JP6903340B2 - Beverage container and cap assembly - Google Patents

Description

The present invention relates to beverage containers and cap assemblies used for beverage containers.

For example, as disclosed in Patent Document 1, a beverage container having a drinking spout is used. In such a beverage container, a drinking mouth having a straw shape or a nipple shape is used according to the growth stage of the infant. However, for infants who cannot reduce the pressure in the mouth, the guardian pushes the container to increase the internal pressure of the container and pushes the beverage out of the mouth.

JP-A-2018-070190

The present invention has been made in consideration of the above points, and an object of the present invention is to provide a beverage container capable of assisting an infant to drink a beverage without the help of a guardian.

The beverage container according to the present invention
With the container body
A spout adapter, which is attached to the container body and has a spout portion, is provided.
The spout portion includes a tubular tip portion located at the tip portion and a base end portion connected to the tip portion and wider than the tip portion.
The wall thickness of the base end portion is smaller than the wall thickness of the tip end portion.

In the beverage container according to the present invention, the base end portion may be deformed so that the volume of the base end portion is reduced by pushing the tip end portion toward the base end portion side.

In the beverage container according to the present invention, the width of the base end portion may be reduced as it approaches the tip end portion.

In the beverage container according to the present invention, the base end portion may have a curved outer contour that bulges outward.

In the beverage container according to the present invention, the wall thickness of the drinking spout may be maximized at the position where the tip is connected to the base end.

In the beverage container according to the present invention, a corner portion may be formed so as to protrude inside the drinking spout portion at a position where the tip end portion is connected to the base end portion.

In the beverage container according to the present invention
The spout adapter has an adapter body attached to the container body and an elastic member held by the adapter body.
The elastic member includes the spout portion and a mounting portion that is connected to the spout portion and attached to the adapter body.
The wall thickness of the spout portion may be made the smallest at the position where the base end portion is connected to the mounting portion.

In the beverage container according to the present invention, the wall thickness of the attachment portion may be larger than the wall thickness of the base end portion.

In the beverage container according to the present invention
The spout adapter has an adapter body attached to the container body and an elastic member held by the adapter body.
The elastic member includes the spout portion and a mounting portion that is connected to the spout portion and attached to the adapter body.
The inner width of the base end portion may be maximized at a position where the base end portion is connected to the attachment portion.

In the beverage container according to the present invention, the base end portion may have the shape of a rotating body at least in a part on the side of the tip end portion.

In the beverage container according to the present invention
The spout adapter has an adapter body attached to the container body and an elastic member held by the adapter body.
The elastic member includes a spout portion, a mounting portion connected to the spout portion and attached to the adapter body, and a base portion connected to the mounting portion to form a seal between the container body. Have and
The spout portion, the attachment portion, and the base portion may be integrally formed.

The beverage container according to the present invention
Further provided with an openable and closable cap that closes the spout in the closed state,
In the state where the cap is closed, the cap comes into contact with the tip portion from the side of the tip portion opposite to the proximal end portion, and presses the spout portion toward the proximal end portion side. May be good.

The cap assembly according to the present invention
A cap assembly that can be detachably attached to the container body.
A spout adapter that is attached to the container body and has a spout portion is provided.
The spout portion includes a tubular tip portion located at the tip portion and a base end portion connected to the tip portion and wider than the tip portion.
The wall thickness of the base end portion is smaller than the wall thickness of the tip end portion.

The cap assembly according to the present invention
Further provided with an openable and closable cap that closes the spout in the closed state,
The cap may be swingably connected to the spout adapter.

According to the beverage container and cap assembly according to the present invention, infants who are not equipped to change the pressure in the mouth by themselves can effectively assist the infant to drink the beverage without the help of a guardian.

It is a figure for demonstrating one Embodiment, and is the side view which shows the beverage container in the state which the cap is closed. The perspective view which shows the cap assembly of the beverage container shown in FIG. 1 with the cap open. Sectional drawing of the beverage container along the line III-III of FIG. FIG. 2 is a cross-sectional view taken along the line IV-IV of FIG. The perspective view which shows the adapter body of the spout adapter included in the cap assembly of FIG. The perspective view which shows the elastic member of the spout adapter included in the cap assembly of FIG. FIG. 6 is a cross-sectional view taken along the line IV-IV of FIG. FIG. 3 is a cross-sectional view of a cap assembly corresponding to FIG. 3, showing a state in which the cap is closed. FIG. 3 is a cross-sectional view of a cap assembly corresponding to FIG. 3, showing a state in which the cap is slightly opened. The plan view which shows the valve part of the spout adapter in a closed state. FIG. 10 is a plan view showing a valve portion of the spout adapter in a state of being opened by using an open protrusion. FIG. 10 is a plan view showing a valve portion of the spout adapter in a state of being opened by using a support protrusion. It is a figure for demonstrating the operation of the mouth part of a mouthpiece adapter. It is a figure for demonstrating the operation of the mouth part of a mouthpiece adapter. The perspective view for demonstrating one modification of a mouthpiece.

1 to 15 are views for explaining an embodiment of a beverage container and cap assembly according to the present invention. Of these, FIG. 1 is a side view showing the overall configuration of the beverage container, FIG. 2 is a perspective view showing the cap assembly, and FIG. 3 is a vertical sectional view of the beverage container. Hereinafter, one embodiment will be described with reference to the specific examples shown in the drawings.

The beverage container 10 shown in FIG. 1 has a container body 15 and a cap assembly 18 removably attached to the container body 15. The cap assembly 18 has a spout adapter 20 that is detachably attached to the container body 15 and a cap 70 that can operate relative to the spout adapter 20. The drinking spout adapter 20 forms a drinking spout for drinking a beverage (liquid) contained in the beverage container 10. In the illustrated example, the cap 70 is swingable with respect to the spout adapter 20 about the swing axis As. The cap 70 swings relative to the spout adapter 20 to open and close the spout adapter 20 having a spout. The cap 70 covers the spout in the closed state shown in FIG. 1 (and FIG. 8 described later). That is, in the beverage container 10, when the beverage is not used and the beverage is not used, the cap 70 is closed to hide the drinking mouth. In addition, when using a beverage, the cap 70 can be opened to expose the mouthpiece.

The beverage container 10 according to the present embodiment is devised to effectively prevent the beverage from being ejected from the drinking spout when the cap 70 is opened from the closed state. Further, the beverage container 10 according to the present embodiment is devised to assist an infant who is not equipped to change the pressure in the mouth by himself / herself to drink the beverage without the help of a guardian.

As shown in FIG. 3, the container body 15 houses a beverage inside. The container body 15 has an opening 15X. Beverages can be filled inside the container body 15 through the opening 15X. When the beverage container 10 is placed on the horizontal plane, the opening 15X opens upward in the vertical direction and spreads on the horizontal plane. In the illustrated example, the outer screw 16 is formed on the outer peripheral surface of the container body 15 in the vicinity of the opening 15X. The container body 15 can be, for example, a resin molded product formed of a transparent resin material.

