KR101832367B1 - Oxygen injecting apparatus of beverage container - Google Patents

Abstract

The present invention can prevent the beverage in the beverage container from flowing backward through the rupture bar by the oxygen pressure at the time of the opening of the oxygen chamber and prevent the rupture bar made of the metal material from being corroded therethrough, Lt; / RTI >
An oxygen injection cap (20) detachably coupled to an inlet (11) of a beverage container (10) and having a rupture bar (21); An oxygen capsule (30) having a rupture membrane (31) ruptured in the rupture bar (21) and supplying oxygen into the beverage container (10); And an oxygen supply cap 40 detachably coupled to the oxygen injection cap 20 and having a capsule mounting portion 41 in which the oxygen capsule 30 is inserted, A connection pipe 22 integrally formed to support the rupture bar 21; A discharge guide pipe 50 connected to the connection pipe 22 and having a plurality of oxygen discharge holes 51a formed in the discharge portion 51; And a backflow prevention member 60 installed to air tightly enclose the discharge portion 51 of the discharge guide pipe 50 and being opened while being opened by elastic force by oxygen pressure only at the time of entering the oxygen cylinder.

Description

[0001] The present invention relates to an oxygen injecting apparatus for beverage containers,

The present invention relates to an oxygen injecting apparatus for a beverage container, and more particularly, to an apparatus for injecting oxygen into a beverage container, which can prevent the beverage in the beverage container from flowing backward through the rupture bar and prevent the rupture bar made of the metal material from being corroded, And more particularly to an oxygen injection device for a beverage container.

Generally, as is well known, oxygen not only breathes but also decomposes various fatigue substances, smoothes metabolism, improves muscle and cardiopulmonary function, and is an indispensable gas for human life.

In recent years, such oxygen has been proved to accelerate the detoxifying action of the liver and secretion of digestive enzymes when drinking high-concentrated oxygenated water through clinical experiments. Thus, a portable oxygenated water generating device capable of dissolving oxygen in water at a high concentration Is disclosed in Korean Patent Laid-Open No. 10-2012-0041401.

On the other hand, in the case of fruit drinks, ordinary water or carbonated beverages, they are stored and stored in beverage containers made of glass bottles or plastic materials. However, in order to maintain the high concentration of dissolved oxygen and to facilitate blood circulation and metabolism in the human body, There is a problem in that a device for injecting oxygen into the container can not be provided.

1, an oxygen injection cap 2 detachably coupled to an injection port 1a of a beverage container 1 and having a rupturable bar 2a, An oxygen capsule 3 for supplying oxygen into the interior of the beverage container 1 with a rupture membrane 3a which is detachably connected to the oxygen injection cap 2, And an oxygen supply cap 4 having a mounting portion 4a. At this time, the rupture bar 2a is made of a metallic material so that the rupture film 3a can be easily ruptured.

When the oxygen capsule 3 is pushed into the rupturable bar 2a, the rupturable membrane 3a is ruptured. At the same time, the oxygen is injected into the rupturable bar 2a and the inside of the beverage container 1 The drinking water contained in the beverage container 1 is kept at a high concentration of dissolved oxygen, so that when drinking it, oxygen is supplied to the blood to help the blood circulation and metabolism smoothly.

However, since the conventional oxygen injection device maintains the state in which the burst barrel 2a is always kept open as shown in FIG. 1, the beverage in the beverage container 1 flows through the burst bar 2a through the space There is a problem in that the rupture rod 2a made of a metallic material is corroded by the refluxed drinking water to propagate the bacteria.

1, the conventional oxygen injection device has a structure in which the lower part of the oxygen injection cap 2 is assembled by screwing into the beverage container 1, and the oxygen supply cap 4 is screwed on the upper part of the oxygen injection cap 2, There is a problem in that the overall height of the oxygen injecting device is high due to the structure of the oxygen injecting device 4 because the oxygen capsule 3 is accommodated in the oxygen supplying cap 4 due to the assembly.

Patent Document: Published Patent No. 10-2012-0041401 (Published Date: May 05, 2012)

It is an object of the present invention to overcome the drawbacks of the prior art as described above and to prevent the beverage in the beverage container from flowing back through the rupture bar and to prevent the rupture bar made of the metal material from being corroded So that the beverage container can be used hygienically.

It is another object of the present invention to provide an apparatus for injecting oxygen into a beverage container in which the overall height of the oxygen injection cap and the oxygen supply cap are minimized while minimizing the height of the oxygen injection cap.

