JP5489979B2 - Discharge container - Google Patents

Description

  The present invention relates to a discharge container.

2. Description of the Related Art Conventionally, in a discharge container that stores liquid contents, a container that switches between discharge and shut-off of contents using deformation of a film member provided on a top wall is known (see Patent Document 1). ).
According to this container, the film member is pressed and deformed by the contents flowing out through the outflow opening formed in the top wall portion, and the intimate portion of the film member that is in close contact with the outflow opening is separated from the top wall portion. As a result, the contents are lifted to the upper side, and the contents can be discharged to the outside through the lifted portion.
Thereafter, when the outflow is stopped and the pressing force applied to the film member is released, the lifted portion returns to the original state and comes into close contact with the top wall again. Sealability can be secured.

JP-A-8-198300

  However, in the conventional container described in Patent Document 1, the film member may be deformed by being pressed against the contents, for example, in an unused state during product transportation, distribution or storage. There was a risk of the contents leaking out.

  This invention is made | formed in view of such a situation, The objective is to provide the discharge container which is easy to prevent the leakage of the content in an unused state.

In order to achieve the above object, the present invention provides the following means.
(1) A discharge container according to the present invention is an elastically deformable outer container in which contents are stored and an inner container having flexibility, and an intake hole for sucking outside air is formed between the inner container and the inner container. A double container having a container; a discharge body attached to a mouth of the double container and capable of discharging the contents through a communication opening communicating with the inside of the inner container; and a hinge cap for opening and closing the discharge body The discharge body has a top wall portion in which the communication opening is formed, a movable body that is moved up and down in accordance with the opening and closing operation of the hinge cap, and the vertical movement of the movable body A discharge valve body that switches communication between the communication opening and the inside of the inner container and switching between the communication opening and the blocking, and a covering body that covers the communication opening is coated on an upper surface of the top wall portion. Surrounding the communication opening and part of the circumferential direction is the container axis A non-fixed portion that is fixed to the upper surface of the top wall portion via a fixing portion that is opened at a position opposite to the hinge portion with the non-fixed portion positioned inside the fixed portion of the covering body, The communication opening is sealed in close contact with the upper surface of the section so that the communication opening is sealed, and the outside air flows into the outside air inflow path that communicates the suction hole and the outside from the outside between the inner container and the outer container. And a check valve is provided for preventing outside air from flowing out between the inner container and the outer container.

  According to the present invention, in the unused state where the hinge cap covers the discharge body, the discharge valve body blocks the communication between the inside of the inner container and the communication opening and is covered on the top surface of the top wall portion. A non-fixed portion of the covering seals the communication opening. Therefore, in an unused state, the sealing property of the inner container can be ensured, and the contents can be prevented from unexpectedly flowing out from the communication opening and leaking to the outside.

  Next, when discharging the contents, first, an opening operation for rotating the hinge cap around the hinge portion is performed. Then, the movable body moves upward with the opening operation, and the discharge valve body cancels the disconnection of the communication between the inside of the inner container and the communication opening with the upward movement. Then, after opening the hinge cap, for example, by pushing the outer container inward in the radial direction and pressing the double container, the internal pressure of the inner container can be increased, and the contents flow out from the communication opening. Can be made. Then, the covering body is pressed by the contents flowing out from the communication opening, and the non-fixed portion of the covering body swells away from the top surface of the top wall portion so as to protrude upward. Thus, a flow path communicating with the communication opening is defined between the covering and the top wall portion, and a discharge port opened outward is defined at the opening portion of the fixing portion.

  Therefore, the contents flowing out from the communication opening can be discharged from the discharge port to the outside through the flow path. In addition, since the opening part of the fixing part is located on the opposite side of the hinge part across the container shaft, the discharge port can be defined on the opposite side of the hinge cap, and the contents are not obstructed by the hinge cap. An object can be discharged.

  After that, when the pressing of the double container is stopped or released to stop the outflow of the contents from the communication opening, the pressing force from the contents applied to the covering is released, and the top wall portion The non-fixed portion of the covering that has been separated from the top surface of the cover is restored to the original state and is in close contact with the top surface of the top wall portion. As a result, the discharge port and the flow path are closed and the communication opening is sealed, so that the airtightness of the inner container can be ensured again.

  In addition, when discharging the contents, instead of pressing the double container as described above, the contents are discharged by tilting the double container, or the double container is moved radially inward while tilting. The contents may be ejected by pressing toward it. In these cases, in order to stop the discharge of the contents, the double container may be returned to the original upright posture.

