JP2019011099A - Spout cap - Google Patents

Abstract

To fit a protrusion stably in a recess while rotating a lid body around a hinge part, and to reliably raise a valve body when opening the lid body and to reliably press down the valve body when closing the lid body.SOLUTION: A spout cap comprises: a topped-cylindrical cap body 7 which is mounted on a mouth part 5 of a container body 4, and in which a spout hole 6 for spouting the contents is formed; and a topped-cylindrical lid body 9 connected to the cap body 7 via a hinge part 8. The cap body 7 includes: a communication cylinder 22 for communicating the spout hole 6 and the container body 4 and extending vertically; a valve body 14 provided in the communication cylinder 22 so as to move vertically; a valve seat part 25 in which the valve body 14 is separably seated facing upward, and which cuts off the communication between the communication cylinder 22 and the container body 4; and a restriction part 19 for restricting the upward movement of the valve body 14 in the state in which the communication cylinder 22 and the spout hole 6 are communicated with each other. A recess 28 is formed on one of the lid body 9 and the valve body 14, and a spherical protrusion 36 detachably fitted in the recess 28 is formed on the other.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a dispensing cap.

Conventionally, for example, a dispensing cap as shown in Patent Document 1 below is known. The pouring cap is attached to the mouth portion of a container main body having an inner container that accommodates the contents and undergoes volume reduction deformation as the contents are reduced, and an outer container in which the inner container is housed. The pouring cap is attached to the mouth of the container main body, and is connected to the cap main body through the hinge portion with a cap-shaped tubular cap body in which a pouring hole for pouring contents is formed in the top wall. And a top-like cylindrical lid that opens and closes the pouring hole.
In addition, a communication tube that communicates the pouring hole and the inside of the container body extends downward on the top wall of the cap body, and a valve body that is arranged to move up and down is arranged in the communication tube. It is installed. And while the hollow part is formed in any one of a cover body and a valve body, the fitting protrusion which is detachably fitted by the hollow part is formed in the other.

  When the contents are poured out using the pouring cap, the lid is first rotated around the hinge portion and opened. At this time, since the fitting protrusion is fitted in the recess, the valve body rises together with the lid, and the inside of the communicating cylinder and the inside of the container body communicate. After pouring out the contents, the lid is turned around the hinge and closed. At this time, the fitting projection is fitted into the recess, and the lid pushes the valve body down to the valve seat, and the communication between the communication cylinder and the container body is blocked.

Japanese Patent Laid-Open No. 2006-193745

  However, in the conventional pouring cap, the valve body moves up and down in the communication cylinder, whereas the lid body rotates around the hinge part, so that the fitting protrusion comes off from the recessed part while opening the lid body, When the lid is closed, the fitting protrusion may not fit in the recess.

  The present invention has been made in view of such circumstances, and can stably fit the convex portion and the concave portion while rotating the lid body around the hinge portion. An object of the present invention is to provide a dispensing cap that can reliably lift the valve body when opening the lid, and can reliably push down the valve body when closing the lid.

  One aspect of the present invention is attached to the mouth of a container body having an inner container that accommodates the contents and is reduced in volume as the contents are reduced, and an outer container in which the inner container is installed. A cap body which is attached to the mouth portion and has a top hole portion in which a pouring hole for pouring the contents is formed on the top wall portion, and a hinge portion on the cap body. And a cap-shaped lid body that opens and closes the pouring hole, and the cap body communicates with the pouring hole and the inside of the container body and extends in the vertical direction; and A valve body provided in the communication cylinder so as to be movable up and down, a valve seat in which the valve body is slidably seated upward and blocks communication between the communication cylinder and the container body; and A regulating portion that regulates the upward movement of the valve body in a state where the inside of the communication cylinder communicates with the extraction hole. , The lid and recesses on one of said valve body is formed, characterized in that the spherical convex portion to be fitted detachably in the recess on the other is formed.

According to the present invention, since the concave portion is formed in one of the lid and the valve body, and the spherical convex portion that is detachably fitted into the concave portion is formed on the other side, the following effects are obtained. can get.
When the lid is rotated around the hinge portion to open, the convex portion rotates around the center of the sphere in the concave portion, so that the spherical convex portion and the concave portion are not affected by the opening angle of the lid body with respect to the cap body. The fitting state is maintained well, and the valve body is stably moved upward in the communicating cylinder. When the upward movement of the valve body is restricted by the restriction portion, the convex portion is detached from the concave portion, so that the valve body is separated from the lid body and moves downward in the communication cylinder and is seated on the valve seat portion. .

