KR101011446B1 - Closure for pumping of vessle - Google Patents

Abstract

The present invention relates to a pumping stopper, to which the present invention comprises: a pumping unit (10) for allowing air to flow in or out through the air flow pipe (112) by the lifting action of the piston (120) in the housing (110); The lower end of the air flow pipe 112 is inserted into the upper end of the container 30 so that the container 30 is sealed, and the lower part of the pumping part 100 is in close contact with the upper part of the container 30. The plug portion 20 according to the type of the contents filled in the container 30 to be provided with a configuration in which the plug portion 20 for injecting / discharging air to the container 30 by the flow of air by ) Is selected for vacuum forming or air injection, and the relatively expensive pumping unit 10 is provided with a minimum of airtightness and the freshness of the contents of the container 30 and the sealing of the container 30 more economically and effectively. It is to keep the taste stable for a long time.

Pumping, Stopper, Vacuum, Air Injection

Description

Pumping stopper {Closure for pumping of vessle}

The present invention relates to a pumping stopper, and more particularly, to prevent the deterioration of the taste of the contents filled in the container even if once opened by allowing the inside of the container to be vacuumed or filled with air by pumping the stopper coupled to the container It relates to a pumping stopper that can be stored safely for a long time.

The pumping stopper is an auxiliary stopper provided to safely and securely protect contents that may change in taste by contact with air, such as alcoholic beverages such as wine or beer, or carbonated beverages.

Mainly, bottled products are released in a tightly sealed structure, but once the lid is opened, no matter how tightly it is sealed, the sealing force cannot be maintained as it was before opening, so deterioration of the taste and quality of the contents is inevitable over time. Do.

Proposed for this purpose is Utility Model Registration Application No. 2008-7455 filed by the present applicant (name: vacuum pump for container closure).

The pumping stopper proposed by the present applicant through the previous application is to be coupled to the bottle product once opened to discharge the air inside the container to the outside by pumping so that the inside of the container is in a vacuum state.

However, the vacuum pump in the previous application allows the pump itself to function as a cap for closing the container at the same time. Therefore, in order to use a vacuum pump having a complicated configuration as a cap for each container, there is an uneconomic problem that is not practical. have.

In addition, even in the same bottle products, there are contents that require vacuum pressure depending on the contents that are accommodated. On the contrary, contents that need to be filled with air are filled, that is, contents produced through the aging process such as wine or fruit wine are easily deteriorated when contacted with air. There is a problem, and carbonated contents, such as carbonated drinks that are easily lost in the air, have a problem in that carbon dioxide gas is minutely released and loses its unique taste.

The present invention is to solve the above problems, the present invention by allowing the pump and the stopper is provided in a separable type by selecting only the stopper according to the type of contents filled in the container can be stored for a long time while preventing deterioration for various types of contents. The main purpose is to provide a pumping stopper.

It is another object of the present invention to provide a pumping stopper that allows only a stopper to be coupled to each container, and to provide a more economical maintenance by providing only a minimum of expensive pumps in a relatively complex configuration.

In order to achieve the above object, the present invention provides a pump for allowing air to flow in or out through an air flow pipe by a lifting action of a piston; The container is sealed by being inserted into the upper end of the container, and the lower end of the air flow pipe is inserted into the upper part of the upper part, and the lower part of the air flow tube is inserted, and the air is injected / exhausted into the container by the inflow and outflow action of the air by the pumping part. It is characterized in that it consists of a combination of stoppers to be fixed at the top of the container.

In the above configuration, the pumping part is opened up and down, and a horizontal partition is formed at the lower part of the inside, and a tubular air flow tube is provided at the center of the partition wall so as to extend up and down, and an upper circumferential surface of the upper end of the air flow tube is provided. A valve plate coupled with a sealing O-ring is coupled, and a housing configured to form an air flow hole in a main surface of the air flow pipe at a lower side of the valve plate; The center is inserted to enable the slide movement along the outer circumferential surface of the air flow tube, the inner circumferential surface is provided to be in close contact with the sealing O-ring of the valve plate, a piston that is spring-loaded between the upper surface of the valve plate and the upper surface of the piston body It is composed of the combination of.

