KR20230151974A - Apparatus for filling content into container and method using therewith - Google Patents

Abstract

The present invention relates to a content filling device and a content filling method using the same, and more specifically to a content filling device for a container having an external container and an internal container and a content filling method using the same.
A content filling device according to an embodiment of the present invention includes an external container having a receiving space formed therein and a container-side opening communicating with the receiving space, and a pouch assembly installed in the external container, the pouch assembly It is made of an elastic material and includes a pouch unit with a filling space for filling liquid therein, wherein a portion of the pouch unit is inserted into the receiving space through the container-side opening, and the outer surface of the pouch unit and the In the contents filling device for the container device, wherein a flow path through which air flows is formed between the inner surface of the container side opening and a selective sealing unit installed in the pouch side opening communicating with the filling space, one side of the flow path portion of the pouch unit A decompression module including a decompression module body surrounding an end, the inner surface of which is spaced apart from the one end of the flow path portion to form a decompression space between the inner surface and the container device, and a first decompression flow path connected to the decompression module body; It is arranged to enable relative movement with respect to the decompression module, and a portion penetrates the decompression module and is selectively inserted into the filling space of the pouch unit, exhausting air in the filling space to the outside and supplying contents to the filling space. It includes a reduced pressure-filling composite module.

Description

Content filling device and content filling method using the same {APPARATUS FOR FILLING CONTENT INTO CONTAINER AND METHOD USING THEREWITH}

The present invention relates to a content filling device and a content filling method using the same, and more specifically to a content filling device for a container having an external container and an internal container and a content filling method using the same.

Generally, liquid contents such as detergents such as shampoo and lotion or liquid food ingredients such as ketchup are used in containers.

However, due to the viscosity of the liquid contents, the liquid contents remain on the inner wall of the container during use, and there is a problem in that the user cannot completely use all of the liquid contents.

If the liquid contents are discarded while remaining inside the container, recycling of the container is limited, which may increase environmental pollution.

In order to solve this problem, products in which the container is made of a flexible material have been proposed. However, even if the container is made of a flexible material, the problem of liquid content remaining inside the container still occurs.

Accordingly, the present invention seeks to provide a content filling device for a container device and a filling method using the same to minimize the amount of liquid content remaining inside the container.

A content filling device according to one aspect of an embodiment of the present invention includes an external container having a receiving space formed therein and including a container-side opening communicating with the receiving space, and a pouch assembly installed in the external container, The pouch assembly is made of an elastic material and includes a pouch unit with a filling space for filling liquid therein. The pouch unit is partially inserted into the receiving space through the container-side opening and has an outer surface of the pouch unit. and a flow path through which air flows is formed between the inner surface of the container-side opening, and a selective sealing unit installed in the pouch-side opening communicating with the filling space, wherein the flow path of the pouch unit includes: A decompression module body surrounding one end of the unit, the inner surface of which is spaced apart from the one end of the flow path part to form a decompression space between the inner surface and the container device, and a first decompression flow path connected to the decompression module body. module; It is arranged to enable relative movement with respect to the decompression module, and a portion penetrates the decompression module and is selectively inserted into the filling space of the pouch unit, exhausting air in the filling space to the outside and supplying contents to the filling space. It includes a reduced pressure-filling composite module.

In addition, the decompression-filling composite module includes a second decompression passage providing negative pressure and a composite module body connected to the second decompression passage and extending on one side of a decompression unit in communication with the second decompression passage. It includes a filling unit that is relatively movably inserted into an internal flow path of the pressure reducing unit of the module body and has a flow hole through which contents flow on one side, and the pressure reducing unit and the filling unit are placed in the filling space of the pouch. Part of may be optionally inserted.

In addition, the end of the pressure reduction unit is completely open so that the end of the filling unit inserted into the pressure reduction unit internal flow path is exposed to the outside, and the end of the filling unit is rounded to have a first radius of curvature. , the end edge of the pressure reduction unit may be rounded to have a second radius of curvature, and the first radius of curvature may be formed to be smaller than the second radius of curvature.

In addition, in an alignment mode in which the decompression module is mounted on the container device and the decompression space of the decompression module communicates with the flow path portion of the pouch unit, the end of the filling unit and the edge of the end of the decompression unit are connected to the selective sealing unit. It is formed in the center of the unit and is arranged to be spaced apart from a slit that selectively opens or closes the filling space by a preset distance, and in a filling space decompression mode for discharging air in the filling space of the pouch unit to the outside, The end of the filling unit and the edge of the end of the pressure reducing unit enter the first position into the filling space through the slit, and in the content filling mode for filling the content into the filling space of the pouch unit, The end of the filling unit may enter the filling space into a second position, and the edge of the end of the decompression unit may deviate from the filling space and be positioned in a third position in the depressed area.

Additionally, a recessed area is formed in the selective sealing unit of the pouch unit, where the center of the selective sealing unit is inserted into the pouch-side opening, and in the alignment mode, the end of the filling unit and the end of the decompression unit are formed. A border is located in the depressed area, the lower end of the depressed area is in contact with the upper surface of the center of the selective sealing unit, and the upper surface of the depressed area is the upper surface of the sealing unit side border that is seated on the pouch unit side border of the pouch unit. It can be placed side by side with .

In addition, the upper surface of the sealing unit side border is in contact with a pressure surface disposed on the lower side of the cancer module body, and the sealing unit side border and the pouch unit side border are pressed to the upper surface of the border of the container side opening, The thickness of the center of the selective sealing unit increases from the sealing unit side edge toward the slit, and the recessed area may be rounded.