In the present specification, the terms "upper" and "lower" are based on the state in which the beverage container 10 is arranged on a horizontal plane unless otherwise specified. Further, in order to clarify the relationship of directions between the drawings, some drawings show the first direction d1, the second direction d2, and the third direction d3 as common directions between the drawings. The first direction dx and the second direction dy are directed on the surface on which the opening 15X is widened. In particular, the first direction dx and the second direction dy face each other. The third direction dz is the normal direction to the surface where the opening 15X is widened.

Next, the mouthpiece adapter 20 will be described. The spout adapter 20 is detachably attached to the container body 15. As shown in FIG. 3, the spout adapter 20 has an inner screw 21 that meshes with the outer screw 16 of the container body 15. The spout adapter 20 is fixed to the container body 15 so as to cover the opening 15X of the container body 15. The spout adapter 20 has a spout and is formed with a ventilation hole 25 leading to the container body 15. The ventilation hole 25 is provided with a valve for switching communication and blocking between the inside and the outside of the beverage container 10.

As shown in FIG. 3, the spout adapter 20 has an adapter body 30 and an elastic member 40 as a specific configuration. The adapter body 30 is formed with an inner screw 21 and can be attached to the container body 15. The adapter body 30 can be, for example, a resin molded product formed of a resin material. The elastic member 40 is held by the adapter body 30. The elastic member 40 is formed by using a material (for example, rubber or resin) that has a lower elastic modulus than the adapter main body 30 and is easily elastically deformed. Is forming.

As shown in FIG. 5, the adapter main body 30 has a peripheral wall portion 32 and a top wall portion 34 connected to the peripheral wall portion 32. In the illustrated example, the peripheral wall portion 32 and the top wall portion 34 are integrally formed as a resin molded product. The peripheral wall portion 32 has a cylindrical shape that opens in the third direction dz. An inner screw 21 is formed on the inner surface of the peripheral wall portion 32. The top wall portion 34 is formed so as to cover one opening of the tubular peripheral wall portion 32, and extends on a plane substantially orthogonal to the third direction dz.

As shown in FIG. 5, a holding opening 34a is formed in the top wall portion 34. The holding opening 34a serves as a portion for holding the elastic member 40. The peripheral edge of the holding opening 34a is somewhat thicker, i.e. thicker, and reinforced than the other parts. The region in which the holding opening 34a is formed is slightly (specifically several mm) raised from the peripheral region located around the region and connected to the peripheral wall portion 32 to form a step. An opening / closing recess 35 is formed in the stepped portion. The opening / closing recess 35 functions as an opening / closing engaging portion (see FIG. 8) that engages with the cap 70 and keeps the cap 70 in a closed state. Further, as shown in FIG. 4, the top wall portion 34 has a support protrusion 36 at a position adjacent to the holding opening 34a. The support protrusion 36 is configured so that the operation protrusion 68 of the elastic member 40, which will be described later, can be hooked. The support protrusion 36 maintains the hooked operation protrusion 68 in an elastically deformed state. Further, as shown in FIG. 3, the top wall portion 34 further has a connecting ridge portion 37 at its edge portion. A through hole 37a is formed in the connecting ridge portion 37. The connection ridge 37 is used to connect the spout adapter 20 and the cap 70.

As shown in FIG. 6, the elastic member 40 includes a base portion 42, a mounting portion 46 provided on the base portion 42, a spout portion 50 provided on the mounting portion 46, and a ventilation hole forming portion 60. have. The base portion 42, the mounting portion 46, the spout portion 50, and the ventilation hole forming portion 60 are integrally formed of, for example, rubber.

As shown in FIG. 6, the base portion 42 has a base plate-shaped portion 43 formed in a flat plate shape and an annular convex portion 44 provided on the base plate-shaped portion 43. The base plate-shaped portion 43 is formed in a disk shape. The base plate-shaped portion 43 is provided with a base opening 43a in the center thereof. The base opening 43a leads to a hollow section of the drinking spout 50, which will be described later. Further, the base opening 43a communicates with the hollow section of the ventilation hole forming portion 60, which will be described later, and forms a part of the ventilation hole 25. The annular convex portion 44 is provided along the circumferential edge portion of the base plate-shaped portion 43. It protrudes from the base plate-shaped portion 43 toward the top wall portion 34 in the third direction dz.

As shown in FIG. 3, when the outer screw 16 of the container body 15 and the inner screw 21 of the spout adapter 20 are engaged and the spout adapter 20 is fixed to the container body 15, the opening 15X of the container body 15 is drawn. The formed circumferential tip surface 17 comes into contact with the base plate-shaped portion 43. The base plate-shaped portion 43 forms a liquid-tight seal with the tip surface 17 of the container body 15. The annular convex portion 44 faces the tip surface 17 of the container body 15 and the third direction dz with the base plate-shaped portion 43 interposed therebetween. Therefore, the annular convex portion 44 abuts on the top wall portion 34 of the adapter main body 30 to press the base plate-shaped portion 43 toward the tip surface 17. That is, the annular convex portion 44 can improve the airtightness between the container body 15 and the cap assembly 18.

As shown in FIGS. 3, 4, and 6, the mounting portion 46 is provided along the edge portion of the base plate-shaped portion 43 that forms the base opening 43a. In the illustrated example, the mounting portion 46 is formed as a recess or groove that receives an edge portion forming a holding opening 34a of the top wall portion 34. The elastic member 40 is held by the adapter body 30 by engaging the mounting portion 46 with the top wall portion 34. In order to ensure stable holding of the elastic member 40, it is preferable that the elastic member 40 has a thick wall at the attachment portion 46.

Next, the drinking spout portion 50 forming the drinking spout of the beverage container 10 will be described. As shown in FIGS. 6 and 7, the drinking spout portion 50 is arranged at a position facing the base opening 43a of the base plate-shaped portion 43. The spout portion 50 can form a flow path for the beverage that penetrates the spout adapter 20. The spout portion 50 has a tip portion 52 and a base end portion 56. The tip portion 52 is located on the tip side separated from the base portion 42 and the mounting portion 46 in the third direction dz. The base end 56 is located between the tip 52 and the attachment 46. In the illustrated example, the base end 56 is connected to the tip 52 and the attachment 46. The base end portion 56 is wider than the tip end portion 52. For example, as shown in FIG. 7, the length of the base end portion 56 along the first direction dx is longer than the length of the tip end portion 52 along the first direction dx, and as shown in FIG. The length of the portion 56 along the second direction dy is longer than the length of the tip portion 52 along the second direction dy.

The tip portion 52 is formed in a tubular shape elongated in the third direction dz. The width of the tip portion 52 is small, but increases as it approaches the base end portion 56 along the third direction dz. The tip portion 52 is formed with an orifice portion 53 that narrows the flow path of the beverage in the hollow portion. The orifice portion 53 narrows the beverage passage in the mouthpiece 50 so that only an appropriate amount of beverage passes through the mouthpiece 50. Further, the hollow portion of the tip portion 52 has an enlarged diameter on the side of the base end portion 56. The expanded diameter portion holds a tubular member 39 such as a straw as a tubular member holding portion 54. The tubular member 39 extends to the bottom of the container body 15 and can be immersed in the beverage in the container body 15. Therefore, when sucked from the mouthpiece 50, the beverage (liquid) in the container body 15 can be sucked out instead of the air (gas). The tubular member 39 is not shown in FIGS. 1, 3 and other than FIG. 15 which will be described later.