  Further, when the lid is opened, even if the valve body is fixed to the valve seat due to, for example, solidification of the contents, the spherical convex portion is turned on the inner peripheral surface of the concave portion by the rotation around the hinge portion of the lid. Since the valve body is strongly pressed, the valve body can be forcibly pulled up from the valve seat portion, and the valve body can be reliably separated from the valve seat portion at the next extraction.

  Then, for example, by tilting the container main body to separate the valve body from the valve seat portion, the contents can be poured out through the communication tube and the pouring hole, and then the container main body is returned to the upright posture. By connecting the valve body on the valve seat portion, the communication between the container body and the communication tube can be blocked. Therefore, the dispensing of the contents can be stopped, and the entry of air into the container body immediately after the dispensing can be prevented.

  Further, when the lid is rotated around the hinge portion and closed, the spherical convex portion can be stably fitted into the concave portion regardless of the opening angle of the lid body with respect to the cap body. That is, when the spherical convex portion comes into contact with the concave portion, the convex portion is guided so as to be aligned with the center of the concave portion, so that the convex portion and the concave portion are securely fitted. Then, by closing the lid, the valve body is pushed down to the valve seat by the lid, and the communication between the communication cylinder and the container body is reliably blocked.

  In the pouring cap, the cap body is attached to the mouth portion, and is provided with a mounting tube portion in which the pouring hole is formed, and below the mounting tube portion, and the communication tube is formed. It is preferable that the inside plug is provided, and the restriction portion is provided on the mounting cylinder portion or the inner plug.

  Since the cap main body includes the mounting cylinder portion and the inner plug, it is easy to form a regulating portion that regulates the upward movement of the valve body between the pouring hole and the communication cylinder. And when opening a cover body, fitting with a convex part and a recessed part is reliably cancelled | released in the upward movement end of a valve body, and a cover body and a valve body can be isolate | separated.

  In the pouring cap, the opening of the recess is preferably formed in a tapered shape that gradually increases in diameter toward the opening end of the recess.

  The opening of the recess has a tapered shape that gradually increases in diameter toward the opening end, so that when the lid is closed, the protrusion is reliably guided into the recess to stabilize them. Can be fitted.

  Moreover, in the said pouring cap, it is preferable that the hardness of the said recessed part and the hardness of the said convex part differ mutually.

  Because the hardness of the recess and the hardness of the projection are different from each other, for example, even when there is a variation in molding in the fitting allowance such as the tightening allowance or undercut of the recess and the projection, the recess and the projection Can be stably fitted.

  According to the pouring cap of the present invention, the convex portion and the concave portion can be stably fitted while rotating the lid body around the hinge portion. The body can be reliably lifted, and the valve body can be reliably pushed down when closing the lid.

It is a longitudinal cross-sectional view which shows the extraction | pouring cap which concerns on one Embodiment of this invention. It is a longitudinal cross-sectional view which shows the state in the middle of opening the cover body of the extraction | pouring cap. It is a figure which expands and shows the principal part of FIG. It is a longitudinal cross-sectional view which shows the state which opened the cover body of the extraction | pouring cap. It is a longitudinal cross-sectional view which shows the modification of the extraction | pouring cap. It is a longitudinal cross-sectional view which shows the modification of the extraction | pouring cap.

Hereinafter, the extraction cap 1 which concerns on one Embodiment of this invention is demonstrated with reference to drawings.
As shown in FIG. 1, the dispensing cap 1 of the present embodiment is flexible so that liquid contents (not shown) are accommodated, and volumetric deformation (squeezing deformation) occurs as the contents decrease. The container 5 is removably attached to a mouth 5 of a container body 4 having a rich inner container (inner layer) 2 and an elastically deformable outer container (outer layer) 3 in which the inner container 2 is housed. In other words, the double container described in the present embodiment includes a container body 4 having an inner container 2 and an outer container 3, and a dispensing cap 1 that is detachably attached to the mouth portion 5 of the container body 4. .

  The pouring cap 1 is attached to the mouth portion 5 of the container body 4, and has a top cylindrical cap body 7 in which a pouring hole 6 for pouring contents is formed in the top wall portion, and a hinge to the cap body 7. A cap 9 having a top-end cylindrical shape that is connected via the portion 8 and opens and closes the pouring hole 6.