Additionally, in the filling space decompression mode, air in the filling space is discharged toward the second decompression flow path through the internal flow path of the decompression unit between the outer surface of the filling unit and the inner surface of the decompression unit, and the filling unit of the filling unit The contents may not flow on the internal flow path side.

Additionally, in the filling space decompression mode, the end of the filling unit protrudes from the end of the decompression unit, and the flow hole of the filling unit may not be exposed to the outside of the internal flow path of the decompression unit.

Additionally, in the content filling mode, the decompression unit maintains the depth at which it enters the filling space in the filling space decompression mode, and negative pressure may not be provided to the internal flow path of the decompression unit.

Additionally, the difference between the position of the end of the filling unit in the alignment mode and the position of the end of the filling unit in the filling space decompression mode is the position of the end of the filling unit in the filling space decompression mode. It may be smaller than the difference between the position of the end of the filling unit in the contents filling mode.

Additionally, in the external container decompression mode for discharging the air in the receiving space of the external container to the outside, the air in the receiving space is decompressed through the space between the container side opening of the external container and the flow path portion of the pouch unit. It may be discharged to the decompression space side of the module.

In addition, in the external container decompression mode, the end of the filling unit and the edge of the end of the decompression unit are maintained in a state entered into the first position inside the filling space, and in the external container decompression mode, the filling space It may be performed between the decompression mode and the contents filling mode, or may be performed simultaneously with the contents filling mode.

A content filling method according to another aspect of an embodiment of the present invention includes an alignment step in which the decompression module is mounted on the container device, and the decompression space of the decompression module communicates with the flow path portion of the pouch unit; A filling space depressurization step for discharging the air in the filling space of the pouch unit to the outside; and a content filling step for filling the filling space of the pouch unit with the content, wherein in the aligning step, an end of the filling unit and an edge of an end of the pressure reducing unit are formed at the center of the selective sealing unit. and is arranged to be spaced apart from the slit that selectively opens or closes the filling space by a preset distance, and in the step of depressurizing the filling space, the end of the filling unit and the edge of the end of the decompression unit pass through the slit. enters the filling space into a first position, and in the step of filling the contents, the end of the filling unit enters the filling space into the second position, and the filling unit supplies contents into the filling space. In addition, the edge of the pressure reducing unit side may be separated from the filling space and positioned at a third position located in the depressed area.

In addition, in the selective sealing unit of the pouch unit, a depressed area is formed in which the center of the selective sealing unit is inserted into the pouch side opening and is rounded, and the bottom of the depressed area is formed at the center of the selective sealing unit. is in contact with the upper surface of the recessed area, and the upper end of the recessed area is arranged parallel to the upper surface of the sealing unit side border that is seated on the pouch unit side border of the pouch unit, and in the alignment mode, the end of the filling unit and the end of the decompression unit While the side edge is located in the depressed area, the movement may be stopped for a preset time.

In addition, in the filling space decompression step, the air in the filling space is discharged toward the second decompression flow path through the internal flow path of the decompression unit between the outer surface of the filling unit and the inner surface of the decompression unit, and the filling unit of the filling unit The contents do not flow on the inner flow path side, the end of the filling unit protrudes from the end of the pressure reduction unit, and the flow hole of the filling unit may not be exposed to the outside of the pressure reduction unit internal flow path.

Additionally, the difference between the position of the end of the filling unit in the alignment step and the position of the end of the filling unit in the filling space decompression step is the position of the end of the filling unit in the filling space step mode. It may be formed to be smaller than the difference between the position of the end of the filling unit in the content filling step.

In addition, it further includes an external container depressurizing step for discharging the air in the receiving space of the external container to the outside, and in the external container depressurizing step, the air in the receiving space is discharged through the container side opening of the external container and the pouch unit. is discharged to the decompression space side of the decompression module through the space between the flow paths, and the end of the filling unit and the edge of the end of the decompression unit are maintained in the first position inside the filling space, , the external container depressurizing step may be performed between the filling space depressurizing step and the contents filling step, or may be performed simultaneously with the contents filling step.

A container device according to another aspect of an embodiment of the present invention includes an external container having an accommodating space formed therein and including a container-side opening communicating with the accommodating space; and a pouch assembly installed in the external container, wherein the pouch assembly is made of an elastic material and includes a pouch unit having a filling space for filling liquid therein, and the pouch unit has an opening on the container side. A portion is inserted into the receiving space, and a flow path through which air flows is formed between the outer surface of the pouch unit and the inner surface of the container-side opening, and includes an optional sealing unit installed in the pouch-side opening communicating with the filling space. In the selective sealing unit of the pouch unit, a slit is formed in the center of the selective sealing unit to selectively open or close the filling space, and a depression in which the center of the selective sealing unit is inserted into the pouch side opening. An area is formed, the lower end of the depressed area is in contact with the upper surface of the center of the selective sealing unit, and the upper end of the depressed area is arranged in parallel with the upper surface of the sealing unit side edge that is seated on the pouch unit side edge of the pouch unit. It can be.

In addition, the thickness of the center of the selective sealing unit increases from the sealing unit side edge to the slit side, the recessed area is formed in a rounded shape, and the receiving space of the external container is connected to the flow path of the pouch unit. Only through wealth can one communicate with the outside world.

In addition, a protruding support portion protruding toward the inner surface of the pouch unit is formed on the inside of the selective sealing unit corresponding to the depressed area, a protrusion is formed on the lower surface of the sealing unit side edge, and the upper surface of the pouch unit side edge A depression in which the protrusion is accommodated is formed, and the protrusion is formed in a shape whose thickness decreases in a direction away from the lower surface of the edge of the sealing unit, and the depression may be formed in a shape corresponding to the protrusion.

