KR20110006737A - Bottle cap for simultaneously dissolveadditives - Google Patents

Abstract

The present invention relates to an additive simultaneous dissolving bottle cap in which the additive contained in the bottle holding part in the bottle cap is opened and the opening and closing portion of the bottle cap is raised at the same time as the additive is dropped into the beverage in the bottle and mixed into the beverage. A receiving portion configured and hollow inside, a flange integrally formed with the receiving portion at the upper outer periphery of the receiving portion, a receiving bottom integrally formed with the receiving portion at the bottom of the receiving portion, and an outflow penetrating the center of the receiving bottom An additive accommodating part configured of a ball; The stopper coupling portion coupled to the outside of the bottleneck of the bottle, the stopper coupling portion is integrally formed on the top of the stopper coupling portion and seals the upper surface of the stopper coupling portion, and integrally formed with the stopper upper surface in a cylindrical form in the inner center Consists of a bottle cap protruding and opening and closing the opening and closing the outflow hole; When the bottle cap is opened, the opening and closing part opens the outflow hole, and the additive filled in the additive receiving part is dropped and mixed into the beverage inside the bottle. When the beverage inside the bottle is opened, only the bottle cap is opened and the additive in the additive receiving part is dropped. It is mixed with the inner beverage, and the opening and closing part opens the outlet hole, so that the opening of the outlet hole is easy, and the additive receiving part is configured inside the bottleneck, so that it is not easily damaged by carelessness such as transportation, and the bottle cap is sealed by the sealing action. There is no effect that the cylindrical sealing portion is formed in close contact with the upper surface inside.

Description

Additive co-dissolving bottle cap {Bottle cap for simultaneously dissolveadditives}

The present invention relates to a bottle cap dissolving additives, and more specifically, an additive contained in the additive holding part inside the bottle bottle open the bottle cap and at the same time the opening and closing portion configured in the bottle cap is raised, the additive is dropped into the beverage in the bottle and mixed into the beverage It is about a simultaneous dissolution bottle cap.

Most drinks and beverages currently distributed and sold are designed to store and use only one type of substance in a bottle.If a user wants to confuse liquid or powdered nutrients while drinking drinks and beverages, he / she may use a permanent agent. You eat first, then drink a bottled drink.

In addition, when the user wants to drink a mixture of plum extract, lemon, liquor or a liquid beverage that makes alcohol less drunk, the user adds plum extract to the bottle or moves the alcohol into a jug. Plum extracts are put in the kettle to drink.

The beverage bottles of the prior art contain one substance in one container, and when a mixture of two substances is used, there is a lot of inconvenience and inconvenience, so that the additives of the Utility Model Registration No. 20-0304772 can be solved simultaneously. Dissolver bottle caps are being introduced.

The additive co-dissolution apparatus bottle cap is the contents protective film (50J) is formed on the top, the lower screw line 512 is formed on the outside of the top, the inner cap of the central portion of the capper (120K) is formed of a capper (120K), respectively. ) And a receiving portion 100 in which the additive W2 is accommodated.

An air valve cock (100A) is formed on the upper portion of the receiving portion 100, the additive separation membrane (100D) and the discharge port (100Q) is formed therein, and a burstable packaging membrane (120) is provided at the bottom of the inner central portion and the inner bottom It includes an accommodating portion 100 each formed with an upper thread 113, and an additive protection ring (50R) to prevent the additive (W2) is discharged between the stopper 150 and the accommodating portion (100). .

The air valve cock 100A may be used as an inlet when the additive W2 is injected into the receiving part 100 and gradually released by the cohesive force of the liquid additive W2 when the additive W2 is released into the container 130. In order to facilitate the release of the additive (W2) by injecting air from the upper portion of the receiving portion 100 by pressing the side surface.

The additive separator 100D is configured to store and classify one or more additives W2 in the accommodating part 100.

