KR20170027528A - Container and contents moving device thereof - Google Patents

Abstract

The present invention relates to a container and a mobile device used therefor. The container includes a contents storage portion for storing contents, a moving portion located inside the housing, and a pressing portion having an inner space outside the housing. So that the moving part is moved by the low pressure.
Unlike the prior art, the present invention allows contents to be easily and conveniently obtained by moving the contents of the container to the upper part, and the contents of the container can be positioned at the upper part of the container when necessary so that the user can easily and conveniently take out the contents of the container have.

Description

CONTAINER AND CONTENTS MOVING DEVICE THEREOF [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a container and a moving device used therefor, and more particularly, to a container having a pressing portion, a container capable of moving contents in the container by the action of a pressing portion, and a moving device used therein.

Containers that can be used to store and use the contents (such as sweets, candies, gums, pellets, powders, liquids, etc.) will be poured out one at a time as the contents are poured out when the user tilts the container. There is an inconvenience to take out as much as.

In addition, when the remaining amount of the contents in the container is small, it is troublesome to use the container to withdraw the contents located in the lower part of the container, and when the contents to be drawn out are in the lower part of the container, .

Further, there is a problem that the contents in the container remain on the inner wall of the container and can not be used.

Recently, there has been proposed a container that allows the contents to be taken out one by one in the container. There is a vessel which is currently being designed and used, which supports the contents inside the container, and the container body moves up and down, The pump container to be discharged to the upper discharge port has a problem that the entire container body including the lid portion has to be moved upward as much as possible and moved downward again so that the operation distance for operation is large and all the contents must be lifted and lowered.

Although the pressurizing means has been applied to a container in the prior art, a container using the process of holding the container or using the outside of the container as a pressurizing portion has not been disclosed.

In addition, there is also a need for a means of providing entertainment in the process of withdrawing contents in a situation where containers of various designs are supplied to the market.

[Prior Art Literature]

(Patent Document 1) KR Registration Utility Utility Model Publication No. Y1 20-0458000 (Jan. 16, 2012)

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a pressurizing portion having an internal space on the outside of a container to move the contents of the container upward so that contents can be easily and conveniently acquired, It is an object of the present invention to provide a container for moving the contents remaining on the inner wall of the container and a moving device used therefor.

A container according to the present invention includes: a housing having at least one side thereof opened; And a moving unit located inside the housing and moving in a direction of the housing, wherein the moving unit can move along the inner surface of the housing.

And an expanding portion including a pressurizing portion having a gas space in contact with the outside of the housing and injecting the gas of the pressurizing portion by a pressure applied to the outer surface of the pressurizing portion, And the expanding portion is expanded in volume by the introduced gas to move the moving portion, and at least one of the pressing portion, the moving portion, and the expanding portion is detachably coupled or integrally formed And the pressing portion and the expanding portion may be formed as a single space or a separate space.

When the pressure inside the pressing portion is released by pressing the pressing portion against the outer surface of the pressing portion after the gas inside the pressing portion is injected into the bulging portion, the pressing portion receives the external gas by the restoring force of the material or constitution, And a pressurizing portion gas inflow portion which is restored to a shape as far as possible before pressurization and introduces a gas present outside the outer surface of the pressurizing portion into the pressurizing portion, wherein the pressurizing portion gas inflow portion is configured such that the gas introduced into the pressurizing portion does not move to the outside .

And an expanding part gas injecting part injecting a gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part, wherein the expanding part gas injecting part injects the gas introduced into the expanding part into the pressing part Structure.

The space size of the expansion unit and the space size of the contents storage unit are determined by changing together with the partition position of the moving plate when the moving unit moves, and the space of the contents storage unit and the expansion unit are divided by the moving unit , The moving part moves toward the contents storage part of the housing when the pressure is applied by the expanding part but can hold the load of the contents supported by the movement part and can maintain the stopped state when the pressure is stopped without the pressure.

Wherein at least one of the moving part, the pressing part, and the expanding part is detachably coupled to the housing, the outer periphery of the moving part is in close contact with the housing, and the gas is introduced into the housing, .

And a pressurizing portion having a gas space in contact with the outside of the housing, wherein the housing is divided into a contents storage portion for storing contents and an expanding portion which is located adjacent to the contents storage portion and expanding in volume, Wherein when a pressure is applied to the outer surface of the pressing portion in a direction toward the inside of the pressing portion, the volume of the gas inside the pressing portion becomes small, and when the gas is in contact with the outer surface of the pressing portion, When the pressure is released, the pressure portion is restored to a shape capable of being pressed by the restoring force of the material or the constitution of the pressure portion, And the pressurizing portion is provided with a pressurizing portion for pressurizing the pressurizing portion, Wherein a space of the pressing portion is reduced by an external pressure applied to a portion of the elastic portion of the opening portion including an opening portion on an outer wall of the pressing portion contacting the elastic portion and the gas inside the pressing portion is expanded It is possible to move to the inside of the unit.

Wherein the expanding portion has a volume increased by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the content storing portion which is the expansion direction of the expanding portion, The contents with the part can move.

And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part, wherein the expanding part is connected to the expanding part gas injecting part, The gas introduced into the expanding portion may not be moved to the pressing portion.

The gas inside the pressing portion is injected into the bulging portion, the pressing of the outer surface of the pressing portion is released so that the shape of the pressing portion is restored before the pressing, and the pressure of the gas outside the outer surface of the pressing portion, And the pressurizing portion gas inflow portion may be configured to prevent the gas introduced into the pressurizing portion from moving to the outside.

Wherein the space of the contents storage unit and the expansion unit is partitioned by the moving unit and the space size of the expansion unit and the space size of the contents storage unit are determined by changing together according to the partition position of the moving plate when the moving unit moves, The portion moves in the direction of the contents storage portion of the housing when the pressure is applied by the expanding portion, but it can withstand the load of the contents supported by the movement portion and maintain the stopped state when the pressure is stopped without the pressure.

Wherein at least one of the moving unit, the pressing unit, and the expanding unit is detachably coupled to the housing, the outer circumference of the moving unit is in close contact with the housing, and the gas includes air capable of being injected into the expanding unit , It can be replaced by another gas.

The space of the pressing portion is expanded by the restoring force of the elastic portion after the space of the pressing portion is reduced and the gas inside the pressing portion can be repeatedly moved to the inside of the expanding portion by the reduction and expansion of the pressing portion space.

And a pressurizing portion having a gas space in contact with the outside of the housing, the moving portion being moved by a pressure applied to the gas inside the pressurizing portion, the housing including a contents storing portion for storing contents, And the expanding portion may be formed as a single space.

Wherein the expanding portion has a volume increased by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the content storing portion which is the expansion direction of the expanding portion, The contents with the part can move.

And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part, wherein the expanding part is connected to the expanding part gas injecting part, The gas introduced into the expanding portion is prevented from moving to the pressing portion, and after the gas inside the pressing portion is injected into the expanding portion, the pressing of the outer surface of the pressing portion is released and the shape of the pressing portion is restored before pressurization, And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion. The pressurizing portion gas inflow portion may be configured to prevent the gas introduced into the pressurizing portion from moving to the outside.

The space of the contents storage unit and the expansion unit may be divided by the moving unit, and the space size of the expansion unit and the space size of the contents storage unit may be determined by changing together according to the partition position of the moving plate when the moving unit moves.

The expansion unit may include expansion means provided in the expansion unit to increase or decrease the volume of the gas.

Wherein the pressurizing portion includes at least one of an elastic body for providing a restoring force, a spring, a support, a spring, and a motor, and at least one of the pressurizing portion gas inflow portion and the inflation portion gas inflow portion includes a ball valve, a butterfly valve, A swing check valve, a lift check valve, a tilting disc check valve, a wafer disc check valve, an in-line check valve, a stop check valve, and a diaphragm valve.

At least one of the pressing portion and the expanding portion may be detachably coupled to the housing or may be integrally formed with the housing.

The moving unit is provided inside the housing to maintain the mutual close state in which the inside of the housing is partitioned by the contents storage unit and the expanding unit and the moving unit is moved to the contents take-out side of the housing by supplying the gas to the expanding unit And a gas control unit for facilitating the withdrawal of the contents.

The gas control unit may include: a gas-charging unit formed in the housing and waiting for transfer of the gas to the expanding unit; A pressurizing portion for supplying a gas to the base portion; And an exhaust control part provided to prevent gas from flowing backward in the expansion part and being exhausted.

Wherein the emitter control unit includes: a through hole through which a gas supplied from the pressing unit passes; And a first valve that prevents the backflow of the gas by blocking the passage hole when the supply of gas is stopped.

