the pouch unit 110 is extended. The liquid content (l) is supplied to the side. At this time, the discharge pressure at which the filling means 500 supplies the liquid content 1 is formed larger than the restoring force of the pouch unit 110. Therefore, as the liquid content 1 is supplied, the pouch unit 110 can be expanded until it corresponds to the shape of the external container, and the volume of the filling space 112 is also increased. In a state where the pouch unit 110 is sufficiently elongated, the liquid content 1 is supplied to the filling space 112 side, so that the expansion of the pouch unit 110 can be achieved in a desired volume and shape.

As the volume of the filling space 112 of the pouch unit 110 increases, the volume of the receiving space 210 of the outer container 200 in which the filling space 112 of the pouch unit 110 is located decreases. As the volume of the receiving space 210 is reduced, the air a of the receiving space 210 flows out along the flow path portion 123 of the guide unit 120. That is, as the volume of the receiving space 210 decreases, the outflow of the air (a) of the receiving space 210 must be essentially performed. In the container device 1 according to the present embodiment, the receiving space 210 communicates with the outside. By forming the flow path portion 123 for the purpose, it is possible to make the outflow of air (a) smooth.

At this time, the filling means 500 minimizes the adhesion of the liquid content 1 to the outer circumferential surface of the filling means 500 while supplying the liquid content 1, and the liquid content 1 by the volume of the filling means 500 ) Can be done at a preset speed to suppress interference. The rising speed of the filling means 500 may be formed in a size corresponding to a size in which the height of the liquid content 1 is increased in the filling space 112 of the pouch unit 110.

On the other hand, the filling means 500 may keep the filling means 500 as it is until the filling of the contents is completed.

Next, referring to FIG. 11, when the filling of the liquid content 1 is completed and the filling means 500 is completely separated from the filling space 112, the optional sealing unit 125 is restored to its original shape. And the slit 128 of the optional sealing unit 125 remains closed. That is, the optional sealing unit (1250) formed of an elastic material provides elastic force toward the slit (128), so that the slit (128) is closed and the liquid content (l)d is prevented from flowing out through the slit (128). can do.

The pouch unit body 111 of the container device 1 according to the embodiment of the present invention is formed to extend in the vertical direction. And when the liquid content is accommodated in the filling space of the pouch unit body 111, compared to the state in which no separate pressure is applied to the pouch unit body 111, the length in the vertical direction of the pouch unit body 111 is Expanded to 150% to 1000%, the width of the pouch unit body 111 in the left and right direction can be extended to 150% to 1000%.

In the state in which the liquid content 1 is filled in the pouch unit body 111, the restoring force of the pouch unit body 111 is formed to be greater than the load of the liquid content 1. Therefore, when there is no configuration for suppressing the discharge of the liquid content 1 in the pouch unit 110, the liquid content 1 is discharged through the opening 113 on the pouch unit side of the pouch unit 110. Thus, the optional sealing unit 115 of the container device 1 according to the present embodiment, in the state where the slit 128 is closed, the liquid content 1 through the pouch side opening 113 of the pouch unit 110 By suppressing the discharge to the outside, the filling process of the liquid content (l) can be made smoothly even if the process of separately discharging the air outside the outer container 200 is not blocked or the process of inhaling air through the passage is not maintained. do.

Hereinafter, the process of discharging the liquid contents 1 from the container device 1 to the outside will be described in detail.

12 and 13 are views illustrating a process of discharging the liquid contents to the outside in a state in which the liquid contents are filled in the container of FIG. 3.

Referring first to FIG. 12, the container device 1 according to the present embodiment further includes a pump unit 600 for discharging the liquid content 1 filled in the filling space 113 to the outside.

The pump unit 600, the pump unit body 610 is installed on the neck portion 220 of the outer container 200, and the pump unit body 610 is disposed to be vertically elevated with respect to the pump unit body 610, the discharge passage 621 therein ) Is formed a head portion 620, an elastic means 660 for providing an elastic force in the vertical direction with respect to the head portion 620, a support unit 640 on which the elastic means 660 is supported, and a discharge passage on one side The other side 631 communicates with the 621 and includes a pumping pipe 630 disposed in the filling space 112 through the slit 118 of the sealing unit 115.

