KR20130011322A - Bottle caps in which heterogeneous materials are mixed by pressure gas - Google Patents

Abstract

   The bottle cap coupled to the container including the pressure gas in the container storage space, the receiving portion having a storage space inside the main body consisting of the upper surface portion and the side portion is configured, the secondary storage space separately separated in the inner storage space of the receiving portion The storage space and the auxiliary storage space is assembled to the operating part to open and close the center of the lower portion, and when the bottle cap is coupled to the container, the internal pressure gas of the container storage space is the auxiliary storage space of the operation unit Moving to the auxiliary storage space through the gas flow passage formed in the location to be located, and opening the bottle cap of the above-mentioned form to solve the pressure gas of the container storage space and at the same time the operating portion downward by the pressure gas of the auxiliary storage space In the bottle cap is opened and mixed heterogeneous material falling into the storage space, the secondary storage space of the storage space Separately divided into the inside, the operating unit seals the storage space and the auxiliary storage space, and the coupling portion of the operating portion is configured to move up and down in the operating space formed in the auxiliary storage space above the operating portion, the auxiliary to the operating portion The present invention relates to a bottle cap in which heterogeneous substances are mixed by a pressure gas, characterized by constituting a gas movement passage through which pressure gas can be introduced into a storage space.

Description

 Bottle cap in which heterogeneous substances are mixed by pressure gas {omitted}

The present invention relates to a bottle cap in which heterogeneous materials are mixed by a pressure gas.

In the prior art, there is PCT / KR08 / 00993 as the inventor.

  For reference, the general carbonated beverage applied to the pressure vessel is a carbon dioxide is dissolved in water to find and maintain a stable, when the temperature rises above the appropriate level or shakes the container starts to dissolve, the above process The gas pressure is generated inside the bottle.

  This phenomenon is that the solubility of the gas at a constant pressure decreases with increasing temperature, and at the same time the kinetic energy of the gas molecules dissolved in the liquid increases, thus increasing the number of gases separated from the liquid, thus increasing the pressure inside the vessel. Will rise.

  Generally, carbonated beverages such as cola cider become more than 4 volumes in the bottling process, and the bottle cap is designed to withstand the above gas pressure.

  Therefore, when the general heterogeneous material receiving device is installed in the pressure-resistant container, many safety problems occur. Especially in the case of the technology in which the upper part is opened while the heterogeneous material receiving device is opened, the heterogeneous material is released together with the contents in the container by the gas pressure. This technique is not applicable as it can soar upwards and cause big accidents.

  It may also be possible to open the dissimilar material holding device to mix the contents of the holding device inside the container first, and then to remove the bottle cap attached to the container in the subsequent process, but this also involves many risks. This is because opening the receiving device first in a state in which a gas pressure above atmospheric pressure is formed may cause a safety accident while the part is separated by the pressure.

  Therefore, the best method is to remove the gas pressure inside the container and then mix heterogeneous materials in the container inside the container, but if this technical configuration is made by the consumer, this is complicated and the technical configuration would rather lower the purchasing desire. It is obvious.

  In addition, if the receiving device is first opened around the consumer's surroundings, this may cause a safety accident and thus cannot be an alternative.

  In order to overcome the limitations of the pressure vessel, the bottle cap is opened and the gas pressure contained in the vessel is lowered, and at the same time, the heterogeneous substance is dropped and mixed into the vessel in the container. It is filed to overcome.

  In particular, when looking at Figure 18 of the prior art PCT / KR2008 / 00993 of the present inventors it can be seen that a plurality of the receiving portion (3), specifically, in a separate storage space (4) is put a heterogeneous material such as liquid or powder, Another second storage space 15 was left empty, and at any one portion of the second storage space 15, a very narrow hole was formed.

When the bottle cap is coupled to the container in which the pressure gas is formed, the pressure gas inside the container immediately moves to the second storage space 15 through the check valve 6 in the form of a hole, and the second storage space 15 The storage space inside the container maintains the pressure equilibrium, and when the bottle cap coupled to the container is opened in the above state, the pressure gas inside the container is released, and at the same time, the pressure gas in the second storage space 15 is narrow. Since the pressure was not suddenly released through the check valve 6 of one type, the pressure gas in the second storage space 15 eventually pushes the operating part 5 coupled to the receiving part 3. In the above process, the lower portion of the storage space 4 which is blocking the storage space 4 is opened and the contents of the storage space 4 are dropped and mixed inside the container via the drop space 16.

