WO2020111331A1 - Beverage container - Google Patents

Abstract

The present invention relates to a beverage container. The beverage container according to the present invention provides a structure which allows beverage contained therein to be sucked through a tube when the beverage container is in a normal position, and further allows the beverage contained therein to be discharged and drunk even when the beverage container is held upside down.

Description

Beverage container

The present invention relates to a beverage container, the beverage container according to the present invention can be eaten by inhaling the beverage inside using a tube when the beverage container is positioned in place, and furthermore, even if the beverage container is turned over It provides a structure that can be eaten by discharging it.

Recently, various beverages such as water, juice or coffee can be stored, and various types of beverage containers that can be moved and carried are provided.

The beverage container may have a simple cup shape or a structure capable of inhaling the beverage inside using a straw or a tube.

However, when looking at a beverage container equipped with a tube in the prior art, when the beverage container inside is ingested by inhaling the beverage inside the beverage container with a tube or the like, there is a problem that the beverage inside is not discharged when the beverage container is used in the reverse position. . This is because the tube is elongated toward the bottom of the beverage container, so that when the beverage container is turned over, beverage is not introduced into the lower portion of the tube.

In addition, when looking at the beverage container without a tube of the prior art, in the case of the beverage container, the beverage container must be turned upside down in order to eat the beverage inside, and when located in a fixed position, there is a problem that the beverage inside cannot be eaten.

In order to solve the above problems, the present invention facilitates all of the beverage inside even when the beverage container with a tube is used in a fixed position, or when the beverage container is used in reverse. An object of the present invention is to provide an inhalable beverage container.

The object of the present invention as described above is provided with an opening at the top and a body portion providing a storage space for storing beverages inside, a lid sealing the opening, a first tube for discharging beverages from the storage space, and the It is provided in the storage space is achieved by a beverage container characterized in that it has a discharge unit for selectively supplying the beverage of the storage space to the first tube according to the case where the body portion is disposed in the forward and reverse positions.

Here, the discharge unit may be provided with at least one rotating member for selectively discharging the beverage in the storage space by selectively rotating depending on the case where the body portion is positioned at the forward and reverse positions.

In addition, the discharge unit is connected to the lower end of the first tube in the storage space, and provided with a first rotating member rotatable inside, the beverage toward the first tube when the body is positioned in place. Provides a discharge passage through which the discharge is discharged, and the discharge housing blocking the discharge passage when the body portion is located in the reverse position and the discharge hole formed in the first tube is closed when the body portion is positioned in a fixed position And, when the body portion is located in the reverse position may be provided with a second rotating member that rotates to open the discharge hole so that the storage beverage is supplied to the first tube through the discharge hole.

At this time, the discharge housing is formed with a first inflow hole through which a beverage in the storage space is introduced and a first connection hole connected with a lower end of the first tube, and the first rotation when the body part is positioned in a fixed position. The member rotates to open the first connection hole to provide a discharge passage connecting the first inlet hole and the first connection hole, and when the body portion is positioned in the reverse position, the first rotation member is the first The discharge passage can be blocked by rotating to block the connection hole.

On the other hand, the second rotation member is connected to the rotation shaft that is rotatably connected to the inside of the lid, a blocking unit connected to the rotation shaft to selectively block the discharge hole, and the rotation shaft to the opposite side of the blocking unit It can be provided with a load that provides a rotational force that the blocking portion rotates by gravity depending on the position of the body portion.

At this time, a second tube extending toward a lower portion of the storage space may be connected to the first inlet hole of the discharge housing.

On the other hand, the discharge unit, the first partition wall to provide a buffer space on the top by dividing the storage space horizontally, and is provided so as to be rotatable in the buffer space, the first partition wall when the body portion is positioned in place It is formed on and rotates to open the second connection hole connected to the buffer space, and the third rotation member and the buffer space to rotate to block the second connection hole when the body part is positioned in the reverse position. It is provided, and rotates to block a third connection hole formed in the first partition wall and connected to the buffer space when the body part is located in a fixed position, and the third connection hole when the body part is located in a reverse position. It may be provided with a fourth rotating member to rotate to open.

Further, at least a portion of the third rotation member and the fourth rotation member may be connected to rotate together.

Meanwhile, a second tube extending toward a lower portion of the storage space may be connected to the second connection hole of the first partition wall.

In addition, an inner path is formed inside at least one of the third and fourth rotating members, and when the body portion is disposed in the forward and reverse positions, the third movement is performed along the internal path according to gravity. The rotating member and the fourth rotating member may further include a load ball that provides a rotating force to rotate.

On the other hand, at least one of the third rotation member and the fourth rotation member, when the body portion is disposed in the forward position and the reverse position, the third rotation member and the fourth rotation member are provided with rotational force to rotate according to gravity Load plate to be further provided.

Furthermore, the discharge unit is formed on the lid and provided with an outlet through which the beverage in the storage space is discharged when the body portion is positioned in an inverted position, and is rotatably provided on the lid, so that the body portion is disposed in a fixed position. It may be provided with a fifth rotating member that rotates to block the outlet, and rotates to block a connection hole connected to the first tube when the body portion is positioned in the reverse position.

On the other hand, the discharge unit is connected to the lower end of the first tube, a connection space is formed that is connected to the first tube on the inner top, the first elevating member for moving up and down at the lower portion of the connection space and A switching housing having a second elevating member and connected to the storage space at a lower portion to form a second inflow hole through which beverage is introduced when the body is positioned and a third inflow hole through which beverage is introduced when the body portion is reversed. It may be provided.

In this case, when the body part is positioned in the correct position, the second inflow hole is opened by the first elevating member and the third inflow hole is blocked by the second elevating member, and the body part is reversed. When positioned in the position, the second inflow hole may be blocked by the first elevating member and the third inflow hole may be opened by the second elevating member.

