Container and cap

Abstract

In the container, when the cap is capped on the container opening portion, an inner wall surface of a cylindrical sub-fitting wall portion of the cap and an outer wall surface of a large diameter opening portion of the container opening portion closely contact each other, and an outer wall surface of a cylindrical main fitting wall portion of the cap and an inner wall surface of a small diameter opening portion of the container opening portion closely contact each other. In this way, pressing force that is applied to the outer wall surface of the cylindrical main fitting wall portion of the cap from the inner wall surface of the small diameter opening portion of the container opening portion is increased.

Claims

1. A container comprising: a container body including a container opening portion; and a cap attached to the container opening portion by capping, the container opening portion including: a large diameter opening portion disposed at an upper end of the container opening portion, and a small diameter opening portion disposed under the large diameter opening portion and having an outer diameter smaller than an outer diameter of the large diameter opening portion, the cap including: a body portion, a tubular main fitting wall portion disposed inside the body portion, an annular space which is provided between the body portion and the main fitting wall portion, and in which the container opening portion is fitted, a tubular sub-fitting wall portion formed in the annular space, an annular wall portion which integrally extends from an inner wall surface of the main fitting wall portion toward a radial center and diagonally upward, and which includes an ejection hole in a radially central portion, and a check valve which covers the annular wall portion from an upper side of the annular wall portion and which is configured to open and close the ejection hole as a valve portion is detached from or seated on an annular valve seat around the ejection hole wherein when the cap is capped on the container opening portion, an inner wall surface of the sub-fitting wall portion of the cap and an outer wall surface of the large diameter opening portion of the container opening portion closely contact each other, and an outer wall surface of the main fitting wall portion of the cap and an inner wall surface of the small diameter opening portion of the container opening portion closely contact each other at a close contact portion, and the check valve is positioned at the same level as the close contact portion in a horizontal direction.

2. The container according to claim 1, wherein the container opening portion includes: an extended diameter opening portion which gradually extends in diameter continuously downward from the small diameter opening portion, and a maximum diameter opening portion extending downward in an axial direction continuously from the extended diameter opening portion, and having a diameter greater than a diameter of the large diameter opening portion, wherein when the cap is capped on the container opening portion, the maximum diameter opening portion of the container opening portion becomes engaged by moving across a ridged locking portion provided on a lower inner wall surface of the body portion of the cap, and the maximum diameter opening portion closely contacts the lower inner wall surface of the body portion, thereby causes the extended diameter opening portion to become elastically deformed by being pressed from below.

3. The container according to claim 1, wherein the cap further includes a plurality of reinforce ribs in the annular space between the body portion and the sub-fitting wall portion, the plurality of reinforce ribs being formed at intervals in a circumference direction of the cap.

4. The container according to claim 1, wherein the cap further includes an annular horizontal wall portion connecting an upper end of the main fitting wall portion and an upper end of the sub-fitting wall portion, the annular horizontal wall portion being in direct contact with a top end of the large diameter opening portion of the container opening portion.

5. The container according to claim 1, wherein a connecting portion between the inner wall surface of the main fitting wall portion and the annular wall portion is positioned lower than an upper end of the main fitting wall portion, and the close contact portion is positioned higher than the connecting portion and lower than the upper end of the main fitting wall portion.

6. A cap attached to a container opening portion of a container having a container body by capping, the cap comprising: a body portion; a tubular main fitting wall portion disposed inside the body portion, an outer wall surface of the main fitting wall portion closely contacting an inner wall surface of a small diameter opening portion of the container opening portion at a close contact portion; an annular space which is disposed between the body portion and the main fitting wall portion, and in which the container opening portion is fitted; a tubular sub-fitting wall portion which is formed in the annular space, the sub-fitting wall portion closely contacting an outer wall surface of an upper end of the container opening portion; an annular wall portion which integrally extends from an inner wall surface of the main fitting wall portion toward a radial center and diagonally upward, and which includes an ejection hole in a radially central portion; and a check valve which covers the annular wall portion from an upper side of the annular wall portion and which is configured to open and close the ejection hole as a valve portion is detached from or seated on an annular valve seat around the ejection hole, wherein the check valve is positioned at the same level as the close contact portion in a horizontal direction.

