JP2023041185A - Container for beverage - Google Patents

Abstract

To provide a container for a beverage that enables a beverage in a bottle to be drunk, regardless of a direction of a tip of a nozzle.SOLUTION: The container for a beverage comprises: a bottle 2; a cap 3 for closing an upper opening part 2a of the bottle 2; a nozzle 4 protruding from an upper part of the cap 3; a pipe 5 extending from a lower part of the cap 3 to the vicinity of a bottom part of the bottle 2; a lower valve 7 that opens and closes a lower liquid passing port 6 formed at a lower side of the pipe 5; a flow path forming member 9 forming a flow path 8 between the nozzle 4 and the pipe 5; and an upper valve 11A that opens and closes an upper liquid passing port 10 formed beside the flow path forming member 9. In a state where a tip of the nozzle 4 is pointed upward, the lower valve 7 opens the lower liquid passing port 6 and the upper valve 11A closes the upper liquid passing port 10. While, in a state where the tip of the nozzle 4 is pointed downward, the lower valve 7 closes the lower liquid passing port 6 and the upper valve 11A opens the upper liquid passing port 10.SELECTED DRAWING: Figure 1

Description

The present invention relates to beverage containers.

For example, a bottle with an open top, a cap that closes the top opening of the bottle, a nozzle that protrudes from the top of the cap, and, if necessary, a pipe that extends from the bottom of the cap to near the bottom of the bottle. There is a beverage container through which the beverage in the bottle can be drunk (see, for example, Patent Document 1 below).

If such a beverage container is provided with a pipe, the tip of the nozzle is directed upward (the bottle is erected), and a negative pressure is generated in the pipe while sucking the nozzle, or A positive pressure is generated in the bottle while pressing (squeezing) the bottle. Thereby, it is possible to drink the beverage sucked from the inside of the bottle through the pipe or the beverage pushed out from inside the bottle through the nozzle.

On the other hand, if the pipe is not provided, a positive pressure is introduced into the bottle while sucking the nozzle or pressing (squeezing) the bottle with the tip of the nozzle pointing downward (inverting the bottle). generate This allows the beverage squeezed out of the bottle to be drunk through the nozzle.

JP 2017-56952 A

However, in conventional beverage containers, depending on the presence or absence of the above-mentioned pipe, it is necessary to selectively use a method of drinking with the tip of the nozzle directed upwards and a method of drinking with the tip of the nozzle directed downwards. It was difficult to drink the beverage in the bottle through the nozzle regardless of the orientation of the tip of the bottle.

SUMMARY OF THE INVENTION The present invention has been proposed in view of such conventional circumstances, and it is an object of the present invention to provide a beverage container that allows the beverage in the bottle to be drunk regardless of the orientation of the tip of the nozzle. aim.

