KR200454617Y1 - Container cap with residual gas discharge structure - Google Patents

Abstract

Disclosed is a container stopper having a residual gas discharge structure that can easily discharge residual gas remaining therein after use of a disposable container. The container stopper having the present residual gas discharge structure is formed to protect the nozzle assembly provided in the container, and is supported by a cap member having a support wall extending in a vertical direction in an opening hole formed thereon, and an opening hole of the cap member. It is connected to the wall and the connecting piece via a medium provided to be rotated downward in the vertical direction, and consists of a pressing member for pressing the valve stem of the nozzle assembly during the user's pressing operation.

According to the container stopper having a residual gas discharge structure configured as described above, the residual gas remaining inside after use of the container can be forcibly discharged and removed by a simple operation of the container stopper. In addition, by discharging the residual gas in the container by using a container cap, it is possible to solve the inconvenience and risk that occurs when removing the residual gas using a separate tool in the existing. In addition, by activating the safe disposal of the container through the easy removal of the residual gas by the container cap it can prevent the safety accidents such as fire and burns generated during the disposal of the container is disposed in the state in which the residual gas is removed.

Gas container, residual gas, stopper, discharge

Description

Container cap with residual gas discharge structure {VESSEL CAP HAVING GAS EXHAUST STRUCTURE}

The present invention relates to a container stopper having a residual gas discharge structure, and more particularly to a container stopper having a residual gas discharge structure that can easily discharge the remaining gas remaining after use of the disposable container.

In general, disposable containers such as fuel containers, fragrance containers, insecticide containers, and the like, which are widely used in homes and restaurants, are filled with high-pressure gas or the like for injection.

In such a container, the filled contents are mostly discharged together with the high pressure gas, but in some cases, a certain amount of gas remains.

Therefore, after using the container, the gas remaining inside is removed and disposed of.

However, in the related art, since the disposable container is discarded as it is after use or a hole is removed in the container by using a hammer, nail, or drill, it causes inconvenience and danger.

The present invention is devised to solve the problems of the prior art as described above, the object of the present invention is to easily remove and remove the residual gas remaining inside after use of the disposable container by pressing the cap member coupled to the container It is to provide a container cap having a residual gas discharge structure.

In order to solve the above technical problem, the present invention,

A cap member formed to protect the nozzle assembly provided in the container, and having a support wall extending in a vertical direction in the opening hole formed thereon; And

It is connected to the opening of the cap member via the support wall and the connecting piece via a medium to be rotated downward in the vertical direction, and includes a pressing member for pressing the valve stem of the nozzle assembly during the user's pressing operation,

In a state in which the cap member is coupled to the container to protect the nozzle assembly, the pressing member pressurizes the valve stem of the nozzle assembly to rotate downward about the connecting piece by a pressing operation to discharge residual gas in the container. .

In addition, a lower portion of the pressing member has a gas guide groove having a width wider than that of the valve stem on either side of the partition wall, and the gas guide groove communicates with the outlet passage during pressurization of the valve stem by the pressing member. It is characterized in that it is induced to ensure the discharge passage of the residual gas.

In addition, the lower side of the pressing member is formed with guide protrusions protruding downward, the guide protrusion is characterized in that the guide to press the valve stem during the pressing operation of the pressing member.

In addition, the pressing holding portion for maintaining the downward rotation of the pressing member is further provided, the pressing holding portion has a shape corresponding to the locking projection and the locking projection formed to protrude to the support wall corresponding to the connecting piece and the pressing member Characterized in that it consists of a locking groove that is fixed when the downward rotation of the.

In addition, the pressing member is connected to the opening through the two or more cutting pieces, characterized in that the cutting piece is cut during the pressing operation of the pressing member.

In addition, the present invention,

A cap member formed to protect the nozzle assembly provided in the disposable container, the cap member having a guide wall extending in a vertical direction in the opening hole formed thereon;

A pressing member which is provided to be moved in the vertical direction in the opening hole of the cap member and is vertically moved along the guide wall during the pressing operation of the user to press the valve stem of the nozzle assembly; And

And a pressing holding part for maintaining a moving state of the pressing member by having a corrugated protrusion formed in a vertical direction on the guide wall of the cap member and a corrugated groove formed by the pressing member so as to correspond to the corrugated protrusion.