7. The cap according to claim 6, wherein the close contact portion is positioned higher than a connecting portion between the main fitting wall portion and the annular wall portion.

8. The cap according to claim 6, wherein the cap further includes a plurality of reinforce ribs in the annular space between the body portion and the sub-fitting wall portion, the plurality of reinforce ribs being formed at intervals in a circumference direction of the cap.

9. The cap according to claim 6, wherein a connecting portion between the inner wall surface of the main fitting wall portion and the annular wall portion is positioned lower than an upper end of the main fitting wall portion, and the close contact portion is positioned higher than the connecting portion and lower than the upper end of the main fitting wall portion.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a cross sectional view of a container according to an embodiment of the present invention, with a cap attached to a container opening portion thereof.

(2) FIG. 2 is a cross sectional view of the container opening portion of FIG. 1.

(3) FIG. 3 is a plan view of a lid member and a main cap member including an annular wall portion, in the configuration of the cap of FIG. 1; FIG. 3(b) is a cross sectional view of FIG. 3(a); and FIG. 3(c) is a bottom view.

(4) FIG. 4(a) is a plan view of a check valve in the configuration of the cap of FIG. 1; FIG. 4(b) is a cross sectional view of FIG. 4(a); and FIG. 4(c) is a bottom view.

(5) FIG. 5(a) is a plan view of an inner plug in the configuration of the cap of FIG. 1; and FIG. 5(b) is a cross sectional view of FIG. 5(a).

DESCRIPTION OF EMBODIMENTS

(6) In the following, a mode for carrying out the present invention will be described in detail with reference to FIG. 1 to FIG. 5.

(7) A container 1 according to an embodiment of the present invention includes a container body 1a and a cap 2. The cap 2 is attached to a container opening portion 3 of the container body 1a by capping.

(8) As illustrated in FIG. 1, the container body 1a is an easily deformable member, such as a tubular container, that is filled inside with a liquid content, or a flowable content having viscosity. Examples of the content include soy sauce, ponzu sauce, olive oil, dressings, mayonnaise, ketchup, ton-katsu (pork cutlet) sauce, and mustard paste. The container body 1a is the type of container from which the content is ejected by applying an internal pressure by, e.g., squeezing a body portion 7 thereof. The container opening portion 3 is formed in a cylindrical shape. The container body 1a includes a double container (including a container referred to as a delamination container) comprising an outer container and an inner container. The inner container is internally filled with the content. The inner container has flexibility so that the inner container becomes shrunk and deformed as the content decreases. In order to retain a reduced volume shape of the inner container, the inner container is configured such that outer air can be suctioned between the outer container and the inner container.

(9) As illustrated in FIG. 1 and FIG. 2, the container body 1a is constructed from the body portion 7, and the container opening portion 3 formed so as to be continuous with the body portion 7. To the container opening portion 3, the cap 2 is fitted by capping. The container opening portion 3 is formed in a cylindrical shape as a whole. The container opening portion 3 is formed so as to be continuous with the body portion 7 with substantially the same thickness. The container opening portion 3 is configured such that a plurality of opening portions (step portions) with different outer diameters is successively disposed along an axial direction. Specifically, the container opening portion 3 includes a large diameter opening portion 60, a small diameter opening portion 61, and a maximum diameter opening portion 62. The large diameter opening portion 60 is disposed at the upper end, and extends in the axial direction. The small diameter opening portion 61 is disposed under the large diameter opening portion 60, has an outer diameter smaller than the large diameter opening portion 60, and extends in the axial direction. The maximum diameter opening portion 62 is disposed under the small diameter opening portion 61, has an outer diameter greater than the large diameter opening portion 60, and extends in the axial direction. The large diameter opening portion 60 positioned at the upper end and the small diameter opening portion 61 are connected via a reduced diameter opening portion 63 which is elastically deformable. The reduced diameter opening portion 63 is gradually reduced in diameter continuously from the large diameter opening portion 60 downward. The small diameter opening portion 61 and the maximum diameter opening portion 62 are connected via an extended diameter opening portion 64 which is elastically deformable. The extended diameter opening portion 64 is gradually extended in diameter continuously from the small diameter opening portion 61 downward. Under the maximum diameter opening portion 62, a support opening portion 65 is continuously formed, the support opening portion having a diameter smaller than the maximum diameter opening portion 62 and greater than the large diameter opening portion 60 and extending in the axial direction. Between the support opening portion 65 and the body portion 7, a recessed opening portion 66 with substantially the same diameter as the small diameter opening portion 61 is formed. When the container opening portion 3 is capped with the cap 2, the outer peripheral area of the recessed opening portion 66 is held by a capping machine (not shown).