In order to achieve the above object, the present invention provides the following means.
[1] A bottle with an open top;
a cap that closes the upper opening of the bottle;
a nozzle protruding from the top of the cap;
a pipe extending from the bottom of the cap to near the bottom of the bottle;
a lower valve for opening and closing a lower liquid passage provided below the pipe;
a flow path forming member that forms a flow path between the nozzle and the pipe;
an upper valve that opens and closes an upper liquid passage port provided on the side of the flow path forming member,
With the tip of the nozzle directed upward, the lower valve opens the lower liquid passage port and the upper valve closes the upper liquid passage port,
A beverage container, wherein the lower valve closes the lower liquid passage port and the upper valve opens the upper liquid passage port in a state in which the tip of the nozzle is directed downward.
[2] The lower valve has a lower cylinder connected to the lower end of the pipe, and a lower valve element disposed inside the lower cylinder, and serves to connect the lower liquid passage port in the lower cylinder. having a structure in which the lower valve body is movable by its own weight between a closed position and a position in which the lower liquid passage opening is opened;
The upper valve has an upper cylinder connected to the flow path, and an upper valve body and a biasing member arranged inside the upper cylinder to close the upper liquid passage port in the upper cylinder. The upper valve body is movable between a position to open the upper liquid passage port and a position to open the upper liquid passage port, and the upper valve body biased by the biasing member causes the upper liquid passage port to open. The beverage container according to [1] above, which has a closing structure.
[3] In the lower valve, with the tip of the nozzle directed upward, the lower valve body moves in a direction to open the lower liquid passage port by its own weight, and the tip of the nozzle is directed downward. and the lower valve body moves in the direction of closing the lower liquid passage port by its own weight,
In the upper valve, by generating a negative pressure in the flow path in a state in which the lower valve body closes the lower liquid passage port, the upper valve body is pushed against the biasing force of the biasing member. The beverage container according to [2] above, characterized in that it moves in a direction to open the upper liquid passage port.
[4] The bottle is made of an elastic member,
In the upper valve, in a state in which the lower valve closes the lower liquid passage port, a positive pressure is generated in the bottle while pressing the bottle, thereby resisting the biasing force of the biasing member. The beverage container according to [3] above, wherein the upper valve element moves in a direction to open the upper liquid passage port.
[5] The lower valve has a lower cylinder connected to the lower end of the pipe, and a lower valve body arranged inside the lower cylinder, and the lower liquid passage port in the lower cylinder is having a structure in which the lower valve body is movable by its own weight between a closed position and a position in which the lower liquid passage opening is opened;
The upper valve has an upper cylinder connected to the flow path, and an upper valve body arranged inside the upper cylinder, and a position in the upper cylinder that closes the upper liquid passage port; The beverage container according to [1], wherein the upper valve body is movable by its own weight between a position where the upper liquid passage port is opened.
[6] In the lower valve, with the tip of the nozzle directed upward, the lower valve element moves in the direction of opening the lower liquid passage by its own weight, and the tip of the nozzle is directed downward. and the lower valve body moves in the direction of closing the lower liquid passage port by its own weight,
In the upper valve, with the tip of the nozzle directed upward, the upper valve body moves in the direction of closing the upper liquid passage port by its own weight, and with the tip of the nozzle directed downward, the The beverage container according to [5] above, wherein the upper valve element moves in a direction to open the upper liquid passage port by its own weight.
[7] The beverage container according to any one of [1] to [6], wherein the pipe is flexible.

As described above, according to the present invention, it is possible to provide a beverage container that allows the beverage in the bottle to be drunk regardless of the orientation of the tip of the nozzle.

Fig. 2 is a cross-sectional view showing the configuration of the beverage container according to the first embodiment of the present invention, showing a state in which the tip of the nozzle is directed upward; 2 is a cross-sectional view showing a state in which the tip of the nozzle is directed downward in the beverage container shown in FIG. 1. FIG. FIG. 2 is an exploded perspective view showing the configuration of each part of the beverage container shown in FIG. 1 excluding the bottle; FIG. 2 is a perspective view showing a lower valve included in the beverage container shown in FIG. 1; 1. It is a front view which shows the state which removed the cylinder cap from the upper valve|bulb with which the container for beverages shown in FIG. 1 is equipped. FIG. 2 is a cross-sectional view showing an enlarged upper valve shown in FIG. 1; FIG. 6 is a cross-sectional view showing the configuration of a beverage container according to a second embodiment of the present invention, showing a state in which the tip of the nozzle is directed upward. 8 is a cross-sectional view showing a state in which the tip of the nozzle is directed downward in the beverage container shown in FIG. 7. FIG. FIG. 8 is a cross-sectional view showing an enlarged upper valve shown in FIG. 7;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(First embodiment)
First, as a first embodiment of the present invention, for example, a beverage container 1A shown in FIGS. 1 to 6 will be described.

In addition, FIG. 1 is a cross-sectional view showing the configuration of the beverage container 1A and showing a state in which the tip of the nozzle 4 is directed upward. FIG. 2 is a sectional view showing a state in which the tip of the nozzle 4 is directed downward in the beverage container 1A. FIG. 3 is an exploded perspective view showing the configuration of each part of the beverage container 1A except for the bottle 2. FIG. FIG. 4 is a perspective view showing the lower valve 7 included in the beverage container 1A. FIG. 5 is a front view showing a state in which the cylinder cap 23 is removed from the upper valve 11A of the beverage container 1A. FIG. 6 is a cross-sectional view showing an enlarged view of the upper valve 11A.