And an outside air control unit provided to prevent the gas supplied to the inflating unit or the gas supplied by the pressing unit from being exhausted to the outside of the container. The outside air control unit may include an opening hole that opens to the outside of the housing have.

The outside air control portion prevents the gas in the gas atmosphere portion from being exhausted to the outside of the container by closing the opening hole when the gas in the gas-atmosphere base portion is supplied to the expanding portion by the pressing portion, And a second valve for sucking gas outside the container into the gas atmosphere when the gas is restored.

Wherein the moving unit includes: a mediating housing space part that is movable along an inner surface of the housing and that includes an edge of the moving part, And a liquid barrier disposed in the medial accommodating space part to maintain mutual liquid-tight airtightness with respect to both sides of the movable member abutted against the inner surface of the housing.

The moving unit may include: a first moving member positioned at an upper portion of the medial accommodating space; And a second moving member located at a lower portion of the medial compartment space opposite to the first movable member and supporting the liquid obstacle, wherein the intermediate compartment space portion is provided between the first movable member and the second movable member .

Wherein the moving unit includes a connecting member for connecting the first moving member and the second moving member, wherein the first moving member and the second moving member are detachably connected to each other by the connecting member, .

Wherein the first moving member forms a first enlarged space portion at an edge so as to enlarge a region of the medial accommodating space portion so as to increase an area in which the liquid obstruction comes into contact with the inner surface, A second enlarged space portion may be formed at the edge to enlarge an area of the medial accommodating space portion in order to increase an area in which water contacts the inner surface.

When the content is a liquid content, the moving part moves along the inner surface of the housing while moving the liquid content remaining on the inner wall of the container.

The moving part may be provided with a cap for opening and closing the filling hole so that the liquid barrier may fill the inside of the intermediate compartment.

The inner surface may form a coated surface.

Also, a container according to the present invention includes: a housing having at least one side thereof opened; A moving part located inside the housing and moving in one direction of the housing; And a gas control unit for supplying gas to the housing to move the moving unit to a content withdrawing side of the housing, wherein the moving unit moves along the inner surface of the housing by a gas supplied to the housing, A gas-introducing portion for guiding the supplied gas into the housing; A pressurizing unit that pressurizes and moves the gas to the gas-atmosphere base or allows the gas to flow into the gas atmosphere unit; And an exhaust control unit for allowing the gas to be supplied to the housing through the gas atmosphere unit and preventing the exhaust gas from flowing backward through the pressurizing unit.

The moving device according to the present invention includes: a moving part which is provided in a housing in which at least one side is opened and which is located inside the housing and moves in one direction of the housing, and the moving part can move along the inner surface of the housing have.

And an expanding portion including a pressurizing portion having a gas space in contact with the outside of the housing and injecting the gas of the pressurizing portion by a pressure applied to the outer surface of the pressurizing portion, And the expanding portion is expanded in volume by the introduced gas to move the moving portion, and at least one of the pressing portion, the moving portion, and the expanding portion is detachably coupled or integrally formed And the pressing portion and the expanding portion may be formed as a single space or a separate space.

When the pressure inside the pressing portion is released by pressing the pressing portion against the outer surface of the pressing portion after the gas inside the pressing portion is injected into the bulging portion, the pressing portion receives the external gas by the restoring force of the material or constitution, And a pressurizing portion gas inflow portion which is restored to a shape as far as possible before pressurization and introduces a gas present outside the outer surface of the pressurizing portion into the pressurizing portion, wherein the pressurizing portion gas inflow portion is configured such that the gas introduced into the pressurizing portion does not move to the outside .

And an expanding part gas injecting part injecting a gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part, wherein the expanding part gas injecting part injects the gas introduced into the expanding part into the pressing part Structure.

The space size of the expansion unit and the space size of the contents storage unit are determined by changing together with the partition position of the moving plate when the moving unit moves, and the space of the contents storage unit and the expansion unit are divided by the moving unit , The moving part moves toward the contents storage part of the housing when the pressure is applied by the expanding part but can hold the load of the contents supported by the movement part and can maintain the stopped state when the pressure is stopped without the pressure.

Wherein at least one of the moving part, the pressing part, and the expanding part is detachably coupled to the housing, the outer periphery of the moving part is in close contact with the housing, and the gas is introduced into the housing, Lt; / RTI >

And a pressurizing portion having a gas space in contact with the outside of the housing, wherein the housing is divided into a contents storage portion for storing contents and an expanding portion which is located adjacent to the contents storage portion and expanding in volume, Wherein when a pressure is applied to the outer surface of the pressing portion in a direction toward the inside of the pressing portion, the volume of the gas inside the pressing portion becomes small, and when the gas is in contact with the outer surface of the pressing portion, When the pressure is released, the pressure portion is restored to a shape capable of being pressed by the restoring force of the material or the constitution of the pressure portion, And the pressurizing portion is provided with a pressurizing portion for pressurizing the pressurizing portion, Wherein a space of the pressing portion is reduced by an external pressure applied to a portion of the elastic portion of the opening portion including an opening portion on an outer wall of the pressing portion contacting the elastic portion and the gas inside the pressing portion is expanded It is possible to move to the inside of the unit.

Wherein the expanding portion has a volume increased by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the content storing portion which is the expansion direction of the expanding portion, The contents with the part can move.

And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part, wherein the expanding part is connected to the expanding part gas injecting part, The gas introduced into the expanding portion may not be moved to the pressing portion.

The gas inside the pressing portion is injected into the bulging portion, the pressing of the outer surface of the pressing portion is released so that the shape of the pressing portion is restored before the pressing, and the pressure of the gas outside the outer surface of the pressing portion, And the pressurizing portion gas inflow portion may be configured to prevent the gas introduced into the pressurizing portion from moving to the outside.

Wherein the space of the contents storage unit and the expansion unit is partitioned by the moving unit and the space size of the expansion unit and the space size of the contents storage unit are determined by changing together according to the partition position of the moving plate when the moving unit moves, The portion moves in the direction of the contents storage portion of the housing when the pressure is applied by the expanding portion, but it can withstand the load of the contents supported by the movement portion and maintain the stopped state when the pressure is stopped without the pressure.

Wherein at least one of the moving unit, the pressing unit, and the expanding unit is detachably coupled to the housing, the outer circumference of the moving unit is in close contact with the housing, and the gas includes air capable of being injected into the expanding unit , It can be replaced by another gas.

The space of the pressing portion is expanded by the restoring force of the elastic portion after the space of the pressing portion is reduced and the gas inside the pressing portion can be repeatedly moved to the inside of the expanding portion by the reduction and expansion of the pressing portion space.

And a pressurizing portion having a gas space in contact with the outside of the housing, the moving portion being moved by a pressure applied to the gas inside the pressurizing portion, the housing including a contents storing portion for storing contents, And the expanding portion may be formed as a single space.

Wherein the expanding portion has a volume increased by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the content storing portion which is the expansion direction of the expanding portion, The contents with the part can move.

And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part, wherein the expanding part is connected to the expanding part gas injecting part, The gas introduced into the expanding portion is prevented from moving to the pressing portion, and after the gas inside the pressing portion is injected into the expanding portion, the pressing of the outer surface of the pressing portion is released and the shape of the pressing portion is restored before pressurization, And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion. The pressurizing portion gas inflow portion may be configured to prevent the gas introduced into the pressurizing portion from moving to the outside.

The space of the contents storage unit and the expansion unit may be divided by the moving unit, and the space size of the expansion unit and the space size of the contents storage unit may be determined by changing together according to the partition position of the moving plate when the moving unit moves.

The expansion unit may include expansion means provided in the expansion unit to increase or decrease the volume of the gas.

Wherein the pressurizing portion includes at least one of an elastic body for providing a restoring force, a spring, a support, a spring, and a motor, and at least one of the pressurizing portion gas inflow portion and the inflation portion gas inflow portion includes a ball valve, a butterfly valve, A swing check valve, a lift check valve, a tilting disc check valve, a wafer disc check valve, an in-line check valve, a stop check valve, and a diaphragm valve.

At least one of the pressing portion and the expanding portion may be detachably coupled to the housing or may be integrally formed with the housing.

The moving unit is provided inside the housing to maintain the mutual close state in which the inside of the housing is partitioned by the contents storage unit and the expanding unit and the moving unit is moved to the contents take-out side of the housing by supplying the gas to the expanding unit And a gas control unit for facilitating the withdrawal of the contents.