  By the way, when the closing operation for rotating the hinge cap around the hinge portion is performed after the discharge of the contents is completed, the movable body moves downward along with the closing operation, and the discharge valve body moves along with the downward movement. The communication between the inside of the vessel and the communication opening is shut off again. As a result, the tightness of the inner container can be further secured, and in combination with the seal of the communication opening by the cover, the contents are effectively prevented from flowing out of the communication opening and leaking outside. can do.

(2) In the discharge container according to the present invention, the top wall portion may be gradually inclined downward from the opening position of the fixing portion toward the communication opening.

  In this case, when the discharge of the contents is stopped, the contents in the flow path defined between the covering and the top wall portion are easily returned to the communication opening smoothly due to the inclination of the top wall portion. Therefore, it is possible to improve the drainage of the contents and to suppress dripping of the contents.

According to the discharge container of the present invention, leakage of contents in an unused state can be suppressed, and product reliability can be improved.
In addition, the communication between the inside of the inner container and the communication opening by the discharge valve body and the blocking thereof can be easily switched by the vertical movement of the movable body accompanying the opening and closing operation of the hinge cap, thereby suppressing the leakage of the contents. Meanwhile, the operability of the discharge operation can be improved.

It is the longitudinal cross-sectional view which shows embodiment of the discharge container which concerns on this invention, Comprising: It is the figure seen in cross section along the front-back direction. It is the longitudinal cross-sectional view which shows embodiment of the discharge container which concerns on this invention, Comprising: It is the figure seen by the cross section along the left-right direction. It is a top view in the state which opened the hinge cap from the state shown in FIG. It is the bottom view which looked at the discharge valve body which comprises the discharge container shown in FIG. 1 from the arrow A side. FIG. 2 is an enlarged cross-sectional view around a check valve constituting the discharge container shown in FIG. 1. It is a figure which shows the state which is discharging the contents, after opening a hinge cap from the state shown in FIG. It is a figure which shows the state after stopping discharge of the content from the state shown in FIG. It is an expanded sectional view of the check valve periphery which shows the state in which the outside air is flowing in after passing through the check valve.

Hereinafter, an embodiment of a discharge container according to the present invention will be described with reference to the drawings.
(Configuration of discharge container)
As shown in FIGS. 1 and 2, the discharge container 1 of the present embodiment is attached to a double container 2 in which liquid contents (not shown) are accommodated and a mouth portion 2 a of the double container 2, which will be described later. A discharge body 3 capable of discharging the contents through the communication opening 45, and a hinge cap 5 attached to the discharge body 3 via a hinge portion 4 for opening and closing the discharge body 3.

  Each of the above-described components is disposed in a state where the respective central axes are located on a common axis. In the present embodiment, this common axis is referred to as a container axis O. In the upright state of the discharge container 1, the direction along the container axis O is the vertical direction, the hinge cap 5 side along the vertical direction is the upper side, and the opposite side is the lower side. The side. A direction perpendicular to the container axis O is referred to as a radial direction, and a direction around the container axis O is referred to as a circumferential direction. Further, of the radial directions, a direction passing through the hinge portion 4 is referred to as a front-rear direction, and a direction in which the hinge portion 4 is positioned with respect to the container axis O along the front-rear direction is referred to as a rear side or a rear side. It is called the front side or the front side.

The double container 2 includes an inner container (inner layer) 10 that contains the contents and is flexible, and an elastically deformable outer part in which an intake hole 12 that sucks outside air is formed between the inner container 10 and the inner container 10. A container (outer layer) 11 is provided, and in the illustrated example, the inner container 10 is a delamination bottle (laminated peelable container) in which the inner container 10 is detachably stacked on the outer container 11.
The mouth portion 2a of the double container 2 is configured such that the mouth portion 10a of the inner container 10 and the mouth portion 11a of the outer container 11 are laminated, and an upper cylinder portion 13 positioned on the upper side and a lower portion of the upper cylinder portion 13 An intermediate cylinder portion 14 located on the side and formed larger in diameter than the upper cylinder portion 13; a lower cylinder portion 15 located on the lower side of the intermediate cylinder portion 14 and formed substantially the same diameter as the upper cylinder portion 13; Are formed in a three-stage cylinder shape.