In addition, a second tube extending toward the lower portion of the storage space may be connected to the second inflow hole of the conversion housing.

According to the present invention having the above-described configuration, even when using the beverage container in a fixed position in a beverage container equipped with a tube, or when the beverage container is used upside down, all of the inner beverage can be easily inhaled. Can be.

1 is an external perspective view of a beverage container according to an embodiment of the present invention,

2 and 3 is a partial cross-sectional view showing the configuration of a discharge unit according to an embodiment,

4 and 5 is a partial perspective view showing the configuration of a discharge unit according to another embodiment,

6 and 7 is a partial perspective view showing the configuration of a discharge unit according to another embodiment,

8 to 10 is a partial perspective view showing the configuration of a discharge unit according to another embodiment,

11 is an exploded perspective view of a discharge unit according to another embodiment,

12 and 13 are partial cross-sectional views showing the configuration of the discharge unit according to FIG. 11.

Hereinafter, the structure of the beverage container according to the embodiment of the present invention will be described in detail with reference to the drawings.

1 is a perspective view of a beverage container 1000 according to an embodiment of the present invention, FIGS. 2 and 3 are some cross-sectional views for showing the internal configuration of the beverage container 1000. FIG. 2 is a case where the beverage container 1000 is positioned (or placed) in a'right position', and FIG. 3 shows a case where the beverage container 1000 is located in a'reverse position'.

Here, the'fixed position' is defined as a case where the body portion 100 of the beverage container 1000 faces the floor or the ground or the body portion 100 is inclined to face the floor or the ground. Can be. In addition, the'reverse position' means that the body portion 100 of the beverage container 1000 is turned over so that the lid 200 of the beverage container 1000 faces the floor or the ground, or the lid 200 is the bottom. Or it may be defined as a case in which it is positioned inclined to face the ground.

1 to 3, the beverage container 1000 has an opening at the top and provides a storage space 110 for storing beverage therein, the body portion 100, the opening portion of the body portion 100 The lid 200 for sealing, the first tube 610 connected to the lid 200 to discharge the beverage in the storage space 110 and the storage space 110 is provided in the body portion 100 Depending on the case of being disposed in the forward and reverse positions, a discharge unit 900 for selectively supplying the beverage in the storage space 110 to the first tube 610 may be provided.

The beverage container 1000 according to the present invention may first include a body portion 100. The body portion 100 provides a storage space 110 inside, and can store various drinks such as water, juice, coffee, etc. in the storage space 110.

In the drawing, the body part 100 is illustrated in a cylindrical shape with an open top, but is not limited thereto. For example, the body portion 100 may have a polygonal column shape and various modifications are possible.

In addition, the body portion 100 may be made of synthetic resin or the like for ease of manufacture, but is not limited thereto, and may be made of various materials such as metal and glass.

A lid 200 is provided on the opened upper portion of the body portion 100. The lid 200 may be detachably connected to the upper end of the body portion 100. Therefore, in the case of injecting a beverage into the storage space 110 or washing, the lid 200 can be removed, and when using the beverage container 1000, the lid 200 is the body portion ( 100) can be used in combination with the upper end.

The lid 200 may also be made of synthetic resin, but is not limited thereto, and may be made of various materials such as metal and glass.

Meanwhile, a first tube 610 capable of discharging a beverage accommodated in the storage space 110 to the outside is connected to the lid 200. The first tube 610 may be provided to extend through the lid 200 and extend into the beverage container 1000.

The first tube 610 may be made of synthetic resin, but is not limited thereto, and may be made of various materials.

On the other hand, in the storage space 110, depending on the case where the body portion 100 is disposed in a forward position and a reverse position, a discharge capable of selectively supplying the beverage in the storage space 110 to the first tube 610 Unit 900 may be provided.

Looking at a beverage container having a tube of the prior art, when the beverage container is ingested by inhaling the beverage inside the beverage container with a tube or the like, the beverage inside is not discharged when the beverage container is used in the reverse position, that is, inverted. This is because the tube is elongated toward the bottom of the beverage container, so that when the beverage container is turned over, beverage is not introduced into the lower portion of the tube.

In addition, when looking at the beverage container without a tube of the prior art, in the case of the beverage container, the beverage container must be turned upside down in order to eat the beverage inside, and when located in a fixed position, there is a problem that the beverage inside cannot be eaten.

The beverage container according to the present invention is equipped with a tube to solve the above-mentioned problems of the prior art, so that the beverage container can be sucked and eaten when the beverage container is positioned at the right position. It provides a structure that can be consumed by discharging beverages. Hereinafter, with reference to the drawings will be described in detail.

2 and 3, the discharging unit 900 is rotated selectively depending on the case where the body portion 100 is located in the forward and reverse positions to discharge the beverage in the storage space 110 at least One rotation member (300, 360) may be provided.

Specifically, the discharge unit 900 is connected to the lower end of the first tube 610 in the storage space 110, and provided with a first rotating member 360 inside the body portion 100 is fixed A discharge housing (600) that provides a discharge passage through which the beverage is discharged toward the first tube (610) when positioned at a position, and blocks the discharge passage when the body portion (100) is positioned at a reverse position ).

In addition, the discharge unit 900 is rotated to seal the discharge hole 611 formed in the first tube 610 when the body portion 100 is positioned in place, the body portion 100 A second rotation member 300 is provided to rotate the discharge hole 611 to be opened in the reverse position so that the stored beverage is supplied to the first tube 610 through the discharge hole 611. can do.

The discharge housing 600 is provided inside the beverage container 1000 or in the storage space 110 and connected to the lower end of the first tube 610. In addition, a second tube 510 extending long toward the bottom of the body portion 100 may be connected to a lower end portion of the discharge housing 600.