(10) The cap 2 according to the embodiment of the present invention is configured such that, immediately after a user squeezes the body portion 7 of the container body 1a to apply an internal pressure to the container body 1a and uses an appropriate amount of the content, the inside of the container body 1a is hermetically sealed by a check valve 12 without the user operating the cap 2 manually. Specifically, the cap 2, as illustrated in FIG. 1, is configured from a cap body 4 having a content ejection hole 25, and a lid member 5. The lid member 5 is coupled, via a hinge 6, with a main cap member 11 constituting the cap body 4. The cap 2 is constructed by assembling three constituent members: the main cap member 11, which, as illustrated in FIG. 3, includes an annular wall portion 10 and to which the lid member 5 is coupled; the check valve 12, illustrated in FIG. 4; and an inner plug 13 illustrated in FIG. 5. The lid member 5 may not be coupled with the cap body 4 by the hinge 6, and may be configured as a separate member.

(11) As illustrated in FIG. 1, the cap body 4 is configured from: the main cap member 11, with which the container opening portion 3 is capped and which has a cylindrical shape; the annular wall portion 10; the check valve 12; and the inner plug 13. The annular wall portion 10 extends integrally from an inner wall surface of a cylindrical main fitting wall portion 19 of the main cap member 11 toward the radial center and diagonally upward. The annular wall portion 10 has the ejection hole 25 at the radially central portion. The check valve 12 is disposed over the annular wall portion 10. The check valve 12 is configured to open and close the ejection hole 25 as a valve portion 36 is detached from or seated on an annular valve seat 26 around the ejection hole 25. The inner plug 13 is disposed over the check valve 12. The inner plug 13 communicates with the ejection hole 25, and includes an ejection passageway 41 for the content from the ejection hole 25. The check valve 12 is molded from a synthetic resin which is more elastic than a synthetic resin from which the main cap member 11 is molded. Specifically, the main cap member 11 including the lid member 12 is molded from polypropylene. The inner plug 13 is molded from polyethylene. The check valve 12 is molded from a polyethylene elastomer.

(12) As illustrated in FIG. 1 and FIG. 3, the main cap member 11 is configured from a body portion 18, the cylindrical main fitting wall portion 19, and an annular horizontal wall portion 20. The cylindrical main fitting wall portion 19 is disposed concentrically on the inside of the body portion 18. The annular horizontal wall portion 20 connects the upper end of the body portion 18 and the upper end of the cylindrical main fitting wall portion 19. On a lower inner wall surface of the body portion 18, a ridged locking portion 21 is formed. Between the cylindrical main fitting wall portion 19 and the body portion 18, an annular space 22 is formed in which the container opening portion 3 is fitted. In an outer peripheral portion of the upper surface of the annular horizontal wall portion 20, an upwardly protruding annular projecting portion 17 is formed. In an upper inner wall surface of the cylindrical main fitting wall portion 19, formed is an annular fitting recess portion 23 annularly extending in the circumferential direction.

(13) The annular wall portion 10 extends integrally from the entire areas in the circumferential direction of the lower inner wall surface of the cylindrical main fitting wall portion 19, toward a radial center and diagonally upward. The annular wall portion 10 has a truncated cone shape. By the annular wall portion 10 and the inner wall surface of the cylindrical main fitting wall portion 19, a space 24 with an open top is formed. The annular wall portion 10 has the ejection hole 25, which has a substantially circular shape, opened in the radially central portion thereof. The ejection hole 25 communicates with the interior of the container opening portion 3. Around the ejection hole 25, the annular valve seat 26 is formed. The annular valve seat 26 is formed on an inverted cone shaped surface 28. At one location in the annular valve seat 26 (inverted cone shaped surface 28) of the annular wall portion 10, a circulation groove 27 is formed in the radial direction. The circulation groove 27 is formed in a position on the opposite side from the hinge 6 side. The circulation groove 27 is formed with a substantially U-shaped cross section.