As shown in FIGS. 2 and 6, the base end portion 56 has a curved outer contour that bulges outward. The base end portion 56 has the shape of a rotating body at least in a part on the side close to the tip end portion 52. In the illustrated example, the proximal end 56 has, at least in part, the shape of a rotating body centered on an axis extending in the third direction dz. In particular, in the illustrated example, the base end portion 56 has the shape of a rotating body centered on an axis extending in the third direction dz, except for a portion connecting to the ventilation hole forming portion 60 described later.

The tip portion 52 may also have the shape of a rotating body centered on an axis extending at least partially in the third direction dz. The illustrated tip 52 has the shape of a rotating body centered on an axis extending in the third direction dz as a whole.

As shown in FIGS. 6 and 7, the width of the base end portion 56 is the narrowest on the side close to the tip end portion 52 along the third direction dz. That is, the width of the base end portion 56 is the narrowest at the position where it is connected to the tip end portion 52. The width of the base end portion 56 is the widest on the side close to the attachment portion 46 along the third direction dz. That is, the width of the base end portion 56 is the widest at the position where it is connected to the mounting portion 46. In particular, in the illustrated example, the width of the base end portion 56 continuously increases from the side of the tip end portion 52 toward the side of the attachment portion 46 along the third direction dz. Similarly, the inner width of the base end portion 56 is the narrowest on the side close to the tip end portion 52 along the third direction dz. The inner width of the base end portion 56 is the widest on the side close to the mounting portion 46 along the third direction dz. In particular, in the illustrated example, the inner width of the base end portion 56 continuously expands from the side of the tip end portion 52 toward the side of the attachment portion 46 along the third direction dz.

The "width" used for the drinking spout 50 is a direction along the direction defined on the surface defined by the first direction dx and the second direction dy, in other words, a direction orthogonal to the third direction dz. It refers to the size of the drinking spout 50 along the line. Further, the "inner width" used for the drinking spout portion 50 is along the direction located on the surface defined by the first direction dx and the second direction dy, in other words, orthogonal to the third direction dz. It refers to the inner dimension of the mouthpiece 50 along the direction, that is, the dimension of the hollow portion of the mouthpiece 50, in other words, the dimension between the inner surfaces of the mouthpiece 50.

As shown in FIG. 7, the wall thickness of the base end portion 56 is the thickest on the side close to the tip end portion 52 along the third direction dz. That is, the wall thickness of the base end portion 56 is the thickest at the position where it is connected to the tip end portion 52. The wall thickness of the base end portion 56 is the thinnest on the side close to the mounting portion 46 along the third direction dz. That is, the wall thickness of the base end portion 56 is the thinnest at the position where it is connected to the attachment portion 46. In particular, in the illustrated example, the wall thickness of the base end portion 56 is continuously reduced from the side of the tip portion 52 to the side of the attachment portion 46 along the third direction dz. Then, in the illustrated example, the wall thickness of the base end portion 56 is thinner than the wall thickness of any position of the tip end portion 52 at any position. Further, the wall thickness of the base end portion 56 is thinner than the wall thickness of any position of the mounting portion 46 at any position.

Further, as shown in FIG. 7, the base end portion 56 extends from the tip end portion 52 in a direction orthogonal to the third direction dz at the end portion connected to the tip end portion 52. Then, the drinking spout portion 50 forms a corner portion 50a protruding inside the drinking spout portion 50 at a position where the tip portion 52 is connected to the base end portion 56. That is, the spout portion 50 forms an annular recess (constricted portion) on the outer surface thereof at the connection position between the tip portion 52 and the base end portion 56. On the inner surface of the spout portion 50, an annular convex portion is formed at the connection position between the tip portion 52 and the base end portion 56. On the other hand, the base end portion 56 extends from the attachment portion 46 in the third direction dz at the end portion connected to the attachment portion 46.

In the drinking spout portion 50 having the above configuration, as will be described later, by directly pushing the base end portion 56 or by pushing the tip end portion 52 toward the base end portion 56, the base end portion 56 The base end 56 is deformed so that the internal volume is reduced.

Next, the ventilation hole forming portion 60 will be described. As shown in FIG. 4, the ventilation hole forming portion 60 is arranged at a position facing the base opening 43a of the base plate-shaped portion 43. The ventilation hole forming portion 60 forms a ventilation hole 25 penetrating the spout adapter 20. As a specific configuration, the ventilation hole forming portion 60 has a tubular portion 62 provided on the mounting portion 46. A ventilation hole 25 is formed in the tubular portion 62.

The tubular portion 62 has a seating surface 63 with which the plug portion 78 of the cap 70, which will be described later, comes into contact with the tubular portion 62. The seat surface 63 is an annular surface. The seat surface 63 is located on a surface orthogonal to the third direction dz. The ventilation hole forming portion 60 further has an annular wall portion 64 surrounding the seat surface 63. The annular wall portion 64 extends from the seat surface 63 on the side opposite to the container body 15 along the third direction dz. The annular wall portion 64 has an inner wall surface 64a having the shape of a side surface of a truncated cone so that the inner width becomes smaller on the side close to the seat surface 63 along the third direction dz. The inner wall surface 64a is connected to the seat surface 63.

In the illustrated example, the tubular portion 62 is aligned with the spout portion 50 in the second direction dy. The tubular portion 62 is directly connected to the spout portion 50. The tubular portion 62 is integrally formed with the spout portion 50.

The vent hole forming portion 60 has a valve portion 65 that is arranged in the vent hole 25 and closes the vent hole 25. The valve portion 65 is provided inside the tubular portion 62. The valve portion 65 is opened by coming into contact with the open protrusion 80 of the cap 70, which will be described later. The valve portion 65 may close the vent hole 25 in a state where the open protrusion 80 is separated.

As shown in FIG. 2, the valve portion 65 has a plurality of elastic plate-shaped portions (valve plate portions) 66 arranged so as to face each other. The elastic plate-shaped portion 66 is connected to the inner wall surface of the tubular portion 62 at its base end. Each of the plurality of elastic plate-shaped portions 66 is inclined with respect to a plane orthogonal to the third direction dz. Each elastic plate-shaped portion 66 is inclined so as to be located on the side of the container body 15 at the tip of the base end connected to the tubular portion 62. The plurality of elastic plate-shaped portions 66 close the ventilation holes 25 by bringing their tips into contact with each other. Since the elastic plate-shaped portion 66 is inclined toward the inside side of the container body 15 on the tip side, the elastic plate-shaped portion 66 is easily deformed by being inclined or curved toward the inside side of the container body 15. ing. On the other hand, the elastic plate-shaped portion 66 has higher rigidity against deformation that is inclined or curved toward the outside of the container body 15 than that that is inclined or curved toward the inside of the container body 15.

