JP2018087027A - Cap unit and container with cap - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cap unit that enables further enhancement of usability by improving the operability when a lid body is opened and closed while well maintaining the sealability through a seal member.SOLUTION: A cap unit includes: a cap body 8 which is installed on a neck of a container body 2 whose upper part is opened and has a liquid-passing hole 12 inside thereof; and a lid body 9 which opens and closes the liquid-passing hole 12. The lid body 9 includes: an external cover 17 which is installed by screwing on the periphery of the cap body 8; an inside plug 18 which is rotatably installed on the inside of the external cover 17 and blocks the liquid-passing hole 12 in a state of coupling onto the inside of the liquid-passing hole 12; and a seal member 22 which is installed on the periphery of the inside plug 18 and seals the space between the liquid-passing hole 12 and the inside plug 18.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a cap unit and a container with a cap.

  2. Description of the Related Art Conventionally, there is a container with a cap in which a cap unit (plug body) is attached to a mouth and neck portion of a container body having an upper opening. In addition, there is a cap unit that employs a structure that opens and closes a drinking spout or a spout provided on the cap body by a lid that is screwed onto the cap body (see, for example, Patent Documents 1 and 2 below). .)

  Specifically, Patent Document 1 includes a cap body provided with an opening and a lid that opens and closes the opening, and a male screw provided on the lid is provided on the opening of the cap body. A structure is disclosed in which an opening of a container body is sealed by a seal member that is screwed into a screw and attached to a lid.

  On the other hand, in Patent Document 2, a container body provided with an opening, an inner lid that closes the opening while being fitted inside the container body from the opening, and a container body that is attached to the inner lid A sealing member that seals between the outer lid and the inner lid, and an outer lid that is screwed onto the container body with the opening covered from the outside, and when the outer lid is attached to the container body, A structure is disclosed in which movement of the inner lid upward is restricted by contacting the lid with the inner lid.

JP2013-119006A JP 2011-230807 A

  However, in the structure described in Patent Document 1 described above, when the lid is rotated from the state where the male screw portion and the female screw portion are screwed together, the seal member rotates with the lid body, and the opening portion of the container main body is rotated. It will be in sliding contact with the surroundings. In this case, the friction force is increased by the squeezed seal member, so that the lid body is difficult to rotate, or the seal member is twisted and the sealing performance by the seal member may be lowered.

  Moreover, in the structure described in Patent Document 1, it is necessary to form a thread of a male screw provided on the lid and a female screw provided on the opening of the cap body. In this case, the cap body and the lid body are increased in size, and the cost of the mold for forming the screw thread is increased. Furthermore, the flow of the beverage (contents) flowing out from the drinking spout or the spout is inhibited by the female screw provided in the opening of the cap body, or the beverage is accumulated in the female screw portion. In this case, the liquid permeability and detergency of this part are deteriorated.

  On the other hand, in the structure described in Patent Document 2, when the outer lid is attached to the container body by screwing, the outer lid independent of the inner lid pushes the inner lid downward, so that the outer lid is attached to the inner lid. It is possible to prevent the formed sealing member from being crushed or twisted.

  However, in the structure described in Patent Document 2, when the pressure in the container body sealed by the inner lid and the outer lid increases (increases), the inner lid is pressed against the outer lid. In this case, when the fastening force by screwing increases between the container main body and the outer lid, it may be difficult to rotate the outer lid in the removing direction. On the other hand, when the pressure in the container main body sealed by the inner lid and the outer lid is reduced (depressurized), the inner lid is separated from the outer lid. In this case, the fastening force by screwing between the container main body and the outer lid is reduced, so that it may feel loose when the outer lid is rotated in the removing direction. Therefore, in the structure described in Patent Document 2, the feel when the outer lid is rotated in the direction to be removed changes due to the difference in pressure in the container body sealed by the inner lid and the outer lid.

  The present invention has been proposed in view of such conventional circumstances, and further improves usability by improving the operability when opening and closing the lid while maintaining good sealing performance by the sealing member. It is an object of the present invention to provide a cap unit that can be improved, and a container with a cap including such a cap unit.

In order to achieve the above object, the present invention provides the following means.
[1] A cap body that is attached to the mouth-neck portion of the container body having an open top and has a liquid passage hole provided inside thereof, and a lid that opens and closes the liquid passage hole.
The lid body is an outer lid that is attached to the outer periphery of the cap body by screwing;
An inner plug that is rotatably attached to the inside of the outer lid, and closes the liquid passage hole while being fitted inside the liquid passage hole,
A cap unit, comprising a seal member attached to an outer peripheral portion of the inner plug and sealing between the liquid passage hole and the inner plug.
[2] A cap body that is attached to the mouth and neck of the container body that is open at the top, and a lid that opens and closes the upper opening of the container body,
The lid body is an outer lid that is attached to the outer periphery of the cap body by screwing;
An inner plug that is rotatably attached to the inside of the outer lid and closes the upper opening in a state of being fitted inside the container body,
A cap unit comprising a seal member attached to an outer peripheral portion of the inner plug and sealing between a protruding portion provided inside the container main body and the inner plug.
[3] The [1] or [1], wherein the lid includes a rotation limiting mechanism that limits a rotation direction of the inner plug relative to the outer lid so that the inner plug rotates only in one direction. 2].
[4] The rotation limiting mechanism is configured to adjust a rotation direction of the inner plug relative to the outer lid so that the inner plug rotates only in a direction opposite to a direction in which the outer lid is screwed to the cap body. The cap unit according to [3], which is limited.
[5] The rotation limiting mechanism limits the rotation direction of the inner plug relative to the outer lid so that the inner plug rotates only in the same direction as the direction in which the outer lid is screwed to the cap body. The cap unit according to [3] above, wherein
[6] The rotation limiting mechanism is configured such that when the rotation of the inner plug with respect to the cap body or the container body is prevented by the frictional force of the seal member in contact with the liquid passage hole or the overhanging portion, [3] The rotation direction of the outer lid with respect to the inner plug is limited so that the outer lid rotates with respect to the inner plug only in a direction that is not limited by the rotation limiting mechanism. ] Cap unit as described in any one of [5].
[7] The liquid passage hole includes a tapered hole portion that is gradually reduced in diameter from the upper end of the cap body downward, and a straight hole portion that has the same diameter from the lower end of the tapered hole portion downward. Have
When the inner plug closes the liquid passage hole, the seal member is in close contact with the straight hole portion in the vicinity of the boundary between the tapered hole portion and the straight hole portion. ] The cap unit described in the above.
[8] The cap unit according to any one of [3] to [7], wherein the rotation limiting mechanism is a ratchet mechanism.
[9] The cap unit according to any one of [3] to [7], wherein the rotation limiting mechanism is a one-way clutch mechanism.
[10] The cap unit according to any one of [1] to [9],
A container with a cap comprising a container body to which the cap unit is attached.
[11] The container with a cap according to [10], wherein the container body has a vacuum heat insulating structure.