The cap main body 7 and the lid body 9 are arranged in a state where their respective central axes are located on a common axis. In the present embodiment, this common axis is referred to as a cap axis O, and a direction along the cap axis O (a direction in which the cap axis O extends) is referred to as an up-down direction. A direction from the cap body 7 to the lid body 9 along the vertical direction is referred to as an upper side, and a direction from the lid body 9 to the cap body 7 is referred to as a lower side.
In addition, a direction orthogonal to the cap axis O in a plan view viewed from the cap axis O direction is referred to as a radial direction, and a direction around the cap axis O is referred to as a circumferential direction.

The container body 4 is formed by, for example, blow molding, and is a laminated peelable container (Delami bottle) in which the inner container 2 is detachably laminated on the inner surface of the outer container 3.
As blow molding, for example, a laminated parison combined double (inside and outside) by extrusion molding or the like may be formed, and the container body 4 may be formed by blow molding this laminated parison (extrusion blow molding). Further, a preform for the outer container and a preform for the inner container are formed by injection molding or the like, and after these are combined in double (inner and outer), the container body 4 is formed by biaxial stretching blow molding. It doesn't matter.
The outer container preform is biaxially stretched and blow molded to form the outer container 3, the inner container preform is placed inside, and then the inner container preform is biaxially stretched and blow molded. By doing so, the container body 4 may be formed.

  The material of the inner container 2 and the outer container 3 is a resin material, and may be the same material or different materials as long as they are detachable combinations. Examples of the resin material include PET (polyethylene terephthalate), PP (polypropylene), PE (polyethylene), nylon (polyamide), EVOH (ethylene-vinyl alcohol copolymer), and the like. Out of these resin materials, the outer container 3 and the inner container 2 are formed in a combination that can be peeled (not compatible).

  The container body 4 is formed in a bottomed cylindrical shape in which a mouth portion 5, a shoulder portion 10, a trunk portion (not shown), and a bottom portion (not shown) are connected in this order from the top to the bottom. The shoulder 10 gradually increases in diameter as it goes downward. The body portion is formed, for example, in a circular shape in a cross-sectional view, and is the maximum diameter portion of the container body 4.

  The outer container 3 of the container body 4 can be squeezed and deformed, and the inner container 2 undergoes volume reduction deformation as the outer container 3 is squeezed. Therefore, at least a portion of the outer container 3 positioned in the trunk is elastically deformable toward the radially inner side (inner side of the container). In addition, an intake slit portion (not shown) for sucking outside air is formed between the bottom of the outer container 3 and the inner container 2. The intake slit portion is formed by a pinch-off portion of a mold, for example.

The mouth portion 5 of the container body 4 is formed so as to extend upward from the upper end opening of the shoulder portion 10. The mouth 5 of the container body 4 is formed by laminating the mouth of the inner container 2 and the mouth of the outer container 3.
An annular folded portion 11 that protrudes radially outward and extends in the circumferential direction is formed on the upper end portion of the mouth portion of the inner container 2, and the opening end of the mouth portion of the outer container 3 is moved upward using this folded portion 11. Closed from. For this reason, the mouth of the outer container 3 is closed by the inner container 2.

The cap body 7 includes a mounting cylinder portion 12, an inner stopper 13, and a valve body 14.
The mounting cylinder portion 12 has a crested cylindrical shape and is mounted on the mouth portion 5 of the container body 4. The mounting cylinder part 12, the hinge part 8, and the lid body 9 are integrally formed. In the example of this embodiment, the mounting cylinder part 12, the hinge part 8, and the lid body 9 are formed of polypropylene resin (PP). The valve body 14 is made of a low density polyethylene resin (LDPE) that is softer than the polypropylene resin (PP).

The mounting cylinder portion 12 includes a peripheral wall portion 15 that is screwed into the mouth portion 5, and a top wall portion 16 that is connected to the upper end portion of the peripheral wall portion 15. In addition, the surrounding wall part 15 is not limited to the case where it is screwed with respect to the opening part 5, For example, undercut fitting may be carried out.
The top wall portion 16 extends so as to penetrate the top wall portion 16 in the vertical direction, and has a pour cylinder portion 17 having a pour hole 6 therein, and a larger diameter than the pour tube portion 17, A hanging cylinder portion 18 extending downward from the top wall portion 16 is formed.

  The upper part of the extraction cylinder part 17 has the central axis of the cylinder part at a position (specifically, between the cap axis O and the hinge part 8) shifted in the radial direction from the top of the cap axis O. The inner peripheral surface of the upper portion has a tapered shape that increases in diameter as it goes upward. The inner peripheral surface of the upper portion is a dispensing hole 6. The upper end opening edge of the upper portion has a hook shape protruding outward in the radial direction and extending in the circumferential direction.