According to the proposed embodiment, a content filling device for a container device and a content filling method using the same can be provided to minimize the amount of liquid content remaining inside the container.

1 is a diagram showing a process in which a container manufactured according to an embodiment of the present invention is used.
FIG. 2 is a diagram showing the configuration of the container of FIG. 1.
FIG. 3 is a diagram showing a container manufacturing apparatus for manufacturing the container of FIG. 1.
FIG. 4 is a diagram showing the configuration of the container manufacturing apparatus of FIG. 3.
FIG. 5 is a diagram showing a cross section of the container manufacturing apparatus of FIG. 3.
FIG. 6 is a diagram showing a process in which the container manufacturing apparatus of FIG. 5 operates.
FIG. 7 is a diagram showing a method of manufacturing a container using the container manufacturing device of FIG. 3.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms, but the present embodiments only serve to ensure that the disclosure of the present invention is complete and are within the scope of common knowledge in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

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

Like reference numerals refer to like elements throughout the specification.

Each feature of the various embodiments of the present invention can be partially or fully combined or combined with each other, and as can be fully understood by those skilled in the art, various technical interconnections and operations are possible, and each embodiment may be implemented independently of each other. It may be possible to conduct them together due to a related relationship.

Meanwhile, potential effects that can be expected from technical features of the present invention that are not specifically mentioned in the specification of the present invention are treated as if described in the specification, and this embodiment is intended for those with average knowledge in the art. Since it is provided to more completely explain the present invention, the content shown in the drawings may be exaggerated compared to the actual implementation of the invention, and the detailed description of the configuration that is judged to unnecessarily obscure the gist of the present invention is not provided. Omit or describe briefly.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing a process in which a container device manufactured according to an embodiment of the present invention is used.

Referring to FIG. 1, the container device 100 according to an embodiment of the present invention includes an external container 110 and a pouch unit 120 disposed inside the external container 110 and containing contents therein. Includes pouch assembly (inner container). The filling space 122 disposed inside the pouch unit 120 is completely separated from the external container 110, and while the contents l are accommodated, the pouch unit 120 is elastically deformed and the volume is increased. It can be maintained.

When the user discharges the contents (l) inside the pouch assembly 120 to the outside through the pump unit 160 of the container device 100, the volume of the pouch unit 120, which is made of an elastic material, gradually decreases. When the contents (l) are completely discharged or the remaining contents become extremely small, the state restored to the original volume is maintained.

At this time, the receiving space of the external container 110 is in communication with the outside through a flow path formed between the pouch unit 120 and the opening of the external container 110, and the pouch unit 120 according to the discharge of the contents l. Ensures that volume changes can be easily made.

According to this embodiment, there is an advantage that the amount of liquid content remaining inside the container can be minimized.

However, in the process of filling the pouch unit 120, the contents (l) may not be filled smoothly due to air remaining in the pouch unit 120, or the pouch unit 120 may be damaged during the filling process. Since there is a possibility that problems may occur, the configuration to solve the problems will be described in detail below.

FIG. 2 is a diagram showing the configuration of the container of FIG. 1, FIG. 3 is a diagram showing a container manufacturing device for manufacturing the container of FIG. 1, and FIG. 4 is a diagram showing the configuration of the container manufacturing device of FIG. 3. am. And, FIG. 5 is a diagram showing a cross section of the container manufacturing device of FIG. 3, FIG. 6 is a diagram showing a process of operating the container manufacturing device of FIG. 5, and FIG. 7 is a view showing container manufacturing using the container manufacturing device of FIG. 3. This is a drawing showing the method.

The container device 100 includes an external container 110 including a neck portion 115 in which a receiving space 111 is formed and a container-side opening 114 communicating with the receiving space 111 is formed, and an external container 110. Includes a pouch assembly installed in the container 110. The neck portion 115 may be formed to have a smaller diameter than the portion where the receiving space 111 is formed. Additionally, a shoulder portion 116 whose diameter gradually decreases is formed between the neck portion 115 and the central body of the external container 110.

The pouch assembly is made of an elastic material and includes a pouch unit 120 including a pouch unit body 121 in which a filling space 122 for filling liquid contents is formed.

The pouch unit 120 is partially inserted into the receiving space 111 through the container-side opening 114, and a flow path through which air flows is formed between the outer surface of the pouch unit 120 and the inner surface of the container-side opening 114. (123) is formed and includes an optional sealing unit (130) installed in the pouch side opening (129) communicating with the filling space (122). At this time, the receiving space 111 of the external container 110 may be communicated with the outside only through the passage portion 123 of the pouch unit 120. Meanwhile, a partition 128 that protrudes from the outer surface of the pouch unit body 121 is formed between one passage portion 123 and the adjacent passage portion 123. The partition 128 may be formed in a plate shape, and the partition 128 is in close contact with the inner surface of the container-side opening 114. In some cases, the flow path portion 123 may be formed in the container device 100. In this case, the partition portion protruding from the outer surface of the pouch unit body 121 may be omitted.

The optional sealing unit 130 is made of an elastic material and includes a sealing unit body 131 formed in a shape that is concavely depressed from the opening side of the pouch unit 120 toward the filling space 122, and a sealing unit body ( It is formed on the edge of the pouch unit 131 and includes a sealing unit side border 135 that is seated on the pouch unit side border border 125 of the pouch unit 120 and surrounds the pouch unit side opening 129 of the pouch unit 120. , A slit 139 that is selectively open or closed is formed in the center of the sealing unit body 131.