  As described above, according to the present invention, the cap unit that can further improve the usability by improving the operability when opening and closing the lid, while maintaining good sealing performance by the sealing member, and It is possible to provide a capped container having such a cap unit.

It is sectional drawing which shows the structure of the container with a cap provided with the cap unit which concerns on the 1st Embodiment of this invention. It is a perspective view which shows the structure of the cap unit shown in FIG. It is a disassembled perspective view which shows the structure of the cap unit shown in FIG. It is sectional drawing which shows the structure of the cap unit shown in FIG. It is sectional drawing which expands and shows the principal part of the cap unit shown in FIG. It is a principal part top view for demonstrating operation | movement of the rotation limiting mechanism of the cap unit shown in FIG. It is a perspective view which shows the structure of the cap unit which concerns on the 2nd Embodiment of this invention. It is a disassembled perspective view which shows the structure of the cap unit shown in FIG. It is a perspective view which shows the structure of the principal part of the cap unit which concerns on the 3rd Embodiment of this invention. It is the disassembled perspective view which looked at the cap unit shown in FIG. 9 from the upper side. It is the disassembled perspective view which looked at the cap unit shown in FIG. 9 from the downward side. It is the disassembled perspective view which looked at the cap unit which concerns on the 4th Embodiment of this invention from the upper side. It is the disassembled perspective view which looked at the cap unit shown in FIG. 12 from the downward side. It is sectional drawing which shows the structure of the cap unit shown in FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(First embodiment)
As a first embodiment of the present invention, a cap-equipped container 100 including, for example, a cap unit 1A shown in FIGS. 1 to 5 will be described. FIG. 1 is a cross-sectional view showing a configuration of a container 100 with a cap. FIG. 2 is a perspective view showing the configuration of the cap unit 1A. FIG. 3 is an exploded perspective view showing the configuration of the cap unit 1A. FIG. 4 is a cross-sectional view showing the configuration of the cap unit 1A. FIG. 5 is an enlarged cross-sectional view showing a main part of the cap unit 1A.

  As shown in FIG. 1, the cap-equipped container 100 of the present embodiment includes a cap unit 1A of the present embodiment and a container body 2 to which the cap unit 1A is detachably attached. The cap-equipped container 100 is a beverage container that can retain or cool the beverage (contents) stored in the container body 2 by the container body 2 having a vacuum heat insulating structure.

  Specifically, the container body 2 includes a bottomed cylindrical outer container 3 and an inner container 4 made of, for example, stainless steel, and the mouth portions of the container body 2 are disposed in a state in which the inner container 4 is accommodated inside the outer container 3. It consists of a double-structured container that is joined. A vacuum heat insulating layer 5 is provided between the outer container 3 and the inner container 4. The vacuum heat insulating layer 5 can be formed, for example, by closing a deaeration hole provided at the center of the bottom surface of the outer container 3 in a chamber that is depressurized (evacuated) to a high vacuum.

  The container body 2 includes a substantially circular bottom surface portion 2a, a body portion 2b that rises in a substantially cylindrical shape from the outer periphery of the bottom surface portion 2a, and a substantially cylindrical mouth and neck portion 2c that is reduced in diameter on the upper side of the body portion 2b. And have. Further, the upper end portion of the mouth-and-neck portion 2 c opens in a circular shape as the upper opening portion 2 d of the container body 2.

  The inner peripheral surface of the mouth-and-neck portion 2c is smaller in diameter than the inner peripheral surface of the trunk portion 2b. Moreover, the 1st internal thread part 6 is provided in the internal peripheral surface of the mouth neck part 2c. The first female screw portion 6 is composed of a screw thread protruding in a spiral shape from the upper end side of the mouth-and-neck portion 2c downward. Furthermore, a ring-shaped protruding portion 7 is provided below the first female screw portion 6 so as to protrude from the inner peripheral surface of the container body 2 over the entire circumference.

  In addition, although the container 100 with a cap of this embodiment has the substantially cylindrical external appearance shape as a whole, it does not specifically limit about the external appearance shape of the container 100 with a cap, Size, a design, etc. In addition, it is possible to make appropriate changes. The outer peripheral surface of the container body 2 may be painted or printed.