However, the above-described technique is that the pressure gas in the separate second storage space 15 pushes the operation portion downward to drop the heterogeneous material in the storage space 4, and as part of the present invention seeks to remove a portion of the pressure gas. There was a drawback in not moving in the direction of the storage space (4).

In order to mix the contents of the storage space mentioned in the prior art (PCT / KR2008 / 00993), it was good for the purpose of opening the operation unit sealing the storage space by forming a second storage space with a foreign currency unit having a storage space. It was not enough to allow the contents of the storage to fall more quickly.

      In the present invention, a portion of the pressure gas is moved to the storage space in the process of opening the storage space containing the heterogeneous material to improve the dropability of the heterogeneous material in the storage space.

 The bottle cap coupled to the container including the pressure gas in the container storage space, the receiving portion having a storage space inside the main body consisting of the upper surface portion and the side portion is configured, the secondary storage space separately separated in the inner storage space of the receiving portion And assembling the operating part to open and close the center of the storage space and the auxiliary storage space, and when the bottle cap is coupled to the container, the internal pressure gas of the container storage space is the auxiliary storage space of the operation part. Moving to the auxiliary storage space through the gas flow passage formed in the location to be located, and opening the bottle cap of the above-mentioned form to solve the pressure gas of the container storage space and at the same time the operating portion downward by the pressure gas of the auxiliary storage space It is based on the bottle cap that is opened and heterogeneous substances falling into the storage space mixed with the container.

The auxiliary storage space is separately divided into the storage space, and the operation unit seals the storage space and the auxiliary storage space, and the coupling part of the operation unit moves upward and downward in the operation space formed in the auxiliary storage space above the operation unit. It is configured, but the operating unit is configured to the gas movement passage capable of flowing the pressure gas into the auxiliary storage space.

 In addition, when the bottle cap is opened, the pressure gas of the auxiliary storage space pushes the operating part downward, and in the above-described process, the pressure gas in the auxiliary storage space has a gas moving part through which the coupling part of the operating part can go out. In the process of moving through the gas moving part is a resistance to the sealing portion constituting a part of the operating block was blocking the storage space is a pressure gas is dropped and mixed into the container storage space through a portion of the storage space.

According to one aspect, the lower end of the coupling portion of the operating portion is configured to seal the lower end of the storage space in the form of the outer side, the coupling portion of the operating portion is formed in the upper end of the upper portion of the foreign exchange of the coupling portion so as not to be separated from the auxiliary storage space It is to be formed in the inner wall portion of the lower space of the auxiliary fixing space is the space-sealing jaw that the upper locking portion is caught.

Part of the pressure gas in the auxiliary storage space is moved in the process of falling the heterogeneous material in the storage space has the advantage that the heterogeneous material in the storage space is easily mixed into the container storage space.

1 is a longitudinal sectional view of the bottle cap of the present invention.
Figure 2 is a longitudinal cross-sectional view of the bottle cap of the present invention coupled to the container.
Figure 3 is a longitudinal sectional view of the main portion showing the open state of the bottle cap of the present invention.

 The bottle cap 1 coupled to the container 300 including the pressure gas in the container storage space 301 has a storage space 104 inside the main body 100 including an upper surface portion 101 and a side surface portion 102. Receiving unit 103 is configured, the internal storage space 104 of the accommodating unit 103 has a separate auxiliary storage space 105, the storage space 104 and the auxiliary storage space ( In the center of the lower end of the 105 is assembled the actuating part 200 to act as an opening and closing, and when the bottle cap 1 is coupled to the container 300, the internal pressure gas of the container storage space 301 is operated Moving to the auxiliary storage space 105 through the gas movement passage 201 formed in the portion where the auxiliary storage space 105 of the unit 200 is located, and opening the bottle cap 1 of the above-described container storage The pressure gas in the space 301 is released and the operating part 200 is opened downward by the pressure gas in the auxiliary storage space 105. This material has a container storage bottle cap that fall mixed with 301 (1) by default.

The auxiliary storage space 105 is separately divided into the storage space 104, and the operation unit 200 seals the storage space 104 and the auxiliary storage space 105, and the operation unit 200. ) Is configured to move up and down the coupling portion 202 of the operating unit 200 in the operating space 106 formed in the auxiliary storage space 105, the auxiliary storage space 105 in the operating unit 200 In configuring the gas movement passage 201 through which the pressure gas can be introduced into the gas movement passage 201, the gas movement passage 201 is preferably as narrow as a needle hole. (Refer to FIGS. 1 and 2 above)

Opening the bottle cap (1) configured as described above is to solve the pressure gas in the container storage space 301 and at the same time, the pressure gas of the auxiliary storage space 105 pushes the operating unit 200 downward, the above process The pressure gas in the auxiliary storage space 105 forms a gas groove 203 in the form of an elongated groove or elongated protrusion through which the coupling part 202 of the operation part 200 can exit.