The upper screw thread 113 and the lower screw thread 512 formed on the cap 150 and the receiving part 100 are formed in a direction opposite to the screw thread 140 of the container, so that the receiving part 100 rotates slightly counterclockwise. As the receiving portion 100 is lowered, the tearable packaging membrane 120 is ruptured by the tearable packaging membrane incision 120K to enable the additive W2 to be released and at the same time rotate only the receiving portion 100 in a clockwise direction. Separately injected is configured to be replaced with the receiving portion 100 of the other additive (W2).

The above additive co-dissolution apparatus bottle cap is removed after removing the additive protection ring (50R) provided between the receiving portion 100 and the stopper 150 in order to use the mixed and stored material is separated and stored only the receiving portion 100 By rotating counterclockwise, the burstable packing film 120 is torn by the bursting packing film incision 120K, and the additive discharge port 100Q is opened, so that the additive W2 in the receiving part 100 is transferred to the container 130. It is a structure that falls inside.

In the prior art additive dissolving device bottle cap as described above, if you want to drink by mixing the additive (W2) in the container 100 and the beverage (W1) in the container 130, the additive protection ring (50R) is removed after receiving There is a problem in that the stopper 150 must be opened after rotating the part 100.

In addition, according to the prior art additive dissolving device bottle cap, the receiving part 100 and the stopper 150 is placed in the hand due to the configuration such that the receiving part 100 and the stopper 150 are integrated into the receiving part 100. When rotating the stopper 150 at the same time or rotates only the stopper 150, there is a problem that the receiving portion 100 is also rotated.

In addition, according to the prior art additive dissolving device bottle cap is configured to extend the portion of the container 100 is extended to the neck of the container is protruded from the container is a problem that the breakage of the container 100 is easily damaged by carelessness such as transportation There is this.

In addition, the additive co-dissolution apparatus bottle cap of the prior art has a problem that the overall configuration is complicated because the receiving portion 100 and the cap 150 is configured separately.

The present invention has been proposed to solve the above problems of the prior art, the structure is simple and is not exposed to the outside of the bottleneck, while the opening of the bottle cap is formed in the hollow inside the bottleneck so that the additive falls and the outlet hole is formed in the bottom center And an additive accommodating part having a flange formed at the upper outer periphery and a opening and closing part protruding centrally inside the bottle cap, and containing the additives such as powdered vitamins in the additive accommodating part with the opening and closing part closing the outlet hole of the additive accommodating part. When opening the bottle cap, the opening and closing portion is raised at the same time to open the outflow hole, the additives fall into the beverage inside the bottle to have a purpose.

In the present invention, when the bottle cap is opened, the additive is dropped and mixed into the beverage inside the bottle. In the simultaneous dissolving bottle cap, the bottle part of the bottle is hollow and the inside is hollow, and the receiving part is integrated with the receiving part on the upper outer periphery of the container. An additive accommodating part including a flange configured to include a receiving bottom part integrally formed with the receiving part at the bottom of the receiving part, and an outlet hole penetrated through the center of the receiving bottom part; The stopper coupling portion coupled to the outside of the bottleneck of the bottle, the stopper coupling portion is integrally formed on the top of the stopper coupling portion and seals the upper surface of the stopper coupling portion, and integrally formed with the stopper upper surface in a cylindrical form in the inner center It is composed of a bottle cap protruding and opening and closing the opening and closing the outflow hole.

In addition, the present invention is that the receiving bottom of the additive receiving portion is composed of a flat surface, a straight cone surface or a curved cone shape.

In addition, the present invention constitutes a portion in which the flange is in contact with the inner surface of the stopper portion in a plane. The part in contact with the upper surface of the bottleneck has the same shape as the upper surface of the bottleneck, and the width of the flange is configured to be slightly larger than the thickness of the bottleneck, so that an extra flange larger than the thickness of the neck has the outer and inner sides of the bottleneck. It is constructed to surround the cotton.

In the present invention, the two substances in one container, i.e., the additives are contained and stored in the additive accommodating part, and when the beverage in the bottle is opened, only the bottle cap is opened and the additive is dropped and mixed into the beverage in the bottle.