As shown in FIGS. 1 to 3, the beverage container 1 of this embodiment includes a bottle 2 with an open top, a cap 3 that closes the top opening 2a of the bottle 2, and a cap 3 that protrudes from the top. A nozzle 4, a pipe 5 extending from the lower part of the cap 3 to near the bottom of the bottle 2, a lower valve 7 for opening and closing a lower liquid passage port 6 provided below the pipe 5, and between the nozzle 4 and the pipe 5 It has a channel forming member 9 that forms a channel 8 and an upper valve 11A that opens and closes an upper liquid passage port 10 provided on the side of the channel forming member 9 .

The bottle 2 is made of an elastic member made of plastic such as polypropylene (PP). It has a substantially cylindrical mouth and neck portion 2d with a diameter. An upper end portion of the mouth/neck portion 2d is opened in a circular shape as an upper opening portion 2a of the bottle 2. As shown in FIG.

Further, the bottle 2 is a squeeze bottle that can elastically deform the body portion 2c by pressing (squeezing) the body portion 2c. Note that the external shape of the bottle 2 is not particularly limited, and can be appropriately changed according to the size, design, and the like. Further, the outer peripheral surface of the bottle 2 may be painted, printed, or the like.

The cap 3 is made of plastic such as polypropylene, and has a substantially cylindrical peripheral wall portion 3a and an upper wall portion 3b covering the upper portion of the peripheral wall portion 3a.

The cap 3 is detachably attached to the neck portion 2d of the bottle 2 by screwing. For this reason, the outer peripheral surface of the neck portion 2d of the bottle 2 is provided with a male screw portion 2e. On the other hand, the inner peripheral surface of the peripheral wall portion 3a of the cap 3 is provided with a female threaded portion 3c to be screwed with the male threaded portion 2e.

The nozzle 4 is provided so as to protrude upward in a substantially cylindrical shape from the center of the upper portion of the upper wall portion 3b (cap 3). Moreover, the nozzle 4 is formed integrally with the cap 3 .

The pipe 5 is formed of a long, flexible cylindrical body, and its upper end side is connected to an upper pipe connection portion 18 of the flow path forming member 9, which will be described later. For the pipe 5, for example, rubber such as silicone rubber, elastomer, or the like can be used.

The pipe 5 extends from the upper pipe connection portion 18 to the vicinity of the bottom portion 2b inside the bottle 2 and is curved as a whole. Also, the lower end of the pipe 5 is located on the outer peripheral side of the bottom 2b. As a result, even when the beverage L in the bottle 2 is low, the beverage can be drunk.

As shown in FIGS. 1 to 4, the lower valve 7 has a lower cylinder 12 connected to the lower end of the pipe 5 and a lower valve element 13 arranged inside the lower cylinder 12. It has a structure in which the lower valve body 13 is movable by its own weight between a position in which the lower liquid passage port 6 is closed and a position in which the lower liquid passage port 6 is opened.

Specifically, in the lower valve 7 , the lower cylinder 12 has a substantially cylindrical cylinder body 14 and a cylinder cap 15 closing the lower side of the cylinder body 14 .

The cylinder cap 15 is detachably attached to the cylinder body 14 by screwing. For this reason, the outer peripheral surface of the cylinder body 14 is provided with a male screw portion 14a. On the other hand, the internal peripheral surface of the cylinder cap 15 is provided with a female threaded portion 15a that is screwed with the male threaded portion 14a.

The lower cylinder 12 includes a lower pipe connection portion 12a connected to the lower end of the pipe 5, a plurality of (four in this embodiment) lower communication ports 12b communicating with the inside of the bottle 2, and a lower valve and a lower seat surface portion 12c on which the body 13 is seated.

The lower pipe connecting portion 12a protrudes in a substantially cylindrical shape from the center of the upper portion of the cylinder body 14 and is connected to the lower end side of the pipe 5 by being inserted into the pipe 5 .

The plurality of lower communication ports 12b are arranged radially around the bottom surface of the cylinder cap 15 and open in an arc shape in the circumferential direction.