In particular, in the illustrated example, the valve portion 65 has two elastic plate-like portions 66 arranged so as to face each other. Each elastic plate-shaped portion 66 has a substantially semicircular contour. The base end of each elastic plate-shaped portion 66 is formed by a portion forming a semicircular arc. A semicircular arc is connected to the inner wall surface of the tubular portion 62. On the other hand, the tip of the elastic plate-shaped portion 66 is formed by a portion that becomes a semicircular chord. The portion of the semicircular arc that becomes the chord is located closer to the container body 15 in the third direction dz than the position farthest from the chord in the arc of the semicircle. The two elastic plate-shaped portions 66 can close the ventilation hole 25 by bringing the linear edge portions 66a forming the tip into contact with each other. As will be described later, when the open protrusion 80 abuts, the two elastic plate-shaped portions 66 are deformed, and the ventilation hole 25 can be opened. In the illustrated example, each elastic plate-like portion 66 is formed in a flat plate shape. As shown in FIGS. 2 to 4, the linear edge portion 66a of the elastic plate-shaped portion 66 extends along the first direction dx.

Further, as shown in FIGS. 2, 4 and 6, the ventilation hole forming portion 60 further has an operation protrusion 68 extending from the tubular portion 62. The operation protrusion 68 extends from the tubular portion 62 in a direction orthogonal to the third direction dz and in a direction along the edge portion 66a of the elastic plate-shaped portion 66. As shown in FIG. 4, the operation protrusion 68 is inside the support protrusion 36 of the adapter main body 30 in a normal state. As will be described later, by elastically deforming the operation protrusion 68, the operation protrusion 68 can be pulled out from the inside of the support protrusion 36 and arranged on the support protrusion 36.

Next, the cap 70 will be described. As shown in FIG. 8, the cap 70 closes the drinking spout 50 when the beverage container 10 is not in use. In the illustrated example, the cap 70 is swingably connected to the spout adapter 20. As a specific configuration, the cap 70 has a cap body 72 connected to the spout adapter 20, a plug portion 78 held by the cap body 72, and an open protrusion 80. The cap 70 has a dome-shaped or bowl-shaped shape as a whole. As shown in FIG. 8, in the closed state, the cap 70 can accommodate the spout portion 50 and the ventilation hole forming portion 60 in the dome-shaped or bowl-shaped bulging portion.

As shown in FIGS. 3 and 8, the cap body 72 has a shaft portion 72a that passes through a through hole 37a formed in the connection ridge portion 37 of the spout adapter 20. The shaft portion 72a is formed as a columnar portion. The axis of the shaft portion 72a forms the swing axis As of the cap 70. In the second direction dy, a ventilation hole forming portion 60 is provided between the shaft portion 72a and the drinking spout portion 50. Further, the cap body 72 has an opening / closing convex portion 73 that can engage with the opening / closing concave portion 35 of the spout adapter 20. The opening / closing convex portion 73 functions as an opening / closing engaging portion that engages with the opening / closing concave portion 35 of the spout adapter 20 to keep the cap 70 in a closed state.

As shown in FIGS. 2 and 8, the cap body 72 has an accommodating recess 74 for accommodating the drinking spout 50 in a state where the cap 70 is closed. As shown in FIG. 8, while the cap 70 is closed, the cap 70 comes into contact with the tip portion 52 of the spout portion 50 from the side opposite to the base end portion 56. Further, the cap 70 pushes the drinking spout 50 toward the container body 15 along the third direction dz.

While the cap 70 is closed, the spout 50 is guided into the accommodating recess 74 of the cap 70. As shown in FIG. 8, in a state where the opening / closing convex portion 73 of the cap 70 is fitted into the opening / closing concave portion 35 of the drinking spout adapter 20 and the cap 70 is closed, the drinking spout portion 50 pushed by the cap 70 in the third direction dz , It is deformed so as to reduce the amount of protrusion from the adapter body 30. Specifically, the base end portion 56 of the mouthpiece portion 50, which has a thin wall thickness and is easily deformed, is deformed so as to be crushed by protruding outward and bending.

Further, the cap body 72 has an insertion convex portion 75 in the accommodating recess 74. With the cap 70 closed, the insertion protrusion 75 fits into the opening of the tip 52 forming the flow path of the beverage. At this time, a liquid-tight seal is formed between the accommodating recess 74 and the tip portion 52, and leakage of the beverage from the drinking spout portion 50 can be restricted. That is, with the cap 70 closed, the mouthpiece 50 is closed. Further, in the accommodating recess 74, an induction convex portion 76 for guiding the direction of the tip portion 52 of the drinking spout portion 50 is provided. When the cap 70 swings and closes with respect to the spout adapter 20, the induction convex portion 76 comes into contact with the tip of the tip portion 52 and guides the tip of the tip portion 52 toward the insertion convex portion 75. it can.

As shown in FIGS. 2 and 8, the cap body 72 is provided with a plug portion 78 and an open protrusion 80. The plug portion 78 closes the ventilation hole 25 with the cap 70 closed. In the illustrated example, the plug portion 78 closes the opening above the tubular portion 62 with the cap 70 closed. The illustrated plug portion 78 is formed in a cylindrical shape corresponding to the cylindrical tubular portion 62. As shown in FIG. 8, with the cap 70 closed, the plug portion 78 is located on the seat surface 63 of the tubular portion 62 and forms a liquid-tight seal with the seat surface 63. Further, with the cap 70 closed, the tip of the plug portion 78 is inserted into the annular wall portion 64 of the tubular portion 62. The inner diameter of the annular wall portion 64 is set to be slightly smaller than the outer diameter of the plug portion 78. Therefore, in the state where the cap 70 is closed, the annular wall portion 64 elastically deforms so as to increase the peripheral length and receives the tip portion of the plug portion 78. As a result, the plug portion 78 can also form a liquid-tight seal with the inner wall surface 64a of the annular wall portion 64.

Here, FIG. 9 shows a state in which the cap 70 swings slightly from the completely closed state. The state in which the cap 70 is completely closed is the state shown in FIG. 8, in which the opening / closing convex portion 73 of the cap 70 is engaged with the opening / closing concave portion 35 of the spout adapter 20. As described above, in the state where the cap 70 is closed, the base end portion 56 is deformed so as to be crushed, and the total length of the drinking spout portion 50 in the third direction dz is shortened. In the state shown in FIG. 9, the base end portion 56 is substantially restored, and it is just before the closing of the spout portion 50 by the insertion convex portion 75 provided in the accommodating recess 74 of the cap 70 is released. That is, in the state shown in FIG. 9, the mouthpiece 50 is in a closed state. On the other hand, in the state shown in FIG. 9, the plug portion 78 is separated from the seat surface 63 and does not enter the annular wall portion 64. That is, in the illustrated example, when the cap 70 is closed, the spout portion 50 is closed by the insertion convex portion 75 before the plug portion 78 closes the ventilation hole 25. Further, in the illustrated example, when the cap 70 in the closed state is opened, the plug portion 78 first opens the ventilation hole 25 in the state where the spout portion 50 remains closed.