In this case, the discharge housing 600 is introduced through the second tube 510 when the user sucks the first tube 610 when the body portion 100 is positioned in a fixed position and negative pressure is condensed. It serves to supply the beverage toward the first tube 610. In addition, the discharge housing 600 also serves to not provide a drink toward the first tube 610 when the body portion 100 is located in the reverse position.

For example, the discharge housing 600 may be provided in the form of a housing in which a predetermined space is formed inside, as shown in the figure. In this case, a first inflow hole 622 through which a beverage in the storage space 110 is introduced may be formed at a lower portion of the discharge housing 600. The second tube 510 described above may be connected to the first inflow hole 622. At this time, the upper end of the second tube 510 is provided with a bellows 512 that can be stretched and contracted to adjust the height of the lower end of the second tube 510. In addition, a first connection hole 612 connected to a lower end of the first tube 610 may be formed on an upper portion of the discharge housing 600.

In this case, a first rotating member 360 that can be rotated may be provided in the inner space of the discharge housing 600. The first rotation member 360 rotates according to the position of the body part 100 in the forward or reverse position to selectively block or open the first connection hole 612 to open the first tube 610. The beverage can be fed toward or blocked from the beverage supply.

The first rotating member 360 is provided inside the discharge housing 600 and is capable of rotating a first rotating shaft 361 and the first rotating shaft 361 connected to the first connecting hole ( A blocking plate 363 selectively blocking 612 may be provided.

In this case, when the body portion 100 is positioned in a fixed position as shown in FIG. 2, the first rotation member 360 rotates to open the first connection hole 612, so that the first inflow hole 622 ) And a discharge passage connecting the first connection hole 612 may be provided.

When the body portion 100 is positioned in a fixed position, the first rotation member 360 is rotated toward the bottom as shown in FIG. 2, and the first connection hole 612 is kept open Is done. Accordingly, a discharge flow path connected to the first tube 610 may be formed through the second tube 510, the first inlet hole 622, the discharge housing 600, and the first connection hole 612. have.

Therefore, when the user positions the beverage container 1000 in a fixed position and sucks the first tube 610, negative pressure is applied to the inside of the first tube 610, thereby discharging the aforementioned discharge passage. Through the beverage can be discharged through the upper end of the first tube (610).

On the other hand, when the body portion 100 is located in the reverse position, the first rotation member 360 may be rotated to block the first connection hole 612 to block the discharge passage.

That is, when the body portion 100 is located in the reverse position as shown in Figure 3, the first rotation member 360 is rotated downward by gravity, blocking the first connection hole 612 It can be blocked by (363).

Therefore, when the beverage container 1000 is disposed in the reverse position, the beverage is not discharged through the second tube 510 and the discharge housing 600, and the discharge hole formed directly in the first tube 610 ( 611).

3, the discharge hole 611 may be formed in the first tube 610. In this case, the discharge hole 611 may be formed to be as close as possible to the lid 200 inside the beverage container 1000. This is for discharging as much beverage as possible when the beverage container 1000 is turned over and used in a reverse position.

A locking jaw 630 may be formed in the first tube 610 to prevent the discharge hole 611 from being exposed to the outside of the lid 200.

The locking jaw 630 may be located between the discharge hole 611 and the lid 200 to be formed in the first tube 610. Therefore, even when the user pulls the first tube 610 to the outside of the lid 200, the first tube 610 is not drawn out of the lid 200 by the locking jaw 630. It is possible to prevent the discharge hole 611 from being exposed to the outside of the lid 200.

In this case, when the body portion 100 is positioned in a fixed position, it is rotated to seal the discharge hole 611 formed in the first tube 610, and the body portion 100 is located in a reverse position. In this case, the second rotation member 300 may be provided to rotate to open the discharge hole 611 so that the stored beverage is supplied to the first tube 610 through the discharge hole 611.

Specifically, the second rotation member 300 is a second rotation shaft 320 rotatably connected to the inside of the lid 200 and the discharge hole 611 connected to the second rotation shaft 320 It is connected to the blocking portion 342 and the second rotation shaft 320 to the opposite side of the blocking portion 342 to selectively block the blocking portion 342 to provide a rotational force that the blocking portion 342 rotates by gravity A load unit 320 may be provided.

The second rotation shaft 320 may be connected to the rotation fixing part 210 formed inside the lid 200 to be rotatable. The rotation fixing part 210 may be formed inside the body part 100. However, in order to separate the discharge unit 900 when the lid 200 is separated, the rotation fixing part 210 is preferably formed inside the lid 200.

The second rotation shaft 320 has a blocking portion 342 blocking the discharge hole 611 and a rotational force that the blocking portion 342 rotates by gravity according to the position of the body portion 100. It may be provided with a load unit 320 provided. The load portion 320 is configured to be relatively heavy load, and is configured to rotate well when the body portion 100 is positioned in the forward or reverse position.

In this case, the load part 320 may be connected to the second rotation shaft 320 by a first connection bar 322. In addition, the blocking unit 342 may be connected to the second rotation shaft 320 by a second connection bar 340. The shape of the blocking portion 342 is illustrated in a shape of a substantially spherical shape in the drawing, but is not limited thereto. For example, the blocking part 342 may have various shapes such as a hemisphere shape, a flat plate shape, or a bent shape.

In this case, the load part 320 may be connected to the opposite side of the blocking part 342 around the second rotation shaft 320. This is because when the load part 320 is rotated when the load part 320 is located on the opposite side of the blocking part 342, the rotational force can be transmitted to the blocking part 342 the largest. .

In the configuration as described above, when the body portion 100 is disposed in a fixed position as shown in FIG. 2, the load portion 320 is rotated downward by gravity. At this time, the blocking part 342 is rotated upward to block the discharge hole 611 of the first tube 610 to be blocked. Therefore, when the body portion 100 is located in a fixed position, the beverage is not discharged through the discharge hole 611.