The lower seat surface portion 12c is formed by a hole that penetrates through the center of the bottom surface of the cylinder cap 15 and whose diameter gradually decreases downward.

The lower valve body 13 is a spherical ball valve, and is made of metal such as aluminum or stainless. The lower valve body 13 is housed inside the lower cylinder 12 .

On the other hand, the lower liquid passage port 6 is provided with a circular opening between the cylinder body 14 and the lower pipe connecting portion 12a. An inner upper end portion of the cylinder body 14 (lower cylinder 12) forms an upper seating surface portion 12d on which the lower valve body 13 is seated. The upper seating surface portion 12 d is formed by gradually reducing the diameter of the inner upper end portion of the cylinder body 14 toward the lower liquid passage port 6 .

In the lower valve 7, when the tip of the nozzle 4 shown in FIG. The lower liquid passage port 6 is opened by sitting on the lower seat surface portion 12c.

On the other hand, in the lower valve 7, the lower valve body 13 is moved downward (upper end side of the lower cylinder 12) by its own weight when the tip of the nozzle 4 is directed downward (the bottle 2 is inverted) as shown in FIG. is seated on the upper seat surface portion 12d to close the lower liquid passage port 6. As shown in FIG.

As a result, in the lower valve 7, the lower valve body 13 can move by its own weight between a position where the lower liquid passage port 6 in the lower cylinder 12 is closed and a position where the lower liquid passage port 6 is opened. there is

As shown in FIGS. 1 to 3, the flow path forming member 9 is made of plastic such as polypropylene, and includes a flow path main body 16 forming the flow path 8 and a nozzle 4 located above the flow path main body 16. and an upper pipe connection portion 18 positioned below the flow path main body 16 to which the pipe 5 is connected.

The channel main body 16 is formed in a substantially cylindrical shape, thereby forming the channel 8 inside thereof.

The nozzle connecting portion 17 protrudes in a substantially cylindrical shape from the center of the upper portion of the channel main body 16 and is connected to the nozzle 4 by being inserted into the nozzle 4 .

The upper pipe connecting portion 18 protrudes in a substantially cylindrical shape from the center of the lower portion of the flow path main body 16 and is connected to the upper end side of the pipe 5 by inserting the pipe 5 thereinto.

The upper valve 11A includes, as shown in FIGS. Having a valve body 20 and a biasing member 21, the upper valve body 20 moves between a position in which the upper liquid passage port 10 in the upper cylinder 19 is closed and a position in which the upper liquid passage port 10 is opened. It is free and has a structure in which the upper valve body 20 urged by the urging member 21 closes the upper liquid passage port 10 .

Specifically, in the upper valve 11A, the upper cylinder 19 includes a cylinder body 22 protruding from the side of the flow path body 16 (flow path forming member 9) and a cylinder cap 23 closing the tip side of the cylinder body 22. and

The cylinder cap 23 is detachably attached to the cylinder body 22 by screwing. For this reason, the outer peripheral surface of the cylinder body 22 is provided with a male screw portion 22a. On the other hand, the internal peripheral surface of the cylinder cap 23 is provided with a female threaded portion 23a that is screwed with the male threaded portion 22a.

The cylinder main body 22 is integrally formed with the flow path forming member 9, and has an outer cylindrical portion 22b protruding from the outer peripheral surface of the flow path main body 16 and a substantially cylindrical outer cylindrical portion 22b extending from the inner side of the outer cylindrical portion 22b. It has a protruding inner cylindrical portion 22 c and a plurality of (four in this embodiment) upper communication ports 22 d communicating with the flow path 8 .

The plurality of upper communication ports 22d are positioned between the outer cylindrical portion 22b and the inner cylindrical portion 22c of the flow path main body 16, are arranged radially, and are provided with circular arc openings in the circumferential direction. ing.

The upper liquid passage port 10 is provided by opening the top surface of the cylinder cap 23 in a circular shape.

The upper valve body 20 has a disk-shaped valve portion 20a and a cylindrical shaft portion 20b protruding from the center of one surface of the valve portion 20a. It is housed inside the upper cylinder 19 in an inserted state.

