JP2019130073A - Compact container - Google Patents

Abstract

To provide a compact container capable of discharging a stabilized amount of a content.SOLUTION: A compact container 1 comprises: an inner container 2; an inner lid 3 on which a communication hole 21a is formed; a middle lid 4 which defines a connection space S1 and on which a discharge hole 4a is formed; a first valve body 5b for switching communication and cutoff of the communication hole and connection space; and a second valve body 4b for closing the discharge hole so as to be opened. The middle lid has an operation part 33 which can be elastically deformed, and increases/decreases inner pressure in the connection space by elastic deformation. When the operation part is moved downward and the inner pressure of the connection space is increased, the first valve body cuts off communication between the communication hole and the connection space and the second valve body opens the discharge hole. When the operation part is moved upward and the inner pressure in the connection space is decreased, the second valve body closes the discharge hole, and the first valve body communicates the communication hole and connection space with each other. In the connection space, a shaft part 5d which extends in a vertical direction, is inserted into the discharge hole, and penetrates the middle lid, is provided.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a compact container.

  Conventionally, a compact container having an inner container in which contents are stored has been used. For example, the following Patent Document 1 discloses a configuration in which the upper surface of the inner container is covered with a net, and the net is pressed with an applicator such as a puff to attach the contents that have oozed through the mesh of the net to the applicator. Yes.

JP 2003-93145 A

  In the configuration of Patent Document 1, the amount of content that oozes through the mesh greatly changes due to the force applied when pressing the net with the applicator. For this reason, it was not easy to attach a stable amount of contents to the applicator.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a compact container capable of discharging a stable amount of contents.

  In order to solve the above-described problem, a compact container according to one embodiment of the present invention is formed with an inner container in which contents are stored, and a communication hole that seals the inside of the inner container and communicates with the inner container. A discharge space provided between the inner cover and the inner cover, defining a communication space communicating with the communication hole between the inner cover and discharging the contents in communication with the communication space; An inner lid in which a hole is formed; a first valve body that switches communication between the communication hole and the communication space; and a second valve body that closes the discharge hole so as to be openable, and The inner lid is formed to be elastically deformable and includes an operation part that increases and decreases the internal pressure of the communication space by elastically deforming, and when the operation part moves downward and the internal pressure of the communication space rises, The first valve element blocks communication between the communication hole and the communication space. And the second valve body opens the discharge hole, and when the operation portion moves upward and the internal pressure of the communication space decreases, the second valve body closes the discharge hole, and The first valve body communicates the communication hole and the communication space, and in the communication space, a shaft portion is provided that extends in the vertical direction and is inserted into the discharge hole and penetrates the inner lid, A protruding portion that protrudes outward in the radial direction is formed at the upper end of the shaft portion.

According to the compact container of the present invention, when the operation portion moves downward to increase the internal pressure of the communication space, the first valve body blocks the communication between the communication hole and the communication space, and the second valve body. Opens the discharge hole. Further, when the operation unit moves upward to lower the internal pressure of the communication space, the second valve body closes the discharge hole, and the first valve body connects the communication hole and the communication space. For this reason, the user pushes down the operation part or releases the push-down to elastically deform the operation part, thereby increasing or decreasing the internal pressure of the communication space to make the inside of the communication space negative pressure. The contents can be caused to flow into the communication space, and the contents can be filled into the communication space. In this state, when the internal pressure of the communication space is increased by pressing the operation unit, the content can be discharged from the discharge hole by an amount corresponding to the increase of the internal pressure of the communication space.
Further, a shaft portion is inserted into the discharge hole, and a protruding portion that protrudes radially outward is formed at the upper end of the shaft portion. For this reason, even if the vicinity of the discharge hole is pressed down, the discharge hole is prevented from being blocked, and the contents can be discharged more reliably. Furthermore, for example, even if the contents are ejected vigorously upward from the ejection holes, the contents flow from the upward direction to the radially outer side when the contents hit the lower surface of the protrusion. Therefore, it is possible to suppress the occurrence of a phenomenon in which the contents are ejected vigorously.

  Here, a biasing portion that applies a biasing force directed upward to the operation portion that has moved downward may be provided in a portion of the communication space that faces the discharge hole.

  In this case, when the depression of the operation unit is released, the urging unit stably returns the operation unit to the original position before the depression. In other words, the urging unit assists the elastically deformed operation unit to be restored and deformed. Thereby, the content can be stably sucked into the communication space from the inner container, and the discharge amount of the content when the operation unit is pushed down can be stabilized.

  In addition, a groove that is recessed upward may be formed on the lower surface of the protruding portion.

  In this case, even if the protruding portion blocks the discharge hole from above, the discharge hole and the external space communicate with each other by the groove portion, and a flow path for the contents is secured. Therefore, the contents can be discharged more reliably.

  According to the above aspect, it is possible to provide a compact container capable of discharging a stable amount of contents.

It is a top view of the compact container which concerns on this embodiment. FIG. 2 is a sectional view taken along the line II-II in FIG. 1. (A) is a top view of a protrusion part. FIG. 3B is an enlarged view of the vicinity of the discharge hole in FIG.

Hereinafter, the compact container of this embodiment is demonstrated based on drawing.
As shown in FIG. 1 and FIG. 2, the compact container 1 is formed with an inner container 2 for storing contents, an inner lid 3 for sealing the inside of the inner container 2, and a discharge hole 4 a for discharging the contents. The inner cover 4, the valve member 5, and the outer container 7 are provided. The inner container 2, the inner lid 3, the inner lid 4, and the valve member 5 are accommodated in the outer container 7. The inner lid 4 has a second valve body 4b. The valve member 5 has a first valve body 5b. The outer container 7 includes a lid member 50 and a bottom member 60 that are relatively rotatable around the rotation axis R.

(Direction definition)
In the present embodiment, the central axis of the outer container 7 (the central axis of the compact container 1) is referred to as the container axis O, and the direction along the container axis O is referred to as the vertical direction. Further, in a state where the lid member 50 is closed, a direction from the bottom member 60 toward the lid member 50 along the vertical direction is referred to as an upper side, and a direction from the lid member 50 toward the bottom member 60 is referred to as a lower side. A cross section along the container axis O is referred to as a vertical cross section.
In a plan view viewed from the top and bottom direction, the direction intersecting the container axis O is referred to as the radial direction, and the direction around the container axis O is referred to as the circumferential direction. A direction approaching the container axis O along the radial direction is referred to as a radially inner side, and a direction away from the container axis O is referred to as a radially outer side. Of the radial directions, a direction parallel to the rotation axis R is referred to as a left-right direction, and a direction orthogonal to the rotation axis R is referred to as a front-rear direction. A direction from the container axis O toward the rotation axis R along the front-rear direction is referred to as the rear, and a direction from the rotation axis R toward the container axis O is referred to as the front.

(Outer container)
As shown in FIG. 2, the bottom member 60 includes a disc-shaped bottom plate portion 61 disposed coaxially with the container axis O, a cylindrical tubular wall portion 62 extending upward from the outer peripheral edge of the bottom plate portion 61, and And is formed in a bottomed cylindrical shape. A recess 63 that is recessed forward is provided at the rear end of the bottom member 60.
An engagement space 7 a that is recessed rearward is provided at the front end of the cylindrical wall portion 62. The engagement space 7a is open forward and upward. The engagement space 7a is defined by a rear wall portion 65 facing forward and a bottom wall portion 64 facing upward.

  A guide wall portion 68 protruding forward is formed at a portion of the rear wall portion 65 located in the center in the left-right direction. The upper surface of the guide wall portion 68 is an inclined surface that is inclined downward as it goes forward. A portion of the rear wall portion 65 located above the guide wall portion 68 is formed with a first engagement portion 69 that protrudes forward. A clearance hole 66 penetrating the rear wall 65 in the front-rear direction is formed in a portion of the rear wall 65 located below the guide wall 68.

  As shown in FIG. 2, the lid member 50 includes a disk-shaped top plate portion 51 disposed coaxially with the container axis O, a cylindrical tube portion 52 extending downward from the outer peripheral edge of the top plate portion 51, and Is provided. A connecting portion 54 that protrudes downward from the cylindrical portion 52 is formed at the rear end portion of the lid member 50. The connecting portion 54 is located in the concave portion 63 of the bottom member 60 and is rotatable around the rotation axis R in the concave portion 63. With this configuration, the lid member 50 can rotate about the rotation axis R with respect to the bottom member 60 and closes the upper end opening of the bottom member 60 so as to be openable and closable.

  A mirror M is fixed to the lower surface of the top plate portion 51 of the lid member 50. A puff P (applicator) is disposed between the lid member 50 and the inner lid 3. The puff P is placed on an operation unit 33 (described later) of the inner lid 4.

An engagement piece 53 projects from the front end portion of the lid member 50 downward. The engagement piece 53 is formed in a plate shape that protrudes downward from the inner peripheral surface of the cylindrical portion 52 and extends in the left-right direction, and enters the engagement space 7a from above.
At the lower end of the engagement piece 53, a second engagement portion 53 a that protrudes rearward and is detachably undercut fitted to the first engagement portion 69 of the bottom member 60 is formed. Yes. When the second engagement portion 53a engages with the first engagement portion 69 from below, the lid member 50 is locked in the closed state.

A push piece 8 for releasing the engagement between the first engagement portion 69 and the second engagement portion 53a is provided in the engagement space 7a.
The push piece 8 includes an operation wall portion 8 a disposed in front of the engagement piece 53, a release protrusion 8 b that protrudes rearward from the operation wall portion 8 a and is positioned on the inclined surface of the guide wall portion 68. A base portion 8c that protrudes rearward from the lower end portion of the operation wall portion 8a and is placed on the bottom wall portion 64. The push piece 8 is movable rearward with respect to the bottom member 60 and the lid member 50 when pushed toward the rear.

The release protrusion 8b moves rearward along the inclined surface of the guide wall portion 68 as the push piece 8 moves rearward, pushes up the second engagement portion 53a from below, and moves from the first engagement portion 69. Let go. Thereby, engagement with the 1st engaging part 69 and the 2nd engaging part 53a can be cancelled | released, and the cover member 50 can be made into the state which can be opened.
When the push piece 8 moves rearward, the push piece 8 is restored and moved forward by the restoring deformation of the release protrusion 8b.

  The base portion 8 c enters the escape hole 66 formed in the rear wall portion 65 from the front as the push piece 8 moves rearward. Further, the base portion 8 c is formed with a locking projection that protrudes downward and engages with a locking recess 67 formed in the bottom wall portion 64. Thereby, the push piece 8 is combined with the outer container 7 in a state in which the push piece 8 is prevented from coming off forward.

  Note that the compact container 1 may not include the push piece 8. For example, the lower end portion of the engagement piece 53 is deformed so as to be bent slightly forward by a fingertip or the like, so that the engagement between the first engagement portion 69 and the second engagement portion 53a is released, and the lid The closed lock of the member 50 may be released.

(Inner container)
The inner container 2 is disposed on the radially inner side of the cylindrical wall portion 62 of the bottom member 60. The inner container 2 is a flat cylindrical container that is disposed coaxially with the container axis O and opens upward. The inner container 2 has flexibility and can be reduced in volume (changeable in volume). The inner container 2 is composed of, for example, a laminated film or a thin resin molded product. The inner container 2 may be a so-called delamination container or the like in which an inner container rich in flexibility is laminated on the inner surface of an outer container that is harder than the inner container. Or you may employ | adopt the other structure which can reduce the accommodation space S3 in the inner container 2. FIG.

A content having fluidity is accommodated in the accommodation space S3 which is the inside of the inner container 2.
The contents may be liquid, gel, or jelly. The contents are cosmetics such as a liquid foundation, for example.
An annular mounting ring 81 that surrounds the upper end portion of the inner container 2 from the radially outer side is fixed to the upper end portion of the inner container 2. The attachment ring 81 has an attachment cylinder portion 82 protruding upward. The attachment ring 81 has a role of attaching the inner container 2 to the inner lid 4. As a method of fixing the attachment ring 81 to the inner container 2, for example, the attachment ring 81 may be injection molded using the inner container 2 as an insert. Alternatively, the inner container 2 and the attachment ring 81 may be bonded or welded, or the inner container 2 may be molded and the attachment ring 81 fixed to the inner container 2 at the same time.

(Inner lid)
The inner lid 3 is disposed above the inner container 2. The inner lid 3 closes the opening above the inner container 2 and seals the inside of the inner container 2. The inner lid 3 includes a lower member 10 attached to the inner container 2 via an attachment ring 81 and an upper member 20 attached to the inner container 2 via the lower member 10. The lower member 10 may be formed integrally with the attachment ring 81.

  The lower member 10 includes a lower annular portion 11 that covers the upper opening of the inner container 2, a seal ring 12 that is connected to the inner peripheral edge of the lower annular portion 11, and an upper periphery from the outer peripheral edge of the lower annular portion 11. An inner cylindrical portion 13 that extends outward, an annular connecting portion 14 that extends radially outward from the upper end of the inner cylindrical portion 13, and an outer cylindrical portion 15 that extends downward from the outer peripheral edge of the connecting portion 14. doing. The lower annular part 11, the seal ring 12, the inner cylinder part 13, the connection part 14, and the outer cylinder part 15 are arranged coaxially with the container axis O.

A plurality of ribs 11 a projecting downward are formed on the lower surface of the lower annular portion 11. As shown in FIG. 1, the ribs 11 a extend in the radial direction and are arranged radially about the container axis O.
The seal ring 12 extends gradually upward as it goes radially inward. A seal portion 12 a extending downward is formed on the inner peripheral edge of the seal ring 12. The seal portion 12a is fitted to the outer peripheral surface of the inner cylinder portion 22 described later of the upper member 20.

  The outer cylinder part 15 is located radially outside the inner cylinder part 13. In the radial direction, the inner cylindrical portion 13 is disposed at a position substantially equal to the outer peripheral portion of the inner container 2, and the outer cylindrical portion 15 is positioned outside the outer peripheral portion of the inner container 2. A mounting cylinder portion 82 of the mounting ring 81 is fitted between the outer cylinder portion 15 and the inner cylinder portion 13. Thereby, the inner container 2 and the inner lid 3 are fixed via the attachment ring 81.

The upper member 20 includes a ring-shaped support portion 21 in plan view, an inner cylinder portion 22 extending upward from the outer peripheral edge of the support portion 21, and an upper ring shape extending radially outward from the upper end portion of the inner cylinder portion 22. Part 23, an outer peripheral cylindrical part 24 extending downward from the outer peripheral edge of the upper annular part 23, and a lower flange part 25 extending radially outward from the lower end part of the outer peripheral cylindrical part 24. Further, the upper member 20 includes a communication cylinder part 21b extending upward from the inner peripheral edge of the support part 21, and an annular valve seat part 21c extending radially inward from the upper end part of the communication cylinder part 21b.
The support part 21, the communication cylinder part 21 b, the valve seat part 21 c, the inner cylinder part 22, the upper annular part 23, the outer cylinder part 24, and the lower flange part 25 are arranged coaxially with the container axis O.

The support part 21 supports the valve member 5 from below. The inner peripheral surface of the valve seat portion 21c is a communication hole 21a that allows communication space S1 described later and the inside of the inner container 2 to communicate with each other. The communication hole 21 a is formed in a circular hole shape coaxial with the container axis O.
The inner cylinder portion 22 is fitted in the seal ring 12 of the lower member 10. A regulation projection 22a is formed at the center in the vertical direction of the inner cylinder portion 22 so as to project radially inward (see FIG. 3B). The lower flange portion 25 faces the radially outer end of the lower annular portion 11 from above.

  The upper annular portion 23 is formed in a plate shape that is annular in plan view and whose front and rear surfaces are directed in the vertical direction. The upper annular portion 23 is opposed to an operation portion 33 described later in the vertical direction. The inner diameter and outer diameter of the upper annular portion 23 are substantially the same as the inner diameter and outer diameter of the operation portion 33. On the upper surface of the upper annular portion 23, an annular recess 23c that is recessed downward is formed. An inner support portion 23 a that protrudes upward is formed at the inner peripheral edge of the upper annular portion 23. A plurality of inner support portions 23a are formed at intervals in the circumferential direction. An annular outer support portion 23 b that protrudes upward is formed on the outer peripheral portion of the upper annular portion 23.

(Inner lid)
The inner lid 4 is formed in a cylindrical shape with a top, and includes a top wall member 30 located on the top wall portion and a mounting ring 40 located on the peripheral wall portion. The inner lid 4 is provided above the inner lid 3 and defines a communication space S <b> 1 communicating with the communication hole 21 a between the inner lid 3 and the inner lid 3. The inner lid 4 of this embodiment is integrally formed by injection molding the top wall member 30 using the mounting ring 40 as an insert. In addition, after forming the top wall member 30 and the mounting ring 40 separately from each other, the inner lid 4 may be formed by combining them.

  The mounting ring 40 is formed in a double cylindrical shape having an inner cylinder 41 and an outer cylinder 42 whose upper ends are connected to each other. A fitting portion 42 a that protrudes inward in the radial direction is formed at the lower portion of the inner peripheral surface of the outer cylinder 42. When the fitting portion 42a is undercut fitted to the mounting ring 81, the downward movement of the mounting ring 81 and the inner container 2 relative to the mounting ring 40 is restricted.

On the outer peripheral surface of the mounting ring 40, an annular mounting portion 44 extending toward the radially outer side is provided. The mounting portion 44 is provided on the outer peripheral surface of the mounting ring 40 over the entire circumference. The lower surface of the mounting portion 44 contacts the upper surface of the cylindrical wall portion 62 of the bottom member 60 from above. The placement portion 44 is a portion of the inner lid 4 that is placed on the bottom member 60.
With the above configuration, the inner container 2 or the later-described refill container 2 </ b> A is attached to the bottom member 60 via the attachment ring 40.

  In the present embodiment, the inner container 2, the inner lid 3, and the inner lid 4 constitute a refill container 2A. The refill container 2 </ b> A is detachably attached to the outer container 7. Thereby, the user can replace the refill container 2A with a new refill container 2A filled with the contents after the contents in the inner container 2 are used up.

  On the upper surface of the mounting ring 40, an annular raised portion 43 that protrudes upward is formed. The inner peripheral surface of the raised portion 43 is formed in a curved shape extending outward in the radial direction as it goes upward. The raised portion 43 facilitates the operation of scooping the contents discharged from the discharge hole 4a described later with the puff P. Further, the raised portion 43 blocks the discharged contents, for example, prevents the contents from drooping outside the mounting ring 40, and stabilizes the position of the puff P placed on the inner lid 4. It also has a role to let them.

  The top wall member 30 has a circular top portion 32 in plan view and a locking cylinder portion 31 extending downward from the top portion 32. A portion of the top portion 32 that is located on the radially inner side of the inner cylinder portion 22 of the inner lid 3 defines a communication space S <b> 1 together with the upper member 20 of the inner lid 3. The communication space S1 is formed in a circular shape coaxial with the container axis O in plan view.

The locking cylinder portion 31 is locked in the inner cylinder 41 of the mounting ring 40. In addition, after forming the top wall member 30 and the mounting ring 40 separately, the locking cylinder part 31 is locked in the inner cylinder 41 by fitting the locking cylinder part 31 in the inner cylinder 41. May be. The locking cylinder part 31 is fitted on the outer cylinder part 24 of the inner lid 3.
A discharge hole 4a is formed in the central portion in the radial direction of the top portion 32 so as to penetrate the top portion 32 in the vertical direction. The discharge hole 4a opens toward the communication space S1, and communicates with the communication space S1.

  An operation portion 33 that can be elastically deformed is provided in a portion of the top portion 32 that faces the upper annular portion 23 of the inner lid 3 in the vertical direction. The operation unit 33 is formed in an annular shape when viewed from above. The operation portion 33 defines an operation space S2 between the upper annular portion 23 and the operation portion 33. The working space S2 is formed in an annular shape when viewed from above. The working space S2 communicates with the communication space S1 through gaps between the plurality of inner support portions 23a arranged at intervals in the circumferential direction. In the longitudinal sectional view, the lower surface 33a of the operation unit 33 is formed in a shape that protrudes upward. In the present embodiment, the lower surface 33a is formed in a curved surface that is convex upward. In addition, as a shape of the lower surface 33a, for example, a trapezoidal shape that protrudes upward in a longitudinal sectional view may be employed.

  The operation unit 33 is formed to be elastically deformable in the vertical direction. The operation part 33 increases / decreases the internal pressure of the working space S2 and the communication space S1 by elastic deformation. The material of the operation unit 33 is a soft material such as elastomer, nitrile rubber, butyl rubber, silicon rubber, soft polyethylene, urethane (hereinafter simply referred to as “elastomer”). The operation unit 33 is softer than the mounting ring 40, and the mounting ring 40 is harder than the operation unit 33.

  An inner groove portion 33 b that is recessed upward is formed at the inner peripheral edge portion of the operation portion 33, and an outer groove portion 33 c that is recessed upward is formed at the outer peripheral edge portion of the operation portion 33. For this reason, the operation part 33 becomes easy to deform | transform using the inner side groove part 33b and the outer side groove part 33c as a fixed end. The inner groove portion 33b and the outer groove portion 33c are formed in an annular shape around the container axis O in plan view. A portion of the top wall member 30 that is adjacent to the inner groove portion 33b on the radially inner side contacts or is close to the inner support portion 23a, and a portion that is adjacent to the outer groove portion 33c on the outer side in the radial direction contacts or is adjacent to the outer support portion 23b. It is close. Thereby, when the operation part 33 is pressed, the operation part 33 is elastically deformed in the vertical direction so that the inner groove part 33b and the outer groove part 33c are fixed ends while being supported by the inner support part 23a and the outer support part 23b. .

Of the top portion 32, the peripheral portion of the discharge hole 4a functions as the second valve body 4b. The 2nd valve body 4b is formed in the curved surface shape which becomes convex toward the downward direction, and can be elastically deformed to an up-down direction. The lower end opening of the second valve body 4b is in contact with a biasing portion 5c described later from above. Thereby, the 2nd valve body 4b has obstruct | occluded the discharge hole 4a so that opening is possible.
As shown in FIG.3 (b), the cyclic | annular protrusion 4c which protrudes below is formed in the lower end opening part of the 2nd valve body 4b. The protrusion 4c abuts on an urging portion 5c described later from above over the entire circumference. Thereby, the protrusion 4c seals the communication space S1. In addition, you may seal communication space S1 with another structure. The locking cylinder portion 31, the top portion 32, the operation portion 33, the discharge hole 4 a, the second valve body 4 b, and the protrusion 4 c are arranged coaxially with the container axis O.

(Valve member)
As shown in FIG. 3B, the valve member 5 includes a valve cylinder portion 5a, a first valve body 5b, and an urging portion 5c, and each portion is integrally formed. The first valve body 5b has a role of switching communication between the communication hole 21a of the inner lid 3 and the communication space S1 and blocking of the communication space S1. The first valve body 5b is a check valve that allows the flow of contents from the accommodation space S3 of the inner container 2 to the communication space S1 and blocks the flow of contents from the communication space S1 to the accommodation space S3.

The 1st valve body 5b is located inside the valve cylinder part 5a, and is connected to the valve cylinder part 5a. The first valve body 5b is in contact with the valve seat portion 21c from above, and covers the communication hole 21a. The first valve body 5b is formed in a disc shape. The outer diameter of the first valve body 5b is larger than the inner diameter of the communication hole 21a.
The valve cylinder part 5 a is fitted in the inner cylinder part 22 of the inner lid 3, and is located below the regulation protrusion 22 a of the inner cylinder part 22. Thereby, the valve cylinder part 5 a and the first valve body 5 b are fixed to the inner lid 3. The lower end of the valve cylinder part 5a is in contact with the support part 21 from above.

In the example of the present embodiment, a three-point valve is used as the first valve body 5b. That is, the 1st valve body 5b is provided with the some elastic leg connected to the valve cylinder part 5a. Due to the elastic deformation of the elastic legs, the first valve body 5b is movable in the vertical direction with respect to the valve cylinder portion 5a.
In addition, according to the property of the contents accommodated in the inner container 2, for example, the shape of the three-point valve is appropriately changed, or a check valve having a configuration different from that of the three-point valve is adopted as the first valve body 5b. Can be.

  The urging portion 5c is provided in a portion facing the discharge hole 4a in the communication space S1. The urging portion 5c is disposed at the central portion in the radial direction of the inner lid 4 and faces the discharge hole 4a in the vertical direction. The urging portion 5c is formed in a plate shape projecting upward from the upper end surface of the valve cylinder portion 5a. The urging portion 5c can be elastically deformed. The urging portion 5c has a band plate shape (rectangular plate shape), and both end portions in the extending direction thereof are connected to the upper end portion of the valve tube portion 5a. Both end portions in the longitudinal direction of the urging portion 5c are respectively connected to both portions of the upper end portion of the valve cylinder portion 5a that are opposed to each other in the radial direction across the container shaft O. A central portion in the longitudinal direction of the urging portion 5c is formed thicker than other portions of the urging portion 5c. In the illustrated example, the longitudinal direction of the urging portion 5c is along the front-rear direction. The longitudinal direction of the urging portion 5c may not be the front-rear direction.

  When the operation part 33 is pushed down, or when the radial center part (near the discharge hole 4a) of the top part 32 is pushed down, the urging part 5c is elastically deformed downward. At this time, the urging portion 5c urges the central portion in the radial direction of the top portion 32 upward by a restoring deformation force. This urging force is also transmitted to the operation unit 33. In this way, the urging unit 5c applies an upward urging force to the operation unit 33 that has moved downward. Thereby, the recoverability of the operation unit 33 is improved.

  In the communication space S1, a shaft portion 5d that extends in the vertical direction and is inserted into the discharge hole 4a and penetrates the inner lid 4 is provided. The lower end portion of the shaft portion 5d is in a fixed state. In the present embodiment, the shaft portion 5d and the urging portion 5c are integrally formed, and the lower end portion of the shaft portion 5d is fixed to the urging portion 5c. In addition, the lower end part of the shaft part 5d may be fixed to the inner lid 3 or the inner lid 4 or the like. A protruding portion 5e that protrudes outward in the radial direction is formed at the upper end of the shaft portion 5d.

  The shaft portion 5d is located at the central portion in the longitudinal direction of the urging portion 5c, and is inserted into the discharge hole 4a from below. The shaft portion 5d penetrates the inner lid 4 in the vertical direction. The shaft portion 5d is formed in a columnar shape. The outer diameter of the shaft portion 5d is smaller than the inner diameter of the discharge hole 4a. For this reason, a radial gap is formed between the shaft portion 5d and the discharge hole 4a. As shown in FIG. 3A, the protruding portion 5e is formed in a disc shape in plan view. The outer diameter of the protrusion 5e is larger than the inner diameter of the discharge hole 4a. The protrusion 5e covers the discharge hole 4a from above and overlaps the second valve body 4b in plan view.

A groove portion 5f that is recessed upward and extends in the radial direction is formed on the lower surface of the protruding portion 5e. In the example of FIG. 3A, four groove portions 5f are formed in the protruding portion 5e, and each groove portion 5f extends radially from the outer peripheral surface of the shaft portion 5d to the outer peripheral surface of the protruding portion 5e. Each groove part 5f is opened in the outer peripheral surface of the protrusion part 5e. When the second valve body 4b is elastically deformed upward and comes into contact with the lower surface of the projecting portion 5e, the groove portion 5f allows the communication space S1 to communicate with the external space to ensure a flow path for air or contents. Have a role.
The shape of the groove 5f may be appropriately changed as long as the flow path of the contents can be secured when the second valve body 4b is elastically deformed upward.

  Next, the effect | action of the compact container 1 in this embodiment is demonstrated.

When the compact container 1 is not in use, the contents are accommodated only in the accommodating space S3, and the communication space S1 and the working space S2 are filled with, for example, air.
The user operates the push piece 8 to open the lid member 50 of the outer container 7. Next, the operating portion 33 is pressed from above and elastically deformed so as to be recessed downward. At this time, the operation portion 33 is elastically deformed downward so that the inner groove portion 33b and the outer groove portion 33c are fixed ends while being supported by the inner support portion 23a and the outer support portion 23b. When the operating portion 33 is elastically deformed downward, the volume of the working space S2 is reduced, and the internal pressure of the working space S2 and the communication space S1 communicating with the working space S2 is increased. Then, the second valve body 4b is elastically deformed upward by the internal pressure of the communication space S1 to open the discharge hole 4a, and a part of the air in the communication space S1 is discharged from the discharge hole 4a to the outside. Thus, the 2nd valve body 4b has obstruct | occluded the discharge hole 4a so that opening is possible.

  Even when the second valve body 4b is elastically deformed upward and comes into contact with the lower surface of the protrusion 5e, the communication space S1 and the external space communicate with each other through the groove 5f. Therefore, in this case, the air in the communication space S1 is discharged to the outside through the discharge hole 4a and the groove 5f.

  Further, when air or contents are discharged from the discharge hole 4a and the internal pressure of the communication space S1 is lowered, the second valve body 4b is restored and deformed to come into contact with the urging portion 5c, and the discharge hole 4a is closed again. . Therefore, the second valve body 4b also functions as a check valve that suppresses the content or outside air discharged from the discharge hole 4a from flowing back into the communication space S1. That is, the second valve body 4b allows the flow of contents or air from the communication space S1 to the outside through the discharge hole 4a, and blocks the flow of contents and air from the outside to the communication space S1.

  When the pressing force applied to the operation unit 33 is released, the operation unit 33 that has been elastically deformed is restored to its original state. Thereby, the volume of working space S2 increases and the inside of working space S2 and communication space S1 becomes a negative pressure. At this time, since the discharge hole 4a is closed by the second valve body 4b, it is possible to prevent air from entering the communication space S1 from the outside. On the other hand, when the communication space S1 has a negative pressure, an upward force acts on the first valve body 5b due to the negative pressure. As a result, the first valve body 5b is elastically displaced upward so that the communication hole 21a communicates with the communication space S1, and the contents in the accommodation space S3 are sucked into the communication space S1 and the working space S2 through the communication hole 21a. It is done. Thus, when the operation part 33 moves upward and the internal pressure of the communication space S1 and the working space S2 decreases, the second valve body 4b blocks the communication between the discharge hole 4a and the communication space S1, and The single valve body 5b connects the communication hole 21a and the communication space S1.

  When the elastic deformation and restoring deformation of the operation unit 33 described above are repeated, the air in the communication space S1 and the working space S2 is discharged to the outside, and the contents are filled in the communication space S1 and the working space S2. . Since the inner container 2 has flexibility, it undergoes volume reduction deformation as the contents flow out to the communication space S1 and the like through the communication hole 21a. As a result, even if the contents flow into the communication space S1 or the like and the total amount of the contents in the accommodation space S3 is reduced, the contents are stably transferred from the accommodation space S3 to the communication space S1 and the working space S2. Can be sent.

  When the operation portion 33 is elastically deformed downward in a state where the communication space S1 is filled with contents, the content in the communication space S1 applies an upward pressure to the second valve body 4b. When the pressure in the communication space S1 due to the contents reaches a predetermined magnitude, the second valve body 4b is elastically deformed upward, the discharge holes 4a are opened, and the contents are discharged from the discharge holes 4a. At this time, even if the second valve body 4b elastically deformed upward contacts the lower surface of the protruding portion 5e, the communication space S1 and the external space communicate with each other through the groove 5f. Therefore, in this case, the contents in the communication space S1 are discharged through the discharge hole 4a and the groove 5f.

  With the above operation, the user can discharge the contents by repeatedly pressing and releasing the operation unit 33. In addition, since the contents are discharged to the inside of the raised portion 43, the raised portion 43 is prevented from dripping from the upper surface of the inner lid 4. The user can use this by wiping the upper surface of the inner lid 4 with the puff P or the like and attaching the contents to the puff P or the like.

  Further, according to the compact container 1 of the present embodiment, the urging portion 5c that applies the urging force directed upward to the operation portion 33 that has moved downward is provided in the portion facing the discharge hole 4a in the communication space S1. Yes. For this reason, when the depression of the operation unit 33 is released, the urging unit 5c stably returns the operation unit 33 to the original position before the depression. That is, the urging unit 5c assists the elastically deformed operation unit 33 to be restored and deformed. Thereby, the content can be stably sucked into the communication space S1 from the inner container 2, and the discharge amount of the content when the operation unit 33 is pushed down can be stabilized.

Further, the urging portion 5c is formed with a shaft portion 5d inserted into the discharge hole 4a and a protruding portion 5e that protrudes radially outward from the upper end of the shaft portion 5d. For this reason, even if the vicinity of the discharge hole 4a is pressed downward, the discharge hole 4a is prevented from being blocked, and the contents can be discharged more reliably.
Further, for example, even if the contents are ejected vigorously upward from the ejection holes 4a, the contents flow against the lower surface of the protruding portion 5e, so that the flow direction of the contents changes from upward to radially outward. Accordingly, it is possible to suppress the occurrence of a phenomenon in which the contents are ejected vigorously from the discharge hole 4a.

  Furthermore, a groove 5f that is recessed upward is formed on the lower surface of the protrusion 5e. For this reason, even when the second valve body 4b elastically deformed upward contacts the lower surface of the protruding portion 5e, the discharge hole 4a communicates with the external space by the groove portion 5f, and a flow passage for the contents is secured. Therefore, the contents can be discharged more reliably. Further, since the plurality of groove portions 5f extend radially from the shaft portion 5d, the contents can be discharged onto the operation portion 33 in a well-balanced manner.

  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, the shape and number of the groove portions 5f may be changed as appropriate. Or the groove part 5f does not need to be formed in the protrusion part 5e.
In the above-described embodiment, the second valve body 4b is formed integrally with the operation unit 33. However, the second valve body 4b may be separate from the operation unit 33.
In the above-described embodiment, the shaft portion 5d and the biasing portion 5c are integrally formed, but they may be separate.
Moreover, although the 1st valve body 5b and the urging | biasing part 5c were integrally formed in the said embodiment, these may be separate.
Moreover, although the structure which the lower end part of the shaft part 5d was fixed was shown in the said embodiment, the intermediate part etc. in the up-down direction of the shaft part 5d may be fixed, for example.

  In addition, the constituent elements in the above-described embodiment can be appropriately replaced with known constituent elements without departing from the gist of the present invention, and the above-described embodiments and modifications may be appropriately combined.

  DESCRIPTION OF SYMBOLS 1 ... Compact container 2 ... Inner container 3 ... Inner lid 4 ... Middle lid 4a ... Discharge hole 4b ... 2nd valve body 5b ... 1st valve body 5c ... Energizing part 5d ... Shaft part 5e ... Projection part 5f ... Groove part 7 ... Outer container 21a ... Communication hole 33 ... Operation part S1 ... Communication space S2 ... Working space S3 ... Accommodating space

Claims (3)

An inner container for storing the contents;
An inner lid that seals the inside of the inner container and is formed with a communication hole communicating with the inner container;
A discharge hole that is provided above the inner lid, defines a communication space that communicates with the communication hole between the inner lid, and discharges the contents in communication with the communication space. A lid,
A communication between the communication hole and the communication space, and a first valve body for switching the blocking;
A second valve body for closing the discharge hole so as to be openable,
The inner lid includes an operation unit that is formed to be elastically deformable and elastically deformed to increase or decrease the internal pressure of the communication space.
When the operation portion moves downward to increase the internal pressure of the communication space, the first valve body blocks communication between the communication hole and the communication space, and the second valve body is the discharge hole. Open
When the operation portion moves upward and the internal pressure of the communication space decreases, the second valve body closes the discharge hole, and the first valve body communicates the communication hole and the communication space. Let
In the communication space, there is provided a shaft portion that extends in the vertical direction and is inserted into the discharge hole and penetrates the inner lid,
A compact container having a protruding portion that protrudes radially outward at an upper end of the shaft portion.   2. The compact container according to claim 1, wherein a biasing portion that applies a biasing force directed upward to the operation portion that has moved downward is provided in a portion facing the discharge hole in the communication space.   The compact container according to claim 1, wherein a groove that is recessed upward is formed on a lower surface of the protruding portion.

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