In addition, the stopper portion in the above configuration and the case so that the inside is divided into three vertically by the first diaphragm and the second diaphragm spaced apart a predetermined height; An air flow pipe provided in a tubular shape so as to penetrate downwardly from the lower end of the case through the center of the second diaphragm from the first diaphragm; A first valve provided inside the air flow pipe; A second valve provided to interrupt air flow from one side of the first diaphragm to the space between the first diaphragm and the second diaphragm; The air flow hole formed in the main surface of the case is coupled to communicate with the space between the first diaphragm and the second diaphragm.

The pumping stopper of the present invention according to the above configuration may be selectively used according to the type of the contents by forcibly discharging air from the inside of the container to the outside or by filling the outside air in accordance with the contents filled in the interior of the container At the same time, the plug having a relatively simple configuration is coupled to each container to maintain a sealing force, and the pump is provided with a minimum to reduce the economic burden.

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

1 is a cross-sectional view showing one embodiment of a pumping stopper according to the present invention.

As shown, the pumping stopper of the present invention is configured by the combination of the pumping unit 10 and the stopper 20 formed to be separated from each other.

The pumping part 10 is composed of a housing 110 and a piston 120, and the piston 120 is configured to slide upward and downward from an upper portion of the housing 110.

The double housing 110 has a cup shape that is opened up and down, and a horizontal partition 111 is formed integrally with the inside to divide the inner space up and down, especially in the lower portion.

In the center of the partition 111, the tubular air flow tube 112 is formed so as to vertically penetrate, and the partition 111 and the air flow tube 112 may be formed in an integrally connected configuration.

A circular valve plate 113 is coupled to the upper end of the air flow pipe 112 that protrudes to the upper part of the partition 111, and the sealing O-ring 114 is fitted into the outer circumferential surface of the valve plate 113. .

The main surface of the lower side air flow pipe 112 of the valve plate 113 coupled to the upper end is formed with a plurality of air flow holes 115 penetrating the main surface.

In addition to the housing 110, the piston 120, which constitutes the pumping unit 10, is a shape of an empty housing, and the outer circumferential surface thereof is coupled to move up and down along the inner circumferential surface of the upper end of the housing 110. In addition, the bottom surface center of the piston 120 is in close contact with the outer circumferential surface of the air flow tube 112 by the O-ring 121 while the air flow tube 112 of the housing 110 penetrates.

Inside the piston 120 is provided with a valve plate 113 coupled to the upper end of the air flow pipe 112, so that the sealing O-ring 114 is in close contact with the inner peripheral surface of the piston 120 and the inner peripheral surface of the upper end of the housing 110 Together, the sealing O-ring 114 guides the piston 120 up and down.

On the other hand, the spring 122 is installed in the upper portion of the valve plate 113 inside the piston 120 to act to return the piston 120 to its original position at all times between the upper surface and the valve plate 113. do.

However, the upper surface of the piston 120 may be configured to form a part of the piston body, but may be made of a cap 123 of the independent configuration is screwed with the piston body as shown in the figure.

In addition, it is more preferable that a plurality of holes 124 are formed on the upper surface of the upper end side of the piston 120 so as to smoothly flow the air above the valve plate 113 for the lifting and lowering action of the piston 120. .

Therefore, the pumping unit 10 is to be pumped by the air flow in and out through the air flow pipe 112 by expanding or reducing the volume of the lower space of the valve plate 113 during the lifting action of the piston 120.

Only the lowering of the piston 120 is to press the piston 120 by a physical force above a certain pressure, while in the depressed state to remove the physical force only the restoring force of the spring 122 provided on the upper portion of the valve plate 13 Is raised by.

The stopper 20 is provided separately from the pumping part 10 and substantially provided to block the inlet of the container 30.