Next, the open protrusion 80 will be described. As shown in FIG. 8, the open protrusion 80 contacts the valve portion 65 with the cap 70 closed to release the closure of the ventilation hole 25 by the valve portion 65. As described above, the elastic plate-like portion (valve plate portion) 66 of the valve portion 65 that closes the ventilation hole 25 is the container body 15 from the base end to the tip end with respect to the surface orthogonal to the third direction dz. It is inclined to the side of. Therefore, when the open protrusion 80 comes into contact with the elastic plate-shaped portion 66 from the side opposite to the container body 15, the contact of the edge portion 66a forming the tip of the elastic plate-shaped portion 66 arranged to face each other is released. As shown in FIGS. 8 and 9, the elastic plate-shaped portion 66 in contact with the open protrusion 80 bends toward the container body 15, and the vent hole 25 is released from being closed by the valve portion 65.

In the illustrated example, the open protrusion 80 has a flat plate shape. As can be understood from FIG. 2, the flat plate-shaped open protrusion 80 inserted into the valve portion 65 has a linear edge portion 66a of the elastic plate-shaped portion 66 in which the plate thickness direction of the flat plate forms a notch in the valve portion 65. It is preferable to follow the longitudinal direction (first direction dx) of. In other words, it is preferable that the plate surface of the open protrusion 80 is orthogonal to the longitudinal direction (first direction dx) of the linear edge portion 66a of the elastic plate-shaped portion 66. In the illustrated example, the plate surface of the open protrusion 80 is along the second direction dy orthogonal to the first direction dx. Then, as shown in FIG. 10, the length La of the open protruding portion 80 in the arrangement in which the cap 70 is closed is along the longitudinal direction (first direction dx) of the edge portion 66a of the elastic plate-shaped portion 66. Is shorter than the length Lb of the open protrusion 80 along the direction (second direction dy) orthogonal to the longitudinal direction (first direction dx) of the edge portion 66a. According to such an example, as shown in FIG. 11, the edge portions 66a of the elastic plate-shaped portions 66 facing each other can be largely separated from each other, and the gap formed between the edge portions 66a is opened. It is possible to effectively prevent the protrusion 80 from being largely blocked.

As shown in FIG. 2, the open protrusion 80 may be appropriately reinforced by ribs 81 and the like. Such a rib 81 can not only reinforce the open protrusion 80, but also promote and induce the deformation of the elastic plate-like portion 66, and can rectify the gas passing through the valve portion 65. In particular, as in the example shown in FIG. 2, according to the rib 81 protruding in the normal direction (second direction dy) of the flat plate-shaped open protrusion 80, the elastic plate-shaped portion 66 is stably deformed and the gas. Can be effectively realized with smooth guidance.

Further, as shown in FIG. 9, the tip 82 of the open protrusion 80 has roundness 82a on both sides of the tip 82 in the longitudinal direction (substantially the second direction dy), for example, by chamfering. The roundness 82a makes it possible to reduce the friction between the open protrusion 80 and the valve portion 65 and effectively prevent damage to the elastic plate-shaped portion 66 of the valve portion 65.

By the way, as described above, in the state shown in FIG. 9, the base end portion 56 is substantially restored, and the mouthpiece portion 50 is about to be closed. That is, in the state shown in FIG. 9, the mouthpiece 50 is in a closed state. Then, in the state shown in FIG. 9, the open protrusion 80 contacts the valve portion 65 to release the closure of the ventilation hole 25 by the valve portion 65. In the illustrated example, when the cap 70 is closed, the open protrusion 80 contacts the valve 65 to close the vent hole 25 by the valve 65 before the spout 50 is closed by the insertion protrusion 75. To release. Further, in the illustrated example, when the cap 70 in the closed state is opened, when the spout portion 50 is opened, the open protruding portion 80 remains in contact with the valve portion 65 and the ventilation hole by the valve portion 65 is provided. The closure of 25 has been lifted.

In the illustrated example, the plug portion 78 and the open protrusion portion 80 are formed by a block body 77 fixed to the cap body 72. The open protrusion 80 protrudes from the plug 78 and is integrally formed with the plug 78.

Next, the operation of the beverage container 10 having the above configuration will be described.

First, as shown in FIG. 8, when the beverage container 10 is not in use, the opening / closing convex portion 73 of the cap 70 is engaged with the opening / closing concave portion 35 of the drinking spout adapter 20, and the cap 70 is closed with respect to the drinking spout adapter 20. Keep it in a good condition. At this time, as shown in FIG. 8, the spout portion 50 and the ventilation hole 25 are covered with the cap 70, which is preferable in terms of hygiene.

Further, as shown in FIG. 8, when the cap 70 comes into contact with the tip of the spout portion 50 from the third direction dz, the base end portion 56 of the spout portion 50 bulges and bends outward, and the third It is crushed in the direction dz. Due to the elastic deformation of the base end portion 56, the tip of the spout portion 50 is pressed toward the accommodating recess 74 of the cap 70. As a result, the insertion convex portion 75 of the cap 70 is fitted into the opening of the tip portion 52 of the spout portion 50, and the spout portion 50 can be closed liquid-tightly. Therefore, even if the beverage container 10 is unintentionally collapsed or is not maintained in an appropriate posture inside the bag or the like, it is possible to effectively prevent the beverage from leaking from the mouthpiece 50.

In the state where the cap 70 is closed, as shown in FIG. 8, the open protrusion 80 provided on the cap 70 comes into contact with the valve portion 65, and the closure of the ventilation hole 25 by the valve portion 65 is released. There is. However, in the state where the cap 70 is closed, the plug portion 78 is seated on the seat surface 63 of the tubular portion 62, and the plug portion 78 is fitted into the annular wall portion 64. That is, the ventilation hole 25 is closed by the plug portion 78 provided on the cap 70. Therefore, even if the beverage container 10 is unintentionally collapsed or is not maintained in an appropriate posture inside the bag or the like, it is possible to effectively prevent the beverage from leaking from the ventilation hole 25.

By the way, the temperature of the beverage contained in the beverage container may rise with the passage of time. As the temperature of the beverage rises, the internal pressure of the beverage container rises. Then, when the cap is opened from this state, it is assumed that the beverage will be ejected from the drinking spout due to the internal pressure.