When the user presses the head portion 620 to open the discharge flow path 621, the liquid content 1 required in the filling space 112 by the pressure according to the pressure of the head portion 620 is pumped pipe 630. And it may be discharged to the outside through the discharge passage 621.

At this time, as much as the volume of the liquid content (l) flows outward, that is, the filling space 112 is reduced in volume, air from the outside passes through the flow path portion 123 toward the receiving space 211 of the outer container 200. Inflow.

Next, referring to FIG. 13, when the discharge of the liquid contents 1 is continuously performed while most of the liquid contents 1 are discharged, the volume of the pouch unit 110 is before the filling of the liquid contents 1 It is reduced to a size smaller than the volume.

In a state in which a part of the inner surface of the pouch unit body 111 is in contact with each other, the pouch unit 120 is in contact with the pouch in which the inner surface of the pouch unit body 111 formed around the central side of the pouch unit body 111 is contacted area (Z ₂₎ and, in the pouch contact zone (Z ₂₎ is formed in the outer pouch units inner surface 111 of the body and the formation of mutual non-contact with the pouch non-contact area (Z _2), the pumping pipe 630 of the other side 631 communicates with the pouch non-contact area Z ₁ .

In the pouch contact area Z ₂ , the inner surface of the pouch unit body 111 is in contact with each other, so that the ejection pressure is not normally applied, and thereby the ejection of the remaining liquid content 1 may be restricted.

The pouch unit body 110 of the container device 1 according to this embodiment is formed in a cylindrical shape of an elastic material, and when the volume of the pouch unit body 110 is reduced by the outflow of the liquid content 1, the pouch The contact area Z ₂ is formed in the center, and the pouch non-contact area Z ₁ is formed outside on the basis of the pouch contact area Z ₂ , and the other side 631 of the pumping pipe 630 has a pouch non-contact area Z ₁ By contacting the) side, it is possible to smoothly discharge the remaining liquid content (l).

That is, when the end of the pumping pipe 630 through the optional sealing unit 115 is inserted into the filling space 112 side of the pouch unit 110, a part of the sealing unit body 117 is rolled toward the pouch filling space 112 side. Will enter. As a part of the sealing unit body 117 is rolled into the pouch filling space 112 side, the position side adjacent to the pouch side opening 113, the pouch non-contact area Z ₁ reaches the pouch side opening 113 side A space of a predetermined size so as not to extend may be formed.

In this embodiment, the receiving space 211 of the outer container 200 in the state where the pouch assembly 100 is installed in the outer container 200 is described as having a configuration in communication with the outside through only the flow path portion 123, but the outer container A case in which a plurality of holes or voids for communicating the outside and the accommodation space 211 in the outer container body 211 of 200 is formed is also included in the embodiment of the present invention. In this case, the pouch assembly 100 may be installed in the outer container 200 without a separate guide unit 120.

According to the proposed embodiment, a container in which the residual of the liquid content 1 can be minimized can be proposed.

In addition, the process of filling the liquid contents (l) in the container in which the pouch is installed in the external container is easy, and there is an advantage that can be reliably performed.

14 is a view showing a cross-section of a container device according to another embodiment of the present invention.

This embodiment differs only in the configuration of the optional sealing unit of the container apparatus, and in other configurations it is substantially the same as the configuration of the container apparatuses of FIGS. 1 to 13, hereinafter, focusing on the characteristic parts of this embodiment. Explain.

Referring to FIG. 14, the upper surface of the sealing unit body 117 of the container device 1 according to the embodiment of the present invention may be recessed toward the lower surface of the sealing unit body 117. For example, the thickness of the sealing unit body 118 may be formed to be the same in the center direction from the edge of the sealing unit body 117.

15 is a view showing a pouch unit of a container device according to another embodiment of the present invention.

This embodiment differs only in the configuration of the optional sealing unit of the container apparatus, and in other configurations it is substantially the same as the configuration of the container apparatuses of FIGS. 1 to 13, hereinafter, focusing on the characteristic parts of this embodiment. Explain.