The gas control unit may include: a gas-charging unit formed in the housing and waiting for transfer of the gas to the expanding unit; A pressurizing portion for supplying a gas to the base portion; And an exhaust control part provided to prevent gas from flowing backward in the expansion part and being exhausted.

Wherein the emitter control unit includes: a through hole through which a gas supplied from the pressing unit passes; And a first valve that prevents the backflow of the gas by blocking the passage hole when the supply of gas is stopped.

And an outside air control unit provided to prevent the gas supplied to the inflating unit or the gas supplied by the pressing unit from being exhausted to the outside of the container. The outside air control unit may include an opening hole that opens to the outside of the housing have.

The outside air control portion prevents the gas in the gas atmosphere portion from being exhausted to the outside of the container by closing the opening hole when the gas in the gas-atmosphere base portion is supplied to the expanding portion by the pressing portion, And a second valve for sucking gas outside the container into the gas atmosphere when the gas is restored.

Wherein the moving unit includes: a mediating housing space part that is movable along an inner surface of the housing and that includes an edge of the moving part, And a liquid barrier disposed in the medial accommodating space part to maintain mutual liquid-tight airtightness with respect to both sides of the movable member abutted against the inner surface of the housing.

The moving unit may include: a first moving member positioned at an upper portion of the medial accommodating space; And a second moving member located at a lower portion of the medial compartment space opposite to the first movable member and supporting the liquid obstacle, wherein the intermediate compartment space portion is provided between the first movable member and the second movable member .

Wherein the moving unit includes a connecting member for connecting the first moving member and the second moving member, wherein the first moving member and the second moving member are detachably connected to each other by the connecting member, .

Wherein the first moving member forms a first enlarged space portion at an edge so as to enlarge a region of the medial accommodating space portion so as to increase an area in which the liquid obstruction comes into contact with the inner surface, A second enlarged space portion may be formed at the edge to enlarge an area of the medial accommodating space portion in order to increase an area in which water contacts the inner surface.

When the content is a liquid content, the moving part moves along the inner surface of the housing while moving the liquid content remaining on the inner wall of the container.

The moving part may be provided with a cap for opening and closing the filling hole so that the liquid barrier may fill the inside of the intermediate compartment.

According to another aspect of the present invention, there is provided a mobile device comprising: a moving part provided in a housing in which at least one side is opened, the moving part being located inside the housing and moving in one direction of the housing; And a gas control unit for moving the gas to a content withdrawing side of the housing, wherein the moving unit moves along the inner surface of the housing, and the gas control unit includes: a gas-charging unit for guiding the gas to be supplied to the inside of the housing; A pressurizing unit that pressurizes and moves the gas to the gas-atmosphere base or allows the gas to flow into the gas atmosphere unit; And an exhaust control unit for allowing the gas to be supplied to the housing through the gas atmosphere unit and preventing the exhaust gas from flowing backward through the pressurizing unit.

As described above, the container according to the present invention and the mobile device used therein can easily and conveniently obtain contents by moving the contents of the container upward by providing a pressing portion to the outside of the container. This allows the contents of the container to be located at the top of the container when necessary, so that the user can easily and conveniently take out the contents of the container.

In addition, the present invention can easily and conveniently take out the contents without deeply grasping or tilting the contents located at the bottom of the containers even when the container has a small amount of remaining contents, and when the container is partially or wholly made of a transparent material, You can also enjoy play with.

1 is a perspective view of a container equipped with a mobile device according to a first embodiment of the present invention.
2 is an exploded perspective view of a container having a mobile device according to a first embodiment of the present invention.
3 is a cross-sectional view of a container having a mobile device according to a first embodiment of the present invention.
FIG. 4 and FIG. 5 are cross-sectional views showing a use state of a container having a mobile device according to a first embodiment of the present invention.
6 is a cross-sectional view of a container having a mobile device according to a second embodiment of the present invention.
FIG. 7 is a cross-sectional view showing a use state of a container having a mobile device according to a second embodiment of the present invention.
8 is a perspective view of a container having a mobile device according to a third embodiment of the present invention.
9 is a cross-sectional view of a container having a mobile device according to a third embodiment of the present invention.
10 is an exploded cross-sectional view of a container having a mobile device according to a third embodiment of the present invention.
11 is a cross-sectional view showing an operational state of a container having a mobile device according to a third embodiment of the present invention.
12 is a perspective view of a container having a mobile device according to a fourth embodiment of the present invention.
13 is an exploded perspective view of a container having a moving device according to a fourth embodiment of the present invention.
14 is an exploded bottom perspective view of a container having a moving device according to a fourth embodiment of the present invention.
15 is a sectional view of a container equipped with a moving device according to a fourth embodiment of the present invention.
FIGS. 16 and 17 are cross-sectional views showing a use state of a container having a mobile device according to a fourth embodiment of the present invention.

Hereinafter, embodiments of a container according to the present invention and a mobile device used therein will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, and these may vary depending on the intention or custom of the operator, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view of a container having a mobile device according to a first embodiment of the present invention, FIG. 2 is an exploded perspective view of a container having a mobile device according to a first embodiment of the present invention, Sectional view of a container having a moving device according to a first embodiment of the present invention.

FIG. 4 and FIG. 5 are cross-sectional views showing a use state of a container having a mobile device according to a first embodiment of the present invention.

1 to 5, the moving device 300 of the container 100 according to the first embodiment of the present invention is applied to the housing 110 having the contents storage portion 111a, A pressing portion P for transmitting pressure and an expanding portion 111b for expanding the volume of the gas are provided in the pressing portion P by a pressure applied to the gas inside the pressing portion P The moving unit 120 is moved. In this embodiment, the gas is a gas including air, and the scope of the present invention is not limited to air.

The housing 110 is divided into a contents storage portion 111a for storing contents and an expanding portion 111b for expanding the volume. The moving part 120 divides the space between the contents storing part 111a and the expanding part 111b so that the space size of the expanding part 111b and the size of the contents storage part 111a when the position of the moving part 120 is changed, The space size of the moving part 120 changes along with the change of the position of the moving part 120.

The expansion part 111b expands in the direction of the position of the contents storage part 111a to move the movement part 120 as the expansion direction of the expansion part 111b and the movement part 120 moves the contents storage part 111a, And moves together with each other.

The expansion portion 111b may be a space formed by the housing wall 112 and the moving portion 120, which will be described later, or may include a separate expansion means 140.

In this case, the outer periphery of the moving part 120 is formed of a flat plate made of a rubber material so as to be in close contact with the housing wall 112 to form a space. The expansion unit 140 is built in, May be a corrugated tube such as a tube. In this embodiment, the expansion portion 111b includes the expansion means 140. [

The expansion part 111b and the moving part 120, which are components of the mobile device 300, may be detachably coupled to the housing 110. [

At least one of the moving unit 120, the pressing unit P, and the expanding unit 111b may be coupled to the housing 110 so as to be detachable from the housing 110. For example, when the bottom plate and the side wall of the container 100 are fitted to each other, the expansion unit 140 and the moving unit 120 can be separated from each other.

The container 100 includes a lid 101, a housing 110 that is opened and closed by a lid 101 and stores contents, a moving unit 120 installed inside the housing 110, a moving unit 120, And a pressing portion P for moving the pressing portion P.

Inside the housing 110, a contents storage portion 111a for storing contents is formed, an upper portion of the housing 110 is opened, and a lid 101 is formed to be opened and closed by screwing.

The pressurizing portion P is provided outside the container 100 to allow the gas inside the pressurizing portion P to move into the expanding portion 111b by the pressure applied to the outer surface of the pressurizing portion P A space is formed between the housing wall 112 of the housing 110 and the pressing portion P and the pressing portion P is a flexible material having elasticity in whole or part thereof or a structure having elasticity The volume of the pressing portion P is reduced and the gas in the pressing portion P is transmitted to the expanding portion 111b to move the moving portion 120. When the pressure is released, Restored to original state.

That is, the pressing portion P may be constituted by one side of the housing wall 112 of the housing 100 and the other side of the pressing portion P or a pressing portion P itself capable of being separately engaged with the housing 100 And the moving part 120 is moved upward by the gas injection by the pressure applied to the pressing part P.

The moving unit 120 may include various types including a flat plate and may move the contents from the lower end of the contents storage unit 111a of the housing 110. [

The pressurizing portion P includes a gas valve provided in the housing wall 112 and the pressurizing portion P respectively and an expanding means 140 installed in the lower portion of the moving portion 120 and expanding. The expansion means 140 may be inflated to move the moving portion 120 to the upper portion of the housing 110 by pressing the outer surface of the pressing portion P of the housing 110. The expansion means 140 is not limited to the corrugated tube and may be any structure that is deployed in a folded state.