In response to such a problem, in the present embodiment, the open protrusion 80 opens the valve portion 65 while the cap 70 is closed. However, since the plug portion 78 closes the ventilation hole 25 in the state where the cap 70 is closed, it is possible to effectively prevent the beverage from leaking from the ventilation hole 25. Then, when the cap 70 is started to be opened, the plug portion 78 first separates from the seat surface 63 and comes out from the annular wall portion 64. At this time, as shown in FIG. 9, the tip of the spout portion 50 is located in the accommodating recess 74 of the cap 70, and the spout portion 50 is closed by the insertion convex portion 75. On the other hand, the open protrusion 80 remains in contact with the valve 65, and the valve 65 is maintained in an open state. Therefore, when the cap 70 starts to be opened, the inside of the beverage container 10 communicates with the outside through the ventilation hole 25 without ejecting the beverage from the drinking spout 50. The ventilation hole 25 is not connected to a tubular member 39 such as a straw, unlike the spout portion 50. Therefore, if the beverage container 10 is maintained in an appropriate posture, the ventilation holes 25 are not immersed in the beverage. As a result, gas can be discharged from the inside of the beverage container 10 through the ventilation hole 25 at the beginning of opening of the cap 70, and the internal pressure of the beverage container 10 can be released. In this way, it is possible to effectively avoid the blowout of the beverage at the beginning of opening of the cap 70.

By further opening the cap 70 after releasing the internal pressure of the beverage container 10, the insertion convex portion 75 of the cap 70 is separated from the drinking spout 50, and the closing of the drinking spout 50 is released. Further, when the cap 70 is opened, the open protrusion 80 is separated from the valve portion 65, and the valve portion 65 closes the ventilation hole 25.

By opening the cap 70, the beverage in the beverage container 10 can be drunk by holding the mouthpiece 50. When the beverage is discharged from the drinking spout 50, air can be sent into the beverage container 10 through the ventilation hole 25. As a result, the beverage can be smoothly sucked out from the mouthpiece 50. In particular, in the illustrated example, the elastic plate-shaped portion 66 is inclined so as to approach the inner side of the container body 15 on the tip side. Therefore, the elastic plate-shaped portion 66 is likely to be inclined or curved toward the inside of the container body 15. As a result, the air is smoothly supplied to the inside of the container body 15, and it is possible to effectively prevent the beverage container 10 from being hindered from drinking the beverage.

On the other hand, the elastic plate-shaped portion 66 of the valve portion 65 has higher rigidity with respect to the deformation inclined or curved toward the outside of the beverage container 10 than with the deformation inclined or curved toward the inside of the beverage container 10. Have. That is, the elastic plate-shaped portion 66 of the valve portion 65 is less likely to be inclined or curved to the outside of the beverage container 10. Therefore, it is possible to effectively prevent the beverage from leaking through the valve portion 65 when the beverage container 10 falls over.

As shown in FIG. 4, the operation protrusion 68 is connected to the tubular portion 62 forming the ventilation hole 25. When drinking a beverage from the beverage container 10, the operation protrusion 68 may be hooked on the support protrusion 36 of the spout adapter 20 as shown by the alternate long and short dash line in FIG. As shown in FIG. 12, by this operation, the tubular portion 62 is compressed in the first direction dx. At this time, the edge portions 66a of the elastic plate-shaped portions 66 facing each other are separated from each other, and a gap is formed between the pair of edge portions 66a. As a result, the inside of the beverage container 10 is maintained at atmospheric pressure, and the drinking of the beverage from the beverage container 10 is not hindered.

By the way, young infants cannot reduce the pressure in the mouth. For such infants, the guardian pushed the beverage container to increase the internal pressure of the beverage container to push the beverage out of the drinking spout. In the beverage container 10 of the present embodiment, the drinking spout 50 has a tubular tip 52 located at the tip and a base end 56 connected to the tip 52 and wider than the tip 52. ing. The wall thickness of the base end portion 56 is thinner than the wall thickness of the tip end portion 52. Therefore, as shown in FIG. 13, when the lips holding the mouthpiece 50 directly press the base end portion 56, the base end portion 56 is deformed so that the volume of the base end portion 56 is reduced. Further, as shown in FIG. 14, by pushing the tip end portion 52 toward the base end portion 56, the base end portion 56 is deformed so that the volume of the base end portion 56 is reduced. As a result, the internal pressure of the beverage container 10 rises, and the beverage is sent out from the drinking spout 50. As a result, even an infant who has not learned to change the pressure in the mouth by himself / herself can drink the beverage in the beverage container 10 without the help of a guardian. In addition, by using the beverage container 10, infants can practice sucking and drinking beverages.

In one embodiment described above, a vent hole 25 leading to the container body 15 is formed in the spout adapter 20, and the spout adapter 20 is arranged in the vent hole 25 to close the vent hole 25. have. The cap 70 is attached to a cap body 72 that can move relative to the spout adapter 20, a plug portion 78 that closes the ventilation hole 25 when the cap 70 is closed, and a valve portion 65 when the cap 70 is closed. It has an open protrusion 80 that comes into contact with the valve portion 65 to release the closure of the ventilation hole 25. When the cap 70 is opened, the open protrusion 80 is separated from the valve 65 after the plug 78 opens the ventilation hole 25.

That is, when the cap 70 is opened, after the plug portion 78 of the cap 70 opens the ventilation hole 25, the open protrusion 80 of the cap 70 is separated from the valve portion 65, and the valve portion 65 closes the ventilation hole 25. Therefore, at the beginning of opening the cap 70, both the valve portion 65 and the plug portion 78 can open the ventilation hole 25. As a result, even if the internal pressure of the container body 15 rises due to a temperature change or the like of the contained beverage, the ventilation hole 25 is opened during the operation of opening the cap 70, in other words, before the cap 70 is completely opened. The inside of the container body 15 can be opened to the outside, and the air inside the container body 15 can be discharged to the outside. In particular, in the present embodiment, the opening of the valve portion 65 is realized by the open protrusion 80 coming into contact with the valve portion 65. Therefore, it is possible to stably secure an appropriate opening of the valve portion 65.

In the illustrated example, ventilation is provided only during the first period of opening of the cap 70, more preferably during the period when the spout 50 is located within the dome-shaped cap 70 and is covered by the cap 70. The hole 25 opens the inside of the container body 15 to the outside, and the air inside the container body 15 can be discharged to the outside. As a result, it is possible to effectively prevent the beverage from being ejected from the mouthpiece 50.

In the specific example of the above-described embodiment, the valve portion 65 has a plurality of elastic plate-shaped portions (valve plate portions) 66 arranged so as to face each other. Each of the plurality of elastic plate-shaped portions 66 is inclined toward the container body 15 from the base end to the tip end. Then, the plurality of elastic plate-shaped portions 66 are separated from the open protrusion 80, and their tips are brought into contact with each other to close the ventilation hole 25. More specifically, the valve portion 65 has two elastic plate-shaped portions 66 arranged to face each other, and the two elastic plate-shaped portions 66 are separated from the open protrusion 80 at their tips. The linear edge portions 66a are brought into contact with each other to close the ventilation hole 25.

