KR20130004003A - Pressure gas bottle cap with prefabricated housing inside the body - Google Patents

Abstract

PURPOSE: A bottle cap for pressure gas including an assembly type containing unit inside a main body is provided to selectively assemble a containment unit inside a main body which is commonly used, thereby massively manufacturing bottle caps and reducing production costs. CONSTITUTION: A container has pressure gas inside and a bottle cap(1) which is a heterogeneous material containing unit is combined at the container neck. A main body of the bottle cap has a top surface part(101) and a side surface part(102). A containing unit(200) is placed inside the main body. A storage(211) and a containing part(210) are placed in the containing unit. A containing part airtight hole on the bottom of the containing part combines a check valve(230) which selectively performs the role of air tightening. The check valve makes a passage to move the pressure gas inside if pressure is generated inside the container. The containing unit is assembled as a hanging form in the upper direction of a screw thread(103). The containing unit seals the top of the containing part with a seal unit(240) and combines an airtight part(220) to the containing part airtight hole which is on the bottom of the containing part. A cross section(221) is formed on the airtight part. The seal unit(240) is made of multilayer film. The airtight part has a protrusion(226) on the upper side of the opposite direction in which a connection part(223) is placed.

Description

Pressure gas bottle cap with prefabricated receiving device inside the body

The present invention relates to a bottle cap for a pressure gas having a prefabricated receiving device in the body.

  Conventional beverage containers are added to taste or aroma in a beverage factory is shipped in a good state for consumers to drink, consumers tend to choose these products to taste according to the trend.

  In the conventional beverage products such as the taste or aroma is added to make the product, and the above product takes a long time to deliver to the consumer, so in the beverage factory to add a preservative such as sodium benzoate or to prevent the product deterioration. A method of heating (sterilizing) to about 120 degrees has been used.

  However, the use of preservatives not only harms the human body, but especially vitamin drinks, fatal defects that can produce benzene over time if the preservatives are added.

  When the beverage is heated, there is a closed end where nutrients are destroyed, and it is impossible to cool the heated beverage and place it in a container. In this case, a cooling bottle is used. In this case, a glass bottle needs to use heat resistant glass, and in the case of a plastic container, a waste end that requires the use of a heat resistance bottle occurs.

  In particular, in the case of Heat Resistance Bottle, there is a closed end that takes twice as much as the cost of a container compared to a normal resistance bottle containing a normal drink, as well as a component of the resin in which the hot drink is contained in the container. These components are called environmental hormones, which are caused by the use of PET-based resins because PE is relatively safe but lacks transparency.

  Environmental hormones are especially severe in the polycarbonate series, and countries are strictly controlling their use.

  In addition, conventional beverages start fermentation at the same time as the preparation of the beverage, and such fermentation has the effect of reducing the quality of the beverage by changing the taste or aroma of the ingredients, and in some cases, chemical reactions when specific ingredients are added. However, it may not be added due to its toxicity.

  In the case of vitamin C beverages, the vitamin C beverages are unstable in aqueous solution, and the vitamin C beverages are oxidized when they are bottled and distributed. The rate is explosive. As time passes, vitamin C will be lost. (The difference in the rate of vitamin C oxidation depends on the contents of milk and carbonic acid.)

  In addition, vitamin C beverages contain some preservatives to prevent such oxidation, especially when sodium benzoate is added, which delays the oxidation of vitamin C but causes a fatal defect that causes benzene, a carcinogen. In order to overcome this problem, the yellow pigment No. 4 synthetic coloring agent is added to the situation that is causing the illegal creation of vitamin C beverage.

  In conclusion, in the case of vitamin C beverages, it is converted into vitamin C and vitamin C oxides for oxidation, and thus, consumers have an end to ingesting vitamin C and vitamin C oxides for oxidation instead of reducing vitamin C.

  In addition, aromas are often added to beverages in order to adapt the beverage's choice from taste to smell as the times change.

  In particular, when a drink is opened rather than a taste that is dependent on the tongue, the aroma exposed to the air responds to the sensitive smell, and consumers feel a strong desire to accept the drink. It is difficult to deliver 100%, thus adding more artificial flavors.

  In addition, conventional beverages, if added to certain ingredients, are not mixed with the liquid and are classified and accumulate at the bottom of the container, which eventually leads to solidification over time or to an unpleasant feeling for the consumer. do.

  In view of the safety of conventional beverages, alcoholic beverages or other foods or pharmaceuticals, a technique for preserving the ingredients for the beverage in a separate lid and allowing the contents of the lid to be mixed into the container during the opening of the lid by the consumer are proposed. have.

  The above-mentioned technology may be referred to as a heterogeneous substance receiving device, and this technology has been proposed in various ways from beverages to pharmaceuticals, chemicals or other household goods, and these technologies are summarized as follows.