  A first screw portion 16 is formed over the entire outer peripheral surface of the upper cylinder portion 13 formed by the mouth portion 11 a of the outer container 11, and a lower side of the first screw portion 16. In addition, a plurality of intake holes 12 for sucking outside air are formed between the outer container 11 and the inner container 10 at intervals in the circumferential direction (in the example shown, a pair is opposed to each other). In the first screw portion 16, a vertical groove 17 (the first screw portion 16 is also vertically cut) is formed in a portion where the position in the circumferential direction coincides with the intake hole 12.

  The discharge body 3 is attached to the mouth portion 2a of the double container 2 and is mounted to the interior portion 20 disposed on the mouth portion 2a and the mouth portion 2a of the double container 2 and the mouth portion 2a. And an exterior portion 30 that surrounds the interior portion 20 from the outside in the radial direction, and a discharge head (movable body) that is mounted on the exterior portion 30 so as to be vertically movable and disposed above the interior portion 20 and the exterior portion 30. 40, and a discharge valve body 50 that switches communication between the communication opening 45 and the inside of the inner container 10 and shutting it off as the discharge head 40 moves up and down.

The interior portion 20 includes a first seal cylinder portion 21 fitted inside the mouth portion 2a of the double container 2 and a double projection projecting outward from the upper end portion of the first seal cylinder portion 21 in the radial direction. An annular outer flange portion 22 disposed on the mouth portion 2 a of the container 2, and extends downward from the outer peripheral edge portion of the outer flange portion 22, and is fitted to the outside of the mouth portion 2 a of the double container 2. The second seal cylinder 23, the annular inner flange 24 projecting radially inward from the lower end of the first seal cylinder 21, and upward from the inner peripheral edge of the inner flange 24. And a guide tube portion 25 extending in the direction.
The first seal cylinder part 21, the outer flange part 22, the second seal cylinder part 23, the inner flange part 24, and the guide cylinder part 25 are disposed coaxially with the container shaft O. The guide tube portion 25 is approximately twice as high as the first seal tube portion 21.

  The exterior portion 30 is formed in a cylindrical shape that opens in both the upper and lower directions, and a second screw portion 31 that is screwed to the first screw portion 16 formed in the mouth portion 2a of the double container 2 is formed on the inner peripheral surface thereof. Is formed. A connecting wall 32 projects upward from a portion of the upper end portion of the exterior portion 30 located on the rear side. The connecting wall 32 is formed in an arc shape in plan view, and the hinge portion 4 for connecting the hinge cap 5 so as to be openable and closable is formed on the outer peripheral surface on the upper end side.

  As shown in FIGS. 1 to 3, a stepped portion 33 is formed on the outer peripheral surface on the upper end side of the exterior portion 30. The stepped portion 33 is fitted to the lower end portion of the hinge cap 5 except for the portion where the connecting wall 32 is formed. Has been. In addition, the upper end portion of the exterior portion 30 and the inner peripheral surface of the connecting wall 32 are provided so as to project radially inward and are disposed on the outer flange portion 22 of the interior portion 20 and the inner flange portion 24. An annular top wall 34 covering the upper side is provided continuously. The top wall portion 34 is continuously provided with a mounting cylinder portion 35 protruding upward from the inner peripheral edge portion, and is in contact with the guide cylinder portion 25 of the interior portion 20 from the outside in the radial direction.

A lower end portion of the exterior portion 30 that is located below the second screw portion 31 is externally fitted in an airtight state to the intermediate cylinder portion 14 of the mouth portion 2a of the double container 2, and the lower side of the exterior portion 30 is The communication between the intake hole 12 and the outside of the discharge container 1 is blocked. A communication groove 36 communicating with the intake hole 12 and the vertical groove 17 is continuously formed in the second seal cylinder portion 23 and the outer flange portion 22 of the interior portion 20. At this time, the communication groove 36 is preferably formed at a portion where the position in the circumferential direction coincides with the intake hole 12, but it does not need to coincide.
The annular space defined by the top wall portion 34 of the exterior portion 30 and the inner flange portion 24 of the interior portion 20 functions as an internal space E1 that communicates with the communication groove 36.

By the way, the mounting cylinder part 35 is different in height in the circumferential direction, and in the illustrated example, the part located on the rear side is the lowest, and the other part protrudes above the part located on the rear side. Specifically, the height of the portion located on the rear side of the mounting cylinder portion 35 is substantially the same as the height of the guide cylinder portion 25 of the interior portion 20, and the heights of the other portions of the mounting cylinder portion 35 are , Projecting upward from the guide tube portion 25.
A concave rib-shaped vertical groove 35a communicating with the internal space E1 is formed on the inner peripheral surface of the mounting cylinder portion 35 located on the rear side. On the other hand, first convex ribs 35b are projected from the mounting cylinder portion 35 other than the portion located on the rear side toward the outer side in the radial direction.