In such a specific example, since the elastic plate-shaped portion 66 is inclined toward the container body 15 from the base end to the tip end, fluid (particularly gas) can easily enter the inside of the container body 15 from the outside, and the container. It is possible to prevent the fluid (particularly gas) from flowing out from the inside of the main body 15 to the outside. Therefore, when drinking a beverage, air can smoothly flow into the inside of the container body 15 through the ventilation hole 25 as the amount of the beverage inside the container body 15 decreases. That is, the beverage inside the container body 15 can be drunk without requiring a large suction force. On the other hand, it is possible to effectively prevent the beverage from unintentionally leaking through the ventilation hole 25 due to the beverage container 10 falling down or the like.

Further, in the example in which the valve portions 65 have two elastic plate-shaped portions 66 arranged so as to face each other, the ventilation holes 25 can be stably closed by the two elastic plate-shaped portions 66. On the other hand, the valve portion 65 can be opened more reliably by the contact of the open protrusion 80.

In the specific example of the above-described embodiment, the elastic plate-shaped portion 66 has a flat plate shape. According to such an elastic plate-shaped portion 66, the open protruding portion 80 is more likely to come into contact with the plate-shaped portion curved in a concave shape. As a result, with the closing of the cap 70, the closing of the ventilation hole 25 by the valve portion 65 can be released more stably.

In the specific example of the above-described embodiment, the open protrusion 80 has a plate shape. According to such an example, since the open protrusion 80 is formed in a plate shape, it is possible to effectively prevent the open protrusion 80 itself from largely closing the ventilation hole 25. Therefore, the ventilation hole 25 can be opened at the beginning of opening of the cap 70, and the air inside the container body 15 can be stably discharged to the outside.

In the specific example of the above-described embodiment, the open protrusion 80 has a plate shape. Then, in the arrangement in the state where the cap 70 is closed, the length La of the open protrusion 80 along the first direction dx corresponding to the longitudinal direction of the edge 66a of the elastic plate-like portion 66 is the first. It is shorter than the length Lb of the open protrusion 80 along the second direction dy orthogonal to the one direction dx. According to such an example, since the open protrusion 80 itself can effectively prevent the ventilation hole 25 from being largely closed, the air inside the container body 15 is released at the beginning of opening the cap 70. It can be stably discharged to the outside. Further, depending on the orientation of the open protrusion 80 with respect to the valve portion 65, the open protrusion 80 can form a large gap between the elastic plate-shaped portions 66. As a result, the air inside the container body 15 can be more stably discharged to the outside.

In the specific example of the above-described embodiment, the tip 82 of the open protrusion 80 has roundness 82a on both sides of the tip 82 in the longitudinal direction. According to such an example, the friction between the open protrusion 80 and the valve 65 can be reduced. As a result, a smooth opening operation of the valve portion 65 can be ensured, and damage to the valve portion 65 can be effectively avoided.

In the specific example of the above-described embodiment, the spout adapter 20 has a tubular portion 62 forming a ventilation hole 25, and the valve portion 65 is provided inside the tubular portion 62. According to such an example, the valve portion 65 can be protected by the tubular portion 62. Further, it is possible to effectively prevent the ventilation hole 25 of the valve portion 65 from being unintentionally released due to contact with the outside or the like.

In the specific example of the above-described embodiment, the tubular portion 62 is connected to the drinking spout portion 50 and is integrally formed with the drinking spout portion 50. According to such an example, since the rigidity of the tubular portion 62 is improved, the deformation of the tubular portion 62 can be effectively suppressed. As a result, it is possible to effectively prevent the ventilation hole 25 of the valve portion 65 from being unintentionally released due to deformation of the tubular portion 62 or the like.

In the specific example of the above-described embodiment, the open protrusion 80 protrudes from the plug 78 and is integrally formed with the plug 78. According to such an example, it is possible to effectively prevent the displacement of the relative positions of the plug portion 78 and the open protrusion portion 80. Therefore, the combination of the plug portion 78 and the open protrusion portion 80 can stably open and close the ventilation hole 25 as intended. That is, the ventilation hole 25 can be opened at the beginning of opening of the cap 70, and the air inside the container body 15 can be stably discharged to the outside.

In the specific example of the above-described embodiment, the spout portion 50, the valve portion 65, the attachment portion 46, and the base portion 42 are integrally formed. According to such an example, the number of parts can be reduced and the handleability at the time of cleaning or the like can be improved.

Further, in the above-described embodiment, the drinking spout portion 50 includes a tubular tip portion 52 located at the tip portion and a base end portion 56 connected to the tip portion 52 and wider than the tip portion 52. I'm out. The wall thickness of the base end portion 56 is thinner than the wall thickness of the tip end portion 52. That is, since the base end portion 56 is wider and thinner than the tip end portion 52, it is easily deformed. Therefore, the base end portion 56 is directly pushed by the mouth holding the tip end portion 52, or the base end portion 56 is deformed by pushing the tip end portion 52 toward the base end portion 56, and the drinking mouth portion 50 is deformed. The internal volume of the can be reduced. When the internal volume of the beverage container 10 is reduced, the beverage is delivered from the mouthpiece formed by the mouthpiece portion 50. As a result, even an infant who has not learned to change the pressure in the mouth by himself / herself can drink the beverage in the beverage container 10 without the help of a guardian. Then, by using the beverage container 10, the infant can practice sucking and drinking the beverage.

In the specific example of the above-described embodiment, by pushing the tip end portion 52 toward the base end portion 56, the base end portion 56 is deformed so that the volume of the base end portion 56 is reduced. According to this example, the internal volume of the beverage container 10 can be significantly changed by pushing the tip end portion 52 toward the base end portion 56. Thereby, the delivery of the beverage from the spout can be effectively promoted.

In the specific example of the above-described embodiment, the width of the base end portion 56 becomes smaller as it approaches the tip end portion 52. According to this example, when the tip portion 52 is pushed by the mouth holding the tip portion 52 or is pushed through the tip portion 52, the deformation of the base end portion 56 that reduces the internal volume can be stably caused. it can.

In the specific example of the above-described embodiment, the base end portion 56 has a curved outer contour that bulges outward. According to this example, when the tip portion 52 is pushed by the mouth holding the tip portion 52, the base end portion 56 bends inward, and the internal volume can be greatly reduced. Further, when pushed through the tip portion 52, the base end portion 56 bends outward and is easily crushed. Therefore, the deformation of the base end portion 56 that reduces the internal volume can be stably caused.

In the specific example of the above-described embodiment, the wall thickness of the spout portion 50 is the largest at the position where the tip portion 52 is connected to the base end portion 56. According to this example, it is possible to promote the deformation at the base end portion 56 while suppressing the deformation at the tip end portion 52. That is, when the tip portion 52 is pushed by the mouth holding the tip portion 52 or when the tip portion 52 is pushed through the tip portion 52, the deformation of the base end portion 56 that reduces the internal volume can be stably caused.

In the specific example of the above-described embodiment, the corner portion 50a protruding inside the drinking spout portion 50 is formed at a position where the tip portion 52 is connected to the base end portion 56. According to this example, when the base end portion 56 is pushed through the tip end portion 52, the base end portion 56 bends outward and is easily crushed, and the tip end portion 52 is easily moved to the base end portion 56 side. Therefore, the deformation of the base end portion 56, which reduces the internal volume of the drinking spout portion 50, can be stably caused.