  The technical divisions applicable to the containers include bottles such as plastic bottles, metal tubes such as stone or aluminum, cartons such as carton packs and tetrapacks, glass bottles such as glass, pouch containers made of soft packaging, syringes and capsules. The shape of the container may be classified into a pressure resistance bottle, a normal resistance bottle, a heat resistance bottle, a heat and pressure resistance bottle, and the like.

  However, the problem is that it is difficult to apply a heterogeneous material receiving device to a heat resistance bottle and a heat and pressure resistance bottle.

  Of course, the present invention (PCT / KR08 / 00993) can be overcome if the special design, but the majority of the technology has a disadvantage that can not be overcome, this reason can be summarized and understood in the following.

  In general, carbonated beverages applied to pressure-resistant containers find stability while carbon dioxide is dissolved in water, and when the temperature rises above the appropriate level or shakes the container, dissolution begins. Gas pressure is generated.

  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.

The prior art PCT / KR08 / 00993 is a device in which the gas pressure inside the container is removed at the same time as the bottle cap is opened, and at the same time, the heterogeneous substances in the container are dropped and mixed into the container. The gas pressure inside the container is accommodated, and the gas pressure received is a technology in which the contents of the container are mixed into the container in the process of the balance between the gas pressure inside the container and the internal gas pressure of the container.

In the above-described technology, the receiving device and the main body are integrally formed, and in the present invention, the receiving device is separated from the main body, and by selectively assembling the receiving device of the present invention to a commonly used main body, production costs can be increased. It is possible to reduce and manufacture in large quantities, and to efficiently manage the inventory, which has an object of making the opportunity cost of the consumer (beverage factory) accommodating the technical configuration of the present invention more affordable.

 The inside of the container contains a pressure gas, the bottle cap which is a heterogeneous material receiving device is coupled to the center of the container neck in the direction of discharging the contents of the container, the heterogeneous material receiving device has a receiving part having a storage space, In the storage space, a pressure gas is incorporated or the gas pressure inside the container is balanced by moving the gas pressure inside the container into the container by a check valve provided in the container part of the container. When the main body constituting a part of the bottle cap integrated with the device, that is, the main body equipped with the receiving device, is opened, the gas pressure contained in the first container is discharged, and then optionally a check valve installed in the receiving part of the receiving device. The sealed part is opened by the gas pressure in the storage space of the receiving portion, and the heterogeneous material in the receiving portion of the receiving device falls into the container. A bottle cap for pressurized gas that is by default.

And the receiving device having a storage unit with the storage space is configured to be coupled in a manner that fits inside the body constituting a part of the bottle cap.

    In addition, the receiving device is assembled in the upper direction of the internal thread of the main body, or the receiving device is sealed to the upper portion of the receiving portion with the seal portion, the receiving portion sealing hole which is the lower side of the receiving portion is optionally combined with a check valve also acts as a sealing portion will be.

And the check valve is provided with a moving passage for moving the gas pressure to the interior of the receiving portion when the pressure occurs inside the container, the gas flow passage of the check valve is restored and resealed using a cutting tool or a sharp cut part It is a valve or a one-way gas movement method of the form is applied.

In addition, the check valve has a moving passage for moving the gas pressure to the interior of the receiving portion when the gas pressure occurs in the container, and the check valve is the check valve in the direction of the container when the gas pressure in the container is removed It can be configured to be spaced apart.

According to one aspect, the bottle cap for the pressure gas is coupled to the container neck of the container containing the pressure gas, the body is coupled to the center of the thread formed on the neck of the container, the heterogeneous material is coupled around the body inner space of the body The prefabricated receiving device and the prefabricated receiving device include a receiving part having a storage space, wherein the storage space includes a gas or a check valve for moving a gas in which the gas inside the container is movable to the storage part of the receiving part. When the main body of the prefabricated receiving device is opened from the container neck, the pressure gas contained in the container is discharged, and at the same time, the heterogeneous material contained in the storage space of the container together with the pressure gas contained in the storage space of the container is together. The sealing part which can be dropped and mixed inside is formed in the receiving part sealing hole below the storage space of the receiving part to be.

And the upper portion of the receiving portion of the prefabricated receiving device has an upper adhesive surface, the seal portion is bonded to the center around the upper adhesive surface, the receiving portion sealing hole which is a lower opening is connected to a part of the receiving portion of the form that is not separated. It combines the seal.

     In addition, the sealing part is a check valve form that allows the gas inside the container to move the gas into the interior of the receiving portion, and constitutes a check valve to allow gas to flow into the storage space of the receiving portion on a portion of the receiving portion of the receiving device.

