KR20190075829A - Liquid Storing and Discharging Apparatus - Google Patents

Abstract

The present invention relates to a container device capable of storing liquid, to enable a user to completely use content without any remaining content. According to the present invention, the container device comprises: a pouch having elastic properties; a hard container having a harder appearance than that of the pouch and having a container opening part formed on one side; a coupling unit coupling to the container opening part and coupling an opening part of the pouch to the container opening part to block air inflow between the opening part of the pouch and the container opening part; and an air vent formed in and penetrating the hard container.

Description

[0001] LUBRICATING AND DISCHARGING APPARATUS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a container apparatus capable of storing and discharging a liquid, and more particularly, to a container apparatus capable of storing and discharging a liquid such that it can be fully used without leaving contents.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 a shows a storage container for a liquid content with a viscosity according to the prior art.

Liquids such as shampoos and lotions are characterized by relatively high viscosity. When such a viscous content 200 is contained in the container 100, the content 200 has a property of sticking to the inner wall of the container due to the viscosity of the content. However, these products are generally sold in a hard container 100 having a small opening as shown in FIG. 1A, for reasons of beauty, ease of use, and the like. That is, most of them are produced in a hard container of the type shown in FIG. 1A because of consumer sensitivity or convenience of use. In the method of discharging the contents, in general, for convenience of use, And is sucked by the discharge pipe 310 by the pumping action by the air pressure and discharged. However, if 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, there is no problem. However, And it is difficult to discharge the remaining contents because it sticks to the inner wall of the container and does not fall well, which is a great obstacle to the neat use of contents such as shampoo, lotion and the like.

FIG. 1B shows a state in the container when the remaining contents in the storage container for the liquid content with the viscosity according to the prior art are short.

1B, when the amount of the remaining contents 210 is small, the remaining contents 210 adhere to the inner wall of the container 100 and are not easily separated from the container 100, and the discharge pipe 310 Is limited, the residual contents 210 in the container can not be effectively discharged. This problem is caused by the fact that a large amount of the contents attached to the inner wall of the container can not be properly discharged, making it difficult to use, thereby causing the following serious problems.

First, the content is left in the portion of the hard container that is out of the reach of the hand, and the contents can not be used completely, which leads to excessive consumption.

Second, when the container is left in the state of contents such as lotion, shampoo, detergent, etc., it may cause environmental pollution.

Third, in order to use the remaining contents in the container which is not discharged to the discharge unit, when the discharge unit such as the pump is separated from the container and the discharge port is opened, the contents may be contaminated due to the inflow of foreign substances or the like.

Fourth, there is a problem that it is difficult to accurately discharge the amount to be used when separating the container and the discharger for discharging the contents remaining in the container and attempting to discharge it by flipping it upside down.

In order to solve the above problems, an airless container has been disclosed in which the bottom plate of the container rises and the volume thereof is reduced according to the use of the contents. However, in such a container, when the container bottom plate is pulled up by reducing the pressure of the contents, And, moreover, it is possible to realize only a cylinder type container, and thus the freedom of container design is also a big restriction, and there is a problem in that cost is increased in manufacturing the container.

Accordingly, there is a need for an introduction to a container and method that can be produced at low cost while maintaining aesthetic and convenience by using a rigid container, effectively injecting and discharging viscous contents.

1. Korea Utility Model Registration No. 0289892 (Name of Design: Container using rubber balloon)

The inventor of the present invention has found that when the contents of liquid are stuck to the inner wall of the container due to the viscosity and the surface tension of the liquid contents in the case of containing a liquid, particularly a viscous liquid, in a container having a narrow opening, Which is difficult to discharge and is not practical. Nonetheless, the rigid container is fully aware of the voices of related industries that it is necessary to use rigid containers due to the reason that cosmetic products look luxurious and because it is necessary to attach pumps to the discharge part for convenience of use. .

Therefore, the inventor of the present invention has found that by storing an elastic pouch (elastic pouch) in a hard container and storing the liquid contents in an elastic pouch, the contents stored therein can be conveniently and completely used through a novel and innovative method Containers and devices.

In the related art, as described above, in order to easily discharge the contents even when the elastic pouch is provided in the hard container and the remaining amount of the contents is short, a process of filling the contents into the elastic pouch in the product manufacturing step must be accompanied .

2A and 2B show a process of filling a liquid container into a hard container in a general manufacturing process such as shampoo, lotion and the like.

As shown in FIG. 2A, in the case of a product sold in a hard container such as a shampoo or a lotion, a hard container is arranged in a line on the transfer device 500 and transferred to the contents filling device (510). Contents The filling equipment may have one to many nozzles 600, depending on the design.

As shown in FIG. 2B, when the hard container is positioned underneath the nozzle in accordance with the number of nozzles, the nozzle is lowered over each rigid container opening to fill the contents through the nozzle (610). At this time, the time of the nozzle movement for filling the contents and the filling amount per unit time of the nozzle are directly related to the production efficiency of the product, so that the nozzle is vertically moved by a minimum distance according to the designing method so that the contents can be accurately contained in the hard container In this case, the openings of the nozzle and the hard container are mostly filled with each other in consideration of production efficiency and the like.

The inventor of the present invention has found that when the contents are filled in the elastic pouch through the method, the injection pressure of the contents to be injected through the opening of the hard container due to the elasticity of the elastic pouch can overcome the elasticity of the elastic pouch In addition, when the contents are not injected in a state in which the contents injection nozzle is in close contact with the hard container, the elastic pouch is inflated and the contents can not be contained by the volume of the hard container.

Therefore, in consideration of economical efficiency, it has been required to develop a new type of container device and its manufacturing method which can contain the contents in the elastic pouch while using the existing contents filling device as it is.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a device, a container, and a manufacturing method therefor, which is capable of containing a viscous liquid in a container device capable of storing and discharging liquid according to the present invention, .

Another object of the present invention is to provide an elastic pouch which can be inserted into a hard container, thereby reducing the surface area of the elastic pouch caused by the contraction of the elastic pouch and the elasticity (restoring force) of the elastic pouch, It is possible to effectively utilize the remaining contents by utilizing the pushing pressure and the discharge pressure of the discharging device, and when the elastic pouch is inflated due to the elasticity of the elastic pouch, it can be deformed into various shapes that the hard container can have A vessel, and a method of manufacturing the vessel, which can design the vessel regardless of the shape of the hard vessel.

Another object to be solved by the present invention is to provide a method for filling contents in a hard container provided with an elastic pouch, in the case where the filling nozzle injects or flows the contents over the opening of the hard container like the conventional method, The contents can not be poured by the volume of the hard container due to the elasticity of the elastic pouch in the state where the elastic pouch is not expanded beforehand. And a manufacturing method thereof.

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

A container device for storing liquid contents according to an aspect of an embodiment of the present invention includes: a pouch having elastic properties; A rigid container having a rigid outer shape as compared with the pouch and having a container opening at one side; A coupling unit coupled to the container opening and coupling an opening of the pouch with the container opening to shield air inflow between the opening of the pouch and the container opening; And an air inlet formed through the rigid container. When a volume of the pouch is increased by applying pressure to the pouch by flowing liquid or gas through the opening of the container, the volume of the pouch is increased by the volume of the pouch, The volume of the space existing between the hard containers is reduced so that the air present in the space is discharged to the outside of the hard container through the air inlet and the space is reduced. Wherein the air inlet and the air outlet are closed so that the space can be maintained in a reduced pressure state by sealing the air inlet and a part of the air inlet and outlet covers the air inlet and outlet, Air from outside the container through the air inlet When the contents are introduced through the container opening, the pouch is kept in an extended state so that the contents can be filled in the pouch, and when the air inlet and the air opening are sealed by the air entrance stopper, The pressure is formed to be smaller than the restoring force of the pouch, and a force acting on the inner surface of the pouch by the pressure of the inner space of the pouch and a force acting on the outer surface of the pouch by the pressure of the space between the pouch and the hard container Is in equilibrium with the restoring force of the pouch, one side of the air access plug contacts the inside of the hard container, and the other side of the air access plug contacts the atmosphere.