The stopper 20 is directly connected to the container 30 at the lower portion of the pumping part 10 to serve to seal the upper end of the inlet of the container 30.

The stopper 20 can be further classified into a vacuum forming type and an air injection type.

The stopper 20 has a case 210 which allows the center of the upper surface to pass through the lower portion of the air flow tube 112 of the pumping unit 10, an air flow tube 220 which is an air flow passage, and a flow of air. The first valve 230, 260, the second valve 240, 270, and the air induction hole 250, which is an inlet and outlet of air, may be configured to intermittent.

The case 210 of the stopper 20 is configured to form an outer shape, and a connection hole 211 is formed at the center of the upper surface so as to communicate with the air flow pipe 112 of the pumping unit 10, and the inside is empty. .

The inside of the case 210 is spaced at a predetermined height so that the first diaphragm 212 and the second diaphragm 213 are provided side by side while allowing the inside to be divided into three sections up and down.

On the other hand, the upper surface of the case 210 is more preferably provided with a cushion seat 214 to facilitate the close contact with the lower end of the housing 110 of the pumping portion 10 to the peripheral portion of the connection hole 211.

From the first diaphragm 212 provided on the upper side in the case 210, the air flow pipe tubularly protrudes downward from the lower periphery of the outer periphery of the case 210 through the center of the second diaphragm 213. 220.

The inside of the air flow tube 220 is provided with a first valve 230, 260 to control the air flowing through the air flow tube 220.

In addition, one side upper surface of the first diaphragm 212 includes second valves 240 and 270 for controlling the flow of air to a space between the first diaphragm 212 and the second diaphragm 213.

In addition, a plurality of air flow holes 250 are formed on a main surface of the case 210 between the first diaphragm 212 and the second diaphragm 213.

Meanwhile, as shown in the drawing, the second diaphragm 213 is integrally formed with the air flow tube 220, and the first diaphragm 212 is formed of the air flow tube 220 protruding upward from the second diaphragm 213 by a predetermined height. It is more preferable to be provided with a configuration coupled to the upper end.

In addition, the second valves 240 and 270 formed on the first diaphragm 212 may be formed to be integrally formed on the first diaphragm 212, or the second valves 240 and 270 formed separately. May be connected by assembly.

At this time, the stopper 20 is provided with a first valve 230, 260 and the second valve 240, 270, respectively formed according to the vacuum forming type or the air injection type, but intermittent air Each is provided in a different configuration depending on the way.

That is, the first valve 230 provided inside the air flow tube 220 in the vacuum forming type stopper 20 is configured to allow air to move only in one direction from the bottom to the second valve 240. Is a configuration to allow air to move in only one direction from the top to the bottom.

The valve head of the upper end in the through-hole 222 vertically penetrating the center of the locking jaw 221 formed in the inside of the air flow tube 220 with respect to the first valve 230 as shown in FIG. The rod 233 of the valve body connecting the stopper 232 between the lower portion 231 and the lower end portion through the rod 233 passes through the through hole 222, and the valve head 231 catches on the upper portion of the through hole 222. It can be provided with the structure which hangs on 221.

At this time, the stopper 232 does not escape from the through hole 222 of the locking jaw 221 while the valve body is raised, and at the same time, a plurality of grooves or protrusions are formed on the main surface so that the stopper 232 is caught on the locking jaw 221. Even if the air from the bottom through the through hole 222 to be able to move smoothly.

Compared to the first valve 230 as described above, the second valve 240 is configured to be provided at one side of the first diaphragm 212. In FIG. 1, the upper end is supported to receive upward elasticity by the spring 241. The lower end of the valve head 242 is illustrated as a configuration in which the lower end of the valve head 242 is in close contact with the periphery of the bottom surface of the through hole 214 that vertically penetrates one side of the first diaphragm 212.