    And the seal portion is made of a multi-layer film, the sealing portion is coupled to the receiving portion sealing hole in the lower portion of the receiving portion, the receiving portion sealing hole in the check valve coupling portion, the check valve coupling portion in the check valve Is preferably a check valve having a coupling protrusion that is movable downward and is prevented from being separated.

According to another aspect, the bottle cap for the pressure gas coupled to the container neck of the container containing the pressure gas, the body is coupled to the center of the thread formed on the neck of the container, the heterogeneous material is coupled around the body inner space of the body The prefabricated accommodating device and the prefabricated accommodating device includes a storage space inside the receiving part having a storage space, and the storage space contains gas or the gas contained in the container is a storage space of the accommodation part. A check valve for moving the pressure gas is installed, and when the main body in which the prefabricated receiving device is assembled is opened from the neck of the container, the pressure gas inside the container is discharged, and at the same time, the pressure gas in the storage space of the receiving part is held together with the pressure gas contained in the receiving part. A sealing part capable of drop-mixing of dissimilar materials in a storage space together into the container; Is assembled around the receiving part sealing hole by placing the receiving part sealing hole below the receiving part, and the sealing part is connected to the connecting rod which is attached to the sealing part and extends downward, and the bottle cap is separated from the container. The gas pressure contained in the container is removed, and at the same time, the flexible seal portion is extended upward by the internal gas pressure of the accommodating portion, and the accommodating airtight hole is opened while the sealing portion is pushed upward.

     And the seal portion is a multilayer film; alternatively, the seal portion is capable of forming a possible fold that extends upward.

In addition, the seal may be a check valve, and may further include a check valve capable of introducing gas into the container into the storage space of the accommodation device.

  Separately manufacturing the receiving device containing the heterogeneous material, the receiving device is formed in the form of the product is fitted into the interior of the general body bar, in order to complete the bottle cap of the present invention by manufacturing only the receiving device conventional body It has a very economical effect when combined with, and has the characteristic of having very efficient productivity.

1 is a longitudinal sectional view of the bottle cap of the present invention.
Figure 2 is a longitudinal sectional view showing a state in which the bottle cap of the present invention coupled to the container neck.
3 is a longitudinal sectional view of the main body;
Figure 4 is a longitudinal cross-sectional view showing the separation state of the receiving device.
5 and 6 show another embodiment of the present invention, FIG. 5 is a longitudinal cross-sectional view of the main portion of the bottle cap showing a state in which the bottle cap is coupled to the container neck, and FIG. .
7 to 11 show another embodiment of the present invention, Figure 7 is a longitudinal cross-sectional view of the bottle cap is assembled to the neck of the container, Figure 8 is a longitudinal cross-sectional view of the main portion showing the state in which the sealing operation, Figure 9 is closed The top view of the part, and FIG. 10 is a longitudinal sectional view of the main part in which the sealing part is assembled in the receiving part sealing hole of the accommodating part, and FIG. 11 is a bottom view of the main part showing the surrounding part of the receiving part sealing hole of the accommodating part.
12 to 14 show another embodiment of the present invention, Figure 12 is a longitudinal cross-sectional view showing a state in which the bottle cap is coupled to the neck of the container, Figure 13 shows the opening of the receiving unit in the process of opening the bottle cap 14 is a longitudinal sectional view showing a state in which the seal portion of the accommodation device is deformed.

 A first embodiment of the present invention will be described with reference to FIGS. 1 to 4 as follows.

The inside of the container 300 is a pressure gas, the center of the container neck 301 which is the discharge direction of the contents of the container 300 is based on the base of the bottle cap (1) is coupled to the heterogeneous material receiving device have.

And the inside of the main body 100 of the bottle cap (1) has a receiving device 200, the receiving device 200 has a receiving portion 210 having a storage space 211, the storage space 211 In the pressure gas is inserted into the container 300 or the gas pressure inside the container 300 by the sealing unit 220 or the separate check valve 230, etc. installed in the receiving unit 210 of the receiving device 200, The gas pressure inside moves to the inside of the receiving device 200 to achieve a balance.

In addition, when the main body 100 constituting a part of the bottle cap 1 integrated with the accommodation device 200, that is, the main body 100 equipped with the accommodation device 200 is opened, the first container 300 is inside. The gas pressure is removed (that is, discharged), and is then installed in the receiving portion 210 of the receiving device 200, optionally the sealing portion 220 also serves as a check valve of the receiving portion 210 It is opened by the gas pressure in the storage space 211 and has a basic configuration so that the heterogeneous material contained in the receiving portion 210 of the receiving device 200 is mixed dropping into the container 300.

And the receiving device 200 having the receiving portion 210 having the storage space 211 is coupled in the manner of being inserted into the body 100 constituting a part of the bottle cap (1).