The flow path portion 123 illustratively passes between a pair of partition portions 128 and is bent on the sealing unit side edge 135, so that its end is formed in a shape exposed to the outer surface of the sealing unit side edge 135. It can be.

The center of the sealing unit body 131, that is, the selective sealing unit 130, is recessed and inserted into the pouch side opening 129, thereby forming a recessed area 134 above the sealing unit body 131.

The recessed area 134 is formed in a round shape, and the lower end of the recessed area 134 is the sealing unit body 131 where a slit 139 (see FIG. 5) is formed at the center of the optional sealing unit 130. portion), and the top of the recessed area 134 is arranged parallel to the upper surface of the sealing unit side edge 135. The depressed area 134 is formed in a shape whose diameter decreases from the top to the bottom. The depressed area 134 (see FIG. 5) may be formed to have a size of a first depth h ₁ from the sealing unit side edge 135 to the center.

The thickness of the center of the selective sealing unit 130, that is, the sealing unit body 131, increases from the sealing unit side edge 135 to the slit 139 side.

A protruding support portion 137 (see FIG. 5) that protrudes toward the inner surface of the pouch unit 120 is formed on the inside of the optional sealing unit 130, that is, the sealing unit body 131, corresponding to the recessed area 134. The protruding support portion 137 is in close contact with the inner surface of the pouch unit 120, thereby enabling the selective sealing unit 130 to be more firmly coupled to the pouch unit 120.

In addition, a protrusion 136 (see FIG. 5) is formed on the lower surface of the sealing unit side rim 135, and a depression 126 in which the protrusion 136 is accommodated is formed on the upper surface of the pouch unit side rim 125. , the protrusion 136 is formed in a shape whose thickness decreases in a direction away from the lower surface of the sealing unit side edge 135, and the depression 126 is formed in a shape corresponding to the protrusion 136.

The optional sealing unit 130 may be fixed to the pouch unit body 121 by adhesive or high-frequency bonding, and is configured to be attached and fixed to the inner surface of the pouch unit body 121 of the protruding support portion 137, and the protruding portion 136. and the recessed portion 126, there is an advantage that the fixation can be made more firmly.

In this embodiment, the pouch unit 120 and the optional sealing unit 130 may be formed of an elastically deformable material, for example, silicone, rubber, etc., and the pouch assembly may be formed of a pouch unit 120 including a filling space. ) and a configuration that includes a flow path assembly that is manufactured separately from the pouch unit 120 and is coupled to the pouch unit 120 and provides a flow path portion is also included in the embodiment of the present invention.

Next, referring to FIGS. 3 and 4, the contents filling device 2 for filling the liquid contents into the filling space 122 includes a decompression module 230 and a decompression-filling complex module 210. do.

The pressure reduction module 230 surrounds one end of the passage portion 123 of the pouch unit 120 (side portion of the pouch unit side border 125) and the neck portion 114 of the external container 110, and has an inner surface. A decompression module body 231 spaced apart from the one end of the flow path portion 123 to form a decompression space 236 between the inner surface and the container device 100, and a first decompression module body 231 connected to the decompression module body 231. It includes a flow path 250 and a contact unit 238 that is disposed on the lower side of the pressure reduction module body 231, is seated on the shoulder portion 116 of the external container 110, and is made of an elastic material.

The decompression module body 231 communicates with the decompression space 236, and a first moving space 235 penetrating in the vertical direction is formed in the center of the decompression module body 231. The decompression space 236 is formed to be larger than the neck portion 115 of the external container 110 so that the neck portion 115 can be inserted.

The decompression module 230 is provided to be able to move relative to the aligned container device 100. For example, the decompression module 230 is provided to be able to move upward or downward while the container device 100 is aligned. .

When the decompression module 230 moves downward and the contact unit 238 of the decompression module 230 comes into close contact with the shoulder portion 116 of the external container 110, the decompression space 236 is connected to the first decompression flow path 250. It can be shielded from the outside except for and the first movement space 235. The contact unit 238 may be made of an elastic material such as rubber or silicone. As the contact unit 238 is formed of an elastic material, damage to the external container 110 can be prevented, and the space between the external container 110 and the cancer module body 231 can be sealed more smoothly. And, on one side of the reduction module body 231 in contact with the upper part of the pressure reduction space 236, there is a pressure surface ( 239) is formed. As the pressing surface 239 presses the edges 125 and 135 of the pouch unit 120, the filling space 122 of the pouch unit 120 can be filled with contents more stably.

The first pressure reduction flow path 250 is connected to an external pressure reduction device (not shown), is formed at a first pressure reduction flow path body 251, and one end of the first pressure reduction flow path body 251, and includes a pressure reduction module body 231. is combined with

Meanwhile, the decompression-filling complex module 210 is arranged to enable relative movement with respect to the decompression module 230, and a portion of the decompression module 230 penetrates the decompression module 230 to selectively fill the filling space 122 of the pouch unit 120. It is inserted into, exhausts the air in the filling space 122 to the outside and supplies the contents to the filling space 122.

In more detail, the pressure-reducing-filling complex module 210 includes a second pressure-reducing flow path 240 that provides negative pressure, and a pressure-reducing unit connected to the second pressure-reducing flow path 240 and communicating with the second pressure-reducing flow path 240 on one side. (213) is inserted into the composite module body 211 extending from the decompression unit 213 of the composite module body 211, and is relatively movably inserted into the internal flow path 217 of the decompression unit 213 of the composite module body 211, and has a flow hole through which the contents flow on one side. 219 includes a filling unit 212 in which it is formed.