The present invention has an effect that the opening of the outflow hole is easy by opening and closing the opening of the additive receiving portion configured in the bottle cap.

The present invention has an effect that the additive receiving portion is configured inside the bottleneck is not easily damaged by inadvertent transportation or the like.

According to the present invention, the flange is placed in the upper part of the bottleneck and is located between the upper surface of the bottleneck and the lower surface of the bottle cap so that the sealing action is performed. have.

The present invention is composed of a bottle cap consisting of an opening and closing portion protruding toward the center and the additive receiving portion is formed in the bottom hole and the flange is formed on the upper outer periphery of the bottom is simple.

1 is a cross-sectional view of the prior art.
2 is a perspective view of the present invention.
3 is a cross-sectional view of the present invention with additives.
4 is an operational state diagram of the present invention.
5 is a cross-sectional view of another embodiment of the present invention incorporating additives.
6 is a perspective view of an additive accommodating part which is another embodiment of the present invention.
7 is a cross-sectional view of another embodiment of the present invention with additives included.
8 is a perspective view of an additive accommodating part which is another embodiment of the present invention.
9 is an enlarged cross-sectional view of the present invention.

2, which is a perspective view of the present invention, and FIG. 3, which is a cross-sectional view of the present invention including the additive, the present invention, when the cap 10 is opened, the additive (a) is dropped and mixed into the beverage (W) inside the bottle (a). In the simultaneous dissolving bottle cap 10, the bottle cap 10 includes an additive accommodating part 20 for accommodating the additive (a) and an opening and closing part 13 for opening and closing the additive accommodating part 20.

The additive accommodating part 20 is composed of a receiving part 21, a flange 22, a receiving bottom 23 and an outlet hole 24, the bottle cap 10 is a stopper upper portion 12 and a stopper coupling portion ( 11) and the opening and closing portion 13, the stopper 10 is composed of a stopper coupling portion 11, the stopper upper portion 12 and the opening and closing portion (13).

The accommodating portion 21 is inserted into the bottleneck of the bottle, the inside of the hollow configuration and may be configured to be in close contact with the inner surface of the bottleneck or spaced apart.

When the receiving portion 21 is in close contact with the inner surface of the bottleneck, when the additive (a) is dropped, it is not well drawn out when the additive receiving portion 20 is withdrawn from the bottle to facilitate the drinking of the beverage (W). If the accommodating part 21 is spaced apart from the inner surface of the bottleneck, it is easy to withdraw the additive accommodating part 20 from the bottle.

The flange 22 is integrally formed with the upper portion of the receiving portion 21, but is configured in the shape of a flange 22 protruding outward from the upper outer periphery.

The flange 22 is placed in the upper part of the bottleneck, the width of the flange 22 is the same as the thickness of the bottleneck or a little larger than the bottleneck when the bottle cap 10 is in close contact with the bottleneck bottle cap 10 (10) It is located between the lower surface of the) to act as a sealing, and also to prevent the additive receiving portion 20 to slide in the bottleneck to fall into the bottle.

 As shown in FIG. 9, which is an enlarged cross-sectional view of the present invention, a cross section of the flange 22 has a flat surface portion and a portion contacting the upper surface of the bottleneck is the same shape as the upper surface of the bottleneck. The width of the flange 22 is configured to be slightly larger than the thickness of the bottleneck to maximize the effect of the sealing.

That is, the surface of the flange 22 is the same as the shape of the other parts in contact, and the width of the flange 22 having a larger width than the thickness of the bottle neck to cover the outer surface and the inner surface of the bottleneck to enhance the sealing effect. .

In addition, the flange 22 is placed in the upper portion of the bottleneck is located between the upper surface of the bottleneck and the lower surface of the bottle cap 10 to perform a sealing action by the upper surface of the inside of the bottle cap 10 constituted by a conventional bottle cap 10 The cylindrical sealing part constituted of a synthetic resin or the like which is in close contact with one another becomes unnecessary.