     In addition, the accommodating device 200 is assembled in a form that is formed inside the main body 100 consisting of the upper surface portion 101 and the side surface portion 102 and the upper direction of the thread 103, but a slight change in the coupling method is It is possible to be changed freely within the scope of the invention.

 And the receiving device 200 is to seal the upper portion of the accommodating portion 210 with the seal portion 240, the sealing portion 220 is coupled to the receiving portion sealing hole 212 that is the lower portion of the receiving portion 201, The seal 220 may also serve as a check valve.

 In addition, the closing part 220 serving as the check valve has a moving passage for moving the gas pressure into the receiving part 210 when pressure is generated in the container 300.

 The method of providing a moving passage in the closed portion 220 of the check valve type, a hole or one direction of the re-sealed and re-sealed form using a cutting surface 221 or a sharp tool that cut a part of the sealed portion 220 A gas transfer valve or the like can be applied.

 In addition, the check valve-shaped sealing part 220 has a moving passage for moving the gas pressure into the receiving part 210 when gas pressure is generated in the container 300 and the sealing part 220 at the same time. ) Check valve is configured such that the check valve is spaced apart in the direction of the container 300 when the gas pressure in the container 300 is removed.

The assembly state of the bottle cap 1 configured as described above is as shown in Figure 1, the method of putting the heterogeneous material in the storage space 211 of the receiving portion 210 which is the interior of the receiving device 200, the receiving portion After the sealing unit 220 is coupled to the 210 and the upper portion of the storage space 211 is opened, the heterogeneous material is put into the storage space 211, and then a separate seal portion 240 is formed on the upper portion of the accommodation portion 210. Suture is a good example.

And alternatively, after sealing the upper portion of the accommodating part 210 with the seal part 240, and put the heterogeneous material through the accommodating part sealing hole 212 of the accommodating part 210, the accommodating part sealing hole 212 It is also a good way to seal the with a separate seal 220.

In addition, the receiving device 200 has a portion that serves as the container neck sealing portion 213 elastically rides over the thread 103 or the outer end of the seal portion 240 is riding on the thread 103 elastically. It can be coupled to the main body 100, but not limited to this, place a separate groove or jaw on the inner wall surface of the side portion 102, which is the upper side of the thread 103, the container wooden sealing of the receiving portion 210 in the portion The part 213 may be configured to be caught.

The bottle cap 1 as described above is coupled to the container screw thread 302 of the container neck 301 of the container 300 containing the pressure gas, which is illustrated in FIG. 2. .

When the pressure gas is contained in the storage space 211 from the beginning, the sealing unit 220 is opened by the pressure before the container 300 is coupled to the container 300, so that the pressure gas in the storage space 211 is constant. The contents forming the pressure gas, that is, the movement of the gas molecules, are mixed with the heterogeneous material and the pressure gas in the storage space 211 so as not to react for a time, and also instantaneous freezing (preferably at an absolute temperature). To a solid state and put it in the storage space 211.

Such a receiving device 200 is coupled to the container neck 301 of the container 300 containing the pressure gas (or the contents of the free form, such as mixing the pressure gas in various contents) and after a certain time the storage space ( As the contents of the solid state in 210 are lowered in temperature, some are dissolved and some are separated from water molecules to form gas pressure in the storage space 211, but a pressure gas is already formed inside the container 300. Therefore, the gas pressure formed in the storage space 211 may not open the sealing unit 220.

And when the bottle cap 1 is coupled to the container neck 301 in a state in which there is no gas pressure in the storage space 211, the gas pressure inside the container 300 (if present) is momentarily received ( The pressure gas is moved to the storage space 211 of the receiving portion 210 through the check valve 230 formed in a part of the 200, the moved pressure gas is a storage space above the gas pressure formed in the container 300 It is not moved to 211 and is balanced.

In the above state, when the product selected by the consumer habitually opens the main body 100 constituting a part of the bottle cap 1 without the consumer having any knowledge, the main body 100 is a container neck ( 301 of the container screw thread 302 is opened, and if the clearance occurs while the container neck sealing part 213 is out of the upper end of the container neck 301 in the above-described process, the pressure gas inside the container 300 immediately Will be released.

At this time, it is a matter of course that a considerable amount of carbon dioxide forming a pressure gas is dissolved in water molecules contained in the vessel 300.

In the above process, even if only slightly rotated in the opening direction of the main body 100, it is obvious that it is the safest model to design the container neck sealing part 213 to be out of the upper end of the container neck 301. This is, of course, the basis of the design that is applied to prevent the bottle cap 1 is suddenly separated from the container neck 301 by the pressure of the carbon dioxide gas to impact the part of the body. .