15, the slit 118 of the sealing unit 115 according to an embodiment of the present invention is disposed at the center of the sealing unit body 117, and is based on the center C of the sealing unit body 117. It may include two or more linear (119) disposed radially. Illustratively, the slit 118 includes three linears 119, and the three linears 119 are disposed at the same angle with each other.

16 and 17 are diagrams showing a pouch assembly of a container device according to another embodiment of the present invention. And, Figure 18 is a view showing a cross-section in the state where the pouch assembly of Figure 16 is installed in the outer container.

This embodiment differs only in the configuration of the pouch assembly, and in other configurations, it is substantially the same as the configuration of the container apparatus of FIGS. 1 to 13, and thus, description will be made focusing on the characteristic parts of the present embodiment.

16 to 19, the pouch assembly 300 according to the present embodiment includes a pouch unit body 311, a pouch side locking portion 314, an optional sealing unit 315, and a plurality of guide portions 320.

The plurality of guide parts 320 are disposed at positions adjacent to the pouch-side opening 313 of the pouch unit 310, and are integrally formed with the pouch unit body 311 and the pouch-side locking part 314. The plurality of guide portions 320 are formed of the same elastic material as the pouch unit body 311 and the pouch side locking portion 314, and are formed to protrude radially outward based on the outer circumferential surface of the pouch unit body 311.

In addition, any one guide portion 320 is spaced apart by a predetermined distance in the circumferential direction of the other guide portion 320 and the pouch-side locking portion 314 adjacent thereto, that is, the locking portion 114 , In the space where the guide parts 320 are separated, a flow passage part 323 is formed. The plurality of flow path parts 323 are formed along the outer surface of the pouch unit body 311 and the lower surface of the pouch side locking part 314, and the receiving space 211 of the outer container 200 and the outside of the container device 1 are Try to communicate.

The guide portion 320 is formed in a shape that is bent with respect to the first region 321 and the first region 321 disposed on the outer surface of the pouch unit body 311 and is disposed on the bottom surface of the pouch side locking portion 314 It includes a second region (322).

The inner side of the first area 321 contacting the pouch unit body 311 is formed to have a curvature corresponding to the outer surface of the pouch unit body 311, and the outer surface of the first area 321 is also of the first area 321 It is formed to have a curvature corresponding to the curvature inside. The horizontal cross-section of the first region 321 is formed in a fan shape, and the vertical cross-section thickness increases as it goes from the inner side of the first region 321 to the outer surface side of the first region 321.

The second region 322 gradually increases from one side of the second region 322 connected to the first region 321 to the other side of the second region 323 disposed below the rim of the pouch side engaging portion 314. It may be formed in a fan shape in which the vertical cross-sectional thickness is increased. At this time, the other side of the second region 323 may be formed with a curvature equal to the curvature of the rim of the pouch side engaging portion 314.

The horizontal cross-section of the first region 321 is formed to have a curvature corresponding to the outer surface of the pouch unit body 311, and the horizontal cross-section of the second region 322 also corresponds to the outer surface of the pouch unit body 311 By being formed to have a curvature, the flow path portion 323 between one guide portion 320 and the guide portion 320 adjacent thereto is from the end side of the first region 321 to the end side of the second region 322. In the process of extending in the direction, it is formed to have a uniform width.

On the other hand, the first region 321 and the second region 322 is connected to the portion, the first region 321 and the second region 322 are connected in a bent state at an angle of 90 degrees, the stress is concentrated first In order to prevent the region 321 and the second region 322 from being damaged, an inclined stress distribution unit 324 may be formed. In the state where the pouch assembly 300 is installed in the outer container 200, the edge portion of the neck portion 220, that is, the container-side opening of the outer container 200 may be in contact with the stress distribution unit 324.

In a state where the pouch assembly 300 is coupled to the outer container 200, the outer surface of the first area 321 is in close contact with the inner surface of the outer container 200, and the outer surface of the second area 322 is the outer container 200 ) Is in close contact with the edge of the container side opening 222, that is, the end of the neck portion 220.

Therefore, the container-side opening 221 may communicate with the outside only through the flow path portion 323 formed by the guide portion 320.

On the other hand, the sealing unit body 117 is recessed toward the container side opening 222 of the outer container 200, and the recessed part r is recessed toward the bottom of the sealing unit body 117 is formed.