Thus, in the air inlet type stopper 20, the first valve 260 formed in the air flow tube 220 is used as the second valve 240 in the vacuum formation type, as compared with the vacuum forming type stopper 20. The second valve 270 provided on one side of the first diaphragm 212 is provided as a configuration of the first valve 230 in the vacuum forming type.

In more detail, the first valve 260 formed in the air flow tube 220 is supported so that the upper end thereof receives upward elasticity by the spring 261, and the valve head 262 of the lower part of the spring 261 is Resilience is in close contact with the bottom peripheral portion of the through-hole 222 formed in the center of the locking projection 221 formed in the air flow tube 220, the second valve 270 of the first diaphragm 212 As the rod 273 connecting the valve head 271 at the upper end and the stopper 272 at the lower part passes through the through hole 214 having one side vertically passed through, the valve head 271 passes through the through hole 214. It is to be provided with a configuration that is seated by the weight at the top of.

Accordingly, the first valve 230 in the vacuum forming type causes the air to move upward, and the second valve 240 moves the air downward to force the air from the inside of the container 30 to the outside by flowing only in one direction. It is configured to discharge the inside of the container 30 to a vacuum state, the first valve 260 in the air injection type allows the air to move downward, while the second valve 270 is moved upward in one direction Only by allowing the air to flow is configured to allow the outside air to be filled into the interior of the container (30).

On the other hand, along the outer circumferential surface of the air flow tube 220 formed to protrude downward from the center of the second diaphragm 213 together with the bottom of the second diaphragm 213, the packing 280 to be sealed upon contact with the container 30. More preferably).

The air flow tube 220 in which the packing 280 is inserted is inserted into the inlet of the container 30, and the upper end of the container 30 is in close contact with the bottom packing 280 of the second diaphragm 213.

Referring to the operation of the pumping stopper of the present invention according to the above configuration as follows.

In general, various liquid contents are stored in a container 30 such as a glass bottle or a plastic bottle.

Most of the contents stored in the container 30, such as a glass bottle or a plastic bottle, are easily deteriorated by contact with external air once most of the contents are opened once, and thus, when the first container is opened, it is normally closed using a cap or a separate cap. Be sure to

However, the conventional stopper only serves to block the outside to prevent the contents from leaking out, so the flow of fine air through the stopper has an inevitable structural limitation.

Therefore, depending on the contents, even after opening the first stopper and closing again, after a certain period of time, the microscopic gap of the stopper communicates with the outside, and the taste or original freshness of the contents may be degraded or even deteriorated.

In the present invention, the air is discharged from the inside of the container 30 by using a glass bottle or a plastic bottle, that is, a lid or a stopper of the container 30 having the upper end formed in a bottle type, so that the inside is vacuumed or filled with air from the outside. It is to be.

The stopper 20 of the present invention has two types, as described above, a vacuum forming type and an air injection type.

Such a stopper 20 is selectively applied according to the type of contents.

That is, the container containing the contents whose taste or property changes due to contact with air, such as wine, is connected to the stopper portion 20 of the vacuum forming type as shown in FIG. 1.

In the stopper portion 20 of the vacuum forming type, the first valve 230 blocks the downward movement of the air by the weight of the valve body, and the second valve 240 moves the air upward by the spring elasticity. Allow movement to be blocked.

Plug portion 20 so that the upper end of the container 30 is in close contact with the packing 280 of the bottom of the second diaphragm 213 while inserting the lower end of the air flow tube 220 of the plug 20 into the inlet of the container 30. To be combined.

The pumping part 10 is placed on the top of the stopper 20 in a state where the stopper 20 is coupled and fixed.

The pumping part 10 is a housing 110 of the pumping part 10 while allowing the air flow pipe 112 of the pumping part 10 to be partially inserted through the connection hole 211 of the stopper 20 without a separate fixing means. ) Only the lower end portion is in close contact with the cushion sheet 214 provided on the upper surface of the case 210 of the stopper 20.