The lower part of the dispensing cylinder part 17 has the central axis of the cylinder part on the cap axis O. The inner diameter of the lower portion is substantially constant in the vertical direction except for the lower end opening edge. In the example shown in the drawing, the inner diameter is slightly reduced as it goes downward. At the lower end opening edge of the lower portion, a hook-shaped restricting portion 19 that protrudes radially inward and extends in the circumferential direction is formed. The regulating unit 19 will be described later separately.
A cutout portion 20 is formed at the lower opening edge of the dispensing cylinder portion 17 so as to divide at least a part of the restricting portion 19 in the circumferential direction. One cutout 20 may be provided, or a plurality of cutouts 20 may be formed at intervals in the circumferential direction.

The inner plug 13 is provided below the top wall portion 16 of the mounting cylinder portion 12.
The inner plug 13 includes a base portion 21 disposed on the upper end opening of the mouth portion 5 of the container body 4 and a communication tube 22 extending so as to penetrate the base portion 21 in the vertical direction.

The base portion 21 includes an outer portion located on the upper end opening edge of the mouth portion 5, an inner portion in which the communication tube 22 is disposed radially inward and lower than the outer portion, the outer portion, A connecting cylinder portion that connects the inner portion and extends in the vertical direction.
A support tube 23 extending upward from the base portion 21 and a seal tube 24 extending downward from the base portion 21 are formed on the outer portion of the base portion 21. The upper end of the support tube 23 abuts on the lower surface of the top wall portion 16 of the mounting tube portion 12. The seal cylinder 24 is fitted into the mouth part 5 of the container body 4. The hanging cylinder part 18 of the mounting cylinder part 12 is fitted into the connecting cylinder part of the base part 21.

  The communication cylinder 22 communicates the extraction hole 6 and the inside of the container body 4 and extends in the vertical direction. The lower part of the extraction cylinder part 17 is fitted into the upper end part of the communication cylinder 22. A tapered valve seat portion 25 is formed at the lower end portion of the communication tube 22 and gradually decreases in diameter as it goes downward. In the valve seat portion 25, a valve body 14 provided in the communication cylinder 22 so as to be movable up and down is seated so as to be separated upward, whereby the communication between the communication cylinder 22 and the container body 4 is blocked. The In the illustrated example, a plurality of protrusions 26 are formed in the lower end opening of the communication tube 22 at intervals in the circumferential direction.

  Of the inner peripheral surface of the communication tube 22, a middle portion located between the upper end portion and the lower end portion is provided with groove portions 27 that are recessed outward in the radial direction and that extend in the vertical direction with a space therebetween in the circumferential direction. A plurality are formed. However, the present invention is not limited to this, and a plurality of ribs protruding inward in the radial direction and extending in the vertical direction may be formed in the intermediate portion of the communication tube 22 at intervals in the circumferential direction. Good. Further, a gap is provided in the vertical direction between the upper end of the groove part 27 (or the rib) of the communication cylinder 22 and the lower end opening edge of the extraction cylinder part 17, and the gap is the entire circumference in the circumferential direction. Is formed over. In the illustrated example, the circumferential position of the notch 20 formed in the lower end opening of the dispensing cylinder 17 and one or more circumferential positions of the plurality of grooves 27 coincide with each other. However, the present invention is not limited to this.

  The valve body 14 has a bottomed cylindrical shape. A recess 28 that opens upward is formed in the valve body 14. The opening (in this embodiment, the upper end opening) of the recess 28 is formed in a tapered shape that gradually increases in diameter toward the opening end (upper end opening edge) of the recess 28. The portion of the recess 28 other than the opening has a substantially constant inner diameter along the vertical direction.

  The outer diameter of the upper part of the peripheral wall of the valve body 14 is formed smaller than the outer diameter of the lower part. Therefore, a ring-shaped step portion 29 facing upward is formed between the upper portion and the lower portion on the outer periphery of the valve body 14. In the illustrated example, a slight gap is provided between the outer peripheral surface of the lower portion of the valve body 14 and the inner peripheral surface of the communication tube 22.

  The lower surface of the bottom wall of the valve body 14 has a hemispherical shape that bulges downward. The lower surface of the valve body 14 abuts against the valve seat portion 25 of the communication cylinder 22 so as to be freely separated from above. That is, the downward movement of the valve body 14 in the communication cylinder 22 is regulated by the lower surface of the valve body 14 coming into contact with the valve seat portion 25.