  The discharge head 40 is a member that is moved up and down in accordance with the opening and closing operation of the hinge cap 5, and is a discharge cylinder portion 41 that is fitted inside the guide tube portion 25 of the interior portion 20 so as to be slidable up and down. A top wall portion 42 that is connected to the upper end portion of the tube portion 41 and closes the upper opening of the discharge tube portion 41, a flange portion 43 that protrudes radially outward from the discharge tube portion 41, and a flange A fitting cylinder that extends downward from the outer peripheral edge of the portion 43 and surrounds the mounting cylinder portion 35 of the exterior portion 30 from the outside in the radial direction and is externally fitted to the mounting cylinder portion 35 so as to be slidable up and down. Part 44.

  As shown in FIGS. 1 to 3, the top wall portion 42 protrudes outward in the radial direction over the entire circumference of the discharge cylinder portion 41, and is formed in a substantially curved D shape in a plan view. And is inclined with respect to the container axis O. Specifically, the ceiling wall portion 42 is inclined upward so that the front side is located above the rear side where the hinge portion 4 is located.

  The discharge head 40 is mounted in a state in which the discharge head 40 is positioned in the circumferential direction with respect to the exterior portion 30, and a hinge portion formed on the exterior portion 30 with the front portion 42 a side of the top wall portion 42 sandwiching the container shaft O. It is positioned so as to face the side opposite to 4.

  The front portion 42a side of the top wall portion 42 has an outer shape extending substantially in parallel along the front-rear direction and the left-right direction orthogonal to the container axis O. On the other hand, the rear part 42b side of the top wall part 42 is formed in a semicircular shape in plan view. As a result, the entire top wall portion 42 is formed in a substantially D shape in plan view as described above.

Further, the top wall portion 42 gradually rises from the center to the outside along the left-right direction, and is curved into a vertical cross-sectional arch shape. The top wall 42 is formed with the communication opening 45 that communicates with the inside of the inner container 10 through a communication passage R described later.
At this time, the communication opening 45 is formed coaxially with the container axis O in the deepest recessed portion in the left-right direction in the top wall portion 42. In the illustrated example, the case where the communication opening 45 is formed in a circular shape in plan view having the same diameter as the inner diameter of the discharge cylinder portion 41 is exemplified. However, the opening is smaller than the inner diameter of the discharge cylinder portion 41. It does not matter.

  As shown in FIG. 1 and FIG. 2, a second convex rib 44 a is projected annularly toward the inner side in the radial direction at the lower end portion of the fitting cylinder portion 44, and when the ejection head 40 moves upward. (See FIG. 6), the second convex ribs 44a are engaged with the first convex ribs 35b formed on the mounting cylinder part 35 of the exterior part 30 from below. Thereby, the further upward movement of the discharge head 40 is restricted.

By the way, when the ejection head 40 moves to the rising end, a gap communicating with the outside is defined between the portion located on the rear side of the mounting cylinder portion 35 of the exterior portion 30 and the second convex rib 44a. The Therefore, when the discharge head 40 moves to the rising end, the intake hole 12 formed in the mouth portion 2a of the double container 2 is an outside air inflow path including the vertical groove 17, the communication groove 36, the internal space E1, and the vertical groove 35a. 46 communicates with the outside.
The second convex rib 44a is provided with an intermittent portion, the mounting cylinder portion 35 is formed with a slit, or a gap is provided between the second convex rib 44a and the mounting cylinder portion 35. The inflow of outside air, which will be described later, may be allowed.

  The inside of the discharge cylinder portion 41 of the discharge head 40 functions as a communication path R that communicates with the communication opening 45. Further, on the inner peripheral surface of the discharge cylinder portion 41, the portion located on the front portion 42a side of the top wall portion 42 can easily return the contents flowing out from the communication opening 45 into the inner container 10, or A longitudinal groove 41a for promoting outflow is formed from the communication opening 45 to a substantially intermediate portion in the container axis O direction.

  As shown in FIGS. 1 to 3, a pair of engaged protrusions 47 project from the discharge cylinder portion 41 of the discharge head 40 configured as described above toward the outside in the radial direction. These engaged protrusions 47 are arranged so as to be lined up in the left-right direction across the container axis O, are formed so as to protrude outward in the radial direction from the top wall portion 42, and the outer shape thereof is a square in a side view. It is formed into a shape.