The biasing member 21 is made of a coil spring, is located inside the inner cylindrical portion 22c and the shaft cylindrical portion 20b, and is arranged in a compressed state between the valve portion 20a and the flow path main body 16. As shown in FIG.

As a result, in the upper valve 11A, the upper valve body 20 is movable between a position for closing the upper liquid passage port 10 in the upper cylinder 19 and a position for opening the upper liquid passage port 10. The upper valve body 20 urged by the urging member 21 is in a state of closing the upper liquid passage port 10 .

In the upper valve 11A, the lower valve element 13 of the lower valve 7 closes the lower liquid passage port 6 when the tip of the nozzle 4 is directed downward (the bottle 2 is inverted) as shown in FIG. From this state, the upper valve body 20 is moved in the direction to open the upper liquid passage port 10 against the bias of the biasing member 21 by generating a negative pressure in the flow path 8 while sucking the nozzle 4. Is possible.

Alternatively, from this state, by generating a positive pressure in the bottle 2 while pressing (squeezing) the bottle, the upper valve element 20 is opened to the upper liquid passage port 10 against the biasing force of the biasing member 21. It is possible to move in the direction

In the beverage container 1A of the present embodiment having the configuration as described above, when the tip of the nozzle 4 shown in FIG. 13 opens the lower liquid passage port 6, and the upper valve body 20 of the upper valve 11A closes the upper liquid passage port 10. As shown in FIG.

From this state, a negative pressure is generated in the flow path 8 and the pipe 5 while sucking the nozzle 4 . At this time, the beverage L in the bottle 2 flows from the plurality of lower communication ports 12b into the pipe 5 through the lower liquid communication port 6, and is sucked up through the pipe 5 and the flow path 8 to the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

Alternatively, from this state, a positive pressure is generated inside the bottle 2 while pressing (squeezing) the bottle 2 . At this time, the beverage L in the bottle 2 flows into the pipe 5 through the plurality of lower communication ports 12b through the lower liquid communication port 6, and is pushed out through the pipe 5 and the flow path 8 toward the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

On the other hand, in the beverage container 1A of the present embodiment, when the tip of the nozzle 4 is directed downward (the bottle 2 is upside down) as shown in FIG. 6 is closed, and the upper valve element 20 of the upper valve 11A closes the upper liquid passage port 10. As shown in FIG.

From this state, a negative pressure is generated in the channel 8 while sucking the nozzle 4 . At this time, the upper valve body 20 opens the upper liquid passage port 10 against the biasing force of the biasing member 21 . Also, the beverage L in the bottle 2 flows from the upper liquid passage port 10 into the channel 8 through the plurality of upper communication ports 22d, and is sucked up through the channel 8 toward the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

Alternatively, from this state, a positive pressure is generated in the bottle 2 while pressing (squeezing) the bottle. At this time, the upper valve body 20 opens the upper liquid passage port 10 against the biasing force of the biasing member 21 . Also, the beverage L in the bottle 2 flows from the upper liquid passage port 10 into the channel 8 through the plurality of upper communication ports 22d, and is pushed out through the channel 8 toward the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

As described above, in the beverage container 1A of the present embodiment, the beverage L in the bottle 2 can be drunk regardless of the orientation of the tip of the nozzle 4. FIG.

(Second embodiment)
Next, a beverage container 1B shown in FIGS. 7 to 9, for example, will be described as a second embodiment of the present invention.

In addition, FIG. 7 is a cross-sectional view showing the configuration of the beverage container 1B and showing a state in which the tip of the nozzle 4 is directed upward. FIG. 8 is a cross-sectional view showing a state in which the tip of the nozzle 4 is directed downward in the beverage container 1B. FIG. 9 is an enlarged sectional view showing the upper valve 11B. Further, in the following description, description of parts equivalent to those of the beverage container 1A will be omitted, and the same reference numerals will be given in the drawings.

As shown in FIGS. 7 to 9, the beverage container 1B of the present embodiment has basically the same configuration as the beverage container 1A except that an upper valve 11B is provided instead of the upper valve 11A. ing.