On the other hand, when the body portion 100 is disposed in a reverse position as shown in FIG. 3, the load portion 320 rotates downward by gravity, and the blocking portion 342 rotates upwards on the contrary. In this case, the discharge hole 611 is opened, and the beverage inside the body portion 100 may be supplied to the first tube 610 through the discharge hole 611.

Meanwhile, FIGS. 4 and 5 are views illustrating a configuration of the discharge unit 1900 inside the beverage container according to another embodiment. 4 and 5, the configuration of the body is omitted. In addition, Figure 4 corresponds to the case where the beverage container is located in the right position, Figure 5 shows a case where the beverage container is located in the reverse position.

Referring to FIGS. 4 and 5, the discharge unit 1900 according to the present exemplary embodiment provides a first partition wall 1200 that horizontally divides the inside of the body portion 100 to provide a buffer space 1300 thereon. It can be provided.

That is, the first partition wall 1200 is horizontally provided inside the body portion 100 to partition the inner space of the body portion 100 into upper and lower spaces, where the upper space is a buffer space ( 1300).

In this case, the discharge unit 1900 may include a third rotating member 1500 and a fourth rotating member 1400 that are rotatably provided in the buffer space 1300. At least a portion of the third rotation member 1500 and the fourth rotation member 1400 may be connected to rotate together. In addition, a rotation fixing part 1210 capable of rotating the third rotation member 1500 and the fourth rotation member 1400 may be provided at one side of the buffer space 1300. In the drawing, the rotation fixing part 1210 is illustrated as being formed on the upper surface of the first partition wall 1200, but is not limited thereto, and the position may be appropriately modified.

The third rotation member 1500, the second connection hole 1220 is formed in the first partition wall 1200 and connected to the buffer space 1300 when the body portion 100 is located in the right position It can be rotated to open, and can be rotated to block the second connection hole 1220 when the body portion 100 is located in the reverse position.

For example, the third rotating member 1500 is a third circular connecting portion 1520 rotatably connected to the rotating fixing portion 1210, and a substantially circular one formed at both ends of the third connecting portion 1520 A pair of third blocking portions 1510 and 1530 may be provided. At this time, the third connecting portion 1520 may be a straight line, but may be configured in a curved shape or a curved shape with a predetermined radius as shown in the drawing.

In addition, the fourth rotation member 1400, the third connection hole 1240 formed in the first partition wall 1200 and connected to the buffer space 1300 when the body portion 100 is located in the right position ), and may rotate to open the third connection hole 1240 when the body portion 100 is positioned in the reverse position.

For example, the fourth rotation member 1400 is a fourth circular connection portion 1420 rotatably connected to the rotation fixing portion 1210, and a substantially circular one formed at both ends of the fourth connection portion 1420 A pair of fourth blocking portions 1410 and 1430 may be provided. At this time, the fourth connecting portion 1420 may be a straight line, but may be configured in a curved shape or a curved shape with a predetermined radius, as shown in the drawing.

In this case, one of the pair of third blocking portions 1510 and 1530 of the third rotating member 1500 and one of the pair of fourth blocking portions 1410 and 1430 of the fourth rotating member 1400 Are connected to each other and can rotate together.

On the other hand, as shown in the drawing, the direction in which the third connecting portion 1520 of the third rotating member 1500 is bent and the direction in which the fourth connecting portion 1420 of the fourth rotating member 1400 is bent are opposite to each other. It can be configured as possible. When the second connection hole 1220 or the third connection hole 1240 is blocked by the rotation of the third rotation member 1500 and the fourth rotation member 1400, the connection hole is more certainly blocked and blocked. This is to enhance the effect.

Meanwhile, the shapes of the pair of third blocking portions 1510 and 1530 and the fourth blocking portions 1410 and 1430 are illustrated in a substantially spherical shape, but are not limited thereto. For example, the third blocking portions 1510 and 1530 and the fourth blocking portions 1410 and 1430 may have various shapes such as a partially cut hemisphere shape, a flat plate shape, or a bent shape.

In this case, a second tube 510 extending toward an inner lower portion of the body portion 100 may be connected to the second connection hole 1220 on the lower surface of the first partition wall 1200. In addition, a fourth connection hole 1110 may be formed in the lid 1100 to which the first tube 610 is connected.

At this time, the second connection hole 1220 and the fourth connection hole 1110 are arranged to overlap by being arranged in a concentric circle on a plane, or the second connection hole 1220 is directly under the fourth connection hole 1110 Can be located. Alternatively, when the second connection hole 1220 and the fourth connection hole 1110 are not arranged in a concentric circle (if not located directly below), the second connection hole 1220 and the fourth connection hole 1110 At least 50% of each cross-sectional area of can be arranged to overlap on a plane.

This means that when the second connection hole 1220 is opened due to the body portion 100 being in a fixed position, sound pressure through the fourth connection hole 1110 is easily transferred to the second connection hole 1220. To make it possible. That is, when the beverage container 1000 is positioned at a fixed position, when the user sucks the first tube 610, a negative pressure is applied to the buffer space 1300 through the first tube 610. do. At this time, when the second connection hole 1220 and the fourth connection hole 1110 have the above-described arrangement, the sound pressure through the first tube 610 is mostly transferred to the second connection hole 1220, and the Beverage may be sucked into the buffer space 1300 through the second connection hole 1220 and the second tube 510.

In addition, when the sound pressure is applied when the second connection hole 1220 and the fourth connection hole 1110 have the above-described arrangement, the 3-1 blocking portion 1510 of the third rotation member 1500 ) Is pulled upward. At this time, the 4-1 blocking portion 1430 of the fourth rotating member 1400 maintains a strongly rotated state, so that the third connection hole 1240 can be more reliably blocked.