  As shown in FIGS. 2 to 4, the stepped portion 29 of the valve body 14 abuts against the regulating portion 19 of the dispensing cylinder portion 17 so as to be freely separated from below. That is, the upward movement of the valve body 14 in the communication cylinder 22 is restricted by the stepped portion 29 of the valve body 14 coming into contact with the restriction portion 19.

  Specifically, the restricting portion 19 protrudes radially inward from the inner peripheral surface of the intermediate portion located between the upper end portion and the lower end portion of the communication tube 22. Further, the inner diameter of the restricting portion 19 is larger than the outer diameter of the upper portion of the peripheral wall of the valve body 14 and smaller than the outer diameter of the lower portion. For this reason, when the valve body 14 moves upward, the upper portion of the valve body 14 is inserted into the restricting portion 19 and disposed in the dispensing cylinder portion 17. Further, the stepped portion 29 of the valve body 14 is brought into contact with the lower surface of the restricting portion 19.

  Further, the restricting portion 19 restricts the upward movement of the valve body 14 in a state where the inside of the communication tube 22 and the extraction hole 6 are communicated. In the example of the present embodiment, even if the valve body 14 is brought into contact with the restricting portion 19 and positioned at the upper moving end, the cutout portion 20 and the groove portion 27 (or between the ribs adjacent in the circumferential direction) are passed. The inside of the extraction cylinder portion 17 (the extraction hole 6) and the inside of the communication cylinder 22 communicate with each other.

As shown in FIG. 1, the lid body 9 includes a peripheral wall portion 30 and a top wall portion 31. The lid body 9 covers the entire top wall portion 16 of the cap body 7 from above, and opens and closes the pouring hole 6.
The lower end portion of the peripheral wall portion 30 of the lid body 9 is attached to and detached from the top wall portion 16 of the mounting cylinder portion 12 from the outside in the radial direction by using a stepped portion 32 formed at the upper end portion of the peripheral wall portion 15 of the mounting cylinder portion 12. It can be fitted. Further, the lower end portion of the peripheral wall portion 30 of the lid body 9 and the upper end portion of the peripheral wall portion 15 of the mounting cylinder portion 12 are integrally connected via the hinge portion 8.

  An operation piece 33 that protrudes outward in the radial direction is formed in a portion of the peripheral wall portion 30 of the lid body 9 that is located on the opposite side of the hinge portion 8 across the cap shaft O. By using the operation piece 33, the attaching / detaching operation of the lower end opening portion of the peripheral wall portion 30 to the step portion 32 and the rotating operation around the hinge portion 8 of the lid body 9 are facilitated.

On the top wall portion 31 of the lid body 9, a closing cylinder 34 that extends downward from the top wall portion 31 and is detachably fitted into the extraction cylinder portion 17, and downward from the top wall portion 31. And a shaft-like boss 35 disposed in the closed cylinder 34 is formed.
In the example of the present embodiment, the closing cylinder 34 is fitted to a lower portion of the inside of the dispensing cylinder portion 17 whose inner diameter is substantially constant. When the closed cylinder 34 is fitted inside the extraction cylinder portion 17, the communication between the extraction hole 6 and the communication cylinder 22 is blocked. When the closing cylinder 34 is fitted into the dispensing cylinder part 17, the lower end opening edge of the closing cylinder 34 is arranged so as to be spaced above the restriction part 19.

In the example of the present embodiment, the boss 35 has a cylindrical shape extending in the vertical direction. The lower end portion (tip portion) of the boss 35 protrudes downward from the lower end opening edge of the closing cylinder 34.
The boss 35 is located at the lower end of the boss 35 and is formed in a spherical shape, and a constricted portion 37 that is adjacently disposed above the convex portion 36 and has an outer diameter smaller than the outer diameter of the convex portion 36. And a shaft portion 38 disposed above the constricted portion 37 and having an outer diameter larger than the outer diameter of the constricted portion 37. In the illustrated example, the outer diameter of the shaft portion 38 is equal to or greater than the outer diameter of the convex portion 36.

And the convex part 36 which makes | forms a spherical shape in the front-end | tip of the boss | hub 35 is detachably fitted with respect to the recessed part 28 of the valve body 14. FIG. The convex portion 36 is fitted to a portion of the concave portion 28 that is located below the tapered opening (a portion whose inner diameter is substantially constant). In FIG. 1, the convex portion 36 is located below the hinge portion 8 that is the rotation center of the lid body 9.
In the example of this embodiment, the outer diameter of the convex part 36 is made larger than the inner diameter of the concave part 28, and a fastening allowance is provided. However, the present invention is not limited to this. For example, the convex portion 36 and the concave portion 28 may be detachably fitted by undercut fitting or the like.