The pressing member pressurizes the valve stem of the nozzle assembly so as to move along the guide wall by a pressing operation to discharge residual gas in the container, and the pressing holding portion moves the pressing member by the locking structure of the corrugated protrusion and the corrugated groove. It is characterized by maintaining.

In addition, a lower portion of the pressing member is formed with a gas guide groove having a width wider than the flow path of the valve stem on both sides of the partition wall, the gas guide groove flows when the partition wall and the valve stem contact by the pressing operation of the pressing member. It is characterized in that it is in communication with the furnace to induce a discharge passage of the residual gas is secured.

In addition, the pressing member is connected to the opening through the two or more cutting pieces, characterized in that the cutting piece is cut during the pressing operation of the pressing member.

According to the container stopper having a residual gas discharge structure according to the present invention, there is a useful effect that the residual gas remaining inside after use of the container can be forcibly discharged and removed by a simple operation of the container stopper.

In addition, by discharging the residual gas in the container by using a container cap, there is also an effect that can solve the inconvenience and risk that occurs when removing the residual gas using a separate tool in the existing.

In addition, by activating the safe disposal of the container through the easy removal of the residual gas by the container stopper, there is an effect that can prevent safety accidents such as fire and burns generated during the disposal of the container that is discarded with the remaining gas is removed. .

Hereinafter, a container stopper having a residual gas discharge structure according to each preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a nozzle assembly provided in a conventional disposable container, Figure 2 is a perspective view showing a container cap having a residual gas discharge structure according to an embodiment of the present invention, Figure 3 is a residual shown in FIG. 4 is a perspective view showing the inside of the container cap having a gas discharge structure, Figure 4 is a cross-sectional view showing a container plug having a residual gas discharge structure shown in Figure 2, Figure 5 is a residual gas discharge structure according to an embodiment of the present invention A container stopper having a cross-sectional view showing a state coupled to the container to protect the nozzle, Figure 6 is a state for discharging the residual gas in the container using a container stopper having a residual gas discharge structure according to an embodiment of the present invention 7 is a cross-sectional view showing a container cap having a residual gas discharge structure according to another embodiment of the present invention, and FIG. 8 is another seal of the present invention. Using a container closure having a residual gas discharge structure according to the example a cross-sectional view showing a state of discharging the residual gas in the vessel.

Container cap having a residual gas discharge structure according to an embodiment of the present invention is formed to protect the nozzle assembly 200 provided in the container 100, as shown in Figures 1 to 4 is formed on the top The cap member 10 having the support wall 14 extending in the vertical direction in the opening hole 12, and the support wall 14 and the connecting piece 22 through the opening hole 12 of the cap member 10. It is connected to the vertical direction is provided to rotate downward and the pressing member 20 and the pressing member 20 for pressing the valve stem 220 of the nozzle assembly 200 during the user's pressing operation, to maintain the downward rotation state of the pressing member 20 It includes a pressing holding portion 30.

In this case, the container 100 may be an aerosol container such as disposable butane gas, perfume container, insecticide container, or the like.

The container 100 is provided with a nozzle assembly 200 for discharging the contents filled therein. The nozzle assembly 200 is coupled to the support member 120 of the upper sealing cap 110 to seal the upper end of the container 100. That is, the nozzle assembly 200 is installed on the support member 120 such that one side is disposed in the inner space of the container 100 and the other side is exposed to the outside of the container 100.

The nozzle assembly 200 discharges the contents filled in the container to the outside during the user's pressing operation, the configuration is, for example, the nozzle body 210, the valve stem 220, the opening and closing member 230 and the elastic body 240 and the like, the configuration and operation of the nozzle assembly 200 for discharging the contents filled in the container 100 is already well known before the filing of the present invention, a detailed description thereof will be omitted.