On the other hand, the third connection hole 1240 may be disposed so as not to overlap with the fourth connection hole 1110 on a plane. This means that when the body portion 100 is located in the reverse position, the beverage inside the body portion 100 is directly injected into the fourth connection hole 1110 from the third connection hole 1240 to drink too much. This is to prevent the discharge at a time. In addition, as described above, since the second connection hole 1220 is formed directly under the fourth connection hole 1110, interference between the second connection hole 1220 and the third connection hole 1240 is prevented. In order to do this, the third connection hole 1240 may be disposed so as not to overlap with the fourth connection hole 1110 on a plane.

Meanwhile, a seating portion 1250 may be formed on the first partition wall 1200. The seating portion 1250 may be provided in the form of an oval portion. When the third rotation member 1500 is positioned in a fixed position as shown in FIG. 4, a third-2 blocking part 1530 may be accommodated and partially inserted into the seating part 1250.

Further, when at least one of the third rotating member 1500 and the fourth rotating member 1400 has an internal path 1450 formed therein, and the body portion 100 is disposed in the forward and reverse positions A load ball 1440 may be further provided to move along the inner path 1450 according to gravity, and to provide a rotational force that the third rotational member 1500 and the fourth rotational member 1400 rotate.

For example, as illustrated in the drawing, an internal path 1450 is formed inside the fourth rotating member 1400, and a load ball 1440 may be located inside the internal path 1450.

In this structure, when the body portion 100 is positioned in the forward and reverse positions, the load ball 1440 is a pair of fourth blocking portions 1410 and 1430 along the inner path 1450 according to gravity. ) To provide a rotational force capable of rotating between the fourth rotational member 1400 and the third rotational member 1500.

In the discharge unit 1900 having the configuration of FIGS. 4 and 5, the load ball 1440 disposed inside the fourth rotation member 1400 when the body portion 100 is positioned in a fixed position as shown in FIG. It moves along the inner path 1450. In this case, the fourth rotation member 1400 is rotated downward as shown in FIG. 4 to block the third connection hole 1240 connected to the buffer space 1300.

At this time, the third rotation member 1500 is rotated upward as shown in the drawing to open the second connection hole 1220 connected to the buffer space 1300.

As described above, when the user sucks the first tube 610 in a state where the body part 100 is in a fixed position, a negative pressure is applied to the buffer space 1300 through the first tube 610. do. At this time, when the second connection hole 1220 and the fourth connection hole 1110 have a concentric circle arrangement, the sound pressure through the first tube 610 is mostly transferred to the second connection hole 1220 and the first 2 The beverage may be sucked into the buffer space 1300 through the connection hole 1220 and the second tube 510. The beverage introduced into the buffer space 1300 fills the buffer space 1300 and is discharged to the outside through the first tube 610 through the fourth connection hole 1110 by negative pressure.

On the other hand, when the body portion 100 is located in the reverse position as shown in Figure 5, the load ball 1440 disposed inside the fourth rotating member 1400 is in the opposite direction along the inner path 1450 Will move. In this case, the fourth rotation member 1400 rotates downward as shown in FIG. 5 to form a third connection hole 1240 formed in the first partition wall 1200 and connected to the buffer space 1300. Will open.

At this time, the third rotation member 1500 is rotated upward as shown in the drawing to be formed in the first partition wall 1200 to block the second connection hole 1220 connected to the buffer space 1300 Is done.

When the body portion 100 is located in the reverse position, the second connection hole 1220 connected to the second tube 510 is blocked by the third rotation member 1500 to allow the second tube 510 ) Does not discharge the beverage.

In this case, the beverage inside the body portion 100 is introduced into the buffer space 1300 through the third connection hole 1240, and the beverage introduced into the buffer space 1300 is the fourth connection hole 1110 ) Is discharged to the outside through the first tube (610).

At this time, the third connection hole 1240 is disposed so that the fourth connection hole 1110 does not overlap on a flat surface so that the beverage inside the body portion 100 is directly connected to the fourth connection hole 1240 It is introduced into the hole 1110 to prevent too much beverage from being discharged at one time.

Meanwhile, FIGS. 6 and 7 are views illustrating a discharge unit 2900 according to another embodiment. FIG. 6 shows the case where the body portion 100 is located at the right position, and FIG. 7 shows the case where the body portion 100 is located at the reverse position. In the case of the embodiment according to FIGS. 6 and 7, the same reference numerals are used for the same components as those of the above-described embodiments of FIGS. 4 and 5.

6 and 7, it has a structure similar to that of the above-described embodiments of FIGS. 4 and 5 and has a difference in the configuration of the rotating member.

As shown in the embodiment of FIGS. 4 and 5, when a load ball is provided inside the rotation member to provide rotational force by movement of the load ball, a relatively large rotational force can be provided. However, it is very difficult to manufacture the inner path of the rotating member and insert the load ball by manufacturing the inner path, which significantly increases the manufacturing process and manufacturing time.

In the case of the present embodiment, when the body portion 100 is disposed at at least one of the third rotation member 1500 and the fourth rotation member 1400 in the forward and reverse positions, the third rotation member according to gravity ( 2500) and the fourth rotation member 2400 may be provided with load plates (2600, 2700) to provide a rotational force to rotate.

For example, the third rotating member 2500 is a third circular connecting portion 2520 which is rotatably connected to the rotating fixing portion 1210, and a substantially circular one formed at both ends of the third connecting portion 2520. A pair of third blocking portions 2510 may be provided. In this case, the first load plate 2700 may be disposed adjacent to one of the pair of third blocking portions 2510. In addition, the third connecting portion 2520 may be straight, but may be configured in a curved shape or a curved shape with a predetermined radius, as shown in the drawing.

On the other hand, the fourth rotating member 2400 is a pair of approximately circular formed on both ends of the fourth connecting portion 2420 and the fourth connecting portion 2420 is rotatably connected to the rotating fixing portion 1210 The fourth blocking units 2410 and 2430 may be provided. At this time, the second load plate 2600 may be disposed adjacent to one of the pair of fourth blocking portions 2410 and 2430. At this time, the fourth connecting portion 2420 may be a straight line, but may be configured in a curved shape or a curved shape with a predetermined radius as shown in the drawing.