Specifically, as shown in FIG. 9, the upper valve 11B includes an upper cylinder 24 connected to the flow path forming member 9 (flow path 8), and an upper valve element 25 disposed inside the upper cylinder 24. and has a structure in which the upper valve body 25 is movable by its own weight between a position that closes the upper liquid passage port 24a in the upper cylinder 24 and a position that opens the upper liquid passage port 24a. are doing.

The upper cylinder 24 is formed in a substantially cylindrical shape in the vertical direction along the outer peripheral surface of the flow path main body 16, has a closed upper end, and has an upper liquid passage port 24a provided at its lower end. The upper liquid passage opening is provided in a circular opening in the spherically curved bottom surface of the upper cylinder 24 .

Also, the upper cylinder 24 has one upper communication port 24b that communicates with the flow path 8 . The upper communication port 24b is located on the side surface of the channel main body 16 and is provided with a circular opening.

The upper valve body 25 is a spherical ball valve, and is made of metal such as aluminum or stainless. The upper valve body 25 is housed inside the upper cylinder 24 .

In the upper valve 11B, the upper valve body 25 moves downward (toward the lower end of the upper cylinder 24) due to its own weight when the tip of the nozzle 4 is directed upward (the bottle 2 is erected) shown in FIG. The upper liquid passage port 24a is closed.

On the other hand, in the upper valve 11B, when the tip of the nozzle 4 is directed downward (the bottle 2 is inverted) shown in FIG. The body 25 opens the upper liquid passage port 24a.

As a result, in the upper valve 11B, the upper valve element 25 can move by its own weight between a position where the upper liquid passage port 24a in the upper cylinder 24 is closed and a position where the upper liquid passage port 24a is opened. there is

In the beverage container 1B of this embodiment having the above-described configuration, the lower valve body of the lower valve 7 is 13 opens the lower liquid passage port 6, and the upper valve body 25 of the upper valve 11B closes the upper liquid passage port 24a.

From this state, a negative pressure is generated in the flow path 8 and the pipe 5 while sucking the nozzle 4 . At this time, the beverage L in the bottle 2 flows from the plurality of lower communication ports 12b into the pipe 5 through the lower liquid communication port 6, and is sucked up through the pipe 5 and the flow path 8 to the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

Alternatively, from this state, a positive pressure is generated inside the bottle 2 while pressing (squeezing) the bottle 2 . At this time, the beverage L in the bottle 2 flows into the pipe 5 through the plurality of lower communication ports 12b through the lower liquid communication port 6, and is pushed out through the pipe 5 and the flow path 8 toward the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

On the other hand, in the beverage container 1B of the present embodiment, when the tip of the nozzle 4 is directed downward (the bottle 2 is upside down) as shown in FIG. 6 is closed, and the upper valve body 25 of the upper valve 11B opens the upper liquid passage port 24a.

From this state, a negative pressure is generated in the channel 8 while sucking the nozzle 4 . At this time, the beverage L in the bottle 2 flows from the upper liquid passage port 24a into the flow path 8 through the upper communication port 24b, and is sucked up through the flow path 8 toward the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

Alternatively, from this state, a positive pressure is generated in the bottle 2 while pressing (squeezing) the bottle. At this time, the beverage L in the bottle 2 flows from the upper liquid passage port 24 a into the flow path 8 through the upper communication port 24 b and is pushed out through the flow path 8 toward the nozzle 4 side. Thereby, it is possible to drink the beverage L through the nozzle 4 .

As described above, in the beverage container 1B of the present embodiment, the beverage L in the bottle 2 can be drunk regardless of the orientation of the tip of the nozzle 4. FIG.

It should be noted that the present invention is not necessarily limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention.
For example, the beverage container to which the present invention is applied is not necessarily limited to the configuration of the beverage containers 1A and 1B described above. The upper valve closes the upper liquid passage port, while the tip of the nozzle is directed downward, the lower valve closes the lower liquid passage port, and the upper valve opens the upper liquid passage port. I wish I had.

Further, the bottle 2 is not necessarily limited to the elastic member that can be pressed (squeezed) as described above, and may be made of a metal such as stainless steel or aluminum. may have.