In addition, as described above, when the pressure gas contained in the container 300 is discharged in the process of separating the bottle cap 1 from the container neck 301, the storage space 211 due to the gas pressure is lost in the container 300. The contents are lost in balance and immediately concentrated in the closed part 220 which is a weak part, and the concentrated gas pressure is opened before the bottle cap 1 is separated from the container neck 301 and stored in such a process. The heterogeneous materials in the space 211 are dropped and mixed into the container 300 in an instant.

For reference, the heterogeneous material in the storage space 211 pushes the sealing part 220 blocking the accommodating part sealing hole 212 by gas pressure, and through the accommodating part sealing hole 212 formed in the above process. The heterogeneous material contained in the storage space 211 is dropped and mixed into the container 300.

As a supplementary explanation, the check valve 211 may be a one-way check valve as a base, and the sealing part 220 may serve as a check valve. In this case, the check valve 230 is separately provided to the receiving device 200. ) Is not formed, the sealing unit 220 is designed to also serve as a check valve.

Although the check valve integrated seal 220 may be designed in various ways, the cutting surface 221 may be formed in a process of forming the seal 220 by using a sharp tool or a part of the seal 220 in a very simple manner. It is possible to do

According to an experiment conducted to complete the present invention, such a cutting surface 221 is preferable to have a size of the cutting surface 221 of about 1MM, otherwise, if a hole is formed by making a tool like a needle, the hole is instantaneously formed. As soon as the needle leaves the sealing part 220, the hole is blocked, and the heterogeneous material contained in the storage space 211 may be sealed without flowing out.

However, after the cutting surface 221 manufactured in the above-described form is partially bonded to the container 300, some play occurs in the cutting surface 221 immediately by the gas pressure formed in the container 300, and using the generated gap. Although the pressure inside the container 300 moves to the storage space 211, this is instantaneous, and the heterogeneous material contained in the storage space 211 cannot be moved into the container 300.

In addition, another method of making the gas flow passage in the sealing unit 220, there may be a thin valve 222 that opens in one direction, the thin valve 222 is closed immediately after opening by pressure, Obviously, it is a form suitable for preserving the contents of the storage space 211.

In addition, the sealing part 220 has a connection part 223 having a perforation part 224 for fixing, and a fixing part in which the perforation part 224 of the connection part 223 is formed at the bottom of the receiving part 210. To be coupled to 214, but the method of connecting the seal 220 around the containment enclosure 212 of the receptacle 210 is a number of other approaches, which is an additional means.

In addition, the sealing part 220 maintains hermeticity by contacting the outer wall part 225 of the sealing part 220 with the sealing wall 215 of the receiving part sealing hole 212, so that additional design of the minute sealing part is possible. As such, it may be possible to add a groove or a protrusion to the closed wall 215, or to add a solid line in a reduced form to add elasticity to the outer wall 225.

The seal adhesive surface 241 of the seal portion 240 for hermetically sealing the storage space 211 is adhered to the upper upper adhesive surface 216 of the accommodating portion 210 by thermal bonding or the like. The material of the multi-layer film, that is, the gas barrier material is good, and the thickness of the seal portion 240 is suitable around 100um.

In addition, as shown in FIG. 4, the "A" portion of the seal portion 240 is enlarged, "A" portion is good multi-layer film form, the process of laminating the film to select a variety of materials, for example, LLDPE, LDPE, You can choose from HDPE, PP, EVA, PET, NYLON, AL, etc., which is universal.

The bottle cap 1 configuration of the present invention as described above can be summarized as follows, which is intended to be interpreted in a broader sense without limiting the technical configuration.

The bottle cap 1 for the pressure gas (or the gas pressure) coupled to the container neck 301 of the container 300 containing the pressure gas is centered on the container screw thread 302 formed in the container neck 301. The prefabricated receiving device 200 and the prefabricated receiving device 200 containing heterogeneous materials are coupled to the main body 100, the main body inner space 104 of the main body 100, the prefabricated receiving device 200 is a storage space ( With a receiving portion 210 having a 211, the storage space 211 contains a gas, or the gas inside the container 300, the pressure to move to the storage space 211 of the receiving portion 210 It is preferable that the check valve 23 for gas movement is provided.

When the main assembly 100 in which the prefabricated accommodating device 200 is assembled is opened from the container neck 301, the pressure gas inside the container 300 is discharged, and at the same time, into the storage space 211 of the accommodating part 210. The storage part 211 of the accommodating part 201 includes a sealing part 220 in which heterogeneous substances contained in the storage part 211 of the accommodating part 210 together with all the pressure gas are dropped and mixed together into the container 300. ) It is formed in the receiving portion sealed hole (212).

In addition, the upper portion of the receiving portion 210 of the prefabricated accommodating device 200 has an upper adhesive surface 216, the seal portion 240 is bonded to the center of the upper adhesive surface 216, the lower opening portion The receiving part sealing hole 212 is coupled to a part of the receiving part 210 is coupled to the sealing portion 220 of the non-separable form.