  The hardness of the convex portion 36 and the hardness of the concave portion 28 are different from each other. In the example of the present embodiment, the convex portion 36 integrated with the lid body 9 is formed of polypropylene resin (PP), and the concave portion 28 integrated with the valve body 14 is formed of low density polyethylene resin (LDPE). Yes. Therefore, the hardness of the concave portion 28 is softer than the hardness of the convex portion 36.

Next, the action when the contents of the container body 4 are poured out using the above-described pouring cap 1 will be described.
When the contents are poured out, first, the lid body 9 is opened by rotating around the hinge portion 8. At this time, since the convex portion 36 of the lid body 9 is fitted into the concave portion 28 of the valve body 14, the valve body 14 rises together with the lid body 9. 2 and FIG. 3, when the upward movement of the valve body 14 is restricted by the restriction portion 19, the convex portion 36 is detached from the concave portion 28, so that the valve body is shown in FIG. 14 is separated from the lid 9. The separated valve body 14 moves down in the communication tube 22 and is seated on the valve seat portion 25.

  Next, the container body 4 is tilted and the container body 4 is squeezed and deformed so that the mouth portion 5 of the container body 4 faces downward, so that the valve body 14 has its own weight or inside the container body 4 (inside the inner container 2). The inside of the container main body 4 and the inside of the communication cylinder 22 are communicated with each other by utilizing the pressure of the valve seat 25.

  Thereby, since the inside of the container main body 4 communicates with the inside of the extraction hole 6 through the inside of the communication tube 22, the contents accommodated in the container main body 4 can be extracted from the extraction hole 6. At this time, since the contents reach the pouring hole 6 from the inside of the communication tube 22 through the groove portion 27 (or between the ribs adjacent in the circumferential direction) and the notch portion 20, the flow is inhibited by the valve body 14. The contents can be reliably poured out from the pouring hole 6. In addition, the valve body 14 separated from the valve seat portion 25 is restricted from moving further by contacting the restricting portion 19, and does not fall out of the communication tube 22.

  After the contents are poured out, for example, the container body 4 is returned to the upright posture so that the mouth portion 5 faces upward, and the squeeze deformation is released, and the valve body 14 is accompanied by its own weight or the deformation deformation of the container body 4. The seat is again seated on the valve seat portion 25 using the reduced pressure in the container body 4 or the like.

Since the valve body 14 is seated on the valve seat portion 25, the communication between the inside of the container body 4 and the inside of the communication tube 22 can be cut off, so that the dispensing of the contents can be stopped and the container body immediately after the dispensing. Intrusion of air into 4 can be prevented. At this time, the suck back effect accompanying the downward movement of the valve body 14 makes it possible to draw the contents in the vicinity of the pouring hole 6 into the communication tube 22, thereby effectively draining the liquid from the pouring hole 6. Can be suppressed.
Thus, the contents can be reliably poured out while appropriately switching between communication and blocking by the valve body 14.

  As described above, when the squeeze deformation is released, the outer container 3 tries to be restored and deformed. At this time, if the valve body 14 is seated on the valve seat portion 25 and the inner container 2 is sealed, a negative pressure is generated between the outer container 3 and the inner container 2. Accordingly, outside air is sucked between the outer container 3 and the inner container 2 through the intake slit portion. When the outside air is sucked between the outer container 3 and the inner container 2, the volume reduction shape of the inner container 2 is maintained.

  Next, the lid body 9 is turned around the hinge portion 8 and closed. At this time, as shown in FIG. 1, the convex portion 36 of the lid body 9 is fitted into the concave portion 28 of the valve body 14. Therefore, when the lid body 9 is opened at the next time of dispensing, the valve body 14 is raised together with the lid body 9.

According to the dispensing cap 1 of the present embodiment described above, the concave portion 28 is formed in the valve body 14 and the spherical convex portion 36 that is detachably fitted to the concave portion 28 is formed in the lid body 9. The following effects can be obtained.
When the lid 9 is rotated around the hinge portion 8 and opened, the projection 36 rotates around the center of the sphere in the recess 28 as shown in FIGS. Regardless of the opening angle of the body 9, the fitting state between the spherical convex portion 36 and the concave portion 28 is maintained well, and the valve body 14 is stably moved upward in the communication cylinder 22.