Further, the pouch may expand according to the shape of the hard container when the air present in the space through the air inlet and outlet is discharged out of the hard container.

The pouch may have a folding pattern that is foldable toward the partial area of the pouch directly below a part of the area of the pouch coupled to the coupling unit.

Further, the coupling unit can be inserted and fixed in the container opening of the hard container.

Further, the coupling unit includes an upper unit and a lower unit, the upper unit is connected to communicate with the pouch, and the lower unit is coupled to the upper unit on the pouch, An upper unit engaging portion including a protrusion or a depression in which a part is fitted and an anti-skid portion formed on an upper side of the upper unit engaging portion and supported on an upper surface of the lower unit, And a lower unit coupling portion formed to penetrate through the coupling unit fixing portion and formed in a shape corresponding to the upper unit coupling portion so that the upper unit coupling portion is engaged with the lower unit coupling portion, And may include a ridge or a ridge corresponding to the ridge or the depression.

In addition, the coupling unit may be formed of a single body, and may include a pouch binding unit and a coupling unit fixing unit.

The coupling unit may include a pouch extension guide formed at an end of the coupling unit that abuts the inner space of the pouch and radially formed at an end of the coupling unit toward the outside of the hard container .

According to another aspect of the present invention, there is provided a method of manufacturing a container device, comprising: coupling the pouch to the coupling unit such that the coupling unit and the pouch communicate; Inserting and fixing the coupling unit coupled with the pouch to the opening of the rigid container so that the opening of the rigid container and the opening of the pouch can be tightly coupled; Injecting gas into the pouch coupled to an opening of the rigid container to expand the pouch; As the pouch expands, air present in the space between the pouch and the rigid container is discharged to the outside of the rigid container through an air inlet formed through the rigid container, thereby reducing pressure in the space. And stopping the depressurization with respect to the space by stopping the injection of the gas into the pouch when the pouch is expanded to a predetermined size or more in the hard container, and sealing the air inlet port by sealing the air inlet port Further comprising the step of maintaining the space between the pouch and the rigid container in a reduced pressure or vacuum state so that the pouch remains expanded in the rigid container, wherein a portion of the air access plug covers the air inlet Wherein the container is provided with an air inlet and an air inlet, the container having an air inlet and an air outlet, the container having an air inlet and an air outlet, Maintaining the pouch in an expanded state, The pressure of the inner space of the pouch is formed to be smaller than the restoring force of the pouch when the air inlet and the air outlet are sealed by the air inlet and the stopper in the step of maintaining the expanded state in the container, The force acting on the inner surface of the pouch and the force acting on the outer surface of the pouch due to the pressure of the space between the pouch and the rigid container are in equilibrium with the restoring force of the pouch and one side of the air- Wherein the pouring pressure of the contents to contact the inside of the hard container and the other side of the air inlet and outlet is in contact with the atmosphere and the contents are filled in the pouch is smaller than the restoring force of the pouch.

Further comprising the step of sealing the air inlet port with the use of an air inlet cap to maintain the space between the pouch and the rigid container in a reduced pressure or vacuum state so that the pouch is kept expanded in the rigid container .

The method may further include filling the contents in the pouch extended in the hard container.

According to another aspect of the present invention, there is provided a method of manufacturing a container device, comprising: coupling an opening of a hard container to an opening of the pouch and then connecting the pouch to the hard container through high frequency welding or adhesive application; Injecting gas into the pouch coupled to an opening of the rigid container to expand the pouch; As the pouch expands, air present in the space between the pouch and the rigid container is discharged to the outside of the rigid container through an air inlet formed through the rigid container, thereby reducing pressure in the space. And stopping the depressurization with respect to the space by stopping the injection of the gas into the pouch when the pouch is expanded to a predetermined size or more in the hard container, and sealing the air inlet port by sealing the air inlet port Further comprising the step of maintaining the space between the pouch and the rigid container in a reduced pressure or vacuum state so that the pouch remains expanded in the rigid container, wherein a portion of the air access plug covers the air inlet Wherein the container is provided with an air inlet and an air inlet, the container having an air inlet and an air outlet, the container having an air inlet and an air outlet, Maintaining the expanded state, Wherein the pressure of the inner space of the pouch is smaller than the restoring force of the pouch when the air inlet and the air outlet are sealed and a force acting on the inner surface of the pouch by the pressure of the inner space of the pouch, The force acting on the outer surface of the pouch due to the pressure of the space is in equilibrium with the restoring force of the pouch, one side of the air access plug contacts the inside of the hard container, the other side of the air access plug contacts the atmosphere, The injection pressure of the contents to fill the contents into the pouch is formed to be smaller than the restoring force of the pouch.

Further, in the step of maintaining the pouch extended in the hard container, the opening of the pouch is kept open, and in a state where the contents are filled in the pouch, The pouch is formed to be larger than the load of the contents filled in the pouch, so that when the air inlet and outlet are removed from the air inlet and outlet, the pouch is contracted and the contents can be pushed out of the pouch.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a device, a container, and a manufacturing method thereof that can hold a viscous liquid, .

The device, the container, and the manufacturing method thereof according to the embodiment of the present invention include elastic pouches that can be inserted into a hard container, thereby reducing the surface area due to the contraction of the elastic pouches and the elasticity (restoring force) It is possible to effectively utilize the remaining contents by utilizing the pressure that pushes the contents toward the opening and the discharge pressure of the discharge device and when the elastic pouch is inflated due to the elasticity of the elastic pouch, The present invention provides the effect of designing the container regardless of the shape of the hard container.

The apparatus, the container, and the method for manufacturing the same according to the embodiment of the present invention are characterized in that the filling nozzle injects or flows the contents over the opening of the hard container like the conventional method in filling the contents into the hard container having the elastic pouch When the elastic pouch is used, the contents can not be poured by the volume of the hard container due to the elasticity of the elastic pouch in the state where the elastic pouch is not previously expanded. The contents can be injected using the conventional contents filling method while having the elastic pouch Provides a possible effect.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 a shows a storage container for a liquid content with a viscosity according to the prior art.
FIG. 1B shows a state in the container when the remaining contents in the storage container for the liquid content with the viscosity according to the prior art are short.
2A illustrates a process of filling a liquid container into a hard container in a general manufacturing process such as shampoo, lotion, and the like.
FIG. 2B shows a process of filling a liquid container into a hard container in a general manufacturing process such as shampoo, lotion, and the like.
3 is a view showing a container manufacturing apparatus according to an embodiment of the present invention.
4 to 7 are views showing a method of filling a container with a liquid by using the container manufacturing apparatus of FIG.
FIG. 8 is a view showing a container filled by the container manufacturing method of FIGS. 4 to 7. FIG.
Fig. 9 is a flow chart showing the method of manufacturing the container of Figs. 4 to 7. Fig.
10 is a flowchart showing a pouch expansion step of the container manufacturing method of FIG.
11 shows a container device according to an embodiment of the present invention.
Figure 12 shows a coupling unit according to an embodiment of the invention.
13 shows a coupling unit according to another embodiment of the present invention.
14A illustrates a process of manufacturing a container device according to an embodiment of the present invention.
FIG. 14B shows a coupling type of the container device according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the 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 used only to distinguish one component from another. Therefore, it is needless to say that the first component mentioned below may be the second component within the technical spirit of the present invention.