The upper surface of the top wall portion 42 of the ejection head 40 described above is covered with a flexible covering body 60 so as to cover the communication opening 45 formed in the top wall portion 42.
As shown in FIG. 3, the covering body 60 is formed in a shape along the outer peripheral edge of the top wall portion 42, covers the entire top wall portion 42 and covers the top wall portion 42. It is fixed to the upper surface via a fixing portion 61. The adhering portion 61 surrounds the communication opening 45 from the outside in the radial direction and opens at the center of the top wall portion 42 on the front portion 42a side. Therefore, the covering body 60 is fixed to the upper surface of the top wall portion 42 along the outer peripheral edge of the top wall portion 42 except for the central portion of the top wall portion 42 on the front portion 42a side.
Thus, a portion where the fixing portion 61 is opened and the covering body 60 and the top wall portion 42 are not fixed is formed on the front portion 42a side of the top wall portion 42, and that portion (the opening portion of the fixing portion 61) is formed. ) Is the discharge port 62. That is, the discharge port 62 is located on the side opposite to the hinge portion 4 with the container axis O interposed therebetween.

  The covering body 60 is curved following the curvature of the top wall portion 42, and a portion of the covering body 60 located inside the fixing portion 61 is a non-fixing portion 63. Close to the top surface. Thereby, the communication opening 45 is sealed by the non-adhering portion 63, and the hermeticity of the inner container 10 is ensured. The non-fixed portion 63 of the covering body 60 can be separated from the upper surface of the top wall portion 42 by, for example, elastically bulging (inverted deformation) in a direction away from the upper surface of the top wall portion 42. That is, the non-fixed portion 63 of the covering 60 seals the communication opening 45 so as to be freely opened and closed.

  As a method for fixing the covering 60 to the upper surface of the top wall portion 42, for example, adhesion using an adhesive sealant, an adhesive, or the like, or welding such as thermal welding may be considered. Examples of the covering 60 include a general film that is not easily torn (applicable regardless of stretchability), a flexible resin sheet, or a metal foil. Examples include layers and laminates.

  As shown in FIGS. 1 and 2, the discharge valve body 50 is formed in a top tube shape that is disposed coaxially with the container axis O, and the lower end portion thereof is substantially higher than the inner flange portion 24 of the interior portion 20. It arrange | positions inside the guide cylinder part 25 in the state which matched height. As shown in FIGS. 1, 2 and 4, the lower end portion of the discharge valve body 50 is internally provided via a plurality of bridge portions 51 that extend outward in the radial direction and are arranged at intervals in the circumferential direction. The inner flange portion 24 of the portion 20 is connected to the inner peripheral edge portion. A discharge opening 52 is provided between the bridge portions 51 adjacent to each other in the circumferential direction.

The lower end portion of the discharge cylinder portion 41 of the discharge head 40 is fitted in a liquid-tight and detachable manner between the cylinder body 50a of the discharge valve body 50 and the guide cylinder portion 25 of the interior portion 20. ing. Therefore, the communication between the communication passage R and the inside of the inner container 10 through the discharge opening 52 is blocked. On the other hand, when the discharge head 40 moves upward (see FIG. 6), the lower end of the discharge cylinder portion 41 Since the portion is separated from the discharge valve body 50, the communication path R and the inside of the inner container 10 communicate with each other through the discharge opening 52.
In this way, using the discharge valve body 50, the communication between the inside of the inner container 10 and the communication opening 45 and the blocking thereof can be switched as the discharge head 40 moves up and down.

  As shown in FIGS. 1, 2, and 5, a valve member 70 is disposed in an internal space E <b> 1 that constitutes the outside air inflow path 46. The valve member 70 has an annular valve cylinder portion 71 fitted on the guide cylinder portion 25 of the interior portion 20, and an annular protrusion projecting radially outward from the valve cylinder portion 71. And a valve main body 72 that abuts the entire circumference of an annular valve seat 73 projecting in a stepped manner on the lower surface of the top wall portion 34 of the exterior portion 30.