The composite module body 211 may be formed of metal or plastic material, and the composite module body 211 has a second moving space 215 in communication with the internal flow path 217 of the pressure reduction unit 213 facing upward. formed through penetration. The composite module body 211 may be illustratively formed in a cylindrical shape, and the second movement space 215 is disposed at the center of the composite module body 211. The filling unit 212 is inserted through the second movement space 215 and is arranged to be movable relative to the darkening unit internal flow path 217.

The decompression unit 213 extends downward from the lower surface of the composite module body 211 and is inserted into the first movement space 235 of the decompression module body 230 to be movable in the vertical direction.

The filling unit 212 extends long in the vertical direction and may be made of metal or plastic. A contents flow space 216 in which the contents flow is formed inside the pressure reduction unit 213, and the contents flow space 216 communicates with the flow hole 219.

At this time, the end of the pressure reduction unit 213 is completely open so that the end 212a of the filling unit 212 inserted into the pressure reduction unit internal flow path 217 is exposed to the outside. In addition, the end 212a of the filling unit 212 is rounded to have a first radius of curvature (C ₁ ), and the end edge 213a of the decompression unit 213 has a second radius of curvature (C ₂ ). It is formed to be round, and the first radius of curvature (C ₁ ) is formed to be smaller than the second radius of curvature (C ₂ ). That is, the curvature of the end 212a of the filling unit 212 is greater than the curvature of the end edge 213a of the pressure reduction unit 213, so that the end 212a of the filling unit 212 is closer to the pressure reduction unit 213. ), the end 212a of the filling unit 212 and the end rim 213a of the decompression unit 213 may be disposed in a gently connected shape.

With the end 212a of the filling unit 212 exposed and adjacent to the end edge 213a of the pressure reducing unit 213, the end 212a of the filling unit 212 and the end of the pressure reducing unit 213 The side edge 213a is selectively inserted into the filling space 122 of the pouch unit 120. In a state where the end 212a of the filling unit 212 and the end edge 213a of the decompression unit 213 are arranged in a gently connected shape, parts of the filling unit 212 and the decompression unit 213 are selectively sealed. By passing through the slit 139 of the unit 130, the slit 139 is stably opened and damage to the selective sealing unit 130 can be prevented. At this time, in a state where the end 212a of the filling unit 212 is not exposed through the end edge 213a of the pressure reducing unit 213, only the end edge 213a passes through the slit 139 to fill the filling space ( 121) is also possible.

Meanwhile, the second pressure reduction channel 240 is connected to an external pressure reduction device (not shown) and is formed at the second pressure reduction channel body 241 and one end of the second pressure reduction channel body 241. The first pressure reduction flow path 250 and the second pressure reduction flow path 240 may be connected to one of the pressure reduction devices, and the negative pressure provided to the first pressure reduction flow path 250 and the second pressure reduction flow path 240 are provided independently of each other. It can be. In other words, a valve configuration may be provided so that negative pressure is provided to only one of the first pressure reduction flow path 250 and the second pressure reduction flow path 240.

Hereinafter, the process of filling the container device 100 with contents using the contents filling device 1 according to an embodiment of the present invention will be described in detail.

First, referring to FIGS. 5(a) and 7, the decompression module 230 is mounted on the container device 100, and the decompression space 236 of the decompression module 230 and the flow path portion of the pouch unit 120 ( 123) is in communication alignment mode (container filling device alignment step (S110)) is performed.

In the alignment mode (S110), when the container device 100 is placed in the working position, the pressure reduction module 230 and the reduced pressure-filling composite module 210 are moved from above the container device 100 through the container device 100. descends. Meanwhile, the decompression module 230 and the decompression-filling complex module 210 may be moved simultaneously or sequentially. Additionally, a configuration in which the container device 100 is moved while the position of the pressure reduction module 230 is fixed is also possible.

In the alignment mode (S110), the end 212a of the filling unit 212 and the end edge 213a of the pressure reduction unit 213 are formed with a slit 139 that selectively opens or closes the filling space 122. They are placed spaced apart by a set distance.

In the alignment mode (S110), the end portion 212a of the filling unit 212 is disposed in an exposed state adjacent to the end edge 213a of the pressure reducing unit 213, and the flow hole of the filling unit 212 ( 219) is not exposed to the outside of the pressure reduction unit internal flow path 217. At this time, the end 212a of the filling unit 212 and the end edge 213a of the decompression unit 213 are lowered and positioned in the recessed area 134 of the pouch unit 120. Meanwhile, a configuration in which the flow hole 219 of the filling unit 212 is exposed to the outside of the darkening unit internal flow path 217 in the alignment mode (S110) is also included in an embodiment of the present invention.

Meanwhile, a recessed area insertion portion 237 may be formed in the pressure reduction module body 231, which is inserted toward the recessed area 134 and forms a first movement space 235 in the center. The end of the recessed area insertion portion 237 may be formed to have a preset third radius of curvature (C ₃ ) so as to be in stable contact with the upper surface of the selective sealing unit body 131 corresponding to the recessed area 134. You can. Exemplarily, the third radius of curvature (C ₃ ) may be formed to be larger than the second radius of curvature (C ₂ ).

Next, referring to FIGS. 5(b) and 7, a filling space decompression mode (filling space decompression step (S120)) is performed to discharge the air in the filling space 122 of the pouch unit 120 to the outside. .