  2 to 4, the cap unit 1A of the present embodiment constitutes a plug that closes the upper opening 2d of the container body 2, and is attached to and detached from the cap body 8. And a lid 9 that can be freely attached.

  The cap body 8 includes a cylindrical outer cylinder member 10 and an inner cylinder member 11 made of a heat resistant resin such as polypropylene (PP). In the cap main body 8, the locking projection 11 a provided on the outer peripheral surface of the inner cylinder member 11 is locked to the locking recess 10 a provided on the inner peripheral surface of the outer cylinder member 10, whereby the outer cylinder member 10. An inner cylinder member 11 penetrating through the outer cylinder member 10 is integrally attached to the outer cylinder member 10. In addition to the PP described above, for example, a thermoplastic resin such as acrylonitrile / butadiene / styrene (ABS) can be used for the outer cylinder member 10.

  On the inner side of the inner cylinder member 11 (cap body 8), a liquid passage hole 12 serving as a drinking mouth or a spout is provided. The liquid passage hole 12 has a tapered hole portion 12a that is gradually reduced in diameter from the upper end of the inner cylinder member 11 (cap body 8) downward, and a first hole that has the same diameter downward from the lower end of the tapered hole portion 12a. 1 straight hole portion 12b, a step portion 12c having a diameter smaller than that of the first straight hole portion 12b at the lower end of the first straight hole portion 12b, and a first diameter having the same diameter downward from the step portion 12c. 2 straight holes 12d.

  A first male screw portion 13 is provided on the outer peripheral surface of the inner cylinder member 11 on the lower side across the outer cylinder member 10. The first male screw portion 13 is formed of a screw thread that protrudes spirally upward from the lower end side of the inner cylinder member 11. Thereby, the cap main body 8 is detachably attached to the mouth-and-neck portion 2c of the container main body 2 by screwing of the screw threads constituting the first female screw portion 6 and the first male screw portion 13. Yes.

  A water-stop packing 14 is detachably attached to the lower end portion of the inner cylinder member 11. The water stop packing 14 is a ring-shaped seal member, and is made of an elastic member such as a heat-resistant rubber such as silicone rubber or an elastomer. On the other hand, a flange portion 11b is provided at the lower end portion of the inner cylinder member 11 so as to protrude in the diameter expansion direction. The water stop packing 14 is fitted over the entire circumference of the flange portion 11b.

  In addition, a plurality of (two in this embodiment) elastic flange portions 14 a arranged in the vertical direction are provided on the outer peripheral surface of the water stop packing 14 so as to protrude in the diameter increasing direction. When the cap main body 8 is attached to the mouth-and-neck part 2c of the container main body 2, the water-stopping packing 14 is in close contact with the overhanging part 7 of the container main body 2 while the elastic flange part 14a is elastically deformed. It will be in the state. Thereby, it is possible to seal between the overhang | projection part 7 (container main body 2) and the inner cylinder member 11 (cap main body 8).

  Moreover, it is preferable that the water stop packing 14 has the lower elastic flange portion 14 a in contact with the top side of the overhanging portion 7 and the upper elastic flange portion 14 a in contact with the entry side of the overhanging portion 7. Thereby, the sealing performance between the overhang | projection part 7 (container main body 2) and the inner cylinder member 11 (cap main body 8) can be improved.

  On the other hand, the water-stop packing 14 can be detached from the flange portion 11b by elastically deforming (stretching and extending) itself. Thereby, the water stop packing 14 and the cap main body 8 can be cleaned separately, and the space between the water stop packing 14 and the flange portion 11b can be kept hygienic.

  In addition, about the water stop packing 14, it is not necessarily limited to the thing of the shape mentioned above, For example, about the number of the elastic flange parts 14a, it is not restricted to the two mentioned above, but shall be 1 or 3 or more. It is also possible. Moreover, the water stop packing 14 is not necessarily limited to the structure provided with the elastic flange part 14a mentioned above, It can change suitably about the shape etc.

  The outer peripheral surface of the outer cylinder member 10 (cap body 8) is formed in a substantially cylindrical shape so as to be flush with the body 2b of the container body 2. In addition, a second male screw portion 15 is provided on the outer peripheral surface of the outer cylinder member 10. The second male screw portion 15 is composed of a plurality of (three in this embodiment) screw grooves that are spirally cut from the upper end of the outer cylinder member 10 downward.

  The upper side of the inner cylinder member 11 across the outer cylinder member 10 forms a wide-mouthed portion 16 that gradually increases in diameter toward the upper end in accordance with the shape of the tapered hole portion 12a. Thereby, it is possible to make it easy to drink or pour the beverage (contents) flowing out from the liquid passage hole 12.

  The lid body 9 opens and closes the liquid passage hole 12 and includes an outer lid 17 and an inner plug 18 made of a heat resistant resin such as polypropylene (PP). The outer lid 17 has a peripheral wall portion 17a formed in a substantially cylindrical shape so as to be flush with the outer peripheral surface of the outer cylinder member 10 (cap main body 8), and the diameter of the outer lid 17 is reduced to the upper portion of the peripheral wall portion 17a. And a ceiling wall portion 17c in which an opening portion 17b is formed.

  A second female screw portion 19 is provided on the inner peripheral surface of the peripheral wall portion 17a (the outer lid 17). The second female screw portion 19 is composed of a plurality (three in this embodiment) of thread protrusions protruding from the lower end side of the peripheral wall portion 17a. As a result, the outer lid 17 (lid body 9) is formed by screwing the thread protrusions constituting the second female screw portion 19 into the screw grooves constituting the second male screw portion 15, respectively. The member 11 (cap body 8) is detachably attached to the outer peripheral portion.