On the other hand, so that the third rotation member 2500 and the fourth rotation member 2400 can rotate together, one of the pair of third blocking portions 2510 of the third rotation member 2500 and the first One of the pair of fourth blocking portions 2410 and 2430 of the four rotating members 2400 may be connected to each other. In this case, the first load plate 2700 is connected to a third blocking portion 2510 that is not connected to the fourth rotating member 2400 among a pair of third blocking portions 2510 of the third rotating member 2500. It can be placed adjacent. Likewise, the second load plate 2600 is a 4-1 blocking portion not connected to the third rotating member 2500 among the pair of fourth blocking portions 2410 and 2430 of the fourth rotating member 2400. It may be disposed adjacent to (2410).

The first load plate 2700 and the second load plate 2600 may be provided in a curved shape or a bent portion formed in the middle as shown in the figure.

In the case of the present embodiment, the third rotation member 2500 and the fourth rotation member (by the first load plate 2700 and the second load plate 2600) according to the forward or reverse position of the body portion 100 2400) can be rotated by applying a rotating force.

When the body portion 100 in the discharge unit 2900 having the configuration of FIGS. 6 and 7 is positioned in the same position as in FIG. 6, when the user sucks the first tube 610, the first The negative pressure acts on the buffer space 1300 through the tube 610. At this time, the negative pressure through the first tube 610 acts separately on the first load plate 2700 and the second load plate 2600, so that the third rotating member 2500 and the fourth rotating member 2400 In the same direction, for example, in FIG. 6, a rotational force is rotated counterclockwise. In this case, the third connection hole 1240 may be more firmly blocked by the 4-2 blocking part 2430 of the fourth rotating member 2400.

In addition, in this case, the negative pressure acting as the buffer space 1300 is mostly transferred to the second connection hole 1220 to drink the beverage through the second connection hole 1220 and the second tube 510 in the buffer space. (1300) can be sucked. The beverage introduced into the buffer space 1300 fills the buffer space 1300 and is discharged to the outside through the first tube 610 through the fourth connection hole 1110 by negative pressure.

Meanwhile, the shapes of the pair of third blocking portions 2510 and fourth blocking portions 2410 and 2430 described above are illustrated in a substantially spherical shape, but are not limited thereto. For example, the third blocking portion 2510 and the fourth blocking portion 2410, 2430 may have various shapes such as a partially cut hemisphere shape, a flat plate shape, or a bent shape. When the pair of third blocking portions 2510 and the fourth blocking portions 2410 and 2430 have a flat shape or a plate shape, the role of the load plate described above, that is, a role of providing rotational force when sound pressure is applied can do.

The operation of the rotating member according to the position of the body portion 100 is similar to the embodiment of FIGS. 4 and 5 described above, and thus repeated description will be omitted.

In addition, although not shown in the drawings of FIGS. 6 and 7, even in the case of the present embodiment, the inner path and the inner path are moved along at least one of the third rotating member 1500 and the fourth rotating member 1400. It can be provided with a load ball.

Meanwhile, FIGS. 8 to 10 are views showing the configuration of the discharge unit 3900 according to another embodiment. 8 and 9 is a case where the beverage container 1000 is located at a fixed position, and FIG. 10 shows a case where the beverage container 1000 is located at a reverse position.

8 to 10, the discharging unit 3900 is formed on the lid 3200 so that the beverage inside the body 100 is discharged when the body part 100 is positioned in the reverse position. The outlet 3320 and the lid 3200 are rotatably provided to rotate to block the outlet 3320 when the body portion 100 is disposed in a fixed position, and the body portion 100 is reversed. When located in the position it may be provided with a fifth rotation member 3500 to rotate to block the fifth connection hole 614 connected to the first tube (610).

In the case of the discharge unit 3900 according to the present embodiment, the body part 100 is provided by providing a buffer space 3600 by an additional partition 3600 without having a second tube inside the body part 100. It differs from the above-described embodiments in that the beverage is provided according to the exact position and the reverse position.

8 to 10, the lid 3200 is connected with a first tube 610 capable of discharging the beverage inside when the body portion 100 is positioned in place. Furthermore, the lid 3200 may be formed with an outlet 3320 in which the beverage inside is discharged when the body portion 100 is turned over and used in a reverse position.

That is, in the case of the present embodiment, when the beverage container 1000 is put in place and used, the user can suck the beverage by sucking the first tube 610. In addition, when the beverage container 1000 is turned over and used in a reverse position, the user can inhale the beverage through the outlet 3320.

In this case, the outlet 3320 is formed to protrude to a predetermined height from the lid 3200, it may be configured to allow the user to inhale the beverage more easily.

The fifth rotation member 3500 may be rotatably connected to the lower surface of the lid 3200. For example, a fixed shaft 3400 extends from a lower surface of the lid 3200 toward a lower portion, and a rail 3352 through which the lower end of the fixed shaft 3400 can be inserted into the fifth rotation member 3500 ) May be formed.

The fifth rotation member 3500 may include a fifth connection part 3520 and a pair of fifth blocking parts 3510 and 3530 formed at both ends of the fifth connection part 3520. In this case, the pair of fifth blocking parts 3510 and 3530 have a substantially circular shape and a fifth connection connected to the outlet 3320 formed on the lid 3200 and the first tube 610 The hole 614 is selectively blocked.

At this time, the above-described rail 3522 may be formed on the fifth connection part 3520. The fifth connection part 3520 may be formed in a curved shape as illustrated in the drawing, and may have, for example, a curved shape that is convex downward.