In the space decompression mode (S120), the end 212a of the filling unit 212 and the end edge 213a of the decompression unit 213 are in the filling space 122 through the slit 139 of the pouch unit 120. Enters the first position (p ₁ ) inside. At this time, the end 212a of the filling unit 212 is disposed in an exposed state adjacent to the end edge 213a of the pressure reducing unit 213, and the flow hole 219 of the filling unit 212 is exposed to the pressure reducing unit 213. It is not exposed to the outside of the internal flow path 217.

In the filling space decompression mode (S120), the air in the filling space 122 flows through the pressure reduction unit internal flow path 217 between the outer surface of the filling unit 212 and the inner surface of the decompression unit 213 through the second decompression flow path 240. ) is discharged to the side. At this time, the contents do not flow on the side of the filling unit internal passage 216 of the filling unit 212.

According to this embodiment, the end 212a of the filling unit 212 and the end edge 213a of the pressure reducing unit 213 are lowered into the recessed area 134 and positioned adjacent to the optional sealing unit 130. After stopping for a preset time in the filling space decompression mode (S120), the end 212a of the filling unit 212 and the end edge 213a of the decompression unit 213 enter the filling space through the slit 139. By entering (122), the end 212a of the filling unit 212 and the end edge 213a of the decompression unit 213 are positioned above the recessed area 134, thereby filling the filling space ( Compared to the case of entering 122), there is an advantage that damage to the selective sealing unit 130 can be suppressed.

At this time, the vertical direction of the depressed area 134

When the filling space decompression mode (S120) is performed for a preset time and the air inside the filling space 122 is sufficiently discharged to the outside, an external container is used to discharge the air in the receiving space 111 of the external container 110 to the outside. A decompression mode (external container decompression step (S130)) is performed.

In the external container decompression mode (S130), the end 212a of the filling unit 212 and the end edge 213a of the decompression unit 213 are entered into the first position p1 inside the filling space 122. The state is maintained, and the air in the receiving space 122 flows into the decompression space of the decompression module 230 through the space between the container side opening 115 of the external container 110 and the flow path 123 of the pouch unit 120. It is discharged to the (236) side.

Meanwhile, a configuration in which the filling space decompression mode (S120) and the external container decompression mode (S130) are performed simultaneously is also included in the embodiment of the present invention. Next, referring to FIGS. 6 and 7, the pouch unit 120 A content filling mode (content filling step (S140)) is performed to fill the filling space 122 with the contents.

In the content filling mode (S140), the end 212a of the filling unit 212 enters the second position (p ₂ ) into the filling space 122, and during the movement of the filling unit 212, the pouch unit ( The pouch unit body 121 of 120 may contact the end 212a of the filling unit 212 and be extended by a preset length. The length of the pouch unit 120 is increased compared to the state in which no external force is applied, and the end of the pouch unit 120 may be disposed adjacent to the lower end of the external container 110.

When the pouch unit 120 is extended to a preset length, the contents are discharged into the filling space 122 of the pouch unit 120 through the flow hole 219 of the filling unit 212, thereby filling the filling space 122. It expands and fills with contents. With the pouch unit 120 extended to a preset length, the pouch unit 120 may be expanded uniformly by expanding the filling space 122 . In addition, the content is filled in the pouch unit 120 while the receiving space 111 of the external container 110 surrounding the pouch unit 120 is depressurized to a pressure less than atmospheric pressure or a pressure close to vacuum, Filling of contents can be performed more quickly and smoothly.

Meanwhile, the decompression unit 213 moves upward from the position where it enters the filling space 122 in the filling space decompression mode (S120) and is located at the third position (p ₃ ) located in the recessed area 134. That is, the pressure reduction unit side edge 213a of the pressure reduction unit 213 deviates from the filling space 122 and is located on the side of the depression area 134. Therefore, during the filling process of the filling unit 212, the contents can be prevented from flowing into the internal flow path 217 of the pressure reduction unit.

Meanwhile, the gap difference between the position of the end 212a of the filling unit 212 in the alignment mode (S110) and the position p1 of the end 212a of the filling unit 212 in the filling space decompression mode (S120) is , the position (p ₁ ) of the end 212a of the filling unit 212 in the filling space decompression mode (S120) and the position of the end 212a of the filling unit 212 in the content filling mode (S140) (p ₂ ) can be formed to be smaller than the difference between That is, the stroke of the filling unit 212 between the alignment mode (S110) and the filling space decompression mode (S120) is smaller than the stroke of the filling unit 212 between the filling space decompression mode (S120) and the content filling mode (S140). do.

In this embodiment, the external container decompression mode (S130) is described as being performed between the filling space decompression mode (S120) and the contents filling mode (S140), but the external container decompression mode (S130) is performed during the contents filling mode (S140). ) Configurations performed simultaneously are also included in embodiments of the present invention.

Next, when the preset volume of contents is filled in the filling space 122, discharge of the contents is stopped, and the decompression module 230 and the decompression-filling complex module 210 are removed from the container device 100. (Removal step (S150)) is performed.

In more detail, when the contents are filled in the filling space 122 and the filling space 122 is expanded by the preset volume, the contents filling device 1 ends the contents filling mode (S140) for the filling space 122. .

In the removal mode (S150), the end 213a of the filling unit 212 inserted into the filling space 122 moves toward the pouch side opening 129 of the pouch unit 120, When the end portion 213a is completely removed from the filling space 122 and placed in the recessed area 134, the end portion 213a of the filling unit 212 and the end edge 213a of the decompression unit 213 move together. Thus, the pouch unit 120 is completely removed from the recessed area 134.