According to the proposed embodiment, as the plurality of guide portions 320 are integrally formed in the pouch assembly 300, the manufacturing process of the container device 1 is simplified.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to carry out various modifications within the scope of the claims and detailed description of the invention and the accompanying drawings. It is natural to fall within the scope of.

Claims (22)

In the pouch assembly for receiving a liquid,
It is formed of an elastic material, and a pouch unit in which a filling space for filling a liquid is formed.
The pouch unit has a pouch unit body in which a pouch side opening communicating with the filling space and a filling space is formed on one side, and an outer circumferential side formed on one side of the pouch unit body and surrounding the pouch side opening. A pouch assembly including a pouch side engaging portion that is further extended to the outside than an outer surface side of the pouch unit body, and an optional sealing unit disposed on an upper side of the pouch side locking portion to selectively open and close the pouch side opening. According to claim 1,
The optional sealing unit,
A sealing unit body completely covering the opening of the pouch side, and an optional sealing unit frame provided outside the sealing unit body and fixed to an upper surface of the pouch side locking portion while seated on the pouch side locking portion,
The sealing unit body is formed of an elastic material, and a pouch assembly that can be opened and closed based on a slit formed in the sealing unit body. According to claim 2,
The lower surface of the sealing unit body is pouch assembly, characterized in that protruding toward the opening of the pouch side. According to claim 3,
Pouch assembly characterized in that the lower surface of the sealing unit body is formed to protrude the round. According to claim 3,
The sealing unit body is a pouch assembly, characterized in that the thickness of the sealing unit body is continuously increased toward the center of the sealing unit body from the edge of the sealing unit body. According to claim 3,
Pouch assembly characterized in that the upper surface of the sealing unit body is recessed toward the lower surface of the sealing unit body. According to claim 2,
The slit is a pouch assembly, characterized in that formed in a single linear disposed in the center of the sealing unit body. According to claim 2,
The slit is disposed in the center of the sealing unit body, the pouch assembly characterized in that it comprises two or more linearly arranged radially relative to the center of the sealing unit body. According to claim 1,
The pouch assembly further includes a guide unit on which the pouch unit body is fitted, and a lower surface of the pouch side engaging portion of the pouch unit is seated on an upper side. The method of claim 9,
The guide unit is formed in an annular shape, is disposed in the center of the guide unit, the through hole through which the pouch unit body penetrates, and is disposed outside the guide unit than the through hole, and partially formed in a direction parallel to the through hole Pouch assembly characterized in that the flow path is formed. The method of claim 10,
The guide unit may include an insertion unit including a guide unit body surrounding the through hole and formed in an annular shape, and a plurality of insertion units surrounding the through hole and connected to a lower surface of the guide unit body and spaced apart from each other; Including,
The inner diameter of the guide unit body is formed larger than the through-hole, and the outer diameter of the guide unit body is formed to extend outward of the guide unit than the outer surfaces of the insertion units,
The insertion units of the insertion portion are formed to extend in a direction in which the through hole is formed, a part of the top surface of the insertion unit is exposed to the outside through the through hole, and the bottom surface of the pouch side locking portion of the pouch unit is exposed. Seated on a part of the upper surface of the insertion unit,
Pouch assembly, characterized in that a portion of the flow path is disposed between the insertion unit. The method of claim 11,
One side of the flow path portion is disposed parallel to the lower end of the insertion unit,
The other side of the flow path portion is disposed on the outer peripheral surface of the guide unit body,
The flow path portion is a pouch assembly, characterized in that formed in a shape bent in the other direction of the flow path portion from one side of the flow path portion. According to claim 1,
It is disposed on the outer circumferential surface of the pouch unit body, and further includes a plurality of guide portions protruding in a radial form,
The guide portion includes a first area in contact with the outer circumferential surface of the pouch unit body, and a second area bent with respect to the first area and disposed on a lower surface of the pouch side locking part,
A pouch assembly characterized in that a flow path portion formed along an outer surface of the pouch unit body and a lower surface of the pouch-side locking portion is disposed between one guide portion and the other guide portion adjacent thereto. The method of claim 13,
The horizontal cross-section of the first region and the second region is formed to have a curvature corresponding to the curvature of the pouch unit body and the pouch side engaging portion,
The first region and the second region are formed to be bent to each other,