  The second male screw portion 15 and the second female screw portion 19 are not limited to the configuration in which a plurality of thread protrusions are screwed into the plurality of screw grooves described above, and the first male screw portion 13 is not limited thereto. Similarly to the first female screw portion 6, the screw threads protruding in a spiral shape may be screwed together. Furthermore, it is good also as a structure screwed together by the double thread | screw which makes mutually complementary form.

  The inner plug 18 closes the liquid passage hole 12 while being fitted inside the liquid passage hole 12, and is rotatably attached to the inner side of the outer lid 17. Specifically, the inner plug 18 has a bottomed cylindrical lower plug member 20 made of a resin having excellent heat resistance such as polypropylene (PP), and an excellent wear resistance such as polyacetal (POM). The upper plug member 21 is a cylindrical upper plug member 21 made of resin.

  A plurality (four in this embodiment) of locking recesses 20a are provided in the circumferential direction on the inner peripheral surface on the upper side of the lower plug member 20. In addition, a lower flange portion 20b is provided on the outer peripheral surface on the upper side of the lower plug member 20 so as to protrude in the diameter increasing direction.

  A plurality (four in this embodiment) of locking protrusions 21 a are provided side by side in the circumferential direction on the outer peripheral surface on the lower side of the upper plug member 21. Further, an upper flange portion 21 b is provided on the outer peripheral surface on the upper side of the upper plug member 21 so as to protrude in the diameter increasing direction.

  On the other hand, the outer lid 17 is located inside the opening 17b, and has a bottom wall portion 17e provided with a circular center hole 17d at the center, and an inner side protruding from the periphery of the center hole 17d in the diameter reducing direction. And a flange portion 17f.

  In the inner plug 18, as shown in FIG. 5, the upper plug member 21 is fitted into the lower plug member 20 in a state where the lower plug member 20 is inserted inside the center hole 17d. Each locking projection 21a is locked to 20a. Also, the inner flange portion 17f is sandwiched between the lower flange portion 20b and the upper flange portion 21b. Thus, the inner plug 18 is rotatably attached to the inner side of the outer lid 17 with the outer lid 17 and the central axis aligned with each other by integrating the lower plug member 20 and the upper plug member 21. ing. Note that the inside of the inner plug 18 is not limited to air, and may have a configuration in which a heat insulating material is arranged.

  As shown in FIGS. 2 to 4, a lid packing 22 is detachably attached to the outer peripheral portion of the inner plug 18. The lid packing 22 is a ring-shaped seal member, and is made of an elastic member such as a heat-resistant rubber such as silicone rubber or an elastomer, as with the water-stop packing 14. On the other hand, a groove portion 20c cut out in a ring shape is provided on the outer peripheral surface on the lower side of the lower plug member 20. The lid packing 22 is fitted over the entire circumference in the groove 20c.

  In addition, a plurality of (two in the present embodiment) elastic flange portions 22 a arranged in the vertical direction are provided on the outer peripheral surface of the lid packing 22 so as to protrude in the diameter increasing direction. When the lid 9 is attached to the cap body 8, the lid packing 22 is in close contact with the liquid passage hole 12 while the elastic flange portion 22 a is elastically deformed. As a result, the space between the liquid passage hole 12 and the inner plug 18 can be sealed (closed).

  The lid packing 22 has an elastic flange portion on the first straight hole portion 12b near the boundary between the tapered hole portion 12a and the first straight hole portion 12b when the inner plug 18 closes the liquid passage hole 12. It is preferable that 22a comes into close contact. Thereby, when removing the lid body 9 from the cap body 8, the elastic flange portion 22a is slightly moved from the state where the elastic flange portion 22a is in close contact with the first straight hole portion 12b to the tapered hole portion 12a side. The space between the inner plug 18 can be opened (opened).

  On the other hand, the lid packing 22 can be removed from the groove 20c by elastically deforming (stretching) the lid packing 22 itself. Thereby, the lid packing 22 and the lid body 9 can be cleaned separately, and the space between the lid packing 22 and the groove 20c can be kept hygienic.

  In addition, about the lid packing 22, it is not necessarily limited to the thing of the shape mentioned above, For example, about the number of the elastic flange parts 22a, it shall not be restricted to the two mentioned above, but shall be 1 or 3 or more. Is also possible. Further, the lid packing 22 is not necessarily limited to the configuration provided with the elastic flange portion 22a described above, and the shape and the like can be appropriately changed.

  A top plate 23 that closes the opening 17 b is provided on the top wall 17 c of the outer lid 17. The top plate 23 is made of a heat resistant resin such as polypropylene (PP), for example, and has a disk shape corresponding to the opening 17b. On the lower surface of the top plate 23, an annular inner fitting convex portion 23a fitted into a circular inner fitting concave portion 21c provided at the center of the upper surface of the upper plug member 21, and an opening of the top wall portion 17c. An annular outer fitting convex portion 23b fitted into an annular outer fitting concave portion 17g provided between the portion 17b and an internal gear 25 described later is provided so as to protrude.

  The top plate 23 is integrally attached to the top wall portion 17c in a state of being fitted around the opening portion 17b so as to be flush with the top wall portion 17c. The top plate 23 is not limited to the same material as that of the outer lid 17, but may be a different material, a color, or the like, or a transparent material. Moreover, the attachment method of the top plate 23 is not particularly limited, and other than the above-described fitting, a method of attaching using a screw or an adhesive may be used. Furthermore, the top plate 23 may be detachably attached to the outer lid 17.