The gas valve includes a pressurizing portion gas inlet portion 130 through which an external gas flows and an expanding portion gas inlet portion 130A through which gas is injected into the expanding portion 111b. When the gas between the wall 112 and the pressing portion P is injected into the expanding portion 111b through the expanding portion gas injecting portion 130A and the pressing of the outer surface of the pressing portion P of the housing 110 is released, The external gas is introduced between the housing wall 112 and the pressurizing portion outer wall 113 through the pressurizing portion gas inlet portion 130 while the shape of the portion P is restored before being pressurized.

The pressurizing portion gas inflow portion 130 and the expanding portion gas inflow portion 130A have a structure in which the gas is allowed to pass in one direction by the pressure (in the case of the pressurizing portion gas inflow portion 130, A structure in which a gas is passed through the housing wall 112 and the pressurizing portion outer wall 113 is formed in the housing wall 112 and is made of a flexible material having elasticity covering the through hole, The function can be achieved. A pressurizing portion through hole 113a is formed in the pressing portion outer wall 113 and a housing wall through hole 112a is formed in the housing wall 112. [

Specifically, the gas valve is attached to the housing wall 112 and the pressurizing portion P of the housing 110 with a rubber cover plate that opens according to the inflow of the external gas. The housing wall 112 and the pressing portion P of the housing 110 are formed with through holes 112a and 113a serving as gas passages. At this time, the through holes 112a and 113a are formed to be opened and closed by the pressurizing portion gas introduction portion 130 and the expanding portion gas introduction portion 130A.

When the pressure is applied to the pressing portion P of the housing 110, gas is injected into the expanding portion 111b. When the pressing portion P is returned to its original state by elasticity, the pressing portion through- The gas is introduced into the chamber.

The expanding portion gas injecting portion 130A can block the housing wall through hole 112a to prevent the injected gas from being discharged to the outside. That is, the expanding portion 111b is connected to the expanding portion gas introducing portion 130A of the pressing portion P into which the gas of the pressing portion P flows, and the expanding portion gas introducing portion 130A is connected to the expanding portion 111b. So that the gas introduced into the pressing portion P does not move again. This structure is distinguished from the second embodiment described later.

A gas discharge hole 114a for discharging the gas through the expansion means 140 and a gas discharge hole 114a provided on the bottom surface 114 of the housing 110 for opening and closing the discharge hole 114a, And may further comprise an exhaust cap 141.

The contents contained in the container 100 of the present embodiment may be various forms such as solid and liquid forms and may be applied to a method in which the user can easily receive the contents to the top of the container (such as a stick cake or a writing instrument) And it is possible to increase the contents when the capacity is exhausted and the access is difficult due to user's use such as cosmetics.

As shown in FIG. 4, when the user desires to take out the contents in the container 100, the user may open the lid 101 coupled with the housing 110 and take out the contents from the top of the container.

On the other hand, when the contents of the container 100 are taken out by the user after a certain amount of contents have been exhausted, the contents of the container 100 are reduced, and the quantity and length of the container are reduced by a certain depth at the top of the inlet of the container. In this case, the user had to insert his / her hand into the container 100 to withdraw the contents. In addition, the contents of the rod-shaped contents are exhausted, and the remaining contents are tilted and can not reach the upper end of the container 100 and are inclined inside the container 100.

The user can easily press the outer surface of the pressing portion P and in particular the outer surface of the pressing portion P to inject the gas into the expanding portion 111b inside the housing 110, It is possible to raise the movable part 120 inside the container 100 so that the contents of the container 100 can be easily drawn out from a desired position.

First, the user recognizes the reduction of the contents and presses the pressing portion (P) while grasping it by hand.

The gas existing between the pressing portions P having a double structure is pushed into the housing wall through hole 112a formed in the housing wall 112 by pressing the pressing portion P by pressing the inside of the pressing portion P having a resilient force, And flows into the expansion unit 140 while opening the expansion unit gas injection unit 130A. Further, a restoring method including an elastic structure in the pressing portion P, which is not an elastic material of the pressing portion P, is possible.

As shown in Fig. 5, the gas introduced into the expansion means 140 inflates the expansion means 140 upward. At this time, the expansion portion 111b may take various forms capable of expanding in addition to the expansion means 140 such as a tube.

The moving part 120 located on the upper part of the expansion means 140 is lifted along the contents storage part 111a of the housing 110 by the expansion of the expansion means 140 so that the contents can be easily .

Meanwhile, when the pressing portion P of the housing 110 is restored to its original state by elasticity, the pressurizing portion gas inlet portion 130 is opened through the pressurized portion through-hole 113a of the pressing portion P to be introduced into the gas Allow the gas to be injected in the next operation.

As described above, the container 100 having the moving part 120 according to the pressure of the pressing part P according to the present invention is pressed against the container 100 by the pressing pressure in the process of holding the pressing part P of the container 100, The moving unit 120 can be easily and conveniently moved by expanding the internal expansion means 140, so that the contents can be easily moved, which is convenient to use.

The gas is discharged through the gas discharge stopper 141 provided on the bottom surface 114 of the housing 110 to return the expansion means 140 to the original state. You can also use it.

FIG. 6 is a cross-sectional view of a container having a mobile device according to a second embodiment of the present invention, and FIG. 7 is a sectional view showing a container having a mobile device according to a second embodiment of the present invention.

6 and 7, the apparatus 300 for moving a container according to the second embodiment of the present invention has the same configuration and operation as those of the above-described first embodiment. However, as described above, The expansion part 111b does not have a separate corrugated pipe and the outer periphery of the moving part 150 is formed of a rubber material and is closely contacted with the housing wall 112 of the container 100 to form the expansion part 111b. The container 100 is the same as the first embodiment described above in that the contents can be moved to the upper part of the housing 110 from the contents storage part 111a and thus the same components are denoted by the same reference numerals, It is omitted.

In the second embodiment of the present invention, the pressing portion P and the expanding portion 111b are formed as a single space. That is, no separate valve is provided in the housing wall through-hole 112a unlike the first embodiment.

 The pressurizing portion P and the expanding portion 111b form a single space without forming a valve in the housing wall 112 and have no separate expansion means and the outer periphery of the moving portion 150 When the stopper 111b is slidably moved when a pushing force is applied thereto, the stopper 111b can withstand the load of the contents supported by the stopper 150 when the stopper or the pulling force is applied, It can be formed as a flat plate of a closely contacted material. Also, a plurality of stepped portions may be formed on the inner surface of the housing wall 112 when the lower surface of the moving part 150 is supported while the upper surface of the moving part 150 is moved upward.

 At this time, the expansion part 111b is formed by the housing wall 112 and the moving part 150.

When the contents are liquid contents, the moving part 150 moves along the inner surface of the housing 110, and the liquid contents remaining on the inner wall of the container can be moved.

The reference numerals not described are replaced with those described above.

FIG. 8 is a perspective view of a container having a moving device according to a third embodiment of the present invention, and FIG. 9 is a sectional view of a container having a moving device according to a third embodiment of the present invention.

FIG. 10 is an exploded cross-sectional view of a container having a mobile device according to a third embodiment of the present invention, and FIG. 11 is a sectional view showing an operation state of a container having a mobile device according to a third embodiment of the present invention.

8 to 11, the apparatus 300 for moving a container according to the third embodiment of the present invention has the same operation as that of the first embodiment, but unlike the first embodiment, Is composed of a pressing part 220 and an elastic part 230 where the pressure hole 221 is located. Further, there is a difference in that the expanding part gas injecting part 130A and the pressurizing part gas introducing part 130 are formed below.

In the third embodiment, as in the first embodiment, the container 200 including the lid 210 and the housing is provided with the pushing unit 220, the expanding unit 221b, and the moving unit 250 having the moving unit 250 300 and a housing wall 240. The difference in the shape of the inner and outer walls is that the upper portion 241 of the housing wall 240 is closed in the same manner as the first embodiment but the bottom of the container 100 has a double structure, Is formed at the lower portion, which is simply due to the difference in the design of the container, and the function and operation are the same as those of the first embodiment.