The upper end portion of the valve cylinder portion 71 is in contact with the top wall portion 34 of the exterior portion 30, and a plurality of lateral grooves 71a communicating with the longitudinal grooves 35a are formed at intervals in the circumferential direction. Thereby, the vertical groove 35a and the internal space E1 communicate with each other through the horizontal groove 71a. The valve body 72 is configured such that an outer peripheral edge 72a can be brought into contact with and separated from the valve seat 73 by elastic deformation, thereby closing the lateral groove 71a so as to be freely opened and closed.
That is, the valve member 70 and the valve seat 73 allow the outside air to flow between the inner container 10 and the outer container 11 from the outside, and the outside air flows between the inner container 10 and the outer container 11 to the outside. It functions as a check valve 75 that prevents the above. In the illustrated example, the outer peripheral edge 72a of the valve main body 72 is formed in a curved surface that is convex upward.

  As shown in FIGS. 1 to 3, the hinge cap 5 is formed in a cylindrical shape with a peripheral wall portion 80 and a top plate portion 81, and is attached to the exterior portion 30 so as to cover the discharge body 3. . The hinge cap 5 is connected to the exterior part 30 via the hinge part 4, and is attached to and detached from the exterior part 30 by opening and closing around the hinge part 4. In addition, the hinge cap 5 is mounted | worn in the stable state because the lower end part of the surrounding wall part 80 fits in the step part 33 of the exterior part 30. FIG.

The peripheral wall portion 80 is formed with a knob piece 82 projecting outward in the radial direction at a portion located on the opposite side of the radial direction across the container axis O from the hinge portion 4. It is possible to easily perform an opening / closing operation (especially an opening operation) of the hinge cap 5 by using.
A pair of engaging portions 83 that engage with the engaged protrusions 47 formed on the ejection head 40 are disposed on the top plate 81 so as to sandwich the engaged protrusions 47 from the outside in the left-right direction. . These engaging portions 83 project downward from the top plate portion 81, and project from the plate piece portion 83a parallel to the front-rear direction and radially inward from the lower end of the plate piece portion 83a. And an engaging protrusion 83b that is detachably engaged with the engaged protrusion 47 from below.

(Use of discharge container)
Next, the use of the discharge container 1 configured as described above will be described.
First, as shown in FIGS. 1 and 2, when the hinge cap 5 is not installed in the exterior portion 30 of the discharge body 3, the discharge valve body 50 communicates the inside of the inner container 10 with the communication opening 45. Is blocked, and the non-fixed portion 63 of the covering body 60 covered on the upper surface of the top wall portion 42 seals the communication opening 45. Therefore, in an unused state, the sealing property of the inner container 10 can be ensured, and the contents can be prevented from unexpectedly flowing out from the communication opening 45 and leaking to the outside.

  Next, when discharging the contents, first, an opening operation for rotating the hinge cap 5 around the hinge portion 4 is performed to remove the contents from the exterior portion 30. Then, with this opening operation, the engaging portion 83 rises while the engaging protrusion 83b of the engaging portion 83 provided on the top plate portion 81 engages with the engaged protrusion 47 of the ejection head 40 from below. Will move. As a result, as shown in FIG. 6, the lower end portion of the discharge cylinder portion 41 constituting the discharge head 40 comes out upward from between the cylinder 50 a of the discharge valve body 50 and the guide cylinder portion 25 of the interior portion 20. It leaves | separates from the discharge valve body 50, and, thereby, the inside of the inner container 10 and the communication opening 45 communicate. Further, in this process, the engaging protrusion 83b of the engaging portion 83 passes over the engaged protrusion 47 of the discharge head 40 from below to above, and the engagement between the engaging portion 83 and the discharge head 40 is released. . Therefore, the hinge cap 5 can be greatly opened.

  Further, when the discharge head 40 moves upward, the discharge cylinder part 41 and the guide cylinder part 25 of the interior part 20 are in sliding contact with each other, and the guide cylinder part 25 guides the upward movement of the discharge head 40. It will move up stably. Further, the ejecting head 40 that has moved upward is engaged with the second convex ribs 44a formed on the fitting cylinder portion 44 by engaging the first convex ribs 35b of the mounting cylinder portion 35 of the exterior portion 30 from below. The above upward movement is restricted.

  Then, after the hinge cap 5 is detached as described above, the double container 2 is pushed inward in the radial direction to be squeezed (squeezed) to increase the internal pressure of the inner container 10. Thereby, since the internal pressure of the inner container 10 can be raised, the contents can flow out from the communication opening 45 through the discharge opening 52 and the communication path R. Then, the covering body 60 is pressed by the contents flowing out from the communication opening 45, and the non-fixed portion 63 of the covering body 60 is, for example, reversely deformed toward the upper side away from the upper surface of the top wall portion 42, and protrudes upward. Bulges into a dome shape. For this reason, a flow path R1 communicating with the communication opening 45 is defined between the covering body 60 and the upper surface of the top wall portion 42, and the discharge port 62 opened outward at the opening portion of the fixing portion 61. Is defined.