The cap member 10 is to protect the nozzle assembly 200 provided in the container 100, and is formed of a cylindrical hollow body having an approximately lower portion thereof, and exposes the outside of the nozzle assembly 200 to the container 100. Combined to protect.

An upper portion of the cap member 10 is provided so that the opening hole 12 communicating with the inside is formed. Inside the opening 12 is formed a support wall 14 extending along a circumference by a predetermined length in the vertical direction.

The pressing member 20 is for forcibly discharging the remaining gas in the container by pressing the valve stem 220 of the nozzle assembly 200 during the user's pressing operation, the opening hole 12 of the cap member 10 for this purpose Is connected to the support wall 14 and the connecting piece 22 via the media is provided to be rotated downward in the vertical direction. At this time, the connecting piece 22 is disposed below the support wall 14 toward one side of the pressing member 20.

The pressing member 20 is configured to rotate downward about the connecting piece 22 in the opening hole 12 by the pressing operation applied from above.

In addition, a gas guide groove 24 having a width wider than that of the outlet passage 224 of the valve stem 220 is formed at one of the partition walls 23 that are vertically formed below the pressing member 20. At this time, the gas guide groove 24 is disposed on the other side of the pressing member 20 corresponding to the connection piece 22.

The gas guide groove 24 communicates with the outlet passage 224 when the valve stem 220 is pressurized by the pressing member 20 to induce a discharge passage of the residual gas discharged from the container 100. Has

That is, the pressing member 20 is rotated downward with respect to the connecting piece 22 when the user presses the press so that the lower portion is in contact with the valve stem 220, by this structure the lower portion of the pressing member 20 Since the outlet passage 224 of the valve stem 220 is blocked, residual gas in the container 100 may not be discharged to the outside through the outlet passage 224.

Therefore, by forming the gas guide groove 24 in the lower portion of the pressing member 20, the outflow passage 224 by the gas guide groove 24 having a wide width when the pressing member 20 and the valve stem 220 contact It is possible to induce a smooth discharge of the residual gas by securing a discharge passage in communication with.

In addition, guide protrusions 26 protruding downward are formed on both lower sides of the pressing member 20. At this time, the guide projections 26 are disposed on both sides of the gas guide groove 24 to be parallel to the pressing direction of the pressing member 20. The guide protrusion 26 has a function of guiding the pressing member 20 to accurately press the valve stem 220 of the nozzle assembly 200 during a user's pressing operation.

That is, when the guide protrusion 26 is not formed in the lower portion of the pressing member 20, when the valve stem 220 is pressurized by the user's pressing operation, a sliding phenomenon may occur between them. This may cause a problem that can not press the valve stem 220 accurately.

In addition, the pressing member 20 is connected to the opening hole 12 via two or more cutting pieces 28. This is to reinforce the pressing member 20 to maintain its shape in the opening hole 12 in normal times. In other words, the cutting piece 28 is configured to maintain the shape of the pressing member 20 normally and to be cut only when a predetermined external force is applied, thereby deforming the shape of the pressing member 20 by external impact. It can prevent.

The pressing holding part 30 is for maintaining the downward rotation state of the pressing member 20, and for this purpose, the locking protrusion 32 is formed to protrude on the support wall 14 corresponding to the connecting piece 22, and the locking protrusion. It consists of a locking groove 34 formed in the pressing member 20 to have a shape corresponding to the (32).

At this time, the locking protrusion 32 is disposed at the lower end of the support wall 14 to the other side of the pressing member 20.

In addition, the locking groove 34 is disposed at the other end of the pressing member 20 to be caught and fixed to the locking protrusion 32 when the pressing member 20 is rotated downward.

The pressing holding unit 30 is a pressing member 20 for pressing the valve stem 220 of the nozzle assembly 200 by engaging the locking groove 34 in the locking projection 32 when the pressing member 20 is rotated downward. ) Is designed to maintain the downward rotation state.

Therefore, the downward rotation state of the pressing member 20 is maintained by the pressing holding part 30, so that the residual gas in the container 100 may be completely discharged and removed by one pressing operation.

Referring to the operation of the present invention having such a configuration as follows.