In the third embodiment, the pressing portion 220 includes the elastic portion 230 covering the whole or a part of the pressing portion 220, and the pressing portion 220 contacting the elastic portion 230 is formed with the opening portion as the pressure hole 221 The gas inside the pressing portion 220 is moved to the inside of the expansion portion 221b located at the lower portion of the contents storage portion 221a by the external pressure and the restoring force applied to the elastic portion 230 located in the pressure hole 221 . That is, the pressing portion P of the first and second embodiments comprises the pressure hole 221 of the pressing portion 220 and the elastic portion 230 in the third embodiment. In the first embodiment, a pressure hole 221 is formed in the pressing portion 220, and a portion of the pressure hole 221 is covered with the pressure hole 221, The pressure externally applied by the elastic part 230 having elasticity or including an elastic body is transmitted to the inside. In this embodiment, the user performs the same operation as the first embodiment and the second embodiment by pressing the portion of the pressure hole 221 connected to the elastic portion 230.

FIG. 12 is a perspective view of a container having a mobile device according to a fourth embodiment of the present invention, FIG. 13 is an exploded perspective view of a container having a mobile device according to a fourth embodiment of the present invention, Is a bottom exploded perspective view of a container having a moving device according to a fourth embodiment of the present invention.

FIG. 15 is a cross-sectional view of a container having a mobile device according to a fourth embodiment of the present invention, and FIGS. 16 and 17 are cross-sectional views illustrating a container having a mobile device according to a fourth embodiment of the present invention .

12 to 17, a container 100 according to a fourth embodiment of the present invention includes a moving device 300, a housing 310, and a gas control unit 400.

The housing 310 is provided so as to store contents, as in the above-described embodiments. In particular, the housing 310 is formed to open at one side so as to fill and withdraw the contents. For convenience, it is assumed that the housing 310 is opened upward. Of course, the housing 310 can be applied in various shapes and various materials.

In addition, the housing 310 is divided into a content filling space 312 and a gas storage space 314. The content filling space 312 is formed inside the open side of the housing 310 and the gas storage space 314 is formed inside the housing 310 opposite to the open side.

The moving device 300 is provided inside the housing 310 to divide the inside of the housing 310 into a content filling space 312 and a gas storage space 314 so as to maintain airtightness.

More specifically, the mobile device 300 includes a moving part 350 located within the housing 310. [ At this time, one side of the housing 310 is opened for withdrawing contents, and the other side can be opened for assembling or installing the moving unit 350 or the like.

That is, the moving unit 350 is provided to move along the inner surface 316 of the housing 310 and functions to divide the inside of the housing 310.

In particular, the mobile device 300 further includes an intermediate compartment space 360 and a liquid barrier 370.

The medial accommodation space part 360 is formed along the rim of the moving part 350. At this time, the mediating accommodation space part 360 may be formed discontinuously along the rim of the moving part 350, but it is formed to be continuously depressed. Of course, the depth and width of the mediating accommodation space 360 are not limited.

The liquid blocking material 370 contacts the inner surface 316 of the housing 310 while being filled inside the mediating container space 360 so that the liquid intercepting material 370 is in contact with the inner surface 316 of the housing 310, Maintain confidentiality. At this time, the liquid-barrier material 370 has a material or viscosity that does not adhere to the inner surface 316 due to the surface tension in contact with the inner surface 316 of the housing 310. Of course, the liquid-barrier 370 is composed of a composition capable of maintaining a state of being filled in the mediocreating space portion 360 as a gel state.

On the other hand, the moving part 350 includes a first moving member 352, a second moving member 354, and a connecting member 356 for ease of filling or manufacturing the liquid-phase blocker 370.

That is, the moving part 350 is divided into a first movable member 352 and a second movable member 354 that can be assembled, and the first moving member 352 and the second moving member 354 are naturally The mediating housing space portion 360 is formed.

The first movable member 352 supports the contents filled toward the contents of the housing 310.

The second moving member 354 is located on the opposite side to the direction of the contents of the first moving member 352.

In particular, the first moving member 352 and the second moving member 354 are formed in a substantially flat plate shape.

The connecting member 356 connects the first moving member 352 and the second moving member 354, and may be formed in various ways. For convenience, the connecting member 356 is formed in a male and female coupling type. In addition, the connecting member 356 connects the lower side of the first moving member 352 and the upper side of the second moving member 354 and binds them. Accordingly, an intermediate accommodation space 360 is naturally formed between the first movable member 352 and the second movable member 354. [ Of course, the connecting member 356 can be changed into various shapes.

The first moving member 352 and the second moving member 354 are detachably connected to each other by a connecting member 356 of male or female coupling type so that the first moving member 352 or the second moving member 354 can be moved The member 354 can be maintained by itself.

The first moving member 352 is provided with a first movable member 352 to extend the area of the mediocreating space portion 360 to increase the area of contact with the inner surface 316 of the housing 310, And the second moving member 354 forms an enlarged space portion 353 and the median accommodating space portion 360 in order to increase the area in which the liquid surface obstruction 370 contacts the inner surface 316 of the housing 310 The second enlarged space portion 355 can be formed so as to correspond to the first enlarged space portion 353 so as to extend the region of the first enlarged space portion 353.

That is, the first enlarged space portion 353 and the second enlarged space portion 355 are formed so that the space is extended from the rim of the first moving member 352 and the second moving member 354, respectively, The liquid barrier 370 contacts the inner surface 316 as wide as possible to improve the airtightness when the liquid barrier material 350 moves along the inner surface 316 of the housing 310. [

When the edge of the medial accommodation space portion 360 extends perpendicular to the rim of the first movable member 352 and the rim of the second movable member 354, Concentrated stress can be generated and cut by the edges formed at the edges of the projections 360. In order to prevent this, the first enlarged space portion 353 and the second enlarged space portion 355 extend from the mediocreating space portion 360.

In addition, the inner surface 316 of the housing 310 may form the coating surface 320 so that the liquid-phase barrier 370 can be easily moved in contact therewith. The coating surface 320 is formed by applying a coating liquid to the inner surface 316.

The moving part 350 penetrates the filling hole part 380 so as to fill the liquid barrier material 370 into the mediating housing space part 360. The filling hole part 380 has a cap 390 for opening and closing, . The filling hole portion 380 is passed through the first shifting member 352 or the second shifting member 354 and is conveniently passed through the first shifting member 352. At this time, the number and size of the filling hole portions 380 are not limited.

In addition, the cap 390 may be variously formed to freely open and close the filling hole portion 380.

The gas control unit 400 supplies the gas to the gas storage space 314 and moves the moving unit 350 and the liquid blocking material 370 of the moving unit 300 to the contents withdrawing side of the housing 310 Thereby facilitating the withdrawal of contents.

Here, the gas control unit 400 includes a gas atmosphere base unit 410, a pressurization unit 420, and an inside air control unit 430.

The gas venting portion 410 is formed in the casing 310 coupled to the bottom of the housing 310 or the bottom of the housing 310 to communicate with the bottom of the housing 310, (314). At this time, the gas can be applied variously such as air.

The pressurizing unit 420 functions to press the gas against the gas-based base unit 410 to move the gas of the gas-base-based unit 410 or to introduce the gas into the gas-based base unit 410, Or a pump that pumps the gas manually.

In addition, the emission control unit 430 prevents the gas from flowing backward through the pressurizing unit 420 and exhausting the gas through the gas-

In particular, the betting control unit 430 includes a first valve 434.

The first valve 434 blocks the backflow of the gas by blocking the passage hole 433 when stopping the supply of the gas through the gas-bearing portion 410 by the pressing portion 420.

That is, when the gas passes through the through hole 433, the first valve 434 is separated from the through hole 433 by pressure to allow the flow of gas.

As the amount of the gas filled in the gas storage space 314 is increased, the moving part 350 and the liquid blocking material 370 are raised.

When the supply of gas to the gas-causing base portion 410 is stopped, the first valve 434 blocks the through-hole 433 by its own weight. Accordingly, since the gas in the gas storage space 314 is prevented from being exhausted through the gas-base portion 410 and is not exhausted to the contents draw-out side of the housing 310 by the liquid-phase partitioning material 370, Are held in position within the housing 310. [ In addition, the gas control unit 400 may further include an outside air control unit 440.

In addition, the outside air control unit 440 is provided inside the gas atmosphere base unit 410 to prevent the gas moving by the pressing unit 420 from being exhausted and to receive an external gas.

In particular, the ambient air control unit 440 includes a second valve 444.

The second valve 444 blocks the opening hole 443 when the gas flows back through the gas venting portion 410 or through the through hole 433 by the pressurizing portion 420, .

That is, when the gas moves from the pressing portion 420 to the inside of the base portion 410, the gas inside the base portion 410 is removed by the pressure to move to the gas storage space 314 through the through hole 433 1 valve 434 is raised. Due to this, the gas inside the gas vent portion 410 is transferred to the gas storage space 314.

In addition, the gas inside the gas vent portion 410 pushes the second valve 444. As a result, the first valve 434 blocks the opening hole 443. Thus, exhaust of the gas is prevented.