Like reference numerals refer to like elements throughout the specification.

It is to be understood that each of the features of the various embodiments of the present invention may be combined or combined with each other partially or entirely and technically various interlocking and driving is possible as will be appreciated by those skilled in the art, It may be possible to cooperate with each other in association.

Meanwhile, the potential effects that can be expected by the technical features of the present invention not specifically mentioned in the specification of the present invention are handled as described herein, It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. Omit or briefly describe.

Liquids in this specification are generically referred to as a wide range of liquid state, not solid or gaseous state. In other words, it means all states in which the distance between molecules is short and kinetic energy is low, but not strongly attached to solid molecules, and it is used to include all viscous liquids such as water and viscous liquids such as water .

In the present specification, the pouch refers to a pouch having a fixed external appearance or having no fixed external appearance and having a resilience to return to its original shape when the shape changes due to an external force, A simple soft bag refers to a bag that does not have a fixed outer appearance and changes its shape due to external force.

The term " container " used herein means any type of container having a rigid material having a predetermined outer shape such as plastic, glass, or metal, and may be used in combination with a " hard container ".

Here, the coupling unit means a structure that engages with the opening of the pouch and engages with the container coupling portion (inlet of the container) of the container, thereby coupling the pouch and the container so that the pouch can be fixed in the container. The coupling unit may further include a fixing portion or an air blocking portion so that the space between the container and the pouch can be completely blocked from the outside. The coupling unit may be integrally formed through insert injection or the like when manufacturing the pouch.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification. In addition, since the sizes and thicknesses of the respective components shown in the drawings are arbitrarily shown for convenience of explanation, the present invention is not necessarily limited to those shown in the drawings.

3 is a view showing a container manufacturing apparatus according to an embodiment of the present invention. 4 to 7 are views showing a method of filling a container with a liquid by using the container manufacturing apparatus of FIG. FIG. 8 is a view showing a container filled by the container manufacturing method of FIGS.

3 and 4, a container manufacturing apparatus 1 according to an embodiment of the present invention includes a container 2 including a pouch 220 of an elastic material for suppressing the remainder of the filled contents during use, . ≪ / RTI >

The container 2 manufactured by the container manufacturing apparatus 1 according to the present embodiment includes an outer container 210 which is made of a hard material such as glass, paper or plastic, A pouch 220 of an elastic material which is coupled to the pouch 220 and has a filling space 226 formed therein and a pouch 220 which is firmly coupled to the external container 210, And a coupling unit 230 for securing the coupling unit 230. [

In the case of using a conventional filling equipment for simply filling the liquid contents into the container 1 without applying pressure to the liquid contents separately during the filling of liquid contents such as cosmetics, foods or detergents, When the pouch 220 is coupled to the outer container 210, there is a problem that the pouch 220 is not sufficiently expanded in the receiving space 216 of the outer container 210.

That is, when the conventional filling equipment is used, the weight of the liquid content contained in the filling space 216 of the pouch 220 in a contracted state is smaller than the elastic force of the pouch 220, And there is a problem that the desired amount of the liquid content is not filled in the pouch 220.

Therefore, the container manufacturing apparatus 1 according to the embodiment of the present invention can expand the pouch 220 in a predetermined size and shape in a state where the outer container 210 and the pouch 220 are coupled, And the pouch 220 is maintained in the expanded state, thereby solving the problem caused when the existing filling facility is used.

A container manufacturing apparatus 1 according to an embodiment of the present invention includes a table T, a stage unit 110, a pouch pressurizing / depressurizing unit 120, a first gripping unit 130, Unit 140, and a third grasping unit 150, as shown in FIG.

More specifically, the table T is supported with respect to a bottom surface (not shown) and includes a stage unit 110, a pouch pressurizing / depressurizing unit 120, a first gripping unit 130, a second gripping unit 140 And a space in which the third holding unit 150 can be installed.

The stage unit 110 includes a stage unit body 111 which is installed on the upper surface of the table T so as to be movable by a predetermined distance in the vertical direction and is slidably connected to the table T in the vertical direction, A container mounting portion 112 is formed on the upper surface of the body 112 and into which a part of the container 1 is fitted.

The coupling unit 230 of the container 200 and the coupling unit 230 of the pouch 220 (not shown) may be formed in a mounting hole (not shown) formed at the center of the container mounting unit 112, And the neck portion 214 of the outer container 210 can be seated. The opening 215 formed in the neck portion 214 of the outer container 210 is closed by the pouch 220 while the container 2 is mounted on the container mounting portion 112 and the coupling unit 230 ) Pushes a part of the pouch 220 to the inner surface side of the opening portion 215 so that the opening portion 215 of the outer container 210 can be tightly closed.

The pouch pressurizing / depressurizing unit 120 is disposed in the mounting hole of the container mounting portion 112 and is slidable in the vertical direction with respect to the container mounting portion 112. The pouch pressurizing / reducing unit 120 is inserted into the filling space 226 of the pouch 220 and a plurality of holes 124 are formed on the outer surface thereof to draw in the air inside the filling space 226, Gas or liquid is drawn in.

More specifically, the pouch pressurizing / depressurizing unit 120 includes a unit body 121 slidable with respect to the stage unit 110, a head body 121 formed on one side of the unit body 121 and having a plurality of holes 124 formed therein, (Not shown). The end portion 123 of the head portion 122 is rounded so that the head portion 122 presses the end portion 222 of the pouch 220 to cause the pouch 220 to be expanded and deformed. And the extension of the pouch 220 can be made uniform.

In the present embodiment, a plurality of holes 124 are formed in the head portion 122, but the holes 124 may be formed in one.

A plurality of holes 124 of the head portion 122 are provided and the holes 124 may be linearly arranged on a side surface of the head portion 122 illustratively. It is also possible to arrange the holes 124 in a spiral or irregular pattern on the side surface of the head portion 122 and to arrange the holes 124 in the end portion 123 of the head portion 122, Or the holes 124 are all disposed on the end portion and the side surface of the head portion 122, as shown in Fig.

The holes 124 of the pouch pressurizing / lubrication unit 120 are connected to a pump unit (not shown) of the container manufacturing apparatus 1 through which the air is discharged through the holes 124, As shown in FIG.

Further, the unit body 121 of the air pressurizing / reducing unit 12 may be moved up and down by receiving a driving force from a driving unit (not shown). The drive unit may be a Rand and Pinion or a Linear Motor for converting the rotational force into a linear direction, but the drive unit is not limited to the above example.

The first gripping unit 130 and the third gripping unit 140 are vertically movably provided on a vertical frame 180 extending in a direction perpendicular to the table T, The two grip units 150 are installed on the table T so as to be movable in a direction orthogonal to the extending direction of the vertical frame 180, that is, in the horizontal direction.

The first gripping unit 130 includes a coupling unit 230 and a coupling unit 224 for coupling the pouch 220 to one side of the external container 210, The container 210 is brought into contact with the other side 212 of the outer container 210 while the opening 215 of the container 210 faces the stage unit 110 and the container 210 is pressed toward the stage unit 110, ).