In the case of having the above-described configuration, when the body portion 100 is positioned in a fixed position as shown in FIGS. 8 and 9, the fifth rotation member 3500 is rotated around the fixed shaft 3400 to generate a fifth- 1 blocking unit 3530 will block the outlet 3320.

In this case, the 5-2 blocking portion 3510 on the other side of the 5-1 blocking portion 3530 is relatively heavier so that the 5-1 blocking portion 3530 blocks the outlet 3320. It can have a load.

That is, since the 5-2 blocking portion 3510 has a relatively heavier load than the 5-1 blocking portion 3530, the 5-2 blocking portion 3510 is lower as shown in FIG. 8. The fifth connection hole 614 is rotated and lowered toward to maintain the open state. In addition, the 5-1 blocking unit 3530 is rotated upward toward the upper portion to block the outlet 3320.

At this time, the user can recognize that the outlet 3320 is blocked when the 5-1 blocking unit 3530 is visible through the outlet 3320. In addition, the 5-1 blocking unit 3530 has a display unit such as'CLOSED', and when the display unit is seen through the outlet 3320, the user can easily know that the outlet 3320 is blocked. Can be.

On the other hand, when the body portion 100 is positioned in a fixed position as shown in FIGS. 8 and 9, when the user sucks the first tube 610, the buffer space through the fifth connection hole 614 ( 3630), the negative pressure acts, the beverage is supplied to the buffer space 3630 through the through hole 3640 of the additional partition 3600. The beverage supplied to the buffer space 3630 may fill the buffer space 3630 and be supplied to the first tube 610 through the fifth connection hole 614.

On the other hand, when the body portion 100 is inverted as shown in FIG. 10 and positioned in the reverse position, the 5-2 blocking portion 3510 rotates downward and descends to block the fifth connection hole 614 do. In addition, the 5-1 blocking unit 3530 rotates upward toward the upper portion to open the outlet 3320.

Therefore, the beverage inside the body portion 100 is supplied to the buffer space 3630 through the through hole 3640 of the additional partition 3600, and the beverage supplied to the buffer space 3630 is the outlet ( 3320).

Meanwhile, FIGS. 11 to 13 show the configuration of the discharge unit 4900 according to another embodiment. FIG. 11 is an exploded perspective view of the discharge unit 4900, FIG. 12 shows a case where the beverage container 1000 is located at a fixed position, and FIG. 13 shows a case where the beverage container 1000 is located at a reverse position. do.

Referring to FIG. 11, the discharge unit 4900 may include a switching housing 4000 connected to a lower end of the first tube 610. A connection space 4010 connected to the first tube 610 may be formed on an inner upper portion of the conversion housing 4000.

For example, the conversion housing 4000 may be composed of an upper cover 4005 and a lower body 4300, and the connection space 4010 is formed between the upper cover 4005 and the lower body 4300. Can be.

Meanwhile, a first elevating member 4200 and a second elevating member 4100 for vertically moving up and down may be provided at the lower portion of the connection space 4010. For example, the first concave portion 4340 and the second elevating member 4100 that the first elevating member 4200 may elevate up and down on the lower body 4300 may move up and down. The second concave portion 4350 may be formed. The first elevating member 4200 and the second elevating member 4100 move up and down according to the position of the beverage container 1000.

The first elevating member 4200 includes a first upper engaging portion 4230, a first extending portion 4220 extending toward a lower portion of the first upper engaging portion 4230, and the first extending portion ( 4220) may be provided with a first ball member 4210 connected to an end. In addition, the second elevating member 4100 includes a second upper engaging portion 4130, a second extending portion 4120 extending toward the lower portion of the second upper engaging portion 4130, and the second extending portion. A second ball member 4110 connected to an end of the portion 4120 may be provided.

In addition, the lower portion of the switching housing 4000 is connected to the interior of the body portion 100, the second inlet hole 4342 and the body portion 100 into which beverage is introduced when the body portion 100 is in place. A third inflow hole 4322 into which a beverage is introduced may be formed at a reverse position of.

In this case, a second tube 510 formed to extend toward the lower portion of the body portion 100 may be connected to the second inflow hole 4342 of the conversion housing 4000. A coupling portion 4400 may be formed at an upper end of the second tube 510 to be connected to a lower portion of the conversion housing 4000. At this time, the coupling portion 4400 is provided in the form of an expanded tube with an expanded diameter to increase the coupling force.

In the case of having the above-described configuration, as shown in FIG. 12, when the beverage container 1000 is positioned in the right position, the second inflow hole 4342 is opened by the first elevating member 4200 and the second The third inflow hole 4322 is blocked by the elevating and descending member 4100.

When the beverage container 1000 is positioned at a fixed position, the first upper catching portion 4230 of the first elevating member 4200 has a first protrusion 4344 formed inside the first concave portion 4340. ) To be spaced apart from the inner surface of the first concave portion 4340. Therefore, the second inflow hole 4342 of the switching housing 4000 can maintain an open state. In this case, when the user sucks the first tube 610, the negative pressure acts as the second tube 510 through the connection space 4010 and the second inlet hole 4342. As a result, the beverage rises along the internal flow path 511 of the second tube 510 and is supplied to the first tube 610 through the second inflow hole 4342 and the connection space 4010.

On the other hand, when the beverage container 1000 is positioned in a fixed position, the second upper catching portion 4130 of the second elevating member 4100 is in close contact with the inner surface of the second concave portion 4350 to remove the agent. 3 Inlet hole 4322 is blocked. Therefore, even when the user sucks the first tube 610, the negative pressure does not act through the third inflow hole 4322.

On the other hand, when the beverage container 1000 is located in the reverse position as shown in FIG. 13, the second inflow hole 4342 is blocked by the first elevating member 4200 and the second elevating member 4100 is provided. By this, the third inflow hole 4322 is opened.

When the beverage container 1000 is located in the reverse position, the first upper catching portion 4230 of the first elevating member 4200 is in close contact with the second inlet hole 4342, and the second inlet hole ( 4342).