The mobile device 300 includes a moving part 350, a pressing part 420, and an expanding part 314.

The moving part 350 divides the inside of the housing 310 into a contents storage part 312 and an expansion part 314.

The gas control unit 400 is provided inside the housing 310 to maintain mutual close contact between the contents storage unit 312 and the expanding unit 314 partitioned by the moving unit 350. In addition, the gas control unit 400 serves to facilitate withdrawing of the contents by supplying gas to the expanding unit 314 and moving the moving unit 350 to the contents take-out side of the housing 310. [

The gas control unit 400 includes a gas atmosphere base unit 410, a pressurization unit 420, and an internal control unit 430.

The gas venting portion 410 is formed in the housing 310 to wait for the gas to be conveyed to the expanding portion 314 and the pressurizing portion 420 serves to supply the gas to the gas vent portion 410, The emission control unit 430 is provided to prevent the gas from flowing backward in the expansion unit 314 and being exhausted.

At this time, the betting control unit 430 includes a through hole 433 and a first valve 434.

The passage hole 433 is a passage through which the gas supplied from the pressurizing portion 420 passes and the first valve 434 serves to prevent the back flow of the gas by blocking the passage hole 433 when the supply of the gas stops .

In addition, the gas control unit 400 may further include an external control unit 440.

The outside air control unit 440 serves to prevent exhaust of the gas supplied from the expanding unit 314 or the pressurizing unit 420 to the outside of the container, (436).

Particularly, the outside air control unit 440 blocks the opening hole 443 when the gas in the gas-causing base unit 410 is supplied to the expanding unit 314 by the pressurizing unit 420, And a second valve (not shown) for sucking the gas outside the vessel to the gas-venting portion 410 when the pressurizing portion 420 is restored by the elasticity of the pressuring portion 420, 444).

The moving part 350 is movable along the inner surface 316 of the housing 310 and defines the inside of the housing 310. At this time, the moving part 350 includes the mediating housing space part 360 and the liquid barrier material 370.

The mediocreating space part 360 is formed to include the rim part of the moving part 350 and the liquid impervious material 370 contacts the inner surface 316 of the housing 310 to guide the moving part 350 And is filled in the mediocaine housing space part 360 to maintain mutual liquid-tight airtightness with respect to both sides to be partitioned.

On the other hand, the moving part 350 includes a first moving member 352 and a second moving member 354.

The first moving member 352 is located at the upper portion of the mediocreping space portion 360 and the second moving member 354 is located at the lower portion of the mediocre housing space portion 360 opposite to the first moving member 352 Thereby supporting the liquid-phase blocker 370.

An intermediate accommodation space 360 is formed between the first movable member 352 and the second movable member 354.

The moving unit 350 further includes a connecting member 356 connecting the first moving member 352 and the second moving member 354 and the first moving member 352 and the second moving member 354 And may be detachably connected to each other by a connecting member 356 or may be integrally provided.

The first moving member 352 is provided with a first enlarged space portion (not shown) at the edge thereof to expand the area of the mediocreating space portion 360 to increase the area of contact with the inner surface 316, 353 and the second moving member 354 can form the liquid intercepting member 370 at the edge to expand the area of the mediocating space unit 360 to increase the area in contact with the inner surface 316 The second enlarged space portion 355 can be formed.

Accordingly, when the contents are liquid contents, the moving part 350 moves along the inner surface of the housing 310 to move the liquid contents remaining on the inner wall of the container 100.

At this time, the moving part 350 penetrates the filling hole part 380 so as to fill the liquid-barrier material 370 into the mediating housing space part 360, and the filling hole part 380 opens the cap 390 for opening / Respectively.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. I will understand. Accordingly, the true scope of the present invention should be determined by the following claims.

P: pressure applying portion 100: container
101, 210: lid 110, 310: housing
111a, 221a and 312:
111b, 221b, 314:
112, 240: housing wall 112a: housing wall opening
113: Pressurizing portion outer wall 113a: Pressurized portion through hole
114: bottom surface 114a: exhaust hole
120, 150, 250, 350:
130: Pressurizing part gas inlet part 130A: Expansion part gas injection part
140: expansion means 141: gas discharge plug
220, 420: pressure portion 221: pressure hole
222: valve and through hole 230: elastic part
241: Top 300: Mobile device
312: contents filling space 314: gas storage space
316: inner surface 320: coated surface
352: first moving member
353: first enlarged space section 354: second moving member
355: second enlarged space section 356: connecting member
360: mediating housing space part 370: liquid-barrier material
380: filling hole portion 390: cap
400: gas control unit 410: gas-
430: an emitter control unit 433: a through hole
434: first valve 440: outdoor control unit
443: aperture hole 444: second valve

Claims (65)