The first gripping unit 210 is moved downward toward the outer container 210 in a state where the first gripping unit 210 is lifted up on the vertical frame 180 to press and grip the outer container 210, When the pressing force is applied to the outer container 210 by contacting the other side 212 of the outer container 210, one side 213 of the outer container 210 is lowered by a predetermined distance of the stage unit 110, It is possible to prevent the container 2 from being damaged due to sudden application of the pressing force. The elastic gripping part 134 formed of an elastic material such as rubber or silicone is momentarily contacted with the outer container 210 and the first gripping part 130 as the elastic gripping part 134 contacts the other side 212 of the outer container 210. [ It is possible to prevent the external container 210 from being damaged by the generated contact.

A through hole 217 communicating with the receiving space 216 of the outer container 210 is formed on the other side of the outer container 210. The first gripping unit 210 includes a first gripping unit body 211 slidably connected to the vertical frame 180 in a vertical direction and a second gripping unit body 211 formed on the first gripping unit body 211, The suction passage 133 communicating with the through hole 217 of the outer container 210 and the other hole 212 of the outer container 210 in the state in which the through hole 217 of the outer container 210 is in contact with the suction passage 133, And an elastic gripping portion 134 which is in contact with the elastic gripping portion 134.

At this time, the suction passage 133 is connected to a pumping unit (not shown) of the container manufacturing apparatus 1, and the suction passage 133 communicates with the suction passage 133, And negative pressure are provided to discharge the air in the accommodation space 216 to the outside through the through holes 217 to reduce the accommodation space 216. [

So that the pouch 220 can be expanded in the outer container 210 to correspond to the shape of the outer container 210.

The second gripping unit 140 is disposed in a pair spaced apart from the stage unit 110 and includes a gripping unit body 141 and a gripping unit 142 disposed at one end of the gripping unit body 141, And the grip unit body 141 is connected to the other end of the grip unit body 141 and moves in a horizontal direction, that is, in a direction in which the grip unit body 141 approaches or away from the stage unit 110 .

The pair of second gripping units 140 grip the neck portion 214 of the outer container 210 while the container 2 is disposed in the stage unit 110 so that the container 2 is moved in the left- Shaking can be suppressed. Meanwhile, according to the embodiment of the present invention, the pair of second gripping units 140 may be designed so that one unit is fixed and the remaining one is driven.

The third grip unit 150 is disposed on the vertical frame 180 and is located between the first grip unit 130 and the table T. [ The third gripping unit 150 can wrap the outer circumference of the outer container 210 and can prevent the container 2 from being shaken while being placed on the stage unit 110. [

The opening 215 of the outer container 210 and the opening 225 of the pouch 220 are directed downward. However, the opening 215 of the outer container 210 and the opening 220 of the pouch 220 are downward, A configuration in which the opening 225 of the light guide plate 225 faces upward is also included in the embodiment of the present invention. In this case, the stage unit 110 includes a suction passage in contact with the through hole 217 of the outer container 210, and the air pressurizing / depressurizing unit 120 may be installed in the first grip unit 211.

In this embodiment, the outer container 210, the pouch 220, and the coupling unit 230 are manually positioned in the container manufacturing apparatus 1, but the outer container 210, the pouch 220, The second gripping unit 140 and / or the third gripping unit 150 may be omitted when the ring unit 230 is automatically positioned in the container manufacturing apparatus 1 by a conveyor belt, a robot, or the like.

Hereinafter, a method of manufacturing the container 2 according to an embodiment of the present invention will be described in detail.

A pouch 220 coupled to the outer container 210 such that a filling space 226 is positioned in the receiving space 216 of the outer container 210; (235) for communicating the filling space (226) of the pouch (220) with the outside is formed in the opening (225) side of the pouch (220) The container 2 including the unit 230 is placed on the stage unit 110 of the manufacturing apparatus 1. [

A neck portion 214 is formed at one side 213 of the outer container 210 and formed with an outer container side opening 215 communicating with the accommodation space 216. The neck portion 214, (211).

The pouch 220 is formed of an elastic material and includes a pouch body 221 in which a filling space 226 is formed and a pouch-side opening 225 is formed in a side 223 of the pouch 220, And a plate-shaped latching portion 224 formed to be larger than the outer diameter of the pouch body 221 is formed.

The coupling unit 230 includes a coupling unit body 231 fitted to the opening 225 side of the pouch 220 and a coupling unit body 231 formed on one side of the coupling unit body 231, And a coupling unit side engagement portion 232 formed to be larger than the outer diameter. A through hole 235 communicating with the filling space 226 of the pouch 220 is formed at the center of the coupling unit body 231.

The coupling unit 230 is installed on the opening 225 side of the pouch 220 so that a part of the pouch 220 is connected to the outer container 210 The space between the outer container side opening 215 of the outer container 210 and the pouch 220 can be securely held by the outer container 210 and the pouch 220, It is possible to suppress the inflow and outflow of air. Further, the coupling unit 230 may be formed of a plastic material such as PP, PE, ABS, nylon, or the like or a metal material such as a sUSH, which is harder than the pouch 230. Therefore, when pumping means (not shown) for discharging the liquid content to the outside is provided on the side of the opening 235 of the pouch 230 after filling of the liquid content is completed in the container 2, The coupling unit 230 which is not coupled to the pouch 220 firmly maintains the shape of the opening 225 of the pouch 220 so that the phenomenon in which the opening 225 of the pouch 220 is curled due to the insertion of the pumping means is suppressed .

Although the coupling unit 230 is described as being coupled to the opening 225 of the pouch 220 in the present embodiment, a separate coupling unit 230 is not provided, A configuration in which a support member formed of a hard material is disposed in the portion 232 rather than the material of the pouch 220 is also included in the embodiment of the present invention. Further, a configuration in which the separate coupling unit 230 and the support member are not provided is also included in the embodiment of the present invention.

The outer container 210 of the container 2, the pouch 220 and the coupling unit 230 are coupled to each other in the process of placing the container 2 in the stage unit 110 of the manufacturing apparatus 1. [ Pressure unit 120 is passed through the through hole 235 of the coupling unit 230 and the head 122 of the air pressurizing / depressurizing unit 120 is filled with the pouch 220 The container 2 is placed on the stage unit 110 so as to be located in the space 226.

Although the coupling unit 230 is described as including the coupling unit 230 in which the container 2 is coupled to the pouch 220, The holding portion 224 of the pouch 220 may be rigidly formed or a rigid supporting member may be provided in the holding portion 224 of the pouch 220. [

The second gripping unit 150 may wrap the outer circumferential surface of the outer container 210 to grip the outer container 210 while the container 2 is seated on the stage unit 110. [

5, the first gripping unit 130 moves to the stage unit 110 side in a state in which the container 2 is seated on the stage unit 110, 212, respectively. The through hole 217 formed in the other side 212 of the outer container 210 communicates with the air flow path 133 of the first holding unit 130. [

Then, the second gripping units 140 move in the horizontal direction to grip the neck portion 214 of the outer container 210.

6, when the container 2 is held by the gripping units 130, 140 and 150, the pouch pressurizing / depressurizing unit 120 moves in the direction of the first gripping unit 130, That is, in the direction opposite to the opening 215 side of the outer container 210, thereby elastically deforming the pouch 220.