When the end 213a of the filling unit 212 is completely removed from the filling space 122, the optional sealing unit 130 returns to its original shape, and the slit 139 is formed in the filling space 122 where the contents are filled. will be closed.

Meanwhile, the filling space 122 remains sealed to the outside by the selective sealing unit 130 until a part of the pump unit 160 is inserted through the slit 139. In a state in which the filling space 122 is sealed by the selective sealing unit 130, the central portion 131 where the slit 139 of the selective sealing unit 130 is formed is rounded and depressed toward the filling space 122. By being formed, the internal pressure that the contents are about to be discharged to the outside through the slit 139 can be smoothly distributed.

Meanwhile, when the end 213a of the filling unit 212 and the end edge 213a of the decompression unit 213 are completely removed from the filling space 122, the decompression module 230 and the decompression-filling complex module 210 ) moves upward and is released from being coupled to the container device 100.

According to the proposed embodiment, the filling space 122 of the container device 100 formed by combining the pouch unit (or pouch assembly) 120 and the external container 110 can be more smoothly filled. There is an advantage.

Additionally, by filling the contents with the air in the receiving space 122 of the pouch unit 120 removed, it is possible to prevent the filling of the contents from being limited due to residual air.

In addition, damage to the pouch unit 120 can be prevented during the process of filling the receiving space 122 of the pouch unit 120 with contents.

Although the preferred embodiment of the present invention has been described above, the present invention is not limited thereto, and can be implemented with various modifications within the scope of the claims, the detailed description of the invention, and the accompanying drawings, and this is also the present invention. It is natural that it falls within the scope of .

Claims (20)

An external container having a receiving space formed therein and including a container-side opening communicating with the receiving space, and a pouch assembly installed in the external container, wherein the pouch assembly is made of an elastic material and fills the inside with liquid. It includes a pouch unit in which a filling space is formed, wherein a portion of the pouch unit is inserted into the receiving space through the container-side opening, and a flow path through which air flows between the outer surface of the pouch unit and the inner surface of the container-side opening is provided. In the contents filling device for the container device, which is formed and includes a selective sealing unit installed in the pouch side opening communicating with the filling space,
A decompression module body surrounding one end of the flow path portion of the pouch unit, the inner surface of which is spaced apart from the one end of the flow path portion to form a decompression space between the inner surface and the container device, and a first decompression flow path connected to the decompression module body. A decompression module comprising:
It is arranged to enable relative movement with respect to the decompression module, and a portion penetrates the decompression module and is selectively inserted into the filling space of the pouch unit, exhausting air in the filling space to the outside and supplying contents to the filling space. A content filling device comprising a decompression-filling composite module.
According to claim 1,
The reduced pressure-fill composite module,
A composite module body connected to a second pressure reduction flow path that provides negative pressure and a pressure reduction unit in communication with the second pressure reduction flow path extending on one side,
It includes a filling unit that is relatively movably inserted into an internal flow path of the pressure reduction unit of the composite module body and has a flow hole through which contents flow on one side,
A content filling device, wherein the pressure reduction unit and a portion of the filling unit are selectively inserted into the filling space of the pouch.
According to clause 2,
The end of the pressure reduction unit is completely open so that the end of the filling unit inserted into the pressure reduction unit internal flow path is exposed to the outside,
The end of the filling unit is rounded to have a first radius of curvature,
The end edge of the pressure reduction unit is rounded to have a second radius of curvature,
The content filling device, wherein the first radius of curvature is formed to be smaller than the second radius of curvature.
According to clause 2,
In an alignment mode in which the decompression module is mounted on the container device and the decompression space of the decompression module communicates with the flow path portion of the pouch unit, the end of the filling unit and the edge of the end of the decompression unit are of the selective sealing unit. It is formed in the center and is arranged to be spaced apart from a slit that selectively opens or closes the filling space by a preset distance,
In the filling space decompression mode for discharging the air in the filling space of the pouch unit to the outside, the end of the filling unit and the edge of the end side of the decompression unit enter the inside of the filling space through the slit to a first position; ,
In the contents filling mode for filling the contents into the filling space of the pouch unit, the end of the filling unit enters the inside of the filling space into a second position, and the end edge of the decompression unit side deviates from the filling space. A content filling device, characterized in that it is located in a third position located in the depressed area.
According to clause 4,
A recessed area is formed in the selective sealing unit of the pouch unit, where the center of the selective sealing unit is inserted into the pouch side opening,
In the alignment mode, the end of the filling unit and the edge of the end of the decompression unit are located in the depressed area,
The lower end of the recessed area is in contact with the central upper surface of the selective sealing unit, and the upper end of the recessed area is arranged parallel to the upper surface of the sealing unit side rim that is seated on the pouch unit side rim of the pouch unit. Content filling device.
According to clause 5,
The upper surface of the sealing unit side rim is in contact with a pressure surface disposed on the lower side of the cancer module body, and the sealing unit side rim and the pouch unit side rim are pressed to the upper surface of the rim of the container side opening,
The thickness of the center of the selective sealing unit increases from the edge of the sealing unit side to the slit side,
Content filling device, characterized in that the depressed area is formed in a round shape.
According to clause 4,
In the filling space decompression mode, the air in the filling space is discharged toward the second decompression flow path through the pressure reduction unit internal flow path between the outer surface of the filling unit and the inner surface of the decompression unit, and the filling unit internal flow path of the filling unit. A content filling device, characterized in that the content does not flow on the side.
According to clause 7,
In the filling space decompression mode, the end of the filling unit protrudes from the end of the decompression unit, and the flow hole of the filling unit is not exposed to the outside of the internal flow path of the decompression unit.
According to clause 4,
In the contents filling mode, the decompression unit maintains the depth entered into the filling space in the filling space decompression mode, and negative pressure is not provided to the internal flow path of the decompression unit of the decompression unit. Contents filling device.
According to clause 9,
The difference between the position of the end of the filling unit in the alignment mode and the position of the end of the filling unit in the filling space decompression mode is:
Content filling device, characterized in that smaller than the difference between the position of the end of the filling unit in the filling space decompression mode and the position of the end of the filling unit in the content filling mode.
According to clause 4,
In the external container decompression mode for discharging the air in the receiving space of the external container to the outside,
Content filling device, characterized in that the air in the receiving space is discharged to the decompression space side of the decompression module through a space between the container side opening of the external container and the flow path part of the pouch unit.
According to claim 11,
In the external container decompression mode, the end of the filling unit and the edge of the end of the decompression unit are maintained in the first position inside the filling space,
The external container decompression mode is performed between the filling space decompression mode and the contents filling mode, or is performed simultaneously with the contents filling mode.