  Further, when the lid body 9 is opened, even if the valve body 14 is fixed to the valve seat portion 25 due to, for example, solidification of the contents, the spherical convex portion 36 is formed by the rotation of the lid body 9 around the hinge portion 8. Since the valve body 14 is strongly pressed against the inner peripheral surface of the recess 28, the valve body 14 can be forcibly pulled up from the valve seat portion 25, and the valve body 14 is reliably separated from the valve seat portion 25 at the next extraction. Can do.

  Further, when the lid body 9 is rotated around the hinge portion 8 and closed, the spherical convex portion 36 is stably fitted into the concave portion 28 regardless of the opening angle of the lid body 9 with respect to the cap body 7. Can do. That is, when the spherical convex portion 36 comes into contact with the concave portion 28, the convex portion 36 is guided so as to be aligned with the center of the concave portion 28 (the center of the hole, the center of the opening). 28 is securely fitted. Then, by closing the lid body 9, the valve body 14 is pushed down (pressed) to the valve seat portion 25 by the boss 35 of the lid body 9, and the communication between the communication cylinder 22 and the container body 4 is established. It is reliably shut off.

  As described above, according to the present embodiment, the convex portion 36 and the concave portion 28 can be stably fitted while rotating the lid body 9 around the hinge portion 8, thereby opening the lid body 9. In this case, the valve body 14 can be reliably lifted, and when the lid body 9 is closed, the valve body 14 can be reliably pushed down.

  Moreover, in this embodiment, the cap main body 7 has the mounting | wearing cylinder part 12 in which the extraction | pouring hole 6 was formed, and the inner stopper 13 in which the communication cylinder 22 was formed. Thus, the cap body 7 includes the mounting cylinder portion 12 and the inner plug 13 (having two members on the upper and lower sides), so that the valve body 14 is disposed between the extraction hole 6 and the communication cylinder 22. It becomes easy to form the regulation part 19 which regulates upward movement. And when opening the cover body 9, the fitting of the convex part 36 and the recessed part 28 is reliably cancelled | released in the upward movement end of the valve body 14, and the cover body 9 and the valve body 14 can be isolate | separated.

  In the present embodiment, the opening of the recess 28 has a tapered shape that gradually increases in diameter as it goes toward the opening end. Therefore, when the lid 9 is closed, the protrusion 36 is surely placed in the recess 28. These can be stably fitted.

  In this embodiment, since the hardness of the concave portion 28 and the hardness of the convex portion 36 are different from each other, for example, a variation in molding occurs in the fitting allowance such as a fastening allowance or an undercut between the concave portion 28 and the convex portion 36. Even in this case, the concave portion 28 and the convex portion 36 can be stably fitted.

  In the present embodiment, the boss 35 extending downward from the lid body 9 is provided with a constricted portion 37 adjacent to the upper portion of the convex portion 36 and having a smaller diameter than the convex portion 36. Therefore, for example, as shown in FIGS. 2 and 3, even if the opening angle of the lid body 9 is increased, the convex portion of the boss 35 with respect to the upper end opening portion (opening portion of the concave portion 28) or the like of the valve body 14. It can control that parts (part located above convex part 36) other than 36 contact. Thereby, the fitting state of the convex part 36 and the recessed part 28 can be favorably maintained to the rising end position of the valve body 14.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention, as will be described below. In the illustration of the modification, the same components as those in the above-described embodiment are denoted by the same reference numerals, and only different points will be mainly described.

In the above-described embodiment, the restricting portion 19 that restricts the upward movement of the valve body 14 in the communication tube 22 has been described with an example in which the mounting tube portion 12 (the dispensing tube portion 17) is formed. It is not limited to this.
FIG. 5 shows a modification of the dispensing cap 1 described in the above embodiment. In this modification, the restricting portion 19 is formed in the inner plug 13. Specifically, the restricting portion 19 is formed to protrude inward in the radial direction at an upper portion of the inner peripheral surface of the communication tube 22 of the inner plug 13.

In the modification shown in FIG. 5, the valve body 14 has a cylindrical shape that opens upward and downward. A portion that opens upward in the valve body 14 is a recess 28. Further, a partition wall 39 that partitions the inside of the valve body 14 up and down is formed between a portion that opens downward in the valve body 14 and a portion that opens upward.
Also in this modification, the same effect as the above-described embodiment can be obtained.