The pouch side opening 225 communicating with the filling space 226 in the state where the pouch pressurizing / depressurizing unit 120 is inserted into the filling space 226 of the pouch 220 is inserted into the pouch pressurizing / Lt; / RTI > The air pressurization / decompression unit 120 is inserted into the pouch-side opening 225 and the inner surface of the pouch-side opening 225 is completely brought into close contact with the outer surface of the pouch pressure-application / decompression unit 120, Shielded state.

Therefore, when the space between the outer container 210 and the pouch 220 is reduced in the subsequent process, the filling space 226 is kept shielded from the outside, The pouch 220 is inflated before the inside of the outer container 210 is sufficiently decompressed due to the pressure difference between the space between the outer container 210 and the pouch 220 and the filling space 226 Can be minimized.

Optionally, the pouch pressurizing / depressurizing unit 120 is configured to press the filling space 126 of the elastically deformed pouch 220 into the filling space 126 of the elastically deformed pouch 220, with the filling space 226 of the pouch 220 extending upward by a predetermined amount, (P _NR1 ). When the filling space 126 is depressurized to a first reference pressure-pressure (P _NR1), part of the inner surface of the pouch 220 is sucked and fixed to the pouch pressure increasing / reducing unit 120 to sufficiently reduced pressure to the inside of the outer vessel (210) The pouch 220 can be prevented from being inflated beforehand.

7, when the filling space 126 is depressurized to the first reference depressurization pressure P _NR1 , the outer container 210 is opened through the air passage 133 of the first holding unit 130, The pressure in the accommodation space 216 is reduced to atmospheric pressure or less. At this time, when the inner surface of the pouch 220 is sucked and fixed to the pouch pressure / sound absorbing unit 120, when the receiving space 216 is depressurized, the pouch 220 is elastically deformed into an unintended shape, 220 can be prevented from being sucked into the through-hole 217 side of the outer container 210.

Meanwhile, although the depressurization of the filling space 126 is performed in this embodiment, the depressurization of the accommodation space 216 is described. However, the depressurization process may be performed at the same time.

At this time, the first reference pressure _PR2 may be equal to or smaller than the second reference pressure _PR2 , and may be formed by _inserting the receiving space 216 of the external container 210 into the through hole 217 And can communicate with the outside of the accommodation space 216 only through the through-

Then, when the internal pressure of the accommodation space 216 is reduced to the second reference reduced-pressure artificial force P _NR2 or lower, the pouch pressurizing / depressurizing unit 120 is brought into contact with the filling space 226 at a pressure equal to or higher than the atmospheric pressure _Thereby providing a large reference pressure P _PR . When the reference pressure P _PR larger than the atmospheric pressure is applied to the filling space 226 while the pressure of the accommodation space 216 is the second reference pressure P _NR2 smaller than the atmospheric pressure, The body 221 instantaneously expands in the receiving space 216 of the outer container 210.

The filling space 216 of the pouch 210 is located at a portion distant from the opening 215 of the outer container 210, that is, a portion adjacent to the other side 212 of the outer container 210, That is, a portion adjacent to one side 2123 of the outer container 210, is expanded at the same time.

That is, when the air pressurizing / depressurizing unit 120 provides the reference pressurizing pressure P _PR to the filling space 216 without reducing the pressure in the containing space 216 of the outer container 210, the pouch pressurizing / The pouch 220 can be unevenly expanded as the holes 124 of the unit 120 are expanded from the side of the end 123 of the pouch 210 positioned relatively eccentrically. The first expanded portion of the pouch body 221 is brought into contact with the inner wall of the outer container 210 and the inner space of the accommodating space 216 of the outer container 210 according to the expansion of the pouch 220 Can close the flow passage through the through hole 217, so that the expansion of the pouch 220 may not be achieved to a desired size.

Accordingly, in this embodiment, the pouch 220 is uniformly expanded in the accommodation space 216, so that the pouch 220 can be smoothly expanded.

When a plurality of holes 124 of the pouch pressurizing / depressurizing unit 120 are provided, some holes 124 of the plurality of holes 124 may suck air and other air holes 124 may discharge liquid contents. Do.

That is, in the state that the filling space 126 is depressurized to the first reference depressurization pressure P _NR1 and the accommodation space 116 is depressurized to the second reference depressurization pressure P _NR2 , When the liquid content is supplied, the pouch 220 can be expanded at a pressure close to the atmospheric pressure or the atmospheric pressure when the liquid content is supplied. Further, a configuration for providing the liquid content at a pressure of atmospheric pressure or higher and expanding the pouch 220 is also included in the embodiment of the present invention.

8, in order to maintain the expanded state of the filling space 226 with the filling space 226 of the pouch 220 expanded to a desired size, the through holes 217 of the external container 210 The blocking means 240 can be provided. The blocking means 240 of the container manufacturing method according to the present embodiment may be an adhesive member such as a sticker for restricting the inflow of air into the through hole 217. [ The blocking means 240 may be a valve means such as a check valve that selectively blocks the movement of air. When the blocking means 240 is formed of the check valve, in the preparation stage of the container 200, Means 240 may be provided in the outer container 210.

3 to 7, when the liquid is directly injected in expanding the pouch 220, the pouch 220 is expanded so that the opening of the container 200 faces upward, .

Hereinafter, a method of manufacturing a container according to an embodiment of the present invention will be described step by step.

FIG. 9 is a flow chart showing the container manufacturing method of FIGS. 4 to 7, and FIG. 10 is a flowchart showing a pouch expelling step of the container manufacturing method of FIG.

9 and 10, the container 200 includes a pouch 220 coupled to the outer container 210 such that the filling space 226 is located in the receiving space 216 of the outer container 210 and the outer container 210 A container preparing step S110 for preparing the container 2 is carried out.

The container preparing step S110 includes a first outer container holding step in which the first gripping unit 130 grips the opposite end 212 of the outer container 210 on the side of the opening 215, And a second outer container holding step of gripping the opening 215 of the neck portion 214, that is, the neck portion 214.

And a pouch expansion step S220 for supplying air to the filling space 226 of the pouch 220 so that the filling space 226 of the pouch 220 is expanded in the accommodation space 216. [

The pouch 220 is inserted into the accommodating space 216 of the outer container 210 so that the pouch 220 is moved in the opposite direction to the opening 215 side of the outer container 210, The pouch stretching step S121 is performed.

The pneumatic depressurization step (S122) is then performed in which the air pressurizing / depressurizing unit 120 depressurizes the filling space 226 of the elastically deformed pouch 220 to the first reference depressurization pressure PNR1 which is atmospheric pressure or lower.

Next, an external container depressurization step (S123) for depressurizing the containing space 215 of the external container 210 to atmospheric pressure or less is performed through the through-hole 217 formed through the external container 210.

 Then, in the pouch stretching step S121, pouch pressing step S124 is performed in which air is injected into the elastically deformed pouch 220 to expand the filling space 226 of the pouch 220.

Air is supplied to the filling space 226 of the pouch 220 to increase the volume of the filling space 226 in the accommodation space 216 in the pouch expansion step S120, The pouch 220 is discharged to the outside of the outer container 210 through the through hole 217 formed in the outer container 210. Next, in a state where the filling space 226 of the pouch 220 is extended, The pouch extended state maintaining step S 130 is performed in which the blocking means 240 is installed in the through hole 217 of the outer container 210 to maintain the extended state of the pouch 226.

That is, in the case of the container manufacturing method according to the embodiment of the present invention, air is supplied to the filling space 226, and the filling space 226 of the pouch 220 is extended, The blocking means 240 can be easily provided in the through hole 271 since the pouch 220 is kept in the expanded state without reducing the pressure through the hole 271 through a separate device.