In the specific example of the above-described embodiment, the wall thickness of the spout portion 50 is the smallest at the position where the base end portion 56 is connected to the attachment portion 46. According to this example, the base end portion 56 adjacent to the attachment portion 46 is easily deformed with respect to the attachment portion 46 fixed to the adapter main body 30. That is, when the tip portion 52 is pushed by the mouth holding the tip portion 52 or when the tip portion 52 is pushed through the tip portion 52, the deformation of the base end portion 56 that reduces the internal volume can be stably caused.

In the specific example of the above-described embodiment, the wall thickness of the attachment portion 46 is larger than the wall thickness of the base end portion 56. According to this example, the base end portion 56 adjacent to the attachment portion 46 can be further easily deformed with respect to the attachment portion 46 fixed to the adapter main body 30.

In the specific example of the above-described embodiment, the inner width of the base end portion 56 is the largest at the position where the base end portion 56 is connected to the attachment portion 46. According to this example, when pushed through the tip portion 52, the base end portion 56 bends outward and is easily crushed. Therefore, the deformation of the base end portion 56 that reduces the internal volume can be stably caused.

In the specific example of the above-described embodiment, the base end portion 56 has the shape of a rotating body at least in a part on the tip end portion 52 side. According to this example, the base end portion 56 is subjected to forces from various directions. It can be transformed.

In the specific example of the above-described embodiment, the spout portion 50, the attachment portion 46, and the base portion 42 are integrally formed. According to such an example, the number of parts can be reduced and the handleability at the time of cleaning or the like can be improved.

In the specific example of the above-described embodiment, in the state where the cap 70 is closed, the base end portion 56 of the tip end portion 52 comes into contact with the tip end portion 52 from the opposite side and faces the base end portion 56 side. Press. According to this example, with the cap 70 closed, the tip end portion 52 can be moved to the side of the base end portion 56, and the base end portion 56 can be deformed so as to be bent outward and crushed. Therefore, when the cap 70 is closed, the spout 50 can be stably closed by the contact between the tip 52 and the cap 70 utilizing the elastic deformation of the spout 50. This makes it possible to effectively prevent the beverage from leaking when the beverage container 10 is not in use.

In addition, according to this specific example, by controlling the amount of deformation of the base end portion 56, a sufficient amount of relative movement of the cap 70 from the start of opening of the cap 70 to the opening of the spout portion 50 is secured. be able to. Therefore, the ventilation hole 25 can be stably opened before the spout portion 50. As a result, the internal pressure of the beverage container 10 can be released, and the beverage can be effectively prevented from being blown out from the mouthpiece 50.

Although one embodiment has been described based on specific examples, these specific examples are not intended to limit one embodiment. The above-described embodiment can be implemented in various other specific examples, and various omissions, replacements, and changes can be made without departing from the gist thereof.

Hereinafter, an example of modification will be described with reference to the drawings. In the following description and the drawings used in the following description, the same reference numerals as those used for the corresponding parts in the above-mentioned specific examples are used for the parts that can be configured in the same manner as the above-mentioned specific examples, and the same reference numerals are used, and duplicate explanations are given. Is omitted.

For example, in the above-mentioned specific example, an example in which a configuration related to opening and closing of the ventilation hole 25 is used in combination with the spout portion 50 having the tip end portion 52 and the base end portion 56 has been described. However, the configuration related to the opening and closing of the ventilation hole 25 described above is not limited to the drinking spout 50 having the tip 52 and the base 56, and effectively prevents the beverage from being blown out when the cap 70 is opened. Can be done. For example, as shown in FIG. 15, it is also possible to use the configuration related to the opening and closing of the ventilation hole 25 described above together with the drinking spout portion 50 having a straw shape.

10 Beverage container 15 Container body 15X Opening 16 Outer screw 17 Tip surface 18 Cap assembly 20 Spout adapter 21 Inner screw 25 Ventilation hole 30 Adapter body 32 Peripheral wall 34 Top wall 34a Holding opening 35 Opening / closing recess 36 Support protrusion 37 Connection ridge Part 37a Through hole 39 Cylindrical member 40 Elastic member 42 Base portion 43 Base plate-shaped portion 43a Base opening 44 Circular convex portion 46 Mounting portion 50 Drinking mouth portion 50a Square portion 52 Tip portion 53 Orifice portion 54 Cylindrical member holding portion 56 End 60 Vent hole forming part 62 Cylindrical part 63 Seat surface 64 Circular wall part 64a Inner wall surface 65 Valve part 66 Elastic plate-like part 66a Edge part 68 Operation protrusion 70 Cap 72 Cap body 72a Shaft part 73 Opening / closing convex part 74 Storage recess 75 Insertion convex part 76 Induction convex part 77 Block body 78 Plug part 80 Open protrusion 81 Rib 82 Tip 82a Roundness dx 1st direction dy 2nd direction dz 3rd direction As Swing axis

Claims (7)

With the container body
A spout adapter, which is attached to the container body and has a spout portion, is provided.
The spout portion includes a tubular tip portion located at the tip portion and a base end portion connected to the tip portion and wider than the tip portion.
The thickness of said proximal portion is minor than the wall thickness of the tip,
The spout adapter has an adapter body attached to the container body and an elastic member held by the adapter body.
The elastic member includes the spout portion and a mounting portion that is connected to the spout portion and attached to the adapter body.
A beverage container in which the wall thickness of the drinking spout is the smallest at a position where the base end portion is connected to the mounting portion. At a position where the tip portion is connected to the proximal end portion, the corner portion projecting into the interior of the drinking spout is formed, beverage container according to claim 1. The beverage container according to claim 1 or 2 , wherein the wall thickness of the attachment portion is larger than the wall thickness of the base end portion. The beverage container according to any one of claims 1 to 3, wherein the inner width of the base end portion is the largest at a position where the base end portion is connected to the attachment portion. The elastic member further includes a base portion to form a seal between the container main body connected to the mounting portion,
The beverage container according to any one of claims 1 to 4, wherein the drinking spout portion, the mounting portion, and the base portion are integrally formed. Further provided with an openable and closable cap that closes the spout in the closed state,
Claimed that, in a state where the cap is closed, the cap contacts the tip portion from the side of the tip portion opposite to the proximal end portion and presses the drinking spout portion toward the proximal end portion side. The beverage container according to any one of 1 to 5. A cap assembly that can be detachably attached to the container body.
A spout adapter that is attached to the container body and has a spout portion is provided.
The spout portion includes a tubular tip portion located at the tip portion and a base end portion connected to the tip portion and wider than the tip portion.
The thickness of said proximal portion is minor than the wall thickness of the tip,
The spout adapter has an adapter body attached to the container body and an elastic member held by the adapter body.
The elastic member includes the spout portion and a mounting portion that is connected to the spout portion and attached to the adapter body.
The cap assembly having the smallest wall thickness of the spout portion at a position where the base end portion is connected to the mounting portion.

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