     In addition, the sealing part 220 may be deformed in the form of a check valve in which gas inside the container 300 may move gas into the interior of the receiving part 210.

 In addition, a portion of the receiving portion 210 of the receiving device 200 is configured to check valve 230 that can be introduced into the storage space 211 of the receiving portion 210.

     In addition, the sealing part 240 adhered to the upper portion of the accommodating part 210 constituting the accommodating device 200 is preferably made of a multilayer film, and in the case of the sealing part 220, the connecting part 223. With the projection 226 on the upper surface in the opposite direction, the projection 226 is to serve to prevent the opening sealing portion 220 to block the receiving portion sealing hole (212) again.

     In another embodiment (FIGS. 5 and 6), as an example of a modification of the sealing part 220 installed in the receiving part sealing hole 212, the sealing part 220 is located below the receiving part 210. Coupled to the center of the ball 212, the receiving portion sealing hole (212) is provided with a check valve coupling portion 217, the check valve coupling portion 217 sealing portion 220 also serves as a check valve Is provided with a coupling protrusion 227 which is movable downward and is prevented from being separated.

    In the use of the present invention, opening the bottle cap 1 lowers the gas pressure inside the container 300 and seals the pressure gas together with the heterogeneous material due to the gas pressure in the storage space 211. Pushing the 220 downward, the sealing portion 220 is out of the receiving portion sealing hole 212 in the above process, the contents of the storage space 211 in the same process as shown in FIG. It is to be mixed drop into the container 300 through the 212.

     In addition, the sealing part 220 has a coupling protrusion 227 and is integrally connected without being separated from the accommodating part 210, and when the check valve 230 is not separately installed in the accommodating part 210, the sealing part is sealed. The check valve may be designed in the unit 220. In this case, as shown in FIG. 5, it is economical to perform the check valve shape with the cutting surface 221, but other methods such as the seal unit 220 and the check valve are integrated. Any change in design is possible.

     As an example of a modification (see FIGS. 7 to 11), referring to FIG. 7, the sealing part 220 is coupled to the receiving part sealing hole 212 below the receiving part 210, and the sealing part. An upper end portion 229 of the sealing part is formed in an upper direction of the 220, and an elastic piece 228 is formed in the sealing upper end part 229, but the elastic piece 228 is a receiving part sealing hole 212. It is configured to be larger than the receiving portion sealing hole (212) so as not to escape.

    And the elastic piece 228 is composed of a plurality of resilient pieces 228 even if the sealing portion 220 is opened as shown in FIG. 8 so as not to leave the receiving portion sealing hole 212 than the receiving portion sealing hole 212 In a more open state, the elastic piece 228 is preferably composed of two to five pieces, but the number of the elastic pieces 228 is not limited.

    9 shows a plan view of the sealing part 220, and shows that the elastic piece 228 formed in the sealing part 220 and the cutting surface 221 serving as a check valve can be variously formed.

    Referring to FIGS. 10 to 11, the sealing part 220 is coupled to the receiving part sealing hole 212 below the receiving part 210, and the receiving part sealing hole 212 has a plurality of parts. The sealing part catching piece S is provided, and the sealing part catching piece S is configured to catch the sealing part upper end part 229 formed on the upper side of the sealing part 220.

    In the state as shown in FIG. 10, when the sealing part 220 is lowered, the upper end part 229 of the hook type is not caught and separated from the sealing part catching piece S which maintains a predetermined angle upward. .

    Fig. 11 is a bottom view of the main part showing the closed part engaging piece S;

    As another embodiment (see FIGS. 12, 13, and 14), the bottle cap 1 for the pressure gas coupled to the container neck 301 of the container 300 containing the pressure gas is provided in the container neck 301. Body 100 coupled to the center of the formed container screw thread 302, prefabricated receiving device 200 containing a heterogeneous material is coupled to the main body inner space of the main body 100, and the prefabricated receiving device 200 ) Is a receiving portion 210 having a storage space 211 is configured.

    In addition, the storage space 211 is provided with a check valve 230 for moving the gas or the gas inside the container 300 can move to the storage space 211 of the receiving portion 210. .

In addition, when the main assembly 100 in which the prefabricated receiving device 200 is assembled is opened from the container neck 301, the pressure gas contained in the container 300 is removed, and at the same time, the storage space 211 of the receiving unit 210 is removed. Together with all the pressure gas to form a sealed portion 220 that can be mixed with the heterogeneous material in the storage space 211 of the receiving portion 210 into the container 300.

In addition, the sealing part 220 has a receiving part sealing hole 212 below the receiving part 210 to be assembled around the receiving part sealing hole 212, and the sealing part 220 is connected to the connecting rod 250. It is bonded to the seal portion 240 by the connecting portion adhesive portion 251 of the).