(14) The annular horizontal wall portion 20 has an outer diameter smaller than an outer diameter of the body portion 18. On an outer wall surface of the annular horizontal wall portion 20, an annularly extending ridged locking portion 31 is formed in the circumferential direction. On the outer wall surface of the annular horizontal wall portion 20, the lid member 5 is fitted. From a lower surface of the annular horizontal wall portion 20, a cylindrical sub-fitting wall portion 32 descends concentrically in the annular space 22 between the body portion 18 and the cylindrical main fitting wall portion 19. In an annular space between the cylindrical sub-fitting wall portion 32 and the body portion 18, a plurality of reinforcing ribs 33 is formed at intervals in the circumferential direction. In the present embodiment, the reinforcing ribs 33 are formed at eight locations. The formation of the plurality of reinforcing ribs 33 makes it possible to maintain the rigidity of the cylindrical sub-fitting wall portion 32. The annular space is provided between the cylindrical sub-fitting wall portion 32 and the body portion 18 because if the annular space were not provided and the cylindrical sub-fitting wall portion 32 were to be integrally provided from the inner wall surface of the body portion 18, the cylindrical sub-fitting wall portion 32 would be thick, causing the problem of shrinkage and the like.

(15) As illustrated in FIG. 1 and FIG. 4, the check valve 12 is configured from a cylindrical support portion 34, a plurality of elastic pieces 35, the valve portion 36, and a plurality of circulation holes 37. The cylindrical support portion 34 abuts on the inner wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11. The plurality of elastic pieces 35 extend integrally from the inner wall surface of the cylindrical support portion 34 toward radial center. The valve portion 36 is integrally connected to the distal end portion of each of the elastic pieces 35, and opens and closes the ejection hole 25. The plurality of circulation holes 37 are provided between the respective elastic pieces 35. Through the circulation holes 37, the content from the ejection hole 25 is circulated.

(16) The elastic pieces 35 extend from the upper inner wall surface of the cylindrical support portion 34 toward the radial center and diagonally downward, while slightly curving. In the present embodiment, the elastic pieces 35 are formed at four locations at a 90 pitch in the circumferential direction. Between the elastic pieces 35, the circulation holes 37 are formed at four locations at a 90 pitch. The distal end portion of each of the elastic pieces 35 is integrally connected to the upper edge of the outer peripheral portion of the valve portion 36. The valve portion 36 has a dome shape. Specifically, the valve portion 36 has a circular shape as viewed in plan, and includes an upwardly protruding curved wall portion. The outer peripheral portion of the valve portion 36 is formed with an inverted cone shaped surface 29 so as to be seated on the annular valve seat 26 (inverted cone shaped surface 28). From the upper surface of the valve portion 36, a spherical protruding portion 38 rises.

(17) As illustrated in FIG. 1 and FIG. 5, the inner plug 13 is disposed over the check valve 12. The inner plug 13 is configured from a cylindrical support portion 40, a cylindrical guide portion 42, and an annular horizontal wall portion 43. The cylindrical support portion 40 is fitted on the cylindrical main fitting wall portion 19 of the main cap member 11. The cylindrical guide portion 42 is concentrically disposed on the inside of the cylindrical support portion 40, and includes an ejection passageway 41 therein. The annular horizontal wall portion 43 integrally connects the upper end of the cylindrical support portion 40 and the lower end of the cylindrical guide portion 42. The annular horizontal wall portion 43 is formed with an annular flange portion 43a which protrudes in the radial direction from the outer peripheral surface of the cylindrical support portion 40. Between the lower wall surface of the annular horizontal wall portion 43 and the inner wall surface of the cylindrical support portion 40, a plurality of reinforcing ribs 45 is formed at intervals in the circumferential direction. The cylindrical support portion 40 is disposed over the cylindrical support portion 34 of the check valve 12. On the outer wall surface of the cylindrical support portion 40, an annular ridge portion 44 is formed extending in the circumferential direction. The peripheral wall portion of the cylindrical support portion 40 of the inner plug 13 and the peripheral wall portion of the cylindrical support portion 34 of the check valve 12 have substantially the same thickness.