  Therefore, the contents flowing out from the communication opening 45 can be discharged from the discharge port 62 through the flow path R1. In addition, since the discharge port 62 is defined on the opposite side to the hinge portion 4 in the radial direction, the contents can be discharged without being obstructed by the hinge cap 5.

  Further, when stopping the discharge of the contents, the pressing of the double container 2 is stopped or released, and the outflow of the contents from the communication opening 45 is stopped. Thereby, the pressing force from the contents applied to the covering body 60 is released, and the non-fixed portion 63 of the covering body 60 separated from the upper surface of the top wall portion 42 is elastic, for example, as shown in FIG. Or it is restored to its original state by the internal pressure (negative pressure) of the inner container 10 and is in close contact with the upper surface of the top wall 42. As a result, the discharge port 62 and the flow path R1 are closed and the communication opening 45 is sealed, so that the airtightness of the inner container 10 can be ensured again.

  In particular, when the discharge of the contents is stopped, the top wall portion 42 of the present embodiment is inclined upward, and the front portion 42a side is located above the rear portion 42b side. The contents inside can easily return smoothly to the communication opening 45 due to the inclination of the top wall portion 42. Therefore, it is possible to improve the drainage of the contents and to suppress dripping of the contents after ejection.

In addition, since the double container 2 of this embodiment is a delami bottle, the inner container 10 is reduced in volume by discharging the contents, and a negative pressure is generated between the inner container 10 and the outer container 11. Then, this negative pressure acts on the valve body 72 of the check valve 75 through the intake hole 12, so that the outer peripheral edge 72 a of the valve body 72 is separated from the valve seat 73, and the outside and intake holes are connected through the outside air inflow passage 46. 12 is communicated. Therefore, as shown by the arrows in FIG. 8, outside air flows into the outside air inflow passage 46 from the outside, and this outside air is sucked between the inner container 10 and the outer container 11 through the intake hole 12.
Therefore, after the contents are discharged from the discharge container 1, as shown in FIG. 7, the inner container 10 is peeled off from the outer container 11, and a gap space E2 is defined between them. Therefore, the outer container 11 can be smoothly restored and deformed while reducing the volume of the inner container 10.

By the way, after the discharge of the contents is finished, a closing operation for rotating the hinge cap 5 around the hinge portion 4 is performed to attach the hinge cap 5 to the exterior portion 30 of the discharge body 3 again. Then, in accordance with this closing operation, the engaging portion 83 moves downward while the engaging protrusion 83b of the engaging portion 83 contacts the engaged protrusion 47 of the discharging head 40 from above, so that the discharging head 40 is lowered. Will move. As the discharge head 40 moves downward, the lower end portion of the discharge cylinder portion 41 is fitted again between the cylinder body 50 a of the discharge valve body 50 and the guide cylinder portion 25 of the interior portion 20, and passes through the discharge opening 52. The communication between the inside of the inner container 10 and the communication path R is blocked. That is, the communication between the inside of the inner container 10 and the communication opening 45 is blocked again.
Thereby, the airtightness of the inner container 10 can be further secured, and in combination with the seal of the communication opening 45 by the covering body 60, the contents unexpectedly flow out of the communication opening 45 and leak to the outside. It can be effectively suppressed.

Further, in the process of closing the hinge cap 5, the engaging protrusion 83 b of the engaging portion 83 climbs over the engaged protrusion 47 of the ejection head 40 from the upper side to the lower side, and the engaging protrusion 83 b of the engaged protrusion 47 It will be located on the lower side.
When the discharge head 40 moves downward, the guide tube portion 25 and the discharge tube portion 41 of the interior portion 20 are in sliding contact with each other, and the guide tube portion 25 moves the discharge head 40 downward. Since the guide is performed, the discharge head 40 is stably moved downward.

As described above, according to the discharge container 1 of the present embodiment, leakage of contents in an unused state can be suppressed, and product reliability can be improved.
Moreover, the communication between the inside of the inner container 10 and the communication opening 45 by the discharge valve body 50 and the blocking thereof can be easily switched by the vertical movement of the discharge head 40 accompanying the opening / closing operation of the hinge cap 5. The operability of the discharge operation can be improved while suppressing leakage.