In the use of the present invention (see FIG. 12), when the bottle cap 1 is separated from the container 300, the gas pressure contained in the container 300 is removed, and at the same time, the seal part 240 has elasticity. ) Is expanded upward by the internal gas pressure of the accommodating part 210, and the sealing part 220 is raised upward as the connecting part 250 attached to the seal part 240 is raised in the above process. The sealing hole 212 is opened as shown in FIG. 13.

As shown in FIG. 13, the contents in the storage space 211 are dropped and mixed into the inner space of the container 300 through the receiving part sealing hole 212 together with the pressure gas.

In addition, the seal part 240 may achieve the object by various methods such as a multilayer film or a film material by a method such as a vacuum or the like, or a method of thermoforming or injection molding a resin having a barrier property.

    In addition, as shown in FIG. 14, the seal portion 240 may be formed with a possible folding portion 242 extending upward, and the sealing portion 240 is moved upward by the folding portion 242. It is free to expand further, and the fold 242 can be eccentric as shown in FIG.

    And if the folding portion 242 is formed eccentrically, the connecting rod 250 is formed in the form of bending in one direction as shown by the dotted line in Figure 14, the pressure formed in the seal portion 240 is eliminated When the sealing unit 220 attached to the lower portion of the connecting rod 250 is out of the receiving portion sealing hole 212, it is easy to fall the contents of the storage space 211.

    Of course, the contents of the storage space 211 falls with the pressure gas, so it does not help much because it falls very instantaneously, but it is considered considering the drop according to the viscosity of the contents.

In addition, the closed part 220 may be configured as a check valve, and in particular, it is preferable to use a check valve that allows gas inside the container 300 to flow into the storage space 211 of the receiving device 200. .

In addition, the check valve may be grafted in various ways such as a cut surface or a one-way valve, and the check valve may be integrally attached to the sealing part 220 or separately manufactured to be attached to an arbitrary part of the receiving part 210. It is possible (see the part shown with a dotted line in Fig. 14 (check valve 230))

Reference numeral 105 in the figure is a forgery prevention frame.

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: thread
104: inner space of main body
200: receiving device
210: receiver
211: storage space
212: airtight seal
213: container neck seal
214: fixed part
215: sealed wall
216: upper adhesive surface
217: check valve coupling unit
220: sealing part
221: cutting surface
222: Thin Valve
223 connection
224: perforation
225: outer wall
226: protrusion
227: engaging projection
228: elastic piece
229: upper end of the sealing part
230: check valve
240: seal part
241: sealing adhesive surface
242: folds
250: connecting rod
251: connecting part
300 container
301: container
302: screw thread
S: Sealing Part

Claims (20)