The receiving bottom 23 is integrally formed with the receiving part 21 at the bottom of the receiving part 21 and is formed as an inner surface of the receiving part 21 as an inner surface, that is, a predetermined space together with the receiving part 21. The additive receiving space is formed to accommodate the additive (a).

In other words. The additive accommodating part 20 is configured to have a cylindrical shape in which one side is open, but a through hole in which the inner and outer parts communicate with each other.

The outlet hole 24 is configured to penetrate through the center of the receiving bottom 23 so that the space formed by the receiving bottom 23 and the receiving part 21, that is, the space of the additive accommodating part 20, that is, containing the additive (a) is accommodated. It communicates with the interior of the space and the bottle serves as a passage for the additive (a) accommodated in the additive (a) receiving space falls into the bottle.

The stopper coupling portion 11 is formed in a cylindrical shape, such as a bottleneck, but the inner circumferential surface of the bottle is composed of a female screw coupled with a screw formed on the outside of the bottleneck of the bottle, screwed with a male screw of the bottleneck, the bottle cap 10 is a bottleneck It acts to be combined.

The stopper upper portion 12 is integrally formed on the top of the stopper coupling portion 11 to seal the top surface of the stopper coupling portion (11).

In other words, the configuration of the stopper engaging portion 11 and the configuration of the stopper upper portion 12 is the same as the configuration of the normal cap 10.

The opening and closing portion 13 is integrally formed with the stopper upper portion 12 but protrudes circumferentially in the inner center and serves to open and close the outlet hole 24.

The bottle cap 10 is a configuration in which the opening and closing portion 13 protruding circumferentially in the inner center of the bottle cap 10 is formed without a cylindrical sealing portion that is in close contact with the top surface of the cap 10 inside the bottle cap 10. .

The additive receiving portion 20 is placed in the bottleneck, that is, the flange 22 is in close contact with the upper portion of the bottleneck, the receiving portion 21 is placed inside the bottleneck and the female screw of the bottle cap 10 and the male screw of the bottleneck. When the bottle cap 10 is completely screwed to the bottleneck, the opening and closing part 13 penetrates the outlet hole 24 to seal the outlet hole 24.

Therefore, the length of the opening and closing portion 13 is configured to be longer than the length of the additive accommodating portion 20 and the diameter of the opening and closing portion 13 is configured and configured to be slightly larger than the diameter of the outlet hole (24).

The opening and closing part 13 is not limited to the length of the stopper coupling portion 11 of the bottle cap 10, and is determined by the depth of the additive accommodating part 20, so that if the depth of the additive accommodating part 20 is deep, The amount of the additive (a) can be increased.

In addition, since the bottle cap 10 is opened and closed by rotation, the opening and closing portion 13 is preferably configured in a circumferential shape, and thus the outlet hole 24 opened and closed by the opening and closing portion 13 is also preferably penetrated in a circular shape. Do.

When the bottle cap 10 is opened, the opening and closing part 13 opens the outlet hole 24 so that the additive (a) filled in the additive accommodating part 20 is dropped and mixed into the beverage W inside the bottle.

On the other hand, Figure 3 is a cross-sectional view of the present invention containing additives, Figure 5 is a cross-sectional view of another embodiment of the present invention containing additives, Figure 6 is a perspective view of the additive accommodating part of another embodiment of the present invention, of the present invention containing an additive As shown in FIG. 7, which is a cross-sectional view of another embodiment, and FIG. 8, which is a perspective view of the additive accommodating part, which is another embodiment of the present invention, the receiving bottoms 23, 23-1, 23-2 of the additive accommodating part 20 are planar. It consists of a straight or conical surface or a curved cone.

When the receiving bottom 23 of the additive accommodating part 20 is formed in a flat surface, the additive accommodating part 20 is formed on the bottom surface formed by the cylindrical shape formed by the accommodating part 21 and the receiving bottom part 23. As a result, the flange 22 is formed on the lower side in a hollow cylindrical shape in which one side is opened.