The filling space 226 of the pouch 220 is somewhat larger than the filling space 226 of the pouch 220 when the pouch pressing step of blowing air into the filling space 226 of the pouch 220 is completed, The air pressure in the filling space 226 of the pouch 220 and the air pressure in the space between the pouch 220 and the outer vessel 210 are different. That is, the air pressure in the space between the pouch 220 and the outer container 210 becomes smaller than the air pressure in the filling space 226 of the pouch 220.

The internal pressure of the accommodation space 226 of the pouch 220 is formed to be smaller than the restoring force of the pouch 220 in the pouch extended state holding step S130 and the pressure of the pouch 220 And the force acting on the outer surface of the pouch 220 by the pressure of the receiving space 216 between the pouch 220 and the outer container 210 is equal to the restoring force of the pouch 220, .

A liquid filling step (S140) is then performed to fill the containing space (226) of the extended pouch (220) with liquid contents, and the contents filled in the filling space (226) of the pouch (220) The filling space 226 is filled with no additional pressure for the contents.

At this time, the contents filled in the receiving space 226 of the pouch 220 are surrounded by the pouch 220 of a first elastic material, the pouch 220 is formed at a lower pressure than the atmospheric pressure, Which is surrounded by an air layer in the space between the pouch 220 and the outer container 210. [ The air layer is again enclosed by the outer container 210 so that the contents to be filled in the accommodation space 226 of the pouch 220 are sealed by the pouch 220, the air layer and the outer container 210, The oxidation or damage of the contents due to contact with the outside air can be prevented.

According to the proposed embodiment, there is an advantage that the liquid contents can be filled in the container including the pouch made of elastic material and the external container provided with the pouch using the existing filling equipment.

11 illustrates a container apparatus 2000 according to an embodiment of the present invention. The container apparatus 2000 according to the present invention may be configured to include a coupling unit 2100, a pouch 2200, a hard container 2300, an air inlet 2400, and an air inlet plug 2500.

The coupling unit 2100 performs a function of coupling the pouch 2200 and the hard container 2300 to each other. When the contents are filled through the opening of the hard container 2300 in the state where the pouch 2200 is inserted into the hard container 2300, the contents can be contained in the pouch 2200 without being introduced into the hard container 2300. [ The ring unit 2100 can be designed such that the air in the hard container 2300 does not escape between the pouch 2200 and the hard container 2300 by tightly fitting the opening of the hard container 2300 with the opening of the pouch 2200. [

According to another embodiment of the present invention, in addition to the method of fastening the pouch 2200 and the hard case 2300 using the coupling unit 2100, the pouch 2200 and the hard container 2300) can be fastened. In the case of using high frequency welding or an adhesive, the opening of the pouch 2200 is brought into contact with the opening of the hard container 2300 without using the coupling unit 2100, and then the pouch 2200 is hardened To be coupled to the container 2300.

The pouch 2200 is made of a flexible material having elasticity and is open at one side and coupled with the coupling unit 2100. The pouch 2200 may be made of a material such as synthetic latex, silicone, silicon carbonate, natural rubber, polyisoprene and the like, and may be made of any material as long as it is a material having elasticity and capable of containing liquid .

11, the pouch 2200 may be provided with a certain form of corrugation directly below the portion that engages the coupling unit 2100, in accordance with an embodiment of the present invention. Even if the contents of the pouch 2200 are largely discharged due to the presence of the wrinkles, the wrinkles induce the pouches 2200 to be folded in a certain shape so that the pouches 2200 are irregularly folded So that it is prevented from being sucked into the opening of the hard container 2300 and more effective contents discharge can be expected.

Expansion pouch 2200 can be expanded in rigid container 2300 by having a smaller volume than the volume of rigid container 2300. [ When the pouch 2200 is expanded, a restoring force for returning to the original shape due to the elastic recovery force is generated. By restoring the volume of the pouch 2200 to the amount of the remaining contents, the volume of the pouch 2200 containing the contents is minimized, minimizing the amount of the contents sticking to the inner wall of the pouch 2200, The pressure can be applied so that the contents can be easily discharged.

Accordingly, it is preferable that the volume of the pouch 2200 before being expanded by the contents is smaller than the volume of the hard container 2300.

The rigid container 2300 provides a space through which the pouch 2200 can extend. The rigid container 2300 may be formed of a plastic material by injection molding or blowing molding. Alternatively, the rigid container 2300 may be formed of glass, ceramics, or metal. The hard container 2300 prevents the pouch 2200 from being broken and the contents to leak when the contents are contained in the pouch 2200 made of a soft material.

The air inlet 2400 is coupled to the pouch 2200 by a pouch 2200 that extends when the coupling unit 2100 couples the pouch 2200 with the rigid container 2300 and applies pressure to the pouch 2200. [ So that the air present in the space A between the hard container 2300 and the hard container 2300 can be discharged. In addition, when the contents are discharged from the pouch 2200 filled with the contents, the reduced pressure state in the hard container 2300 should be released so that the volume of the pouch 2200 may be reduced as the contents of the pouch 2200 decrease. The air inlet 2400 serves to allow air outside the rigid vessel 2300 to be introduced into the rigid vessel 2300.

11, air inlet 2400 is shown formed in hard container 2300, but air inlet 2400 may be formed as coupling unit 2100 according to an embodiment of the present invention.

The air inlet plug 2500 is configured such that the air existing in the space A between the pouch 2200 and the hard container 2300 is exhausted to the space A and then the air outside the hard container 2300 is supplied to the hard container So that the pouch 2200 can be maintained in the extended state by maintaining the reduced pressure state of the space A. The air inlet plug 2500 may be implemented as a valve, an air plug, or the like, and may further include a sticker type seal having an adhesive force sufficient to withstand the air inflow pressure to the air inlet 2400.

Furthermore, the air inlet plug 2500 increases the pressure inside the hard container 2300 as the volume of the pouch 2200 decreases, so that the air inlet plug 2500 can be opened or closed when a pressure of a predetermined level or more is applied to the air inlet plug 2500. [ It can be realized as a structure in which the door is released.

Figure 12 illustrates coupling unit 2100 in accordance with an embodiment of the present invention.

According to FIG. 12, the coupling unit 2100 may include an upper unit 2110 and a lower unit 2120. The upper unit 2110 may include an upper unit engaging portion 2111 and a pivot preventing portion 2112 and a pouch extension guiding portion 2113. The lower unit 2120 may include a lower unit engaging portion 2121, And may include a fixing portion 2122.

The upper unit coupling portion 2111 is inserted into the upper unit 2110 and the lower unit 2120 of the coupling unit 2100 while the pouch 2200 is fitted and coupled with the lower unit coupling portion 2121 to break the pouch 2200. [ ) Can be combined. The upper unit coupling portion 2111 is coupled to the lower unit coupling portion 2121 so that the pouch 2000 can be firmly fixed to the upper unit coupling portion 2111 between the upper unit 2110 and the lower unit 2120 A corresponding raised portion or a sinking formed portion may be formed.

The anti-jamming portion 2112 is configured such that the coupling unit 2100 is coupled to the container by the pressure generated by the engagement of the ejection device when the ejection device is engaged with the coupling unit 2100, Thereby preventing it from being pushed in. The anti-skid portion 2112 may be implemented in the lower unit 2120 according to an embodiment of the present invention.