When the piston 120 of the pumping part 10 is pressed in a state in which the case 210 of the stopper 20 is seated on the cushion seat 214, the valve plate 113 inside the piston 120 as shown in FIG. 1. As the lower side of the space gradually expands, air is introduced from the lower portion through the air flow pipe 112.

When the air is sucked in this way, the first valve 230 including the ball valve formed in the air flow pipe 220 of the stopper 20 is opened to suck air from the inside of the container.

And when the pressure holding the piston 120 of the pumping unit 10 is removed, the piston 120 is raised as shown in Figure 3 by the restoring force of the spring 122 of the upper portion of the valve plate 113 in a compressed state therein. Done.

When the piston 120 is raised, the lower space of the lower side of the valve plate 113 gradually decreases in the piston 120, so that air is discharged downward through the air flow pipe 112 from the space that is eventually reduced.

The air discharged by the air flow tube 112 is combined with the air already filled in the upper portion of the first diaphragm 212 of the stopper 20 to increase the internal pressure, thereby providing a second provided on one side of the first diaphragm 212. The spring pressure of the valve 240 is overcome and the second valve 240 is opened.

The air filled in the upper space of the first diaphragm 212 by the opening of the second valve 240 is led to the space between the first diaphragm 212 and the second diaphragm 213 and simultaneously with the first diaphragm 212. It is discharged to the outside through the air induction hole 250 formed on the outer peripheral surface of the case 210 between the second diaphragm 213.

In this way, by pressing the piston 120 to force the air from the container 30 to be filled with the space above the first diaphragm 212 of the stopper 20, the piston by pressing the piston 120 is removed As the 120 is raised, the inside of the container 30 is brought into a vacuum state by repeatedly performing an action of discharging the air filled in the stopper 20 to the outside.

As the vacuum of the container becomes stronger, the coupling force with the stopper 20 at the upper end of the container becomes stronger, so that the pumping stops at the moment when pumping is not performed and the pumping part 10 is removed from the upper part of the stopper 20. In this case, only the stopper 20 may maintain the vacuum state of the container 30 stably for a long time while maintaining a firmly coupled state at the upper end of the container 30.

When the interior of the container 30 is in a vacuum state, it is possible to prevent the deterioration of the taste and properties of the contents filled therein for a long time even if time passes.

On the other hand, unlike contents that require the conditions of the vacuum, contents containing carbonated beverages such as carbonated drinks and beer require stable maintenance of carbonic acid. It should be filled with.

In order to allow the air to be introduced from the outside in this way, instead of the above-described vacuum forming type stopper 20, an air injection type stopper 20 as shown in FIG. 2 is connected.

The air injection type stopper 20 has a valve forming structure opposite to that of the vacuum forming type stopper 20. That is, the first valve 260 in the air injection type stopper 20 has the same configuration as the second valve 240 in the vacuum forming type, and the second valve 270 in the air injection type stopper 20. Is made to have the same configuration as the first valve 230 in the stopper portion 20 of the vacuum forming type.

Accordingly, in the air injection type, air is introduced from the outside through the second valve 270 of the stopper 20, and the air filled in the stopper 20 is filled by the first valve 260. It works to fill the inside of.

In more detail, first, as in the vacuum forming type stopper 20, the air injection type stopper 20 is firmly fixed to the upper end of the container 30, and the upper part of the stopper 20. The pumping unit 10 is in close contact with.

The pumping unit 10 is pushed down by pressing the piston 120 as shown in FIG. 2, and at this time, as the space under the valve plate 113 expands, air is sucked in from the lower part through the air flow pipe 112. On the contrary, when the pressure used to press the piston 120 is removed, the air is discharged through the air flow pipe 112 while the piston 120 is raised by the elastic force of the spring 122.

Meanwhile, when air flows in and out by the operation of the piston 120, the air at this time is filled into the upper space of the first diaphragm 212 of the stopper 20, and is injected into the container 30 from this space.