A housing in which at least one side is opened;
And a moving part located inside the housing and moving in one direction of the housing,
Wherein the moving part moves along the inner surface of the housing.
The method according to claim 1,
And a pressing portion having a gas space in contact with the outside of the housing,
And an expanding portion for injecting the gas of the pressing portion by a pressure applied to the outer surface of the pressing portion,
The moving part is moved by the pressure applied to the gas inside the pressing part,
Wherein the expanding portion is expanded in volume by the introduced gas to move the moving portion,
At least one of the pressing portion, the moving portion, and the expanding portion is detachably coupled or integrally provided,
Wherein the pressing portion and the expanding portion are formed as a single space or a separate space.
3. The method of claim 2,
When the pressure inside the pressing portion is released by pressing the pressing portion against the outer surface of the pressing portion after the gas inside the pressing portion is injected into the bulging portion, the pressing portion receives the external gas by the restoring force of the material or constitution, Is restored to the pre-pressurized shape as far as possible,
And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion,
Wherein the pressurizing portion gas inflow portion is configured to prevent the gas introduced into the pressurizing portion from moving to the outside.
3. The method of claim 2,
And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part,
Wherein the expanding part gas introducing part is a structure for preventing the gas introduced into the expanding part from moving to the pressing part.
3. The method of claim 2,
Wherein the contents storage unit for storing contents and the space of the expansion unit are partitioned by the moving unit,
The space size of the expansion part and the space size of the contents storage part are determined by changing together according to the partition position of the moving plate when the moving part moves,
Wherein the moving unit moves in the direction of the contents storage unit of the housing when the pressure is applied by the expanding unit, but keeps the state of being held by the load of the contents supported by the movement unit when the pressure is stopped without the pressure Vessel.
3. The method of claim 2,
Wherein at least one of the moving unit, the pressing unit, and the expanding unit is detachably coupled to the housing,
The outer periphery of the moving part is closely contacted with the housing,
Wherein the gas is air or other gas capable of being injected into the bulge.
The method according to claim 1,
And a pressing portion having a gas space in contact with the outside of the housing,
The housing is divided into a contents storage portion for storing contents and an expanding portion which is located adjacent to the contents storage portion and expanding in volume, and the pressing portion stores gas in a space between the housing wall of the housing and the outer wall of the pressing portion and,
When a pressure is applied to the outer surface of the pressing portion in the direction of the pressing portion, the volume of the gas inside the pressing portion is reduced, and the gas is introduced into the expanding portion. As a result of the pressure applied to the gas inside the pressing portion, However,
When the pressure is released, the pressurizing portion is restored to a shape which can be pressed by the restoring force of the material or the constitution of the press portion, and the external gas is introduced into the press portion,
Wherein the pressing portion includes an elastic portion that covers all or a part of the outer wall of the pressing portion and includes an opening portion on the outer wall of the pressing portion in contact with the elastic portion so that an external pressure applied to the elastic portion of the opening portion Wherein the space is reduced and the gas inside the pressurizing portion moves into the expansion portion.
8. The method of claim 7,
Wherein the expanding portion increases in volume by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the contents storing portion which is the expansion direction of the expanding portion,
Wherein the movement of the moving part causes the contents having the whole or part to move in the contents storage part.
8. The method of claim 7,
And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part,
Wherein the expansion part is connected to the expansion part gas injection part,
Wherein the expanding part gas introducing part is a structure for preventing the gas introduced into the expanding part from moving to the pressing part.
10. The method of claim 9,
After the gas inside the pressing portion is injected into the bulging portion, the pressing of the outer surface of the pressing portion is released and the shape of the pressing portion is restored before the pressing,
And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion,
Wherein the pressurizing portion gas inflow portion is configured to prevent the gas introduced into the pressurizing portion from moving to the outside.
8. The method of claim 7,
Wherein the space of the contents storage portion and the expansion portion is partitioned by the moving portion,
The space size of the expansion part and the space size of the contents storage part are determined by changing together according to the partition position of the moving plate when the moving part moves,
Wherein the moving unit moves in the direction of the contents storage unit of the housing when the pressure is applied by the expanding unit, but keeps the state of being held by the load of the contents supported by the movement unit when the pressure is stopped without the pressure Vessel.
8. The method of claim 7,
Wherein at least one of the moving unit, the pressing unit, and the expanding unit is detachably coupled to the housing,
The outer periphery of the moving part is closely contacted with the housing,
Wherein said gas comprises air capable of being injected into said bulge and is replaceable by another gas.
8. The method of claim 7,
The space of the pressing portion is expanded by the restoring force of the elastic portion after the space of the pressing portion is reduced and the gas inside the pressing portion repeatedly moves into the expanding portion by the reduction and expansion of the pressing portion space The courage to.
The method according to claim 1,
And a pressing portion having a gas space in contact with the outside of the housing,
The moving part is moved by the pressure applied to the gas inside the pressing part,
Wherein the housing comprises a contents storage portion for storing contents and an expanding portion which is located adjacent to the contents storage portion and expands in volume,
Wherein the pressing portion and the expanding portion are formed as a single space.
15. The method of claim 14,
Wherein the expanding portion increases in volume by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the contents storing portion which is the expansion direction of the expanding portion,
Wherein the movement of the moving part causes the contents having the whole or part to move in the contents storage part.
15. The method of claim 14,
And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part,
Wherein the expansion part is connected to the expansion part gas injection part,
The inflating gas injection unit has a structure for preventing gas introduced into the inflating unit from moving to the pressing unit,
After the gas inside the pressing portion is injected into the bulging portion, the pressing of the outer surface of the pressing portion is released and the shape of the pressing portion is restored before the pressing,
And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion,
Wherein the pressurizing portion gas inflow portion is configured to prevent the gas introduced into the pressurizing portion from moving to the outside.
15. The method of claim 14,
Wherein the space of the contents storage portion and the expansion portion is partitioned by the moving portion,
Wherein the space size of the expansion part and the space size of the contents storage part are determined by changing together according to the partition position of the moving plate when the moving part moves.
The method according to any one of claims 2, 7 and 14,
Wherein the expansion portion includes expansion means provided in the expansion portion to increase or decrease the volume of the gas.
The method according to any one of claims 3, 4, 7, and 14,
Wherein the pressing portion includes at least one of an elastic body, a spring, a support, a spring, and a motor for providing a restoring force,
At least one of the pressurized gas inflow portion and the inflation gas infeed portion may include a ball valve, a butterfly valve, a check valve, a swing check valve, a lift check valve, a tilting disc check valve, a wafer disc check valve, , A stop check valve, and a diaphragm valve.
The method according to any one of claims 2, 7 and 14,
Wherein at least one of the pressing portion and the expanding portion is detachably coupled to the housing or integrally formed with the housing.
The method according to claim 1,
Wherein the moving unit is provided inside the housing to maintain mutual close contact in a state where the inside of the housing is partitioned by a contents storage unit and an expanding unit,
And a gas control unit for supplying the gas to the expanding unit to move the moving unit toward the contents draw-out side of the housing, thereby facilitating the withdrawal of the contents.
The gas control apparatus according to claim 21,
A gas-introducing portion formed in the housing and waiting for transfer of the gas to the expanding portion;
A pressurizing portion for supplying a gas to the base portion; And
And an emitter control unit provided to prevent gas from flowing backward in the expanding unit to be exhausted.
The game apparatus according to claim 22,
A through hole through which the gas supplied from the pressing portion passes; And
And a first valve for blocking backflow of the gas by blocking the through hole when supply of gas is stopped.
24. The method of claim 23,
And an outside air control unit provided to prevent the gas supplied to the expanding unit or the gas supplied by the pressing unit from being exhausted to the outside of the container,
Wherein the outside air control unit includes an opening that is open to the outside of the housing.
The air conditioner according to claim 24,
When the gas in the gas-atmosphere base portion is supplied to the expanding portion by the pressurizing portion, the opening hole is closed to prevent the gas of the gas atmosphere portion from being exhausted to the outside of the container, and when the pressurizing portion is restored by the elasticity of the pressurizing portion, And a second valve for sucking an external gas into the gas atmosphere.
The method according to claim 1,
The moving unit includes:
A movable member movable along an inner surface of the housing and defining an interior of the housing,
An intermediate compartment space formed to include a rim portion of the moving unit; And
And a liquid barrier disposed in the medial accommodating space part to maintain mutual liquid-tight airtightness with respect to both sides of the housing, the two sides of which are defined with reference to the moving part by abutting against the inner surface of the housing.
The apparatus according to claim 26,
A first movable member positioned above the medial compartment space; And
And a second moving member located at a lower portion of an intermediate compartment space opposite to the first movable member and supporting the liquid-barrier screen,
And the intermediate accommodating space portion is formed between the first moving member and the second moving member.
28. The apparatus according to claim 27,
And a connecting member connecting the first moving member and the second moving member,
Wherein the first moving member and the second moving member are detachably connected to each other by the connecting member.
28. The method of claim 27,
Wherein the first moving member forms a first enlarged space portion at an edge so as to enlarge an area of the mediocating compartment space portion to increase an area in which the liquid obstacle comes into contact with the inner surface,
Wherein the second moving member forms a second enlarged space portion at an edge to enlarge an area of the mediocating compartment space portion to increase an area in which the liquid obstacle comes into contact with the inner surface.
27. The method according to any one of claims 2, 7, 14, 21, and 26,
Wherein the moving part moves the liquid content remaining on the inner wall of the container while moving along the inner surface of the housing when the contents are liquid contents.
27. The method of claim 26,
Wherein the moving unit is configured to open the filling hole so as to fill the liquid-barrier material into the medial compartment space part,
Wherein the filling hole portion has a cap for opening and closing.
The method according to claim 1,
Said inner surface forming a coating surface.
A housing in which at least one side is opened;
A moving part located inside the housing and moving in one direction of the housing; And
And a gas control unit for supplying a gas to the housing to move the moving unit to a content withdrawing side of the housing,
The moving part moves along the inner surface of the housing by the gas supplied to the housing,
The gas control unit may include: a gas-charging unit for guiding the supplied gas into the housing;
A pressurizing unit that pressurizes and moves the gas to the gas-atmosphere base or allows the gas to flow into the gas atmosphere unit; And
And an emitter control unit for allowing the gas to be supplied to the housing through the gas atmosphere unit and preventing the exhaust gas from flowing backward through the pressurizing unit.
And at least one side of the housing is opened,