  The lid body 9 has a rotation limiting mechanism 24A that limits the rotation direction of the inner plug 18 relative to the outer lid 17 so that the inner plug 18 rotates only in one direction. The rotation limiting mechanism 24A is a ratchet mechanism so that the inner plug 18 rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17 is screwed to the cap body 8. The rotation direction of the inner plug 18 with respect to the outer lid 17 is limited.

  Specifically, the rotation limiting mechanism 24A includes an internal gear 25 and a plurality (two in the present embodiment) between the top plate 23 (outer lid 17) and the upper plug member 21 (inner plug 18). The pawl 26 has a plurality of (two in this embodiment) spring members 27.

  The internal gear 25 has an annular ring member 25a made of a resin having excellent wear resistance such as polyacetal (POM). The internal gear 25 has a shape in which a plurality of inclined teeth 25b inclined in the same direction are arranged in the circumferential direction inside the ring member 25a. The internal gear 25 has a pair of positioning recesses 25c at opposing positions on the outer peripheral surface of the ring member 25a. On the other hand, the outer lid 17 has a pair of positioning projections 17h at opposing positions on the inner peripheral surface of the opening 17b. The internal gear 25 is disposed on the surface of the bottom wall portion 17e with the pair of positioning convex portions 17h engaged with the pair of positioning concave portions 25c.

  The two pawls 26 are arranged at opposite positions inside the internal gear 25. Each pawl 26 is rotatably attached to the upper surface of the upper plug member 21 so as to mesh with the inclined teeth 25 b of the internal gear 25.

  Specifically, the pawl 26 is made of a metal having excellent corrosion resistance such as stainless steel, and includes a shaft portion 26a on the base end side and a claw portion 26b extended from the shaft portion 26a toward the distal end side. Have. On the other hand, on the upper surface of the upper plug member 21, a shaft hole 21d in which the shaft portion 26a of the pawl 26 is pivotally supported, and a notch corresponding to the rotation range of the claw portion 26b are continuous to the shaft hole 21d. A notch 21e is provided.

  Each pawl 26 is rotatably attached to a position that meshes with the inclined teeth 25b of the internal gear 25 in a state where the inclined teeth 25b are inclined in the same direction as the inclined teeth 25b.

  The two spring members 27 are arranged corresponding to positions adjacent to the pawls 26, respectively. Each spring member 27 is attached to the upper surface of the upper plug member 21 in a state where each pawl 26 is urged in a direction in which the pawl 26 is engaged with the inclined tooth 25 b of the internal gear 25.

  Specifically, the spring member 27 is made of a metal plate (plate spring) having excellent corrosion resistance, such as stainless steel, and is extended from the shaft portion 27a on the proximal end side toward the distal end side from the shaft portion 27. A contact portion 27c is provided at the tip of the elastic piece 27b. On the other hand, the upper surface of the upper plug member 21 is provided with a shaft hole 21f to which the shaft portion 27a of the spring member 27 is fixed.

  Each spring member 27 is in a direction in which each pawl 26 is engaged with the inclined tooth 25b of the internal gear 25 by the elastic force of the elastic piece 27b that is cantilevered while the abutment portion 27c is in contact with the pawl 26. Is energized.

  The operation of the rotation limiting mechanism 24A as described above will be described with reference to FIGS. 6 (a) and 6 (b). 6A is a main part plan view showing a state in which the rotation limiting mechanism 24A is rotated in one direction, and FIG. 6B is a rotation of the rotation limiting mechanism 24A in the direction opposite to the one direction. It is a principal part top view which shows the state made to do.

  In the rotation limiting mechanism 24 </ b> A, as shown in FIG. 6A, the claw portion 26 b of the pawl 26 overcomes the inclined tooth 25 b against the bias of the spring member 27 with respect to the inclined tooth 25 b of the internal gear 25. In the direction, the inner plug 18 (or the outer lid 17 with respect to the inner plug 18) can rotate independently with respect to the outer lid 17.

  On the other hand, in the rotation limiting mechanism 24A, as shown in FIG. 6B, when the inner plug 18 (or the outer lid 17) is rotated in the direction opposite to the above-described direction, the rotation between the adjacent inclined teeth 25b. The claw portion 26b of the pawl 26 is abutted against the corner portion 25d formed in the inner claw 26, so that the independent rotation of the inner plug 18 with respect to the outer lid 17 (or the outer lid 17 with respect to the inner plug 18) is prevented. .

  In the rotation limiting mechanism 24A of the present embodiment, the inner plug 18 rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17 is screwed (fastened) to the cap body 8. As described above, the rotation direction of the inner plug 18 with respect to the outer lid 17 is limited. Conversely, the rotation direction of the outer lid 17 with respect to the inner plug 18 is limited so that the outer lid 17 rotates only in the direction (clockwise direction) in which the outer lid 17 is screwed (fastened) to the cap body 8. ing.

  In the cap unit 1A having the above-described configuration, when the lid body 9 is attached to the cap body 8 and the liquid passage hole 12 is closed, the liquid passage hole 12 is first covered by covering the cap body 8 with the lid body 9. The inside plug 18 is fitted inside the lid packing 22 and the lid packing 22 is in contact with the first straight hole 12 b of the liquid passage hole 12.