Moreover, in the above-mentioned embodiment, the recessed part 28 is formed in the valve body 14, and the spherical body 36 which detachably fits into the recessed part 28 is formed in the lid body 9 (the boss 35). Although described, the present invention is not limited to this.
FIG. 6 shows a modification of the dispensing cap 1 described in the above embodiment. In this modification, a concave portion 28 is formed on the lid body 9, and a convex portion 36 is formed on the valve body 14. Specifically, the inside of the closed cylinder 34 of the lid 9 is a recess 28. A boss 35 extending upward from the lower portion is formed on the upper portion of the valve body 14, and a spherical convex portion 36 is formed on the upper end portion (tip portion) of the boss 35. And the recessed part 28 of the cover body 9 and the convex part 36 of the valve body 14 fit removably.
Also in this modification, the same effect as the above-described embodiment can be obtained.

In the above-described embodiment, the convex portion 36 integrated with the lid body 9 is formed of polypropylene resin (PP), and the concave portion 28 integrated with the valve body 14 is formed of low-density polyethylene resin (LDPE). However, although the example in which the hardness of the concave portion 28 is softer than the hardness of the convex portion 36 has been described, the present invention is not limited thereto.
The material of the convex part 36 and the concave part 28 may be other than the above. Further, the hardness of the concave portion 28 may be harder than the hardness of the convex portion 36.

In the above-described embodiment, the lid body 9 includes the closing cylinder 34, but the closing cylinder 34 may not be formed.
Moreover, although the pouring cylinder part 17 is provided in the top wall part 16 of the mounting cylinder part 12, even if only the pouring hole 6 is formed in the top wall part 16 without forming the pouring cylinder part 17, Good.

  In the above-described embodiment, the intake slit portion is formed at the bottom of the outer container 3. However, another structure is adopted as a structure for sucking outside air between the inner container 2 and the outer container 3. It is possible. For example, an inlet hole for sucking outside air is provided in the mouth portion of the outer container 3, and the outside air introduction hole that can communicate with the suction hole and the outside air introduction hole are opened and closed in the dispensing cap 1. It is also possible to provide an outside air introduction valve that is freely closed. Alternatively, for example, an outside air introduction hole for sucking outside air between the inner container 2 and an outside air introduction valve for closing the outside air introduction hole so as to be openable and closable can be provided in the body portion of the outer container 3.

  In addition, in the range which does not deviate from the meaning of this invention, it is possible to replace suitably the component in the embodiment mentioned above to the known component, and you may combine embodiment and the modification which were mentioned above suitably.

1 Discharge cap 2 Inner container (inner layer)
3 Outer container (outer layer)
4 Container Body 5 Portion 6 Pouring Hole 7 Cap Body 8 Hinge Part 9 Lid 12 Mounted Tube Part 13 Inner Plug 14 Valve Body 16 Top Wall Part 19 Restricting Part 22 Communication Tube 25 Valve Seat Part 28 Concave Part 36 Convex Part

Claims (4)

A pouring cap attached to the mouth of a container body having an inner container that contains the contents and is reduced in volume as the contents are reduced, and an outer container in which the inner container is housed. ,
A cap body with a top-like cylindrical shape that is attached to the mouth portion and has a pouring hole formed in the top wall portion for pouring out the contents;
A cap-shaped lid body connected to the cap body via a hinge portion and opening and closing the pouring hole;
The cap body is
A communicating tube that communicates between the dispensing hole and the inside of the container body and extends in the vertical direction;
A valve body provided in the communication cylinder so as to be movable up and down;
The valve body is slidably seated upward, and a valve seat portion that blocks communication between the communication cylinder and the container body;
In a state where the inside of the communication cylinder and the extraction hole are in communication with each other, a regulation portion that regulates upward movement of the valve body, and
A pouring cap in which a concave portion is formed in one of the lid and the valve body, and a spherical convex portion that is detachably fitted into the concave portion is formed in the other. A dispensing cap according to claim 1,
The cap body is
A mounting cylinder part mounted on the mouth part and formed with the extraction hole;
An inner plug provided below the mounting cylinder portion and formed with the communication cylinder,
A pouring cap in which the restricting portion is provided on the mounting cylinder portion or the inner plug. A dispensing cap according to claim 1 or 2,
The dispensing cap is formed with a tapered shape in which the opening of the recess gradually increases in diameter toward the opening end of the recess. The extraction cap according to any one of claims 1 to 3,
A pouring cap in which the hardness of the concave portion and the hardness of the convex portion are different from each other.

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