In the content filling method using the content filling device of claim 1,
An alignment step in which the decompression module is mounted on the container device, and the decompression space of the decompression module communicates with the flow path portion of the pouch unit;
A filling space depressurization step for discharging the air in the filling space of the pouch unit to the outside; and
A content filling step for filling the filling space of the pouch unit with the content,
In the alignment step, the end of the filling unit and the edge of the end of the pressure reducing unit are formed at the center of the selective sealing unit and are spaced apart from the slit for selectively opening or closing the filling space by a preset distance. And
In the step of depressurizing the filling space, the end of the filling unit and the edge of the end of the decompressing unit enter the filling space through the slit into a first position,
In the step of filling the contents, the end of the filling unit enters the second position inside the filling space, the filling unit supplies the contents into the filling space, and the edge of the end of the decompression unit side is positioned inside the filling space. A method of filling contents, which is located in a third position away from the space and located in the depressed area.
According to claim 13,
In the selective sealing unit of the pouch unit, the center of the selective sealing unit is inserted into the pouch side opening and a round depression area is formed,
The lower end of the depressed area is in contact with the central upper surface of the selective sealing unit, and the upper end of the depressed area is arranged parallel to the upper surface of the sealing unit side edge that is seated on the pouch unit side edge of the pouch unit,
In the alignment mode, the content filling method is characterized in that the movement of the end of the filling unit and the edge of the end of the decompression unit is stopped for a preset time while being located in the depressed area.
According to claim 13,
In the filling space decompression step, the air in the filling space is discharged toward the second decompression flow path through the pressure reduction unit internal flow path between the outer surface of the filling unit and the inner surface of the decompression unit, and the filling unit internal flow path of the filling unit. The contents do not flow on the side, the end of the filling unit protrudes from the end of the pressure reduction unit, and the flow hole of the filling unit is not exposed to the outside of the internal flow path of the pressure reduction unit.
According to claim 13,
The difference between the position of the end of the filling unit in the alignment step and the position of the end of the filling unit in the filling space decompression step is:
Content filling device, characterized in that smaller than the difference between the position of the end of the filling unit in the filling space step mode and the position of the end of the filling unit in the content filling step.
According to claim 13,
It further includes an external container depressurization step for discharging air in the receiving space of the external container to the outside,
In the external container decompression step, the air in the receiving space is discharged to the decompression space side of the decompression module through the space between the container side opening of the external container and the flow path part of the pouch unit, and the end of the filling unit and The end edge of the pressure reducing unit is maintained in the first position within the filling space,
The external container depressurizing step is performed between the filling space depressurizing step and the contents filling step, or is performed simultaneously with the contents filling step.
An external container having an accommodating space formed therein and including a container-side opening communicating with the accommodating space; and
Includes a pouch assembly installed in the external container,
The pouch assembly is made of an elastic material and includes a pouch unit with a filling space for filling liquid therein,
The pouch unit is partially inserted into the receiving space through the container-side opening, and a flow path through which air flows is formed between the outer surface of the pouch unit and the inner surface of the container-side opening, and the pouch side communicates with the filling space. Includes an optional sealing unit installed in the opening,
The selective sealing unit of the pouch unit includes a slit formed in the center of the selective sealing unit to selectively open or close the filling space, and a recessed area where the center of the selective sealing unit is inserted into the pouch side opening. formed,
The lower end of the recessed area is in contact with the central upper surface of the selective sealing unit, and the upper end of the recessed area is arranged parallel to the upper surface of the sealing unit side rim that is seated on the pouch unit side rim of the pouch unit. Container device.

According to clause 18,
The thickness of the center of the selective sealing unit increases from the sealing unit side edge to the slit side,
The depressed area is formed to be round,
A container device, characterized in that the receiving space of the external container communicates with the outside only through the flow path of the pouch unit.
According to clause 19,
A protruding support portion protruding toward the inner surface of the pouch unit is formed on the inside of the selective sealing unit corresponding to the depressed area,
A protrusion is formed on the lower surface of the sealing unit side edge,
A depression in which the protrusion is received is formed on the upper surface of the pouch unit side edge,
The protruding portion is formed in a shape whose thickness decreases in a direction away from the lower surface of the sealing unit side edge, and the recessed portion is formed in a shape corresponding to the protruding portion.

Images