  Next, from this state, the lid body 9 is moved in a direction (clockwise direction) in which the second female screw portion 19 (outer lid 17) is screwed to the second male screw portion 15 (cap body 8). When rotated, the inner plug 18 is prevented from rotating independently of the cap body 8 by the frictional force of the lid packing 22 in contact with the liquid passage hole 12.

  On the other hand, the outer lid 17 is not limited in the rotation direction by the rotation limiting mechanism 24A with respect to the inner plug 18 that is prevented from rotating. For this reason, the outer lid 17 rotates with respect to the inner plug 18 while the claw portion 26b of the pawl claw 26 climbs over the inclined tooth 25b with respect to the inclined tooth 25b of the internal gear 25.

  Therefore, by rotating the outer lid 17 clockwise with respect to the cap body 8, the inner plug 18 moves downward of the liquid passage hole 12 without rotating. As a result, the lid packing 22 is pushed together with the inner plug 18 to the lower side of the fluid passage hole 12 and is in close contact with the first straight hole portion 12b of the fluid passage hole 12 without being twisted.

  Here, it is preferable that a slight gap (play) is provided between the outer lid 17 and the inner plug 18 in the radial direction from the center axis of each other. In this case, even when the central axis of the outer lid 17 and the inner plug 18 is displaced in the radial direction when the inner plug 18 is fitted inside the liquid passage hole 12, the center of the liquid passage hole 12 (cap body 8). The inner plug 18 can be fitted inside the liquid hole 12 in accordance with the shaft.

  As a result, when the inner plug 18 closes the liquid passage hole 12 while reducing the bias of the contact of the lid packing 22 with respect to the liquid passage hole 12 due to the axial displacement between the outer lid 17 and the inner plug 18, the lid packing 22 is removed. The entire circumference of the first straight hole portion 12b of the liquid passage hole 12 can be adhered.

  Further, in the rotation limiting mechanism 24A, the outer lid 17 rotates clockwise with respect to the inner plug 18, so that every time the claw portion 26b of the pawl 26 gets over the inclined tooth 25b of the internal gear 25, "click" Sounds like this. Thereby, while the outer lid 17 rotates to the end of the screwing, it is possible to confirm the tightening degree of the lid body 9 with respect to the cap body 8 by the sound generated from the rotation limiting mechanism 24A.

  Furthermore, when attaching the lid 9 to the cap body 8, only the outer lid 17 can be rotated clockwise (closed) without rotating the inner plug 18 relative to the cap body 8. The operating resistance when the is closed can be reduced.

  In the state where the lid packing 22 is removed from the inner plug 18, the inner plug 18 does not come into contact with the liquid passage hole 12. Therefore, in this state, the outer lid 17 is rotated clockwise with respect to the cap body 8 (closing operation). When this is done, the inner plug 18 rotates together with the outer lid 17. In this case, the frictional force (operation resistance) due to the lid packing 22 in contact with the liquid passage hole 12 described above is not generated, and the sound of the claw portion 26b of the pawl 26 over the inclined tooth 25b of the internal gear 25 is not generated. Therefore, when attaching the lid body 9 to the cap body 8, it is possible to easily notice that the lid packing 22 is forgotten to be attached to the inner plug 18.

  On the other hand, in the cap unit 1 </ b> A, when the lid body 9 is removed from the cap body 8 and the liquid passage hole 12 is opened, first, the lid body 9 is tightened with respect to the cap body 8, and then the second male The lid body 9 is rotated in a direction (counterclockwise direction) opposite to the direction in which the second female screw portion 19 (outer lid 17) is screwed with the screw portion 15 (cap body 8). At this time, since the inner plug 18 is restricted in the rotational direction by the rotation restricting mechanism 24 </ b> A with respect to the outer lid 17, the inner plug 18 moves upward of the liquid passage hole 12 while rotating together with the outer lid 17.

  Thereby, the lid packing 22 moves toward the upper side of the liquid passage hole 12 while rotating together with the inner plug 18. In this case, the lid packing 22 can be quickly detached toward the tapered hole portion 12a side from the state where the lid packing 22 is in close contact with the first straight hole portion 12b of the liquid passage hole 12.

  Further, when removing the lid 9 from the cap body 8, the outer lid 17 is rotated counterclockwise with respect to the cap body 8 than when the outer lid 17 is rotated clockwise (closed) with respect to the cap body 8. When the rotating operation (opening operation) is performed, the operating resistance when the outer lid 17 is opened is increased. Thereby, it can prevent feeling loose when it rotates in the direction (counterclockwise direction) which removes the cover body 9. FIG.

  Further, in the state in which the lid body 9 is attached to the cap body 8, even if an external force is applied to the outer lid 17, a gap (play) is provided between the outer lid 17 and the inner plug 18 described above. In addition, it is possible to suppress a bias in the contact of the lid packing 22 with respect to the liquid passage hole 12 due to the axial deviation between the outer lid 17 and the inner plug 18. As a result, the lid packing 22 can be maintained in close contact with the entire circumference of the first straight hole portion 12b of the liquid passage hole 12, so that liquid leakage from the liquid passage hole 12 can be prevented. .

  Further, in the state where the lid body 9 is removed from the cap body 8, there is no screw thread or the like for screwing inside the liquid passage hole 12, so that the beverage (contents) flowing out from the liquid passage hole 12 can be removed. The flow is not hindered and the beverage (contents) does not accumulate. Thereby, the liquid permeability and the washing | cleaning property in the liquid passage hole 12 can be kept favorable, and it is possible to make it easy to drink or pour the beverage (contents) flowing out from the liquid passage hole 12.