In this case, the second ball member 4110 of the second elevating member 4100 is separated by the second protrusion 4435 formed on the lower surface of the switching housing 4000 or the lower surface of the lower body 4300. Is placed. Therefore, the third inflow hole 4332 of the switching housing 4000 can maintain an open state.

Therefore, when the beverage container 1000 is turned upside down and used in a reverse position, the beverage inside is supplied to the connection space 4010 through the third inflow hole 4322, and the first connection is provided in the connection space 4010. It is supplied to the tube 610 and discharged to the outside.

Although described above with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will be able to. Therefore, if the modified implementation basically includes the components of the claims of the present invention, it should be considered that all are included in the technical scope of the present invention.

According to the present invention having the above-described configuration, even when using the beverage container in a fixed position in a beverage container equipped with a tube, or when the beverage container is used upside down, all of the inner beverage can be easily inhaled. Can be.

Claims (15)

1. A body part having an opening at the top and providing a storage space for storing beverages inside;

   A lid sealing the opening;

   A first tube connected to the lid to discharge a beverage in the storage space; And

   A beverage container comprising: a discharge unit provided in the storage space and selectively supplying the beverage in the storage space to the first tube according to the case where the body portion is disposed in the forward and reverse positions.
2. According to claim 1,

   The discharging unit is provided with at least one rotating member for selectively discharging the beverage in the storage space by selectively rotating according to the case where the body is located in the forward and reverse positions.
3. According to claim 2,

   The discharge unit,

   It is connected to the lower end of the first tube in the storage space, and provided with a first pivoting member that is rotatable inside to provide a discharge flow path through which the beverage is discharged toward the first tube when the body portion is positioned in a fixed position. And, when the body portion is located in the reverse position discharge housing to block the discharge flow path; And

   When the body portion is positioned in the correct position, it is rotated to seal the discharge hole formed in the first tube, and when the body portion is positioned at the reverse position, the body is rotated to open the discharge hole, and the first through the discharge hole. And a second rotating member for supplying the storage drink to a tube.
4. According to claim 3,

   The discharge housing is formed with a first inlet hole through which a beverage in the storage space flows and a first connection hole connected with a lower end of the first tube,

   When the body portion is positioned in the right position, the first rotation member rotates to open the first connection hole to provide a discharge passage connecting the first inlet hole and the first connection hole, and the body portion is in a reverse position. When located in the first rotating member is rotated so as to block the first connection hole beverage container characterized in that to block the discharge passage.
5. According to claim 3,

   The second rotating member

   A rotation shaft rotatably connected to the inside of the lid;

   A blocking unit connected to the rotating shaft to rotate to selectively block the discharge hole; And

   Beverage container, characterized in that it is connected to the opposite side of the blocking portion in the rotating shaft to provide a rotational force to rotate the blocking portion by gravity according to the position of the body portion.
6. According to claim 3,

   A beverage container, characterized in that a second tube extending toward a lower portion of the storage space is connected to the first inlet hole of the discharge housing.
7. According to claim 2,

   The discharge unit,

   A first partition wall partitioning the storage space horizontally to provide a buffer space thereon;

   When provided in the buffer space so as to be rotatable, when the body portion is positioned in a fixed position, rotated to open a second connection hole formed in the first partition wall and connected to the buffer space, and when the body portion is located in a reverse position A third rotating member that rotates to block the second connection hole; And

   It is provided so as to be rotatable in the buffer space, and rotates to block a third connection hole formed in the first partition wall and connected to the buffer space when the body part is positioned in a fixed position, and when the body part is located in a reverse position Beverage container, characterized in that it comprises; a fourth rotating member to rotate to open the third connection hole.
8. The method of claim 7,

   The third rotating member and the fourth rotating member are beverage containers, characterized in that at least a part is connected and rotated together.
9. The method of claim 7,

   The second container of the first partition wall is a beverage container characterized in that the second tube is formed extending toward the bottom of the storage space is connected.
10. The method of claim 7,

    An internal path is formed inside at least one of the third and fourth rotational members,

    When the body portion is disposed in the forward position and the reverse position, characterized in that it further comprises a load ball that provides a rotational force that moves along the inner path according to gravity to rotate the third and fourth rotating members. Drink containers to be made.
11. The method of claim 7 or 10,

    At least one of the third rotating member and the fourth rotating member,

    A beverage container further comprising a load plate that provides a rotational force for the third rotational member and the fourth rotational member to rotate according to gravity when the body is disposed in the forward and reverse positions.
12. According to claim 2,

    The discharge unit

    When the body portion is formed in the lid is located in the reverse position and the outlet for the beverage in the storage space is discharged,

    It is rotatably provided on the lid, and rotates to block the outlet when the body portion is disposed in the correct position, and rotates to block a connection hole connected to the first tube when the body portion is located in the reverse position. A beverage container comprising a fifth rotating member.
13. According to claim 1,

    The discharge unit,

    The first tube is connected to the lower end of the first tube, and a connection space connected to the first tube is formed at an inner upper part, and a first elevating member and a second elevating member are provided to move up and down at the lower part of the connection space. And, it is connected to the storage space at the bottom, characterized in that it comprises a switching housing formed with a second inlet hole through which the beverage flows when the body part is positioned and a third inlet hole through which the beverage flows when the body part is positioned backwards. Beverage container.
14. The method of claim 13,

    When the body portion is positioned in a fixed position, the second inflow hole is opened by the first elevating member and the third inflow hole is blocked by the second elevating member,

    When the body portion is located in the reverse position, the second inflow hole is blocked by the first elevating member and the beverage container characterized in that the third inflow hole is opened by the second elevating member.
15. The method of claim 13,

    A beverage container, characterized in that a second tube extending toward a lower portion of the storage space is connected to a second inflow hole of the conversion housing.

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