The pouch extension guiding portion 2113 is designed to face the outside of the container so as to prevent the portion connected to the upper unit 2110 from being sucked into the container discharging opening when the pouch 2000 is coupled to the upper unit 2110. That is, due to such a structural feature, the pouch 2000 fastened to the coupling unit 2100 is held to face outward with respect to the discharge device, so that the contents contained in the pouch 2000 are almost exhausted, It is possible to prevent the pouch 2000 from being sucked into the contents intake port by the suction force of the discharge device even when it is adjacent to the contents suction port of the discharge device.

The lower unit coupling portion 2121 can engage with the upper unit coupling portion 2111 on the pouch 2000 covered on the upper unit coupling portion 2111. [ The lower unit locking portion 2121 is fixed to the upper unit locking portion 2111 so that the pouch 2000 can be firmly fixed between the upper unit 2110 and the lower unit 2120 A crest portion or a depression portion formed by depression may be formed.

The coupling unit fixing portion 2122 is designed such that the coupling unit 2100 can be firmly fixed to the hard container 2300. [ For this purpose, the coupling unit fixing portion 2122 may be implemented as a ring-shaped protrusion, or may be made of a material that can shield air such as silicon according to design.

The coupling unit 2100 can be inserted inside the opening of the hard container 2300 so that the existing container can be used without any additional device or design change in the hard container 2300.

13 shows coupling unit 3100 according to another embodiment of the present invention.

13, the coupling unit 3100 according to another embodiment of the present invention can be realized as a single body and includes a pouch binding unit 3110, a coupling unit fixing unit 3120, 3130).

The pouch binding portion 3110 can be formed by being recessed relative to the coupling unit fixing portion 3120 as an area where the pouch 2000 directly engages with the coupling unit 3100. [ When the pouch 2000 is put on the coupling unit 3100, it is possible to prevent the pouch 2000 from being easily peeled off from the coupling unit 3100 by the elastic force of the pouch 2000.

The coupling unit fixing portion 3120 serves to firmly couple the coupling unit 3100 to the hard container 2300. The coupling unit fixing portion 3120 is coupled to the inside of the opening of the hard container 2300 so that when the pouch 2000 covered by the pouch binding portion 3110 flows down, the inner wall of the hard container 2300 and the coupling unit fixing portion 3120 so as to prevent the pouch 2000 from flowing down.

The anti-jamming portion 3130 prevents the coupling unit 3100 from being pressed against the container 3100 by the pressure generated by the engagement of the ejection device when the coupling unit 3100 is coupled to the container and the ejection device is engaged with the coupling unit 3100. [ Thereby preventing it from being pushed in.

The coupling unit 3100 can be inserted inside the opening of the hard container 2300 and can be used in combination with the conventional discharging device without adding a device or changing the design of the hard container 2300.

The coupling units 2100 and 3100 shown in Figs. 12 and 13 are only one embodiment for the implementation of the present invention. If the coupling unit 2100 and 3100 shown in Figs. 12 and 13 are configured to closely attach the pouch 2000 to the hard container 2300, 18 or the coupling unit 2100, 3100 shown in FIG. 19, it should be construed as being included in the spirit of the present invention.

FIG. 14A shows a manufacturing process of the container device 2000 according to an embodiment of the present invention, and FIG. 14B shows a combined form of the container device 2000 according to an embodiment of the present invention.

14A and 14B, in order to implement the container apparatus 2000 according to an embodiment of the present invention, the coupling unit 2100 and the pouch 2200 are coupled (S310).

The coupling unit 2100 coupled with the pouch 2200 is inserted into the opening of the hard container 2300 and is firmly fixed (S320). The pouch 2200 is also inserted into the rigid container 2300 when the coupling unit 2100 is inserted into the opening of the rigid container 2300 and the coupling unit 2100 is coupled to the rigid container 2300, And the hard container 2300 can escape to the outside of the hard container 2300 only through the air inlet 2400. [

When the pouch 2200 is coupled to the rigid container 2300 by the coupling unit 2100, a pressure reduction procedure for the space A between the pouch 2200 and the rigid container 2300 is performed (S330). The gas injection nozzle 4000 is coupled to the pouch 2200 to depressurize the space A at step S331 and the gas is injected into the pouch 2200 at step S332. When gas is injected into the pouch 2200, the pouch 2200 expands due to the injection pressure (S333). When the pouch 2200 expands in the hard container 2300, air present in the space A is discharged through the air inlet 2400 to the outside of the hard container 2300 by the expansion pressure of the pouch 2200, Accordingly, the space A in the hard container 2300 is depressurized (S334).

If the volume of the space A becomes sufficiently small as the pouch 2200 sufficiently expands in the hard container 2300, the decompression procedure is stopped (S340). When the pressure applied to the interior of the pouch 2200 exceeds a predetermined value to determine whether the volume of the space A in the hard container 2300 has become sufficiently small, Or the amount of the gas corresponding to the volume is input to the pouch 2200 through the gas injection nozzle 4000 to determine whether the volume of the space A is sufficiently small It can be judged in advance.

When the pressure reduction procedure is completed, the air inlet / outlet 2400 is closed using the air inlet / outlet 2500 to maintain the reduced pressure state (vacuum state) of the space A (S350). The air inlet cap 2500 may be a valve, an air stopper, or the like. In addition, the air inlet cap 2400 may be formed of an adhesive seal capable of sufficiently holding the air inflow pressure to the air inlet / Etc. can be considered.

Since the pouch 2200 can be expanded and maintained in the shape of the hard container 2300 in a state where the air inlet 2400 is closed, the contents can be filled in the pouch 2200 by using the conventional filling method have.

That is, the open / close stopper 2500 can maintain the reduced pressure state of the internal space of the sports game container 2300 by sealing the air inlet / outlet 2400.

A part of the air inlet and outlet cap 2500 covers the air inlet 2400 and is connected to the outside of the hard container 2100 through the air inlet 2400 in the state where the pressure between the pouch 2200 and the hard container 2100 is made, Can be restrained from flowing. Thus, when contents are introduced through the container opening, the contents of the pouch 2200 can be expanded so that the contents can be filled in the pouch 2200 by a desired volume.

The pressure of the inner space of the pouch 2200 is formed to be smaller than the restoring force of the pouch 2200 when the air inlet 2400 is sealed by the air entrance stopper 2500, ₂ ) exerted on the outer surface of the pouch 2200 by the pressure P ₁ acting on the inner surface of the pouch 2200 and the pressure of the space between the pouch 2200 and the hard container 2100, The resultant force of the force P ₁ acting on the inner surface of the pouch 2200 and the force P ₂ acting on the outer surface of the pouch 2200 is equal to the restoring force of the pouch 2200 So that the expanded state of the pouch 2200 can be maintained.

At this time, one side of the air inlet plug 2500 is in contact with the inside of the hard container 2100, and the other side of the air inlet plug 2500 is in contact with the atmosphere.

When the contents in the pouch 2200 in the hard container 2300 are filled, the discharging device can be coupled to the hard container 2300. The discharging device discharges the contents in the pouch 2200 and may be variously implemented in a pump type, a nozzle type, and a cap type according to the use of the product.

[Adjustment of Dispensing Speed of Contents Using Resilience]

As the volume expands, the pouch 2200 is restored to its original shape. Such a restoring force can generate pressure to easily discharge the contents in the pouch 2200 without using a pump or the like. At this time, the restoring force of the pouch 2200 can be controlled according to the basic size of the pouch 2200, the thickness of the pouch 2200, the physical properties thereof, and the shape of the pouch 2200, .