(18) As illustrated in FIG. 1 and FIG. 2, the lid member 5 is integrally connected to the body portion 18 of the main cap member 11 via the hinge 6. The lid member 5 is configured from a cylindrical body portion 50 and a top portion 51. The cylindrical body portion 50 is connected to the outer wall surface of the body portion 18 of the main cap member 11 via the hinge 6. The top portion 51 is integrally connected to the entire areas in the circumferential direction of the upper end of the body portion 50. From the radially central portion of the top portion 51, a cylindrical close contact portion 52 descends. The cylindrical close contact portion 52 is closely fitted in the upper end of the cylindrical guide portion 42 of the inner plug 13 of the cap body 4. Between the body portion 50 and the cylindrical close contact portion 52 of the top portion 51, a cylindrical scattering suppression portion 55 descends. On the lower inner wall surface of the body portion 50, formed is a ridged locking portion 53 annularly extending in the circumferential direction. On the upper outer wall surface of the body portion 50 on the opposite side from the hinge 6, a holding portion 54 to be held by the user protrudes outward in a predetermined range in the circumferential direction.

(19) A method for assembling the cap 2 and attaching the cap 2 to the container opening portion 3 will be described.

(20) First, the check valve 12 is installed on the upper surface of the annular wall portion 10 of the main cap member 11 from above. Specifically, the check valve 12 is disposed on the upper surface of the annular wall portion 10 in such a way that the outer wall surface of the cylindrical support portion 34 of the check valve 12 lies along the inner wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11. That is, the check valve 12 is installed from above into the space 24 with an open top enclosed by the annular wall portion 10 and the inner wall surface of the cylindrical main fitting wall portion 19.

(21) Then, the inner plug 13 is disposed in an opening portion 19a within the cylindrical main fitting wall portion 19 of the main cap member 11. That is, the inner plug 13 is disposed such that the outer wall surface of the cylindrical support portion 40 of the inner plug 13 lies along the inner wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11. The inner plug 13 is installed so as to press in the check valve 12. In this way, the annular ridge portion 44 provided on the outer wall surface of the cylindrical support portion 40 of the inner plug 13 is fitted in the annular fitting recess portion 23 provided in the inner wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11. Also, the annular flange portion 43a of the inner plug 13 abuts on the upper surface of the annular horizontal wall portion 20. In this way, the inner plug 13 is installed. As a result, the outer peripheral portion (inverted cone shaped surface 29) of the valve portion 36 of the check valve 12 closely contacts the annular valve seat 26 (inverted cone shaped surface 28) around the ejection hole 25 of the annular wall portion 10. In this case, the lower end (outer peripheral portion) of the valve portion 36 of the check valve 12 is positioned higher than the position before installation. Accordingly, due to the downward urging force (recovery force) of each of the curved elastic pieces 35, the outer peripheral portion (inverted cone shaped surface 29) of the valve portion 36 of the check valve 12 closely contacts the annular valve seat 26 (inverted cone shaped surface 28) around the ejection hole 25 of the annular wall portion 10 so as to press the same. Immediately above the valve portion 36 (ejection hole 25) of the check valve 12, the cylindrical guide portion 42 of the inner plug 13 is positioned. Further, at an interval in the radial direction from the outer peripheral surface of the annular flange portion 43a of the inner plug 13, the annular projecting portion 17 provided on the annular horizontal wall portion 20 of the main cap member 11 is positioned. In this way, the assembly of the cap body 4 is completed.

(22) Then, the lid member 5 is capped over the cap body 4 by bending the hinge 6 so that the lid member 5 covers the cap body 4 from above. As a result, the ridged locking portion 53 provided on the body portion 50 of the lid member 5 becomes engaged across the ridged locking portion 31 provided on the annular horizontal wall portion 20 of the main cap member 11. Also, the cylindrical close contact portion 52 provided on the top portion 51 of the lid member 5 is closely fitted in the upper end of the cylindrical guide portion 42 of the inner plug 13 of the cap body 4.