Container stopper having a residual gas discharge structure according to an embodiment of the present invention, as described above can be easily removed by removing the residual gas remaining inside after the use of the disposable container 100.

First, the container 100 is normally stored as shown in FIG. 5. That is, the valve stem 220 coupled to the nozzle body 210 is elastically supported by the elastic body 240 to be exposed to the outside of the container 100 to the maximum. As the valve stem 220 is exposed to the outside of the container 100 as much as possible, the inlet 222 connected to the inflow path 212 is closed and closed by the opening / closing member 230. The cap member 10 is coupled to protect the valve stem 220 exposed to the outside of the container 100 from external impact.

As the valve stem 220 is elastically supported in the nozzle body 210 and exposed to the outside of the support member 120 as much as possible, the inlet 222 connecting the inflow path 212 and the outflow path 224 is an open / close member. Since it is blocked by the 230, the remaining gas remaining in the container 100 can not be discharged to the outside.

On the other hand, if you want to discharge the residual gas remaining in the interior after the use of the container 100, the cap member 10 to protect the valve stem 220 exposed to the outside of the container 100 as shown in FIG. In the coupled state, an external force is applied to the pressing member 20 provided in the opening hole 12 of the cap member 10. Then, the cutting member 28 connected to the cap member 10 is cut by the external force applied and at the same time the pressing member is rotated downward about the connecting piece (22). At this time, the pressing member 20 is guided by the guide projections 26 formed at the lower side when rotating around the connecting piece 22 to accurately press the valve stem 220. This is because the sliding phenomenon due to the pressing of the valve stem 220 of the pressing member 20 by the guide protrusion 26 is prevented.

Thereafter, the pressing member 20 is rotated downward to pressurize the valve stem 220 of the nozzle assembly 200, and then the downward holding state is maintained by the pressing holding part 30. That is, when the pressing holding part 30 is rotated downward so that the pressing member 20 pressurizes the valve stem 220, the locking groove 34 is naturally caught by the locking protrusion 32 formed on the support wall 14, and the nozzle The pressed state of the pressing member 20 is maintained to continuously press the valve stem 220 of the assembly 200.

Since the pressing member 20 is pressed down by pressing the valve stem 220 as the downward rotation state is maintained by the pressing holding unit 30, the nozzle assembly 200 is discharged to the outside in the container 100 to the outside It works. That is, when the valve stem 220 is moved by the pressure of the pressing member 20 to move in the direction of the nozzle body 210 while overcoming the elasticity of the elastic body 240, the opening and closing member 230 moves in the valve stem 220. At the same time, the inlet 222 is naturally opened, and the inlet passage 212 and the outlet passage 224 are connected as the inlet 222 is opened, so that the remaining gas in the container 100 passes through the valve stem 220. It can be forcibly discharged through the outlet 224 of the).

At this time, the residual gas is guided by the gas guide groove 24 formed in the lower portion of the pressing member 20 to be discharged to the outside. That is, the pressing member 20 is rotated downward with respect to the connecting piece 22 when the user presses the pressure so that the wide lower portion is in contact with the valve stem 220, by this structure the lower portion of the pressing member 20 The outflow passage 224 of the valve stem 220 is blocked, so that the remaining gas in the container 100 cannot be discharged to the outside.

Therefore, when the pressing member 20 and the valve stem 220 in contact with the outlet passage 224 by the gas induction groove 24 formed to have a wider width than the outlet passage 224 at the lower portion of the pressing member 20. Securing the discharge passage is to induce a smooth discharge of the residual gas.

As such, the present invention simply presses and operates the pressing member 20 provided in the cap member 10 to press down the nozzle assembly 200 through a simple process to operate the residual gas remaining in the container 100 easily. Can be removed by draining.

On the other hand, the container cap having a residual gas discharge structure according to another embodiment of the present invention, is formed to protect the nozzle assembly 200 provided in the disposable container 100, as shown in Figure 7 is formed on the top The cap member 40 having the guide wall 44 extending in the vertical direction in the opening hole 42 is provided to move in the vertical direction in the opening hole 40, and the guide wall 44 is moved when the user presses the button. According to the vertical movement includes a pressing member 50 for pressing the valve stem 220 of the nozzle assembly 200, and pressing holding unit 60 for maintaining the moving state of the pressing member 50.