DESCRIPTION OF SYMBOLS 1A, 1B... Beverage container 2... Bottle 3... Cap 4... Nozzle 5... Pipe 6... Lower liquid passage port 7... Lower valve 8... Flow path 9... Flow path formation member 10... Upper liquid passage port 11A, 11B... Upper part Valve 12 Lower cylinder 13 Lower valve body 14 Cylinder main body 15 Cylinder cap 16 Flow path main body 17 Nozzle connecting portion 18 Upper pipe connecting portion 19 Upper cylinder 20 Upper valve body 21 Biasing member 22 Cylinder main body 23... Cylinder cap 24... Upper cylinder 24a... Upper liquid passage port 25... Upper valve element L... Beverage

Claims (7)

a bottle with an open top;
a cap that closes the upper opening of the bottle;
a nozzle protruding from the top of the cap;
a pipe extending from the bottom of the cap to near the bottom of the bottle;
a lower valve for opening and closing a lower liquid passage provided below the pipe;
a flow path forming member that forms a flow path between the nozzle and the pipe;
an upper valve that opens and closes an upper liquid passage port provided on the side of the flow path forming member,
With the tip of the nozzle directed upward, the lower valve opens the lower liquid passage port and the upper valve closes the upper liquid passage port,
A beverage container, wherein the lower valve closes the lower liquid passage port and the upper valve opens the upper liquid passage port in a state in which the tip of the nozzle is directed downward. The lower valve has a lower cylinder connected to the lower end of the pipe and a lower valve body arranged inside the lower cylinder, and is positioned to close the lower liquid passage hole in the lower cylinder. and a position where the lower liquid passage port is opened, the lower valve body having a structure that is movable by its own weight,
The upper valve has an upper cylinder connected to the flow path, and an upper valve body and a biasing member arranged inside the upper cylinder to close the upper liquid passage port in the upper cylinder. The upper valve body is movable between a position to open the upper liquid passage port and a position to open the upper liquid passage port, and the upper valve body biased by the biasing member causes the upper liquid passage port to open. A beverage container according to claim 1, characterized in that it has a closing structure. In the lower valve, with the tip of the nozzle directed upward, the lower valve body moves in the direction of opening the lower liquid passage by its own weight, and with the tip of the nozzle directed downward, the The lower valve body moves in the direction of closing the lower liquid passage port due to its own weight,
In the upper valve, by generating a negative pressure in the flow path in a state in which the lower valve body closes the lower liquid passage port, the upper valve body is pushed against the biasing force of the biasing member. 3. The beverage container according to claim 2, wherein the upper liquid passage opening is moved in a direction of opening. the bottle is made of an elastic member,
In the upper valve, in a state in which the lower valve closes the lower liquid passage port, a positive pressure is generated in the bottle while pressing the bottle, thereby resisting the biasing force of the biasing member. 4. The beverage container according to claim 3, wherein the upper valve body moves in a direction to open the upper liquid passage port. The lower valve has a lower cylinder connected to the lower end of the pipe and a lower valve body arranged inside the lower cylinder, and is positioned to close the lower liquid passage hole in the lower cylinder. and a position where the lower liquid passage port is opened, the lower valve body having a structure that is movable by its own weight,
The upper valve has an upper cylinder connected to the flow path, and an upper valve body arranged inside the upper cylinder, and a position in the upper cylinder that closes the upper liquid passage port; 2. The beverage container according to claim 1, wherein said upper valve body is movable by its own weight between a position at which said upper liquid passage port is opened. In the lower valve, with the tip of the nozzle directed upward, the lower valve body moves in the direction of opening the lower liquid passage by its own weight, and with the tip of the nozzle directed downward, the The lower valve body moves in the direction of closing the lower liquid passage port due to its own weight,
In the upper valve, with the tip of the nozzle directed upward, the upper valve body moves in the direction of closing the upper liquid passage port by its own weight, and with the tip of the nozzle directed downward, the 6. The beverage container according to claim 5, wherein the upper valve body moves in a direction to open the upper liquid passage port by its own weight. The beverage container according to any one of claims 1 to 6, characterized in that said pipe is flexible.

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