  As described above, in the cap unit 1A of the present embodiment, it is possible to improve the operability when opening and closing the lid body 9 while maintaining good sealing performance by the lid packing 22. Therefore, in the cap-equipped container 100 including such a cap unit 1A, it is possible to further improve the usability.

(Second Embodiment)
Next, a cap unit 1B shown in FIGS. 7 and 8 will be described as a second embodiment of the present invention. FIG. 7 is a perspective view showing the configuration of the cap unit 1B. FIG. 8 is an exploded perspective view showing the configuration of the cap unit 1B. Moreover, in the following description, about the site | part equivalent to the said cap unit 1A, while omitting description, the same code | symbol shall be attached | subjected in drawing.

  The cap unit 1B of this embodiment constitutes the cap-equipped container 100 by being attached to the container body 2 instead of the cap unit 1A.

  Specifically, as shown in FIGS. 7 and 8, the cap unit 1B includes a rotation limiting mechanism 24B instead of the rotation limiting mechanism 24A. The rest is basically the same as the cap unit 1A.

  The rotation limiting mechanism 24B is a ratchet mechanism so that the inner plug 18 rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17 is screwed to the cap body 8. The rotation direction of the inner plug 18 with respect to the outer lid 17 is limited.

  Specifically, the rotation limiting mechanism 24B includes a crown gear 28 and a plurality of (three in this embodiment) pawls between the top plate 23 (outer lid 17) and the upper plug member 21 (inner plug 18). And a ring member 30 provided with a claw 29.

  The crown gear 28 is provided integrally with the upper plug member 21 between the inner fitting recess 21 c and the outer fitting recess 17 g on the upper surface of the upper plug member 21. The crown gear 28 has a shape in which a plurality of inclined teeth 28a inclined in the same direction are arranged in the circumferential direction.

  The ring member 30 is made of a resin having excellent wear resistance such as polyacetal (POM), for example, and has an annular ring portion 30a and a plurality of (in this embodiment) extended along the circumferential direction from the inside of the ring portion 30a. 3) elastic piece portions 30b. Further, the three elastic piece portions 30b are provided so as to extend from the positions arranged at equal intervals in the circumferential direction of the ring portion 30a in the same direction as the direction in which the inclined teeth 28a are inclined.

  The ring member 30 has a pair of positioning recesses 30c at opposing positions on the outer peripheral surface of the ring portion 30a. And the ring member 30 is arrange | positioned on the surface of the bottom wall part 17e in the state which the pair of positioning convex part 17h of the said outer cover 17 was engaged with these pair of positioning recessed parts 30c. Further, in this state, each elastic piece 30b is arranged to face the inclined tooth 28a of the crown gear 28 in the circumferential direction.

  The three pawls 29 are arranged corresponding to the distal end side of each elastic piece portion 30b, and are provided so as to protrude from the lower surface of each elastic piece portion 30b. Further, each pawl 29 is meshed with the inclined tooth 28 a of the crown gear 28.

  In the rotation limiting mechanism 24B, the pawl 29 moves over the inclined tooth 28a while elastically deforming the elastic piece 30b with respect to the inclined tooth 28a of the crown gear 28. The outer lid 17) can be rotated independently of the motor 18. On the other hand, when trying to turn the inner plug 18 (or the outer lid 17) in the opposite direction, the pawl 29 is abutted against the corner portion 28b formed between the adjacent inclined teeth 28a, so that An independent rotation of the inner plug 18 with respect to the lid 17 (or the outer lid 17 with respect to the inner plug 18) is prevented.

  In the rotation limiting mechanism 24B of the present embodiment, the inner plug 18 rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17 is screwed (fastened) to the cap body 8. As described above, the rotation direction of the inner plug 18 with respect to the outer lid 17 is limited. Conversely, the rotation direction of the outer lid 17 with respect to the inner plug 18 is limited so that the outer lid 17 rotates only in the direction (clockwise direction) in which the outer lid 17 is screwed (fastened) to the cap body 8. ing.

  The cap unit 1B having the above-described configuration has the same configuration as the cap unit 1A except that the rotation limiting mechanism 24B described above is provided, thereby obtaining the same effects as the cap unit 1A. Is possible.

  That is, when the lid body 9 is attached to the cap body 8 and the liquid passage hole 12 is closed, first, the inner plug 18 is fitted inside the liquid passage hole 12 by covering the cap body 8 with the lid body 9. The lid packing 22 comes into contact with the first straight hole 12b of the liquid passage hole 12.

  Next, from this state, the lid body 9 is moved in a direction (clockwise direction) in which the second female screw portion 19 (outer lid 17) is screwed to the second male screw portion 15 (cap body 8). When rotated, the inner plug 18 is prevented from rotating independently of the cap body 8 by the frictional force of the lid packing 22 in contact with the liquid passage hole 12.

  On the other hand, the outer lid 17 is not limited in the rotation direction by the rotation limiting mechanism 24B with respect to the inner plug 18 that is prevented from rotating. For this reason, the outer lid 17 rotates with respect to the inner plug 18 while the pawls 29 get over the inclined teeth 28 a with respect to the inclined teeth 28 a of the crown gear 28.

  Therefore, by rotating the outer lid 17 clockwise with respect to the cap body 8, the inner plug 18 moves downward of the liquid passage hole 12 without rotating. As a result, the lid packing 22 is pushed together with the inner plug 18 to the lower side of the fluid passage hole 12 and is in close contact with the first straight hole portion 12b of the fluid passage hole 12 without being twisted.