The cap member 40 is for protecting the nozzle assembly 200 provided in the container 100, and is formed of a cylindrical hollow body having an approximately lower portion thereof, and is configured to expose the outside of the nozzle assembly 200 to the container 100. Combined to protect.

An upper portion of the cap member 40 is provided so that an opening hole 42 communicating with the inside is formed. Inside the opening hole 42, a guide wall 44 extending along a circumference by a predetermined length in a vertical direction is formed.

The pressing member 50 is for forcibly discharging the remaining gas in the container 100 by pressing the valve stem 220 of the nozzle assembly 200 during the user's pressing operation, for this purpose opening hole of the cap member 40 42 is provided to be vertically moved along the guide wall 44.

The pressing member 50 is configured to vertically move along the guide wall 44 in the opening hole 42 by the user's pressing operation to press the nozzle assembly 200.

In addition, a gas guide groove 52 having a width wider than that of the outlet passage 224 of the valve stem 220 is formed at both sides of the partition wall 51 vertically formed under the pressing member 50. The partition wall 51 is in contact with the tip center portion of the valve stem 220 during the vertical movement of the pressing member 50.

The gas guide groove 52 communicates with the outlet passage 224 when pressurized such that the partition wall 51 and the valve stem 220 are contacted by the pressing operation of the pressing member 50 to induce a discharge passage of the remaining gas to be secured. Has the function to

That is, the pressing member 50 is vertically moved along the guide wall 44 during the pressing operation of the user to press the contact with the valve stem 220. By this structure, the lower portion of the pressing member 50 is the valve stem ( Since the outlet passage 224 of the 220 is blocked, residual gas in the container 100 cannot be discharged to the outside through the outlet passage 224.

Therefore, the gas guide groove 52 having a width wider than the width of the outlet passage 224 is formed on both sides of the partition wall 51 at the lower portion of the pressing member 50 so that the pressing member 50 contacts the valve stem 220. By the wide width of the gas induction groove 52 can secure a discharge passage in communication with the outflow path 224 can induce smooth discharge of the residual gas.

In addition, the pressing member 50 is connected to the opening hole 42 via two or more cutting pieces 54. This is to reinforce the pressing member 40 to maintain its shape in the opening hole 42 in normal times. That is, the cutting piece 54 is configured to maintain the shape of the pressing member 50 normally and to be cut only when a predetermined external force is applied from the user, thereby deforming the shape of the pressing member 50 by external impact. It can prevent.

The pressing holding part 60 is for maintaining the vertical movement state of the pressing member 50, and for this purpose, the corrugated protrusion 62 and the corrugated protrusion formed in the vertical direction on the guide wall 44 of the cap member 40. Corrugated groove 64 is formed on the outer circumference of the pressing member 50 to correspond to the (62).

The pressing holding part 60 is a pressing member 50 for pressing the valve stem 220 of the nozzle assembly 200 by engaging the corrugated protrusion 62 and the corrugated groove 64 when the pressing member 50 moves vertically. The vertical movement state of) is maintained.

Therefore, the vertical movement state of the pressing member 50 is maintained by the pressing holding part 60, so that the residual gas in the container 100 may be completely discharged and removed by one pressing operation.

Referring to the operation of the present invention having such a configuration as follows.

Container stopper having a residual gas discharge structure according to another embodiment of the present invention, as described above can be easily removed by removing the residual gas remaining inside the disposable container 100 after use.

First, the container 100 is normally stored as described in one embodiment according to the present invention. That is, the valve stem 220 coupled to the nozzle body 210 is elastically supported by the elastic body 240 to be exposed to the outside of the container 100 to the maximum. The inlet 222 is connected to the inlet 212 is closed by the opening and closing member 230 is closed. The cap member 40 is coupled to protect the valve stem 220 exposed to the outside of the container 100 from external impact.