In order to accomplish the above object, the present invention provides a beverage container comprising an oxygen injection cap detachably coupled to an injection port of a beverage container, an oxygen injection cap having a rupture membrane ruptured to the rupture bar, And an oxygen supply cap provided with a capsule mounting part in which the oxygen capsule is inserted into the oxygen injection cap is detachably connected to the oxygen supply cap and the oxygen supply cap is integrally formed at the lower center of the oxygen injection cap, And a discharge guide pipe having a plurality of oxygen discharge holes formed in the discharge portion is connected to the connection pipe and the discharge portion of the discharge guide pipe is airtightly wrapped and elastically opened by oxygen pressure And is equipped with a backflow preventing member which is opened.

In the present invention, the oxygen injection cap is formed with a fitting portion to be inserted into the injection port, and a capsule containing space is formed in the fitting portion to accommodate oxygen capsules.

In the present invention, the inner diameter of the oxygen injection cap is formed with a female screw coupled with the male screw formed at the outer diameter of the injection port, and the outer diameter of the oxygen injection cap and the inner diameter of the oxygen supply cap are respectively formed with male and female threads.

According to the present invention, a connection portion is formed at the upper portion of the discharge guide pipe to be fitted to the connection pipe, and a lowered portion is formed at a lower portion of the discharge portion to prevent the backflow prevention member from being separated.

Further, in the present invention, the backflow prevention member is formed of elastic rubber or silicon formed in a cylindrical shape.

Further, in the present invention, one side of the backflow preventing member is formed with a cut-out portion that is opened while being opened by elastic force by oxygen pressure only at the time of entering the oxygen occlusion.

Further, in the present invention, the inside of the backflow prevention member is formed with a taper portion having a small diameter from top to bottom.

According to the oxygen injecting apparatus of the present invention, since the discharge guide tube is connected to the connecting tube for supporting the burst bar and the backflow preventing member, which is opened only at the time of entering the oxygen inlet, is provided in the discharge guide tube, It is possible to prevent the backflow through the rupture bar and to prevent the rupture bar made of the metal material from being corroded through the rupture bar.

In addition, since the oxygen injection capsule is accommodated in the fitting portion to be inserted into the injection port of the beverage container in the oxygen injection cap, and the injection port and the oxygen supply cap are respectively coupled with the inner diameter and the outer diameter of the oxygen injection cap, The overall height of the oxygen injection device can be minimized in the state of the coupling between the injection cap and the oxygen supply cap, so that the appearance becomes more beautiful and the volume can be reduced.

1 is a sectional view showing a conventional oxygen injection device.
2 is a perspective view of the present invention.
3 is an exploded perspective view of the present invention.
4 is a cross-sectional view showing the separated state of the present invention.
5 is a cross-sectional view showing a coupled state of the present invention.
6A and 6B are a perspective view and a combined sectional view showing another embodiment of the check valve according to the present invention.
7A and 7B are a perspective view and a cross-sectional view showing still another embodiment of the check valve according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

2 to 7A and 7B, an oxygen injecting apparatus for a beverage container according to the present invention includes an oxygen injecting unit (not shown) detachably coupled to an inlet 11 of a beverage container 10 and having a rupture bar 21, A cap 20; An oxygen capsule (30) having a rupture membrane (31) ruptured in the rupture bar (21) and supplying oxygen into the beverage container (10); And an oxygen supply cap 40 detachably coupled to the oxygen injection cap 20 and having a capsule mounting portion 41 in which the oxygen capsule 30 is inserted, A connection pipe 22 integrally formed to support the rupture bar 21; A discharge guide pipe 50 connected to the connection pipe 22 and having a plurality of oxygen discharge holes 51a formed in the discharge portion 51; And a backflow preventing member (60) which is mounted so as to airtightly surround the discharge portion (51) of the discharge guide pipe (50) and is opened while being opened by elastic force by oxygen pressure only at the time of entering the oxygen cylinder. .

Here, the oxygen injecting apparatus of the present invention supplies oxygen to the beverage contained in the beverage container 10, thereby contributing to health. In addition, the beverage in the beverage container 10 is supplied to the beverage container 10 through the burst rods 21 The oxygen injection device of the present invention comprises an oxygen injection cap 20, an oxygen capsule 30, an oxygen supply cap 40, an exhaust guide pipe 50, and a check valve 60 .