That is, when the piston 120 is pushed down, the suction pressure is generated through the air flow pipe 112, and the first valve 260 becomes a stronger state in addition to the elasticity of the spring 261, whereas the first diaphragm ( In the second valve 270 provided on one side of 212, the valve body is raised and opened by the suction pressure from the upper portion.

As the second valve 270 is opened as described above, suction pressure acts inside to allow air to flow into the upper space of the first diaphragm 212.

And when the pressure is removed while pressing the piston 120, the piston 120 is raised by the elastic force of the spring 122 of the upper portion of the valve plate 113, as shown in FIG. At the same time as the lower space is reduced, the air in the lower portion of the valve plate 113 is discharged through the air flow pipe 112.

The air discharged through the air flow pipe 112 of the pumping part 10 is introduced into the space above the first diaphragm 212 from the air injection type stopper 20 to increase the pressure of the internal space.

When the internal pressure of the upper portion of the first diaphragm 212 rises, the second valve 270 maintains a more closed state, whereas in the first valve 260, the elastic force of the spring 261 gradually weakens, and thus As the pressure becomes stronger than the spring force of the spring 261, the first valve 260 is opened while expanding the spring 261.

As the first valve 260 is opened, air introduced into the upper portion of the first diaphragm 212 is instantaneously injected into the vessel 30 through the through hole 222, and these air are empty in the vessel 30. It fills the space.

When the operation of the piston 120 is performed several times, the container 30 is filled with air by the above-described action, and when the air is completely filled in the container 30, the stopper 20 is sequentially formed. While the air is filled into the space above the first diaphragm 212, the piston 120 is not normally operated because the air is no longer introduced even though air is introduced from the outside through the second valve 270. .

When the pump 120 is pumped to the moment when the operation of the piston 120 is not normally performed, and the pumping part 10 is removed from the stopper 20, the first valve 260 in the stopper 20 is inside the container 30. Due to the discharge pressure in the more closed state is a strong seal, the stopper 20 at the upper end of the container 30 is to maintain a more tightly coupled state.

As such, the present invention seals the inlet of the container 30 by using a vacuum generating type stopper 20 when a vacuum is required according to the contents filled in the container 30, and when an air injection is required, The stopper 20 is used to seal the inlet of the container 30.

When the container 30 is sealed by using the air injection type stopper 20, the container 30 filled with the carbonated content such as carbonated beverage or beer is kept intact, so that even when the contents are subsequently drinked, You can recreate the tingling feel of carbonic acid.

As described above, the present invention selects the stopper 20 according to the type of the contents to be filled in the container 30 to form a vacuum or to inject air into the container 30 to prevent the deterioration of the contents or the loss of components. It is to ensure that the unique taste is stable.

1 is a cross-sectional view illustrating a pumping stopper of a vacuum forming type according to the present invention;

2 is a cross-sectional view illustrating a pumping stopper of the air injection type according to the present invention,

3 is a structural view of the operation of FIG.

4 is a structural view of the operation of FIG.

Explanation of symbols on the main parts of the drawings

10: pumping part 20: stopper

30 container 110 housing

112: air flow pipe 113: valve plate

120: piston 122: spring

123: cap 210: case

212: 1st plate 213: 2nd plate

214: through hole 220: air flow tube

222: through hole 230, 260: first valve

240, 270: second valve 250: air flow hole

260 packing

Claims (11)