  In the above embodiment, the contents are discharged by squeezing the double container 2. However, the contents are discharged by tilting the double container 2 forward and the discharge port 62 downward. You may discharge using the dead weight. In this case, in order to stop the discharge of the contents, the double container 2 may be returned to the original upright posture. Further, the contents may be discharged by squeezing the double container 2 while tilting the double container 2 forward.

  The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

  For example, in the above embodiment, the top wall portion 42 is inclined with respect to the container axis O so that the front portion 42a side of the top wall portion 42 is positioned above the rear portion 42b side. Alternatively, they may be formed in parallel to each other, or may be inclined so that the front part 42a side of the top wall part 42 is located below the rear part 42b side. Furthermore, although the top wall portion 42 has a concave curved surface shape, it may have a flat surface shape or a convex curved surface shape.

Further, the check valve 75 is not limited to the configuration shown in the above embodiment, and allows the outside air to flow between the inner container 10 and the outer container 11 from the outside, and between the inner container 10 and the outer container 11. Any structure that prevents the outside air from flowing out from the outside may be used.
Furthermore, in the above-described embodiment, the check valve 75 is disposed in the internal space E1, but the check valve 75 is disposed at the outside air inflow path 46 that communicates the intake hole 12 and the outside. It does not matter as long as it is disposed inside. For example, the check valve 75 may be attached to or integrally formed with the mouth portion 2 a of the double container 2 and the exterior portion 30 of the discharge body 3.

  Further, in the above embodiment, a pressure relief path may be formed between the outer peripheral edge 72 a of the valve body 72 and the valve seat 73 formed on the top wall 34 of the exterior part 30. Examples of the pressure relief path include a configuration in which a concave lateral groove along the radial direction is formed in the valve seat 73.

In this case, with the gap space E2 formed between the inner container 10 and the outer container 11, the outer container 11 is slightly pushed inward in the radial direction, for example, by gripping the double container 2 or the like. Even if the internal pressure of the gap space E2 is going to rise, the internal pressure can be released to the outside through the pressure relief path. Accordingly, it is possible to suppress an increase in the internal pressure of the inner container 10, and it is possible to prevent the contents from unexpectedly flowing out from the communication opening 45 due to the increase in the internal pressure of the inner container 10.
On the other hand, when the double container 2 is pressed to discharge the contents and the outer container 11 is largely pushed inward in the radial direction, the internal pressure of the gap space E2 exceeds the pressure that can be released through the pressure relief path. And the internal pressure acts on the inner container 10, so that the internal pressure of the inner container 10 can be reliably increased. As a result, the contents can be discharged from the communication opening 45 and reliably discharged from the discharge port 62.

O ... Container shaft 1 ... Discharge container 2 ... Double container 3 ... Discharge body 4 ... Hinge part 5 ... Hinge cap 10 ... Inner container 11 ... Outer container 12 ... Intake hole 40 ... Discharge head (movable body)
DESCRIPTION OF SYMBOLS 42 ... Top wall part of discharge head 45 ... Communication opening 46 ... Outside air inflow path 50 ... Discharge valve body 60 ... Covering body 61 ... Covering body fixed part 63 ... Covering body non-adhering part 75 ... Check valve

Claims (2)

A double container having a flexible inner container in which contents are accommodated, and an elastically deformable outer container in which an intake hole for sucking outside air is formed between the inner container and the inner container;
A discharge body attached to the mouth of the double container and capable of discharging the contents through a communication opening communicating with the inside of the inner container;
A hinge cap for opening and closing the discharge body,
The discharge body is
A movable body that has a ceiling wall part in which the communication opening is formed, and is movable up and down in accordance with the opening and closing operation of the hinge cap;
A discharge valve body that switches between communication between the communication opening and the inside of the inner container and blocking of the communication with the vertical movement of the movable body,
The top surface of the top wall is covered with a covering that covers the communication opening,
The covering body surrounds the communication opening, and is fixed to the upper surface of the top wall portion via a fixing portion having a circumferential portion opened at a position opposite to the hinge portion across the container shaft,
The non-adhered part located inside the fixed part of the covering body seals the communication opening in close contact with the top surface of the top wall part so as to be separable,
In the outside air inflow path that communicates the intake hole and the outside, the outside air is allowed to flow from the outside into the space between the inner container and the outer container, and from between the inner container and the outer container to the outside. A discharge container comprising a check valve for preventing outflow of outside air to the container. In the discharge container according to claim 1,
The discharge container is characterized in that the top wall portion is gradually inclined downward from the opening position of the fixing portion toward the communication opening.

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