(23) Then, the cap 2 is attached to the container opening portion 3 by capping by inserting the container opening portion 3 into the annular space 22 between the cylindrical main fitting wall portion 19 and the body portion 18 of the cap body 4. As a result, the inner wall surface of the cylindrical sub-fitting wall portion 32 descending from the annular horizontal wall portion 20 of the main cap member 11 into the annular space 22, and the outer wall surface of the large diameter opening portion 60 of the container opening portion 3 closely contact each other. Also, the outer wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11, and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 closely contact each other. Further, the maximum diameter opening portion 62 of the container opening portion 3 moves across the ridged locking portion 21 provided on the lower inner wall surface of the body portion 18 of the main cap member 11, whereby one is disposed over the other in the vertical direction (with the maximum diameter opening portion 62 being disposed over the ridged locking portion 21). In this way, the maximum diameter opening portion 62 and the ridged locking portion 21 are engaged with each other. The maximum diameter opening portion 62 of the container opening portion 3 also closely contacts the inner wall surface of the body portion 18 of the main cap member 11. As a result, the reduced diameter opening portion 63 and the extended diameter opening portion 64 of the container opening portion 3 are pressed from below and thereby respectively elastically deformed. Due to the recovery force of each of the reduced diameter opening portion 63 and the extended diameter opening portion 64, the pressing force from the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 toward the outer wall surface of the cylindrical main fitting wall portion 19 of the cap 2 is increased.

(24) During capping, the close contact portion 16 (seal portion) between the outer wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11 and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 is positioned higher than a connecting portion 15 between the annular wall portion 10 and the cylindrical main fitting wall portion 19. In addition, the annular wall portion 10 of the main cap member 11 extends toward the radial center and diagonally upward. Accordingly, when the container opening portion 3 is inserted into the annular space 22 of the main cap member 11, inward elastic deformation of the cylindrical main fitting wall portion 19 can be permitted compared with a configuration in which the annular wall portion 10 extends in the horizontal direction. Thus, the container opening portion 3 can be smoothly inserted into the annular space 22 without resistance. After insertion, the outward recovery force of the cylindrical main fitting wall portion 19 can be increased by the annular wall portion 10. Accordingly, the sealing between the outer wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11 and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 can be further improved. In this way, the attachment of the cap 2 to the container opening portion 3 by capping is completed.

(25) The operation of the cap 2 according to the embodiment of the present invention will be described.

(26) When the content is used, first the lid member 5 is opened to externally expose the inner plug 13 of the cap body 4.

(27) Then, the container 1 is inclined and placed in an ejecting state where the ejection passageway 41 of the inner plug 13 faces downward, and the body portion 7 of the container body 1a is squeezed to apply internal pressure to the container body 1a. In this way, the internal pressure of the container body 1a acts on the entire area of the lower wall surface of the valve portion 36 of the check valve 12. As a result, the elastic pieces 35 of the check valve 12 are elastically deformed and bent, whereby the outer peripheral portion (inverted cone shaped surface 29) of the valve portion 36 is detached from the annular valve seat 26 (inverted cone shaped surface 28) around the ejection hole 25 of the annular wall portion 10. Consequently, the ejection hole 25 of the annular wall portion 10 is opened, and an appropriate amount of the content is ejected outwardly from within the container opening portion 3, via the ejection hole 25, the circulation holes 37 of the check valve 12, and the ejection passageway 41 of the inner plug 13.

(28) Thereafter, when the squeezing of the body portion 7 of the container body 1a is stopped, the internal pressure to the container body 1a is released, and the elastic pieces 35 of the check valve 12 recover. The outer peripheral portion (inverted cone shaped surface 29) of the valve portion 36 is seated on the annular valve seat 26 (inverted cone shaped surface 28) around the ejection hole 25 of the annular wall portion 10, and the ejection hole 25 of the annular wall portion 10 is closed by the valve portion 36. In this case, the content that was not ejected outwardly from the ejection passageway 41 of the inner plug 13 returns back into the container body 1a via the circulation groove 27. Thereafter, the pressing force from the valve portion 26 to the annular valve seat 26 increases. Because the valve portion 36 has elasticity, the opening area of the circulation groove 27 decreases. Finally, the content blocks the opening of the circulation groove 27 by surface tension, the opening being very small. Accordingly, the interior of the container body 1a can be maintained in a hermetically sealed state. Thus, while the content in the cap body 4 that was not ejected is returned into the container 1, the interior of the container 1 can be quickly hermetically sealed immediately after use, without the user manually operating the cap 2, and the entry of air into the interior of the container 1 can be suppressed.