The inside of the container contains a pressure gas, the bottle cap which is a heterogeneous material receiving device is coupled to the center of the container neck in the direction of discharging the contents of the container, the heterogeneous material receiving device has a receiving part having a storage space, In the storage space, a pressure gas is incorporated or the gas pressure inside the container is balanced by moving the gas pressure inside the container into the container by a check valve provided in the container part of the container. When the main body constituting a part of the bottle cap integrated with the device, that is, the main body equipped with the receiving device, is opened, the gas pressure contained in the first container is discharged, and then optionally a check valve installed in the receiving part of the receiving device. The sealed part is opened by the gas pressure in the storage space of the receiving portion, and the heterogeneous material in the receiving portion of the receiving device falls into the container. In the bottle cap for a pressurized gas such that,
The receiving device having a storage unit having the storage space is a bottle cap for the pressure gas having a prefabricated receiving device into the interior of the main body configured to engage in a manner that is inserted into the interior of the body constituting a part of the bottle cap.  The bottle cap for a pressure gas according to claim 1, wherein the receiving device has a prefabricated receiving device in the body which is to be assembled in an upper direction of the internal thread of the main body. The receiving device according to claim 1, wherein the receiving device seals the upper part of the receiving part with a seal part, and the receiving part sealing hole, which is the lower part of the receiving part, is provided with a prefabricated receiving device inside the main body to engage a check valve, which optionally also serves as a sealing part. One pressure gas bottle cap. 4. The bottle cap for a pressure gas according to claim 3, wherein the check valve has a moving passage for moving the gas pressure to the inside of the receiving part when a pressure is generated inside the container. . 5. The main body according to claim 4, wherein the gas flow passage of the check valve is provided with a hole or a one-way gas flow valve, which is reconstructed and resealed using a cutting surface or a sharp tool which is partially cut. Bottle cap for pressure gas with a prefabricated receiving device in the interior of the. The check valve of claim 3, wherein the check valve has a moving passage for moving the gas pressure to the inside of the receiving part when a gas pressure is generated inside the container, and the check valve is checked when the gas pressure inside the container is removed. The bottle cap for the pressure gas having a prefabricated receiving device to the inside of the body, characterized in that the valve is configured to be spaced apart in the container direction. The bottle cap for the pressure gas coupled to the container neck of the container containing the pressure gas, the main body is coupled to the center of the screw thread formed in the neck,
And prefabricated receiving device containing a heterogeneous material coupled to the main body inner space of the main body,
The prefabricated accommodating device includes an accommodating part having a storage space, and the storage space includes a check gas valve for moving a gas, or a gas inside the container to move the gas into the storage space of the accommodating part.
Opening the main body assembled with the prefabricated receiving device from the neck of the container removes the pressure gas contained in the container, and at the same time, the heterogeneous materials contained in the storage space of the container together with the pressure gas contained in the storage of the container are dropped and mixed together. A bottle cap for a pressure gas having a prefabricated accommodating device inside the main body, characterized in that the sealing portion can be formed in the accommodating part sealing hole which is below the storage space of the accommodating part.
According to claim 7, wherein the upper portion of the receiving portion of the prefabricated receiving device has an upper adhesive surface, the seal portion is bonded to the center around the upper adhesive surface, and the receiving portion sealing hole which is a lower opening is connected to a portion of the receiving portion Bottle cap for pressure gas provided with a prefabricated receiving device to the inside of the main body, characterized in that the non-separable sealing unit is combined.
According to claim 8, wherein the sealing portion is a bottle cap for the pressure gas having a prefabricated receiving device in the interior of the main body, characterized in that the gas in the container is a check valve that can move the gas into the interior of the receiving portion.
8. The bottle cap for a pressure gas according to claim 7, wherein a part of the accommodating part of the accommodating part includes a check valve through which gas can be introduced into the storage part of the accommodating part.
9. The bottle cap for a pressure gas according to claim 8, wherein the seal part is made of a multilayer film.
 The method of claim 8, wherein the sealing portion is coupled to the receiving portion sealing hole below the receiving portion as a center, the receiving portion sealing hole has a check valve coupling portion, the check valve coupling portion to the check valve is moved downward The bottle cap for the pressure gas having a prefabricated receiving device inside the body, characterized in that the check valve having a coupling projection that can be prevented from being separated. The bottle cap for the pressure gas coupled to the container neck of the container containing the pressure gas, the main body is coupled to the center of the screw thread formed in the neck,
And prefabricated receiving device containing a heterogeneous material coupled to the main body inner space of the main body,
The prefabricated accommodating device includes a storage space therein with a storage unit having a storage space therein, and the storage space includes a gas or a check gas valve for moving a gas into a storage space of the gas contained in the container. Is installed,
Opening the main body assembled with the prefabricated receiving device from the neck of the container discharges the pressure gas contained in the container, and at the same time, the heterogeneous substances in the storage space together with the pressure gas contained in the storage space of the accommodating part fall into the container. Make up the possible sealing part,
The sealing part is assembled around the receiving part sealing hole by placing the receiving part sealing hole below the receiving part, the sealing part is connected to the connecting rod bonded to the seal part and extended downward,
When the bottle cap is separated from the container, the gas pressure inside the container is removed, and at the same time, the flexible seal portion is extended upward by the internal gas pressure of the receiving portion. Bottle cap for pressure gas provided with a prefabricated receiving device, characterized in that the ball is configured to open. The bottle cap for a pressure gas according to claim 13, wherein the seal portion is a multilayer film.
14. The bottle cap for a pressure gas according to claim 13, wherein the seal portion is formed with a foldable portion extending upwardly.
14. The bottle cap for a pressure gas according to claim 13, wherein the seal is a check valve.
 14. The bottle cap for a pressure gas according to claim 13, further comprising a check valve capable of introducing gas into the container into the storage space of the accommodation device. The method of claim 8, wherein the sealing portion is coupled to the receiving portion sealing hole below the receiving portion as a center, the upper portion of the sealing portion to form an upper end of the sealing portion, the upper end of the sealing portion to form an elastic piece, A bottle cap for a pressure gas having a prefabricated accommodating device inside the main body, characterized in that configured to be larger than the accommodating part sealing hole so as not to escape one accommodating part sealing hole.
    19. The bottle cap for a pressure gas according to claim 18, wherein the elastic piece comprises a plurality of elastic pieces. The method of claim 8, wherein the sealing portion is coupled to the receiving portion sealing hole below the receiving portion as a center, the receiving portion sealing hole has a plurality of sealing portion engaging pieces, formed in the upper portion of the sealing portion in the sealing portion engaging piece A bottle cap for a pressure gas having a prefabricated accommodating device inside the body, characterized in that the upper end of the sealing portion is configured to catch.

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