Pouch assembly, characterized in that the stress distribution is formed inclined portion is disposed in the first region and the second region are interconnected. A container for receiving a liquid,
An outer container having a receiving space formed therein and including a container side opening communicating with the receiving space; And
It is formed of an elastic material, and includes a pouch unit in which a filling space for filling a liquid is formed, wherein the pouch unit includes a pouch assembly in which a part is inserted into the receiving space side through the container-side opening.
The pouch unit has a pouch unit body in which an opening communicating with the filling space and the filling space is formed inside, and a pouch unit body formed on one side of the pouch unit body and surrounding the pouch side opening, with the outer circumference side being the pouch It includes a pouch-side locking portion that is further extended to the outside than the outer surface side of the unit body, and an optional sealing unit disposed on the pouch-side locking portion and selectively opening and closing the pouch-side opening,
The pouch side locking portion and the optional sealing portion is a container device disposed on the side of the container side. The method of claim 15,
The optional sealing unit,
A sealing unit body completely covering the opening of the pouch side, and an optional sealing unit frame provided outside the sealing unit body and fixed to an upper surface of the pouch side locking portion while seated on the pouch side locking portion,
The sealing unit body is a container device characterized in that it is formed of an elastic material and can be opened and closed based on a slit formed in the sealing unit body. The method of claim 16,
Further comprising a pump unit for discharging the liquid content filled in the filling space to the outside;
A part of the pumping pipe of the pump unit passes through the slit of the sealing unit and is disposed in the filling space,
In a state where a part of the inner surface of the pouch unit body is in contact with each other, the inner surface of the pouch unit body formed around the center side of the pouch unit body is contacted with the pouch contact area, and is formed outside the pouch contact area. A pouch non-contact area in which the inner surfaces of the pouch unit body are not in contact with each other is formed,
The pumping pipe is a container device, characterized in that communicating with the pouch non-contact area. The method of claim 15,
The pouch assembly further includes a guide unit in which the pouch unit body is fitted, and a lower surface of the pouch side engaging portion of the pouch unit is mounted on an upper side,
The guide unit is formed in an annular shape and a through hole through which the pouch unit body penetrates in the center, and a flow path portion disposed outside the guide unit and partially formed in a direction parallel to the through hole is formed,
A container device, characterized in that one side and the other side of the flow path portion communicating with each other communicate with the outer side of the container-side receiving space and the outer container, and the flow-path portion communicates with the outer side of the container-side receiving space. The method of claim 15,
The pouch unit body is formed to extend in the vertical direction,
When the liquid content is accommodated in the filling space of the pouch unit body, compared to a state in which no separate pressure is applied to the pouch unit body, the length in the vertical direction of the pouch unit body is 150% to 1000%. It is expanded, the width of the pouch unit body in the left and right direction is 150% to 1000% container device characterized in that it is expandable. The method of claim 18,
In the state in which the liquid content is filled in the pouch unit body, the restoring force of the pouch unit body is formed greater than the load of the liquid content,
The selective sealing unit, the container device characterized in that to suppress the liquid content is discharged to the outside through the pouch-side opening of the pouch unit, in the state where the slit is closed. The method of claim 15,
It is disposed on the outer circumferential surface of the pouch unit body, and further includes a plurality of guide portions protruding in a radial form,
The guide portion includes a first area in contact with the outer circumferential surface of the pouch unit body, and a second area bent with respect to the first area and disposed on a lower surface of the pouch side locking part,
Between the guide portion and the other guide portion adjacent thereto is formed along the outer surface of the pouch unit body and the lower surface of the pouch-side locking portion, communicating the receiving space of the outer container and the outer space of the outer container Container device characterized in that the flow path portion to be arranged. The method of claim 21,
The horizontal cross-section of the first region and the second region is formed to have a curvature corresponding to the curvature of the pouch unit body and the pouch side engaging portion,
The first region and the second region are formed to be bent to each other,
In the portion where the first region and the second region are interconnected, an inclined stress distribution unit is disposed,
The stress dispersing portion is a container device, characterized in that in contact with the rim of the container-side opening of the outer container.

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