A pumping part 10 for allowing air to flow in or out through the air flow pipe 112 by lifting and lowering of the piston 120 in the housing 110; The container 30 is inserted into an upper end of the container 30 to seal the container 30, and the lower part of the pumping part 10 is in close contact with the upper part of the container 30 by the inflow and outflow action of air by the pumping part 10. A stopper 20 for injecting / discharging air into the; The stopper 20 is A case 210 which allows the interior of the interior to be divided up and down by the first diaphragm 212 and the second diaphragm 213; An air flow tube 220 passing through the center of the second diaphragm 213 from the first diaphragm 212; A first valve provided to control the flow of air in the air flow pipe 220; A second valve provided to control air flow into a space between the first diaphragm 212 and the second diaphragm 213 on one side of the first diaphragm 212; Pumping stopper in combination with; air flow hole (250) formed in the main surface of the case 210 to communicate with the space between the first diaphragm (212) and the second diaphragm (213). The method of claim 1, wherein the pumping unit 10 Opened up and down, the bottom of the inner horizontal partition 111 is formed, the center of the partition 111 is provided with a tubular air flow tube 112 to extend up and down, the air flow tube 112 The valve plate 113 coupled with the sealing O-ring 114 to the outer circumferential surface of the upper end of the valve plate 113 is coupled, and the air flow hole 115 is formed on the main surface of the air flow pipe 112 at the lower side of the valve plate 113. The housing 110 is configured to: The housing 110 is inserted into the housing so as to be lifted and lowered, and the center of the bottom surface of the lower portion is inserted to slide along the outer circumferential surface of the air flow pipe 112. A piston 120 provided to be in close contact with the upper portion of the valve plate 113 and a spring 122 interposed between the upper surface of the piston body; Pumping stopper consisting of a combination of The pumping stopper according to claim 2, wherein the piston (120) is brought into close contact with the outer circumferential surface of the air flow pipe (112) by the O-ring (121) to move up and down along the air flow pipe (112). 3. The pumping cap according to claim 2, wherein the piston (120) comprises a cap (123) of an independent configuration in which an upper end is screwed with the piston body. delete The method of claim 1, wherein the case 210 has a connection hole 211 is formed in the upper surface to communicate with the air flow pipe 112 of the pumping portion 10, the peripheral portion of the connection hole 211 Pumping stopper is provided with a cushion seat 214 to facilitate the lower end of the housing 110 of the pumping unit (10). According to claim 1, Contact with the container 30 along the outer circumferential surface of the air flow tube 220 formed to protrude downward from the center of the second diaphragm 213 together with the bottom of the second diaphragm 213. Pumping stopper is provided with a packing (280) to seal the seal. The method of claim 1, wherein the first valve sucks air from the inside of the container 30 to the upper portion of the first diaphragm 212 by the pumping action of the pumping part 10, and the second valve A pumping stopper for discharging the air in the upper portion of the first diaphragm (212) to the outside by the pumping action of the pumping unit (10) to the outside of the vessel 30 to a vacuum state. The valve of claim 8, wherein the first valve comprises a through hole 222 formed in the center of the locking jaw 221 formed in the air flow pipe 220. The valve head 231 is configured to be caught by the latching jaw 221 by its own weight at the upper portion of the through hole 222 while the rod 233 connecting 232 passes therethrough, and the second valve has an upper end portion. The through-hole 214 is supported by the spring 241 to receive upward elasticity, and the valve head 242 of the lower portion vertically penetrates one side of the first diaphragm 212 by the elasticity of the spring 241. Pumping stopper that is configured to be in close contact with the bottom peripheral edge of the. The method of claim 1, wherein the first valve is to supply the air filled in the upper portion of the first diaphragm 212 by the pumping action of the pumping unit 10 into the interior of the container 30, the second valve The injecting air into the inside of the container 30 while introducing air from the outside to the upper portion of the first diaphragm 212 through the air flow hole 250 by the pumping action of the pumping unit 10 Pumping stopper. The air valve of claim 10, wherein the first valve is supported such that an upper end thereof receives upward elasticity by a spring 261, and a valve head 262 of the lower end is supported by an elasticity of the spring 261. The second valve is configured to be in close contact with the periphery of the bottom surface of the through hole 222 formed in the center of the locking step 221 formed therein, and the second valve is a through which vertically penetrates one side of the first diaphragm 212. A rod 273 connecting between the valve head 271 at the upper end and the stopper 272 at the lower end passes through the hole 214, and the valve head 271 is seated by its own weight at the top of the through hole 214. Pumping stopper, which is a configuration that makes it possible.

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