As the valve stem 220 is elastically supported in the nozzle body 210 and exposed to the outside of the support member 120 as much as possible, the inlet 222 connecting the inflow path 212 and the outflow path 224 is an open / close member. Since it is blocked by the 230, the remaining gas remaining in the container 100 can not be discharged to the outside.

On the other hand, when the residual gas remaining in the interior after the use of the container 100, as shown in Figure 8, the cap member 40 to protect the valve stem 220 exposed to the outside of the container 100 In the coupled state, an external force is applied to the pressing member 50 provided in the opening hole 42 of the cap member 40. Then, the pressing member 50 is moved vertically along the guide wall 44 so that the cutting piece 54 connected to the cap member 40 by the external force is cut.

Then, the pressing member 50 is vertically moved to press the valve stem 220 of the nozzle assembly 200, and then the moving state is maintained by the pressing holding part 60. That is, since the corrugated protrusion 62 and the corrugated groove 64 constituting the pressing holding part 60 are formed to be engaged with each other, when the external force acting on the pressing member 50 is extinguished, they are moved by the locking structure thereof. The state is maintained.

Since the pressing member 50 is maintained in the vertical movement state by the pressing holding unit 60 is to press the valve stem 220 continuously by pressing the nozzle assembly 200 is the residual gas in the container 100 is discharged to the outside Will work as much as possible. That is, when the valve stem 220 is pressed by the pressure of the pressing member 50 to move in the direction of the nozzle body 210 while overcoming the elasticity of the elastic body 240, the opening and closing member 230 moves in the valve stem 220. At the same time, the inlet 222 is naturally opened, and the inlet passage 212 and the outlet passage 224 are connected with the opening of the inlet 222 so that the remaining gas in the container 100 is the valve stem 220. It can be forcibly discharged through the outlet 224 of the.

At this time, the residual gas is guided by the gas guide groove 52 formed on both sides of the partition wall 51 at the lower portion of the pressing member 50 to be discharged.

That is, the pressing member 50 is vertically moved along the guide wall 44 during the pressing operation of the user to press the contact with the valve stem 220. By this structure, the lower portion of the pressing member 50 is the valve stem ( Since the outlet passage 224 of the 220 is blocked, residual gas in the container 100 cannot be discharged to the outside through the outlet passage 224.

Therefore, by providing the gas guide groove 52 having a width wider than the width of the outlet passage 224 on both sides of the partition wall 51 formed in the lower portion of the pressing member 50 of the pressing member 50 and the valve stem 220 When contacted with the wide width of the gas induction groove 52 to secure the discharge passage in communication with the outflow path 224 of the valve stem 220 can be induced to smoothly discharge the residual gas.

As such, the present invention presses and operates the pressing member 50 provided in the cap member 40 to press and operate the nozzle assembly 200 through a simple process of vertical movement in the vertical direction. Gas can be easily discharged and removed.

Although the present invention has been described as an embodiment, the present invention is not limited to the above-described embodiment, and has a general knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the utility model registration claims. Anyone who grows up will be able to make various variations.

1 is a cross-sectional view showing a nozzle assembly provided in a conventional disposable container,

2 is a perspective view showing a container cap having a residual gas discharge structure according to an embodiment of the present invention,

3 is a perspective view showing the interior of the container cap having a residual gas discharge structure shown in FIG.

4 is a cross-sectional view showing a container cap having a residual gas discharge structure shown in FIG.

5 is a cross-sectional view showing a state in which a container cap having a residual gas discharge structure according to an embodiment of the present invention is coupled to a container to protect a nozzle;

6 is a cross-sectional view showing a state for discharging the residual gas in the container by using a container cap having a residual gas discharge structure according to an embodiment of the present invention,

7 is a cross-sectional view showing a container cap having a residual gas discharge structure according to another embodiment of the present invention, and

8 is a cross-sectional view showing a state of discharging the residual gas in the container using a container cap having a residual gas discharge structure according to another embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