And a moving part located inside the housing and moving in one direction of the housing,
Wherein the moving part moves along the inner surface of the housing.
35. The method of claim 34,
And a pressing portion having a gas space in contact with the outside of the housing,
And an expanding portion for injecting the gas of the pressing portion by a pressure applied to the outer surface of the pressing portion,
The moving part is moved by the pressure applied to the gas inside the pressing part,
Wherein the expanding portion is expanded in volume by the introduced gas to move the moving portion,
At least one of the pressing portion, the moving portion, and the expanding portion is detachably coupled or integrally provided,
Wherein the pressing portion and the expanding portion are formed as a single space or a separated space.
36. The method of claim 35,
When the pressure inside the pressing portion is released by pressing the pressing portion against the outer surface of the pressing portion after the gas inside the pressing portion is injected into the bulging portion, the pressing portion receives the external gas by the restoring force of the material or constitution, Is restored to the pre-pressurized shape as far as possible,
And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion,
Wherein the pressurizing portion gas inflow portion is configured to prevent the gas introduced into the pressurizing portion from moving to the outside.
36. The method of claim 35,
And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part,
Wherein the expanding part gas injecting part is configured to prevent the gas introduced into the expanding part from moving to the pressing part.
36. The method of claim 35,
Wherein the contents storage unit for storing contents and the space of the expansion unit are partitioned by the moving unit,
The space size of the expansion part and the space size of the contents storage part are determined by changing together according to the partition position of the moving plate when the moving part moves,
Wherein the moving unit moves in the direction of the contents storage unit of the housing when the pressure is applied by the expanding unit, but keeps the state of being held by the load of the contents supported by the movement unit when the pressure is stopped without the pressure Mobile device.
36. The method of claim 35,
Wherein at least one of the moving unit, the pressing unit, and the expanding unit is detachably coupled to the housing,
The outer periphery of the moving part is closely contacted with the housing,
Wherein the gas is air or other gas capable of being injected into the expanding portion.
35. The method of claim 34,
And a pressing portion having a gas space in contact with the outside of the housing,
The housing is divided into a contents storage portion for storing contents and an expanding portion which is located adjacent to the contents storage portion and expanding in volume, and the pressing portion stores gas in a space between the housing wall of the housing and the outer wall of the pressing portion and,
When a pressure is applied to the outer surface of the pressing portion in the direction of the pressing portion, the volume of the gas inside the pressing portion is reduced, and the gas is introduced into the expanding portion. As a result of the pressure applied to the gas inside the pressing portion, However,
When the pressure is released, the pressurizing portion is restored to a shape which can be pressed by the restoring force of the material or the constitution of the press portion, and the external gas is introduced into the press portion,
Wherein the pressing portion includes an elastic portion that covers all or a part of the outer wall of the pressing portion and includes an opening portion on the outer wall of the pressing portion in contact with the elastic portion so that an external pressure applied to the elastic portion of the opening portion The space is reduced, and the gas inside the pressing portion moves into the expansion portion.
41. The method of claim 40,
Wherein the expanding portion increases in volume by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the contents storing portion which is the expansion direction of the expanding portion,
Wherein the contents having the whole or part thereof move in the contents storage part through the movement of the moving part.
41. The method of claim 40,
And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part,
Wherein the expansion part is connected to the expansion part gas injection part,
Wherein the expanding part gas injecting part is configured to prevent the gas introduced into the expanding part from moving to the pressing part.
43. The method of claim 42,
After the gas inside the pressing portion is injected into the bulging portion, the pressing of the outer surface of the pressing portion is released and the shape of the pressing portion is restored before the pressing,
And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion,
Wherein the pressurizing portion gas inflow portion is configured to prevent the gas introduced into the pressurizing portion from moving to the outside.
41. The method of claim 40,
Wherein the space of the contents storage portion and the expansion portion is partitioned by the moving portion,
The space size of the expansion part and the space size of the contents storage part are determined by changing together according to the partition position of the moving plate when the moving part moves,
Wherein the moving unit moves in the direction of the contents storage unit of the housing when the pressure is applied by the expanding unit, but keeps the state of being held by the load of the contents supported by the movement unit when the pressure is stopped without the pressure Mobile device.
41. The method of claim 40,
Wherein at least one of the moving unit, the pressing unit, and the expanding unit is detachably coupled to the housing,
The outer periphery of the moving part is closely contacted with the housing,
Wherein said gas comprises air capable of being injected into said expanding portion and is replaceable by another gas.
41. The method of claim 40,
The space of the pressing portion is expanded by the restoring force of the elastic portion after the space of the pressing portion is reduced and the gas inside the pressing portion repeatedly moves into the expanding portion by the reduction and expansion of the pressing portion space Lt; / RTI >
35. The method of claim 34,
And a pressing portion having a gas space in contact with the outside of the housing,
The moving part is moved by the pressure applied to the gas inside the pressing part,
Wherein the housing comprises a contents storage portion for storing contents and an expanding portion which is located adjacent to the contents storage portion and expands in volume,
Wherein the pressing portion and the expanding portion are formed as a single space.
49. The method of claim 47,
Wherein the expanding portion increases in volume by the introduced gas to move the moving portion adjacent to the expanding portion in the direction of the position of the contents storing portion which is the expansion direction of the expanding portion,
Wherein the contents having the whole or part thereof move in the contents storage part through the movement of the moving part.
49. The method of claim 47,
And an expanding part gas injecting part for injecting the gas inside the pressing part into the expanding part by pressing the outer surface of the pressing part,
Wherein the expansion part is connected to the expansion part gas injection part,
The inflating gas injection unit has a structure for preventing gas introduced into the inflating unit from moving to the pressing unit,
After the gas inside the pressing portion is injected into the bulging portion, the pressing of the outer surface of the pressing portion is released and the shape of the pressing portion is restored before the pressing,
And a pressurizing portion gas inflow portion for introducing a gas outside the outer surface of the pressurizing portion into the pressurizing portion,
Wherein the pressurizing portion gas inflow portion is configured to prevent the gas introduced into the pressurizing portion from moving to the outside.
49. The method of claim 47,
Wherein the space of the contents storage portion and the expansion portion is partitioned by the moving portion,
Wherein the space size of the expansion part and the space size of the contents storage part are determined by changing together according to the partition position of the moving plate when the moving part moves.
The method according to any one of claims 35, 40 and 47,
Wherein the expanding portion includes expansion means provided in the expanding portion to increase or decrease the volume of the gas.
39. The method according to any one of claims 36, 37, 40 and 47,
Wherein the pressing portion includes at least one of an elastic body, a spring, a support, a spring, and a motor for providing a restoring force,
At least one of the pressurized gas inflow portion and the inflation gas infeed portion may include a ball valve, a butterfly valve, a check valve, a swing check valve, a lift check valve, a tilting disc check valve, a wafer disc check valve, , A stop check valve, and a diaphragm valve.
The method according to any one of claims 35, 40 and 47,
Wherein at least one of the pressing portion and the expanding portion is detachably coupled to the housing or is integrally formed with the housing.
35. The method of claim 34,
Wherein the moving unit is provided inside the housing to maintain mutual close contact in a state where the inside of the housing is partitioned by a contents storage unit and an expanding unit,
And a gas control unit for supplying the gas to the expanding unit to move the moving unit toward the contents draw-out side of the housing, thereby facilitating the withdrawal of the contents.
55. The gas control apparatus according to claim 54,
A gas-introducing portion formed in the housing and waiting for transfer of the gas to the expanding portion;
A pressurizing portion for supplying a gas to the base portion; And
And an exhaust control unit provided to prevent gas from flowing backward in the expanding unit to be exhausted.
The game apparatus according to claim 55,
A through hole through which the gas supplied from the pressing portion passes; And
And a first valve which prevents the back flow of the gas by blocking the through hole when the supply of gas is stopped.
57. The method of claim 56,
And an outside air control unit provided to prevent the gas supplied to the expanding unit or the gas supplied by the pressing unit from being exhausted to the outside of the container,
Wherein the outside air control unit includes an opening that opens to the outside of the housing.
The air conditioner according to claim 57,
When the gas in the gas-atmosphere base portion is supplied to the expanding portion by the pressurizing portion, the opening hole is closed to prevent the gas of the gas atmosphere portion from being exhausted to the outside of the container, and when the pressurizing portion is restored by the elasticity of the pressurizing portion, And a second valve for sucking an external gas into the gas atmosphere.
59. The apparatus of claim 58,
A movable member movable along an inner surface of the housing and defining an interior of the housing,
An intermediate compartment space formed to include a rim portion of the moving unit; And
And a liquid barrier disposed in the medial accommodating space to maintain mutual liquid-tight airtightness with respect to both sides of the movable member abutted against the inner surface of the housing.
The apparatus of claim 59,
A first movable member positioned above the medial compartment space; And
And a second moving member located at a lower portion of an intermediate compartment space opposite to the first movable member and supporting the liquid-barrier screen,
And the intermediate accommodation space portion is formed between the first movable member and the second movable member.
The apparatus of claim 60,
And a connecting member connecting the first moving member and the second moving member,
Wherein the first moving member and the second moving member are detachably connected to each other by the connecting member.
64. The method of claim 60,
Wherein the first moving member forms a first enlarged space portion at an edge so as to expand an area of the mediocating compartment space portion to increase an area in which the liquid obstacle comes into contact with the inner surface,
Wherein the second moving member forms a second enlarged space portion at an edge so as to expand an area of the mediocating compartment space portion to increase an area in which the liquid obstacle comes into contact with the inner surface.
The method according to any one of claims 35, 40, 47, 54 and 59,
Wherein when the content is a liquid content, the moving part moves along the inner surface of the housing while moving the liquid content remaining on the inner wall of the container.
60. The method of claim 59,
Wherein the moving unit is configured to open the filling hole so as to fill the liquid-barrier material into the medial compartment space part,
Wherein the filling hole has a cap for opening and closing.
And at least one side of the housing is opened,
And a moving part located inside the housing and moving in one direction of the housing,
And a gas control unit for supplying a gas to the housing to move the moving unit to a content withdrawing side of the housing,
The moving part moves along the inner surface of the housing,
The gas control unit may include: a gas-charging unit for guiding the supplied gas into the housing;
A pressurizing unit that pressurizes and moves the gas to the gas-atmosphere base or allows the gas to flow into the gas atmosphere unit; And
And an exhaust control unit for allowing gas to be supplied to the housing through the gas atmosphere unit and preventing exhaust gas from flowing backward through the pressurizing unit.

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