The elastic force of the pouch 2200 is formed to be greater than the load of the contents filled in the pouch 2200 so that the opening of the pouch 2200 is opened The pouch 2200 is contracted by the elastic force and the contents can be pushed out to the outside of the pouch 2200. In this case,

Meanwhile, the container apparatus 2000 according to the present embodiment can be manufactured by the container manufacturing apparatus 1 described in FIGS. 1 to 10 and the container manufacturing method using the same.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

Claims (12)

A pouch having elastic properties;
A rigid container having a rigid outer shape as compared with the pouch and having a container opening at one side;
A coupling unit coupled to the container opening and coupling an opening of the pouch with the container opening to shield air inflow between the opening of the pouch and the container opening; And
And an air inlet formed through the rigid container,
The volume of the space existing between the pouch and the rigid container is reduced by a volume increase of the pouch when the volume of the pouch is increased by applying pressure to the pouch by flowing the liquid or gas through the container opening, The existing air is discharged to the outside of the hard container through the air inlet and outlet to reduce the pressure of the space,
Further comprising an air inlet cap capable of sealing the air inlet port, wherein the space can be maintained in a reduced pressure state by sealing the air inlet port,
Wherein a part of the air inlet / outlet cap covers the air inlet / outlet and restricts the inflow of air from the outside of the hard container through the air inlet / outlet port in a state in which the inner pressure between the pouch and the hard container is made, The pouch is kept in an expanded state so as to be filled in the pouch,
When the air inlet and the air outlet are sealed by the air inlet and outlet,
The pressure of the inner space of the pouch is formed to be smaller than the restoring force of the pouch,
The force acting on the inner surface of the pouch by the pressure of the inner space of the pouch and the force acting on the outer surface of the pouch by the pressure of the space between the pouch and the rigid container are in equilibrium with the restoring force of the pouch
Wherein one end of the air inlet plug is in contact with the inside of the hard container and the other side of the air inlet plug is in contact with the atmosphere. The method according to claim 1,
Wherein the pouch expands according to the shape of the hard container when air present in the space through the air inlet and outlet is discharged out of the hard container. The method according to claim 1,
Wherein the pouch has a folding pattern that is foldable toward the partial area of the pouch directly below a portion of the area of the pouch coupled to the coupling unit. The method according to claim 1,
The coupling unit includes:
Wherein the container is inserted and fixed in the container opening of the rigid container. 5. The method of claim 4,
Wherein the coupling unit comprises an upper unit and a lower unit, the upper unit being connected in communication with the pouch, the lower unit being coupled to the upper unit on the pouch,
Wherein the upper unit includes an upper unit engaging portion including a protrusion or a depression in which a part of the pouch is inserted and an anti-jamming portion formed on an upper side of the upper unit engaging portion and supported on an upper surface of the lower unit,
Wherein the lower unit includes a coupling unit fixing portion and a lower unit fixing portion formed in a shape corresponding to the upper unit fixing portion and penetrating the coupling unit fixing portion so that the upper unit fixing portion is engaged with the lower unit fixing portion, Wherein the lower unit fastening portion includes a depression or a ridge portion corresponding to the ridge portion or the depression portion of the upper unit fastening portion. 5. The method of claim 4,
Characterized in that the coupling unit comprises one body and comprises a pouch binding part and a coupling unit fixing part. The method according to claim 1,
Wherein the coupling unit comprises a pouch extension guide portion formed at an end of the coupling unit that abuts an inner space of the pouch and is radially formed at an end of the coupling unit toward the outside of the rigid container, To the container. Coupling the pouch to the coupling unit such that the coupling unit and the pouch communicate;
Inserting and fixing the coupling unit coupled with the pouch to the opening of the rigid container so that the opening of the rigid container and the opening of the pouch can be tightly coupled;
Injecting gas into the pouch coupled to an opening of the rigid container to expand the pouch;
As the pouch expands, air present in the space between the pouch and the rigid container is discharged to the outside of the rigid container through an air inlet formed through the rigid container, thereby reducing pressure in the space.
And stopping the decompression of the space by stopping the injection of the gas into the pouch when the pouch is expanded to a predetermined size or more in the hard container,
Further comprising the step of sealing the air inlet port using an air access plug to maintain the space between the pouch and the rigid container in a reduced pressure or vacuum state so that the pouch remains expanded in the rigid container ,
Wherein a part of the air inlet / outlet cap covers the air inlet / outlet and restricts the inflow of air from the outside of the hard container through the air inlet / outlet port in a state in which the inner pressure between the pouch and the hard container is made, The pouch is kept in an expanded state so as to be filled in the pouch,
In the step of causing the pouch to remain expanded in the rigid container,
When the air inlet and the air outlet are sealed by the air inlet and outlet,
The pressure of the inner space of the pouch is formed to be smaller than the restoring force of the pouch,
The force acting on the inner surface of the pouch by the pressure of the inner space of the pouch and the force acting on the outer surface of the pouch by the pressure of the space between the pouch and the rigid container are in equilibrium with the restoring force of the pouch ,
One end of the air inlet / outlet plug contacts the inside of the hard container, and the other side of the air inlet /
Wherein the injection pressure of the contents to fill the contents into the pouch is smaller than the restoring force of the pouch. 9. The method of claim 8,
Further comprising the step of sealing the air inlet port using an air access plug to maintain the space between the pouch and the rigid container in a reduced pressure or vacuum state so that the pouch remains expanded in the rigid container A method for manufacturing a container device. 10. The method of claim 9,
Further comprising the step of filling the contents in the pouch extended in the rigid container. Contacting the opening of the pouch with the opening of the pouch and then bonding the pouch to the rigid container through high frequency welding or adhesive application;
Injecting gas into the pouch coupled to an opening of the rigid container to expand the pouch;
As the pouch expands, air present in the space between the pouch and the rigid container is discharged to the outside of the rigid container through an air inlet formed through the rigid container, thereby reducing pressure in the space.
And stopping the decompression of the space by stopping the injection of the gas into the pouch when the pouch is expanded to a predetermined size or more in the hard container,
Further comprising the step of sealing the air inlet port using an air access plug to maintain the space between the pouch and the rigid container in a reduced pressure or vacuum state so that the pouch remains expanded in the rigid container ,
Wherein a part of the air inlet / outlet cap covers the air inlet / outlet and restricts the inflow of air from the outside of the hard container through the air inlet / outlet port in a state in which the inner pressure between the pouch and the hard container is made, The pouch is kept in an expanded state so as to be filled in the pouch,
When the air inlet and the air outlet are sealed by the air inlet and outlet,
The pressure of the inner space of the pouch is formed to be smaller than the restoring force of the pouch,
The force acting on the inner surface of the pouch by the pressure of the inner space of the pouch and the force acting on the outer surface of the pouch by the pressure of the space between the pouch and the rigid container are in equilibrium with the restoring force of the pouch ,
One end of the air inlet / outlet plug contacts the inside of the hard container, and the other side of the air inlet /
Wherein the injection pressure of the contents to fill the contents into the pouch is smaller than the restoring force of the pouch. The method according to any one of claims 8 to 11,
In the step of causing the pouch to remain expanded in the rigid container,
The opening of the pouch remains open,
When the contents are filled in the pouch, the elastic force of the pouch is formed to be larger than the load of the contents filled in the pouch. When the air inlet and outlet are removed from the air inlet and outlet, the pouch is contracted, Wherein the pouch is pushed out of the pouch.

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