10: cap member 12: opening hole

14: support wall 20: pressing member

22: connecting piece 24: gas induction groove

26: guide protrusion 28: cut out

30: pressing holding part 32: jamming projection

34: locking groove

40: cap member 42: opening hole

44: guide wall 50: pressing member

52: gas guide groove 54: cutout

60: pressing holding part 62: corrugated protrusion

64: corrugated groove

Claims (8)

A cap member (10) formed to protect the nozzle assembly (200) provided in the container (100) and having a support wall (14) extending in a vertical direction in an opening hole (12) formed at an upper portion thereof; And It is connected to the opening hole 12 of the cap member 10 via the support wall 14 and the connecting piece 22 so as to rotate downward in the vertical direction, the valve stem of the nozzle assembly 200 during the user's pressing operation It includes; and pressing member 20 for pressing the 220, In the state where the cap member 10 is coupled to the container 100 to protect the nozzle assembly 200, the pressing member 20 is rotated downward about the connecting piece 22 by pressing. Pressing the valve stem 220 of the vessel container having a residual gas discharge structure, characterized in that for discharging the residual gas in the container (100). The method of claim 1, A lower portion of the pressing member 20 is formed with a gas guide groove 24 having a width wider than that of the outlet passage 224 of the valve stem 220 on either side of the partition wall 23 and the gas guide groove 24. The container stopper having a residual gas discharge structure, characterized in that in communication with the outflow passage 224 when the valve stem 220 is pressed by the pressing member 20 to induce a discharge passage of the residual gas is secured. 3. The method of claim 2, Guide protrusions 26 protruding downward are formed on both lower sides of the pressing member 20, and the guide protrusions 26 guide the pressing of the valve stem 220 when the pressing member 20 is pressed. Container stopper having a residual gas discharge structure characterized in that. The method according to any one of claims 1 to 3, The pressing holding portion 30 is further provided to maintain the downward rotation of the pressing member 20, the pressing holding portion 30 is formed to protrude to the guide wall 14 corresponding to the connecting piece 22 It has a residual gas discharge structure, characterized in that it comprises a locking projection 32, and a locking groove 34 having a shape corresponding to the locking projection 32 and is locked and fixed when the pressing member 20 is rotated downward. Container plug. The method of claim 4, wherein The pressing member 20 is connected to the opening 12 through the two or more cutting pieces 28, the cutting piece 28 is characterized in that the cutting operation when pressing the pressing member 20 Container cap with gas discharge structure. A cap member 40 formed to protect the nozzle assembly 200 provided in the container 100 and having a guide wall 44 extending in a vertical direction in the opening hole 42 formed thereon; It is provided to move in the vertical direction to the opening hole 42 of the cap member 40, and is moved vertically along the guide wall 44 during the user's pressing operation to press the valve system 220 of the nozzle assembly 200 Pushing member 50 for; And A corrugated protrusion 62 formed in the vertical direction on the guide wall 44 of the cap member 40 and a corrugated groove 64 formed by the pressing member 50 to correspond to the corrugated protrusion 62. It includes; pressing holding unit 60 for maintaining the moving state of the pressing member 50, The pressing member 50 pressurizes the valve stem 220 of the nozzle assembly 200 so as to move along the guide wall 44 by pressing and discharges residual gas in the container 100, and the pressing holding part ( 60 is a container cap having a residual gas discharge structure, characterized in that to maintain the movement state of the pressing member 50 by the locking structure of the corrugated protrusion 62 and the corrugated groove (64). The method of claim 6, Gas guide grooves 52 having a width wider than that of the outlet passage 224 of the valve stem 220 are formed at both sides of the partition wall 51 at the lower portion of the pressing member 50, and the gas guide grooves 52 are formed. Is in communication with the outlet passage 224 when the partition 51 and the valve stem 220 by the pressing operation of the pressing member 50, the residual gas discharge structure, characterized in that to induce a discharge passage of the residual gas is secured Container stopper having a. The method according to claim 6 or 7, The pressing member 50 is connected to the opening hole 42 and the two or more cutting pieces 54 through the remaining, characterized in that the cutting piece 54 is cut during the pressing operation of the pressing member 50 Container cap with gas discharge structure.

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