When the receiving bottom portion 23-1 of the additive receiving portion 20-1 is configured as a straight cone surface, the additive receiving portion 20-1 has a hollow cylindrical shape formed by the receiving portion 21-1. The flange 22-1 is formed in the lower side in the shape which the hollow formed by the bottom surface formed by the accommodation bottom part 23-1 couple | bonded.

When the receiving bottom portion 23-2 of the additive receiving portion 20-2 is composed of a curved cone surface, the additive receiving portion 20-2 is a hollow very short formed by the receiving portion 21-2. The bottom surface formed by the cylindrical shape and the receiving bottom 23-2 has a hollow conical shape. The overall shape becomes a shape like a warhead of a shell having a flange 22-2 formed on the lower side.

The receiving bottoms of the additive receiving parts 20-1 and 20-2 have a straight conical surface rather than the receiving bottoms 23 and 23-1 of the additive receiving parts 20 and 20-1. The capacity of the additives (a, a-1, a-2) per unit area is smaller than that of 23-1, 23-2 is composed of a curved cone.

However, the inclination of the accommodation bottoms 23, 23-1, 23-2 and the ease of dropping of the additives a, a-1, a-2 are determined, so that the accommodation of the additive accommodation parts 20, 20-1 is accommodated. The bottoms 23, 23-1 are formed in a straight conical surface rather than in a plane, and the receiving bottoms 23-1, 23-2 of the additive accommodating parts 20-1, 20-2 are formed in a straight conical surface. It is better to fall in the additives (a, a-1, a-2) that are constructed in a curved cone shape than the ones.

4 is a cross-sectional view of another embodiment of the present invention, including FIG. 4 and a cross-sectional view of another embodiment of the present invention including an additive, and FIG. Looking at the operation of the present invention as 7,

The additive receiving portion 20, 20-1, 20-2 is placed in the bottleneck, that is, the flanges 22, 22-1, 22-2 are placed in the upper portion of the bottleneck and the receiving portion 21, 21- 1, 21-2) is placed inside the bottleneck, the bottle cap 10 is coupled to the bottleneck, that is, the female screw of the stopper coupling portion 11 and the male screw of the bottleneck are screwed into the opening 13 is inserted into the outlet hole The additives are filled in the additive accommodating portion 20, 20-1, and 20-2 in the state of being in a state and the beverage is filled and shipped inside the bottle.

After the beverage is filled in the bottle, the additive receiving portions 20, 20-1, and 20-2 are placed in the bottleneck, and then the cap 10 is formed with a through-hole in the stopper portion 12 in a state coupled to the bottleneck. After filling the through-hole with powder or liquid additives, the through-holes are closed again, and the additives are injected into the additive accommodating part 20, 20-1, and 20-2.

In this state, when the drinker rotates the bottle cap 10 counterclockwise in order to drink the beverage filled in the bottle, the female screw of the cap coupling part 11 is rotated along the male screw of the bottle neck, so that the cap coupling part 11 is rotated. At this time, the opening and closing part 13 formed integrally with the inner surface of the stopper upper part 12 is also raised.

When the bottle cap 10 is rotated further in the counterclockwise direction, the female screw of the stopper coupling part 11 rotates along the male screw of the bottle neck while the stopper coupling part 11 rises further, and the opening and closing part 13 also rises further. 13 is separated from the outlet holes 24, 24-1, 24-2, the outlet holes 24, 24-1, 24-2 will be opened.

When the outlet holes 24, 24-1, and 24-2 are opened, the additives a, a-1, and a-2 in the additive accommodating part 20, 20-1, and 20-2 are outlet holes 24, 24-1, 24-2) drop into the bottle through the inside of the neck of the bottle is mixed into the beverage filled inside the bottle.