The beverage container 10 stores, stores, and sells various kinds of fruit beverages, general water, or various carbonated beverages. In the upper part of the beverage container 10, an injection port 11 is formed And a male screw 11a is formed on the outer diameter of the injection port 11. [ At this time, the beverage container 10 is made of a glass bottle, a PET bottle, or the like.

The oxygen injection cap 20 is detachably coupled to the injection port 11 of the beverage container 10. The rupture membrane 31 of the oxygen capsule 30 is ruptured at the center of the oxygen injection cap 20 And a rupture bar (21) for supplying oxygen to the interior of the beverage container (10) during the rupture. At this time, the rupture bar 21 is made of a metallic material so that the rupture film 31 can be easily ruptured.

According to the present invention, the oxygen injection cap 20 is provided with a fitting portion 23 to be inserted into the injection port 11, and a capsule containing space 30, which accommodates the oxygen capsule 30, (24) is formed. At this time, since the oxygen capsule 30 is accommodated in the capsule accommodation space 24 formed in the fitting part 23 inserted into the injection hole 11, the overall height of the oxygen injection device can be reduced.

The oxygen capsule 30 is provided with a rupture membrane 31 ruptured in the rupture bar 21 to supply oxygen into the beverage container 10. The oxygen capsule 30 is supplied with oxygen . At this time, when the oxygen capsule 30 is pushed into the rupture bar 21, the rupture membrane 31 is ruptured. At the same time, oxygen is discharged into the rupture bar 21, The oxygen compressed at the high pressure ejected from the oxygen capsule 30 is released from the rupture bar 21 and the oxygen discharge hole 51. [ Is supplied into the beverage container (10) through the backflow preventing member (51a) and the backflow preventing member (60).

The oxygen supply cap 40 is detachably coupled to the oxygen injection cap 20 and simultaneously discharges oxygen when the oxygen supply cap 40 is coupled to the oxygen supply cap 40. The oxygen supply cap 40 is provided at its inner center with an oxygen capsule 30, (41) is formed. When the oxygen supply cap 40 is coupled to the oxygen injection cap 20 with the oxygen capsule 30 mounted on the capsule mounting portion 41 of the oxygen supply cap 40, Oxygen is injected at the same time when the oxygen supply cap 40 is coupled so that the rupture bar 21 and the oxygen discharge hole 51a are simultaneously blown out while being injected into the rupture film 31 of the oxygen capsule 30, And the backflow prevention member (60).

According to the present invention, the inner diameter of the oxygen injection cap 20 is formed with a female screw 20a to be coupled with the male screw 11a formed at the outer diameter of the injection port 11 and the outer diameter of the oxygen injection cap 20, A male screw 20b and a female screw 40a, which are coupled to each other, are formed on the inner circumference of the housing 40. At this time, since the injection port 11 and the oxygen supply cap 40 are coupled to each other with the inner diameter and the outer diameter of the oxygen injection cap 20, the overall height of the oxygen injection apparatus can be reduced. The male screw 20a of the oxygen injection cap 20 and the female screw 40a of the oxygen supply cap 40 may be formed as a left-handed screw, unlike the male screw 11a and the female screw 20a.

The connection pipe 22 is integrally formed at the lower center of the oxygen injection cap 20 to support the rupture bar 21. An exhaust hole is formed in the connection pipe 22 to discharge oxygen therein . At this time, a discharge guide pipe (50) is connected to the connection pipe (22).

The discharge guide pipe 50 is connected to the connection pipe 22. A discharge port 51 is formed in the discharge guide pipe 50 and a plurality of oxygen discharge holes 51a are formed in the discharge port 51 . At this time, the oxygen discharge hole 51a of the discharge portion 51 serves to discharge oxygen at the time of entering the oxygen chamber.

According to the present invention, a connection portion 52 to be fitted to the connection pipe 22 is formed at the upper portion of the discharge guide pipe 50, and the backflow prevention member 60 is prevented from being separated from the lower portion of the discharge portion 51 So that a tip 53 is formed. At this time, the top 53 is formed as a taper having a smaller diameter as it goes down to easily fit the backflow preventing member 60.

 The backflow preventing member 60 is mounted so as to airtightly surround the discharge portion 51 of the discharge guide pipe 50 so that the backflow preventing member 60 is elastically opened and opened by oxygen pressure And is formed thin. At this time, the backflow preventing member 60 serves as a check valve, and the backflow preventing member 60 is operated by the oxygen pressure discharged to the oxygen discharge hole 51a of the discharge guide pipe 50 The backflow preventing member 60 is not opened but is kept in close contact with the discharge portion 51 of the discharge guide pipe 50 while closing the oxygen discharge hole 51a. That is, the backflow preventing member 60 is opened and closed by the pressure, and the backflow preventing member 60 is opened by the external pressure and closed by the internal pressure. Therefore, it is possible to prevent the beverage in the beverage container 10 from flowing backward through the rupture bar 21.