In addition, the pressure gas is subjected to a resistance around the sealing part 204 constituting a part of the operating part 200 which is blocking the storage space 104 during the movement through the gas moving part 203, the pressure gas is stored in the storage space ( It is configured to be dropped into the container storage space 301 through a portion of the 104.

In addition, the lower end of the coupling part 202 of the operation part 200 is sealed to the lower end of the storage space 104 in the form of an outer side, the foreign exchange part is formed with a sealing part 204.

And the coupling portion 202 of the operating unit 200 is formed in the upper locking portion 205 on the upper end of the foreign exchange of the coupling portion 202 so as not to be separated from the auxiliary storage space 105, the upper hook The space sealing jaw 107 on which the unit 205 is formed is formed at the lower inner wall of the auxiliary storage space 105.

In addition, the sealing part 204 of the operation part 200 may be caught by the storage space sealing groove 108 formed in the lower inner wall portion of the storage space 104, the lower inner wall portion of the auxiliary storage space 105 It is preferable to selectively form the space sealing part 206 so that the operation part 200 is not separated until use (until opening) by the space sealing jaw 107 formed in the.

Such a basic configuration of the bottle cap 1 of the present invention is the same as that of FIG. 1, the state in which the bottle cap 1 is assembled to the container 300 is the same as that of FIG. 2, and the bottle in the state shown in FIG. 2. 3 shows the state in which the operation unit 200 is operated while the lid 1 is opened.

For reference, referring to FIG. 3, the pressure gas in the auxiliary storage space 105 may be ejected toward the storage space 104.

In the figure, reference numeral 302 denotes a container neck, and (S) shows a container neck closed surface.

In addition, the sealing part 204 is a good method of double injection into a soft resin on the operation part 200.

The present invention as described above is a technology suitable for soft drinks, such as carbonic acid, high concentration of oxygen-containing drinks or other pressure gas beverages and various products.

1: bottle cap
100:
101: upper surface
102: side
103: receiver
104: storage space
105: auxiliary storage
106: working space
107: space sealed jaw
108: storage space sealed home
200: operating part
201: gas movement passage
202: coupling part
203: gas moving part
204: sealing part
205: upper locking part
206: space seal
300 container
301: container storage space

Claims (3)

The bottle cap coupled to the container including the pressure gas in the container storage space, the receiving portion having a storage space inside the main body consisting of the upper surface portion and the side portion is configured, the secondary storage space separately separated in the inner storage space of the receiving portion And assembling the operating part to open and close the center of the storage space and the auxiliary storage space, and when the bottle cap is coupled to the container, the internal pressure gas of the container storage space is the auxiliary storage space of the operation part. Moving to the auxiliary storage space through the gas flow passage formed in the location to be located, and opening the bottle cap of the above-mentioned form to solve the pressure gas of the container storage space and at the same time the operating portion downward by the pressure gas of the auxiliary storage space In the bottle cap that is opened and heterogeneous materials falling into the storage space mixed with the container,
The auxiliary storage space is separately divided into the interior of the storage space, the operation unit is configured to seal the storage space and the auxiliary storage space, the coupling portion of the operation portion in the operating space formed in the auxiliary storage space above the operation portion is configured to move up and down However, the operation part is a bottle cap in which heterogeneous substances are mixed by the pressure gas, characterized in that the gas moving passage capable of introducing the pressure gas into the auxiliary storage space.
 The gas moving part of claim 1, wherein the opening of the bottle cap pushes the pressure gas of the auxiliary storage space downward, and the gas moving part through which the pressure gas in the auxiliary storage space exits through the coupling part outside the operation part. The pressure gas may be mixed by dropping into the container storage space through a portion of the storage space by receiving a resistance of the sealing portion constituting a part of the operating portion blocking the storage space during the movement through the gas moving unit. A bottle cap in which heterogeneous substances are mixed by a pressure gas. According to claim 2, wherein the lower end of the coupling portion of the operating portion is configured to seal the lower end of the storage space in the form of outwardly, the coupling portion of the operating portion is separated from the auxiliary storage space to the upper end of the engaging portion in the upper end of the foreign exchange It is formed, the bottle cap is mixed with the heterogeneous material by the pressure gas, characterized in that formed in the lower inner wall of the auxiliary storage space the space sealing jaw that the upper locking portion is caught.

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