You can drink the beverage in the state in which the additives (a, a-1, a-2) and the beverage is mixed, wherein the mixed beverage inside the bottle is discharged through the outlet holes (24, 24-1, 24-2). Since the spilled out of the mixed beverage outflow per unit time is less.

In order to alleviate these drawbacks, the additive receiving portions 20, 20-1, and 20-2 are taken out of the bottleneck before drinking the mixed beverage, and the mixed beverage can be drunk like drinking a beverage in a general bottle. do.

The beverage may be liquor such as shochu, where the additive is a liquid or powder that is mixed with alcohol to make alcohol less drunk or to protect the stomach wall. There may be liquids such as care, lavatory condition power, grammy, or powder such as ursa powder.

In addition, the beverage may be a health drink such as Bacchus, Vita 500, Yeongjicheon, etc. The additive may be a powder or liquid vitamins, other health drinks.

As described above, the present invention constitutes an additive accommodating portion in a bottle neck for mixing with a beverage in a container, and stores the additive in the additive accommodating portion, while the drinker opens the bottle cap to drink the beverage and simultaneously the additive falls into the beverage. It is to mix and drink the beverage, so that when using a substance such as beverages or drugs to mix the two materials is to be convenient for long-term storage of the two materials to be mixed together in one container.

According to the present invention, when a mixture of several substances is stored in a container, problems such as a decrease in the composition or efficacy of a substance, a change in color, or the generation and precipitation of suspended solids in a substance are solved as time passes. When you need to mix and drink the need for other containers or tools according to the mixing can eliminate the inconvenience and hassle of the user.

 The present invention is not limited to the above-described embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention as claimed in the claims. Such a side

The light will fall within the stated claims.

10: stopper 11: stopper joint
12: stopper top 13: opening and closing part
20, 20-1, 20-2: Additive accommodating part 21, 21-1: accommodating part
22, 22-1, 22-2: Flange 23, 23-1, 23-2: Receiving bottom
24, 24-1, 24-2: outflow hole a, a-1, a-2: additive
W, W-1, W-2: Beverage

Claims (5)

When the cap is opened, the additive is dropped and mixed with the beverage inside the bottle.
A receiving portion configured in the bottleneck of the bottle and hollow inside, a flange integrally formed with the receiving portion at the upper outer periphery of the receiving portion, a receiving bottom integrally formed with the receiving portion at the bottom of the receiving portion, and the receiving bottom portion An additive accommodating part configured to have an outlet hole penetrated in the center thereof;
The stopper coupling portion coupled to the outside of the bottleneck of the bottle, the stopper coupling portion is integrally formed on the top of the stopper coupling portion and seals the upper surface of the stopper coupling portion, and integrally formed with the stopper upper surface in a cylindrical form in the inner center Consists of a bottle cap protruding and opening and closing the opening and closing the outflow hole;
When the bottle cap is opened, the opening and closing portion of the additives simultaneous dissolution bottle caps, characterized in that the additives filled in the additive receiving portion is dropped and mixed into the beverage inside the bottle.
The method of claim 1,
The receiving bottom is planar;
Additive simultaneous dissolution bottle cap, characterized in that the additive receiving portion is composed of a hollow cylinder.
The method of claim 1,
The receiving bottom comprises a straight conical surface;
Additive dissolving bottle caps, characterized in that the additive receiving portion is configured in the shape of a hollow cylindrical and hollow cuttings combined.
The method of claim 1,
The receiving bottom is composed of a curved cone surface;
Additive simultaneous dissolution bottle cap, characterized in that the additive receiving portion is composed of a hollow cone.
The method according to any one of claims 1 to 4,
The flange has a flat surface portion in contact with the inner surface of the stopper. The portion in contact with the top surface of the bottleneck is configured in the same shape as the top surface of the bottleneck, and the width of the flange is made slightly larger than the thickness of the bottleneck;
An additive simultaneous dissolving bottle cap, characterized in that a flange having a margin larger than the thickness of the bottle neck is sealed by covering the outer and inner surfaces of the bottleneck.

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