According to the present invention, the backflow preventing member (60) is made of elastic rubber or silicone formed in a cylindrical shape.

According to another embodiment of the present invention, as shown in FIGS. 6A and 6B, a cut-out portion 61 is formed at one side of the check valve 60 so as to be opened while being elastically opened by oxygen pressure. At this time, the incision part 61 is opened while being opened by the pressure of the oxygen inlet, and the incision part 61 is normally kept closed.

According to still another embodiment of the present invention, as shown in FIGS. 7A and 7B, a tapered portion 62 having a small diameter from the top to the bottom is formed inside the backflow preventing member 60. At this time, the tapered portion 62 serves to guide the oxygen discharge so that oxygen can easily be discharged to the outside when entering the oxygen chamber.

Accordingly, the present invention is characterized in that the discharge guide pipe 50 is connected to the connection pipe 22 for supporting the rupture bar 21, and the backflow preventing member 60 is provided in the discharge guide pipe 50, Therefore, it is possible to prevent the beverage in the beverage container 10 from flowing back through the rupturing rod 21 in a structured manner, prevent the rupture bar 21 made of a metal material from being corroded, There is an advantage that it can be used hygienically.

The present invention is characterized in that the oxygen injection cap 20 is provided with a fitting portion 23 to be inserted into the injection port 11 of the beverage container 10 so that the oxygen capsule 30 is accommodated in the fitting portion 23 The injection port 11 and the oxygen supply cap 400 are coupled to each other with the inner diameter and the outer diameter of the oxygen injection cap 20 so that the entire structure of the oxygen injection cap 20 and the oxygen supply cap 40, The height of the oxygen injection device can be reduced to a minimum, and thus the appearance of the oxygen injection device can be enhanced and the volume can be reduced.

10: beverage container 11: inlet
11a: male thread 20: oxygen injection cap
20a: Female thread 20b: Male thread
21: rupture bar 22: connector
23: fitting portion 24: capsule accommodating space
30: oxygen capsule 31: rupture membrane
40: oxygen supply cap 40a: female thread
41: capsule mounting portion 50: discharge guide pipe
51: discharge part 51a: oxygen discharge hole
52: connection portion 53:
60: backflow prevention member 61: incision part
62:

Claims (7)

An oxygen injection cap (20) detachably coupled to an inlet (11) of the beverage container (10) and having a rupture bar (21); An oxygen capsule (30) having a rupture membrane (31) ruptured in the rupture bar (21) and supplying oxygen into the beverage container (10); And an oxygen supply cap 40 detachably coupled to the oxygen injection cap 20 and having a capsule mounting portion 41 in which the oxygen capsule 30 is inserted, A connection pipe 22 integrally formed to support the rupture bar 21; A discharge guide pipe 50 connected to the connection pipe 22 and having a plurality of oxygen discharge holes 51a formed in the discharge portion 51; Further comprising a backflow preventing member (60) mounted to air tightly enclose the discharge portion (51) of the discharge guide pipe (50) and being opened while being elastically opened by oxygen pressure only at the time of entering the oxygen inlet,
Wherein an incision part (61) is formed at one side of the backflow preventing member (60) to be opened while being elastically opened by oxygen pressure only at the time of entering the oxygen inlet. The oxygen injection device according to claim 1, wherein the oxygen injection cap (20) is provided with a fitting part (23) inserted into the injection port (11) And an accommodation space (24) is formed in the beverage container. Wherein the inner diameter of the oxygen injection cap (20) is formed with a female screw (20a) coupled with a male screw (11a) formed at an outer diameter of the injection port (11) Wherein an inner thread of the supply cap (40) is formed with a male thread (20b) and a female thread (40a). The discharge preventing device according to claim 1, wherein a connection portion (52) is formed at the upper portion of the discharge guide pipe (50) to be fitted in the connection pipe (22) Wherein the beverage container has an upper surface and a lower surface. The apparatus for injecting oxygen into a beverage container according to claim 1, wherein the backflow preventing member (60) is made of elastic rubber or silicone formed in a cylindrical shape. delete The apparatus of claim 1, wherein a tapered portion (62) is formed in the backflow preventing member (60) so as to have a small diameter from top to bottom.

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