  Here, it is preferable that a slight gap (play) is provided between the outer lid 17 and the inner plug 18 in the radial direction from the center axis of each other. As a result, when the inner plug 18 closes the liquid passage hole 12 while reducing the bias of the contact of the lid packing 22 with respect to the liquid passage hole 12 due to the axial displacement between the outer lid 17 and the inner plug 18, the lid packing 22 is removed. The entire circumference of the first straight hole portion 12b of the liquid passage hole 12 can be adhered.

  Further, in the rotation limiting mechanism 24B, the outer lid 17 rotates clockwise with respect to the inner plug 18, so that every time the pawl 29 gets over the inclined tooth 28a of the crown gear 28, a “click” sound is generated. Thereby, while the outer lid 17 rotates to the end of the screwing, the tightening of the lid body 9 with respect to the cap body 8 can be confirmed by the sound produced from the rotation limiting mechanism 24B.

  Furthermore, when attaching the lid 9 to the cap body 8, only the outer lid 17 can be rotated clockwise (closed) without rotating the inner plug 18 relative to the cap body 8. The operating resistance when the is closed can be reduced.

  In the state where the lid packing 22 is removed from the inner plug 18, the inner plug 18 does not come into contact with the liquid passage hole 12. Therefore, in this state, the outer lid 17 is rotated clockwise with respect to the cap body 8 (closing operation). When this is done, the inner plug 18 rotates together with the outer lid 17. In this case, the frictional force (operation resistance) due to the lid packing 22 in contact with the liquid passage hole 12 described above is not generated, and the sound of the pawl 29 over the inclined tooth 28a of the crown gear 28 is not generated. Therefore, when attaching the lid body 9 to the cap body 8, it is possible to easily notice that the lid packing 22 is forgotten to be attached to the inner plug 18.

  On the other hand, in the cap unit 1B, when the lid body 9 is removed from the cap body 8 and the liquid passage hole 12 is opened, first, from the state where the lid body 9 is tightened with respect to the cap body 8, the second male The lid body 9 is rotated in a direction (counterclockwise direction) opposite to the direction in which the second female screw portion 19 (outer lid 17) is screwed with the screw portion 15 (cap body 8). At this time, since the inner plug 18 is restricted in the rotational direction by the rotation restricting mechanism 24 </ b> B with respect to the outer lid 17, the inner plug 18 moves upward of the liquid passage hole 12 while rotating together with the outer lid 17.

  Thereby, the lid packing 22 moves toward the upper side of the liquid passage hole 12 while rotating together with the inner plug 18. In this case, the lid packing 22 can be quickly detached toward the tapered hole portion 12a side from the state where the lid packing 22 is in close contact with the first straight hole portion 12b of the liquid passage hole 12.

  Further, when removing the lid 9 from the cap body 8, the outer lid 17 is rotated counterclockwise with respect to the cap body 8 than when the outer lid 17 is rotated clockwise (closed) with respect to the cap body 8. When the rotating operation (opening operation) is performed, the operating resistance when the outer lid 17 is opened is increased. Thereby, it can prevent feeling loose when it rotates in the direction (counterclockwise direction) which removes the cover body 9. FIG.

  Further, in the state in which the lid body 9 is attached to the cap body 8, even if an external force is applied to the outer lid 17, a gap (play) is provided between the outer lid 17 and the inner plug 18 described above. In addition, it is possible to suppress a bias in the contact of the lid packing 22 with respect to the liquid passage hole 12 due to the axial deviation between the outer lid 17 and the inner plug 18. As a result, the lid packing 22 can be maintained in close contact with the entire circumference of the first straight hole portion 12b of the liquid passage hole 12, so that liquid leakage from the liquid passage hole 12 can be prevented. .

  Further, in the state where the lid body 9 is removed from the cap body 8, there is no screw thread or the like for screwing inside the liquid passage hole 12, so that the beverage (contents) flowing out from the liquid passage hole 12 can be removed. The flow is not hindered and the beverage (contents) does not accumulate. Thereby, the liquid permeability and the washing | cleaning property in the liquid passage hole 12 can be kept favorable, and it is possible to make it easy to drink or pour the beverage (contents) flowing out from the liquid passage hole 12.

  As described above, in the cap unit 1B of the present embodiment, it is possible to improve the operability when opening and closing the lid body 9 while maintaining good sealing performance by the lid packing 22. Therefore, in the container 100 with a cap provided with such a cap unit 1B, it is possible to further improve the usability.

(Third embodiment)
Next, a cap unit 1C shown in FIGS. 9 to 11 will be described as a third embodiment of the present invention. FIG. 9 is a perspective view showing a configuration of a main part of the cap unit 1C. FIG. 10 is an exploded perspective view of the cap unit 1C as viewed from above. FIG. 11 is an exploded perspective view of the cap unit 1C as viewed from below. Moreover, in the following description, about the site | part equivalent to the said cap unit 1A, while omitting description, the same code | symbol shall be attached | subjected in drawing.

  The cap unit 1C of the present embodiment constitutes the cap-equipped container 100 by being attached to the container body 2 instead of the cap unit 1A.

  Specifically, as shown in FIGS. 9 to 11, the cap unit 1C includes an outer lid 17A instead of the outer lid 17, and a rotation limiting mechanism 24C instead of the rotation limiting mechanism 24A. The rest is basically the same as the cap unit 1A.

  The outer lid 17A includes an outer lid body 31 and a bottom plate 32 made of a heat resistant resin such as polypropylene (PP). The outer lid body 31 includes a peripheral wall portion 31a formed in a substantially cylindrical shape so as to be flush with the outer peripheral surface of the outer cylinder member 10 (