(29) Next, the hinge 6 is bent and the lid member 5 is moved to cover the cap body 4 from above. In this way, the ridged locking portion 53 provided on the body portion 50 of the lid member 5 becomes engaged so as to move across the ridged locking portion 31 provided on the annular horizontal wall portion 20 of the cap body 4 (main cap member 11). Also, the cylindrical close contact portion 52 provided on the top portion 51 of the lid member 5 is closely fitted in the upper end of the cylindrical guide portion 42 of the inner plug 13 of the cap body 4.

(30) As the lid member 5 caps the cap body 4, the entry of foreign matter into the cap body 4 (between the inner plug 13 and the check valve 12 and annular wall portion 10) is suppressed, and the interior of the container 1 is doubly hermetically sealed. In addition, because the interior of the cap body 4 is hermetically sealed by the lid member 5, any of the content that may have slightly remained in the space 24 over the annular wall portion 10 does not become oxidized.

(31) As described above, in the embodiment of the present invention, when the cap 2 is capped on the container opening portion 3 of the container body 1a, the inner wall surface of the cylindrical sub-fitting wall portion 32 of the main cap member 11 and the outer wall surface of the large diameter opening portion 60 of the container opening portion 3 closely contact each other. Also, the outer wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11 and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 closely contact each other. Further, the maximum diameter opening portion 62 of the container opening portion 3 becomes engaged by moving across the ridged locking portion 21 provided on the lower inner wall surface of the body portion 18 of the main cap member 11. The maximum diameter opening portion 62 of the container opening portion 3 also closely contacts the inner wall surface of the body portion 18 of the main cap member 11. As a result, the reduced diameter opening portion 63 and the extended diameter opening portion 64 of the container opening portion 3 are respectively elastically deformed by being pressed from below. Their recovery force increases the pressing force from the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 toward the outer wall surface of the cylindrical main fitting wall portion 19 of the cap 2. In this way, the sealing between the outer wall surface of the cylindrical main fitting wall portion 19 of the cap 2 and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 can be improved.

(32) In addition, in the embodiment of the present invention, the main cap member 11 is provided with the annular wall portion 10. The annular wall portion 10 extends integrally from the inner wall surface of the cylindrical main fitting wall portion 19 toward the radial center and diagonally upward, and includes the ejection hole 25 in the radially central portion. The close contact portion 16 between the outer wall surface of the cylindrical main fitting wall portion 19 and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 is positioned higher than the connecting portion 15 between the cylindrical main fitting wall portion 19 and the annular wall portion 10. In this way, when the container opening portion 3 is inserted into the annular space 22 of the main cap member 11, inward elastic deformation of the cylindrical main fitting wall portion 19 can be permitted compared with a configuration in which the annular wall portion 10 extends in the horizontal direction. Accordingly, the container opening portion 3 can be smoothly inserted into the annular space 22 without resistance. After insertion, the outward recovery force of the cylindrical main fitting wall portion 19 can be increased by the annular wall portion 10. Accordingly, the sealing between the outer wall surface of the cylindrical main fitting wall portion 19 of the main cap member 11 and the inner wall surface of the small diameter opening portion 61 of the container opening portion 3 can be further improved.

DESCRIPTION OF REFERENCE SIGNS

(33) 1 Container 1a Container body 2 Cap 3 Container opening portion 10 Annular wall portion 11 Main cap member 12 Check valve 15 Connecting portion 16 Close contact portion 18 Body portion 19 Cylindrical main fitting wall portion 21 Ridged locking portion 22 Annular space 25 Ejection hole 26 Annular valve seat 32 Cylindrical sub-fitting wall portion 36 Valve portion 60 Large diameter opening portion 61 Small diameter opening portion 62 Maximum diameter opening portion 63 Reduced diameter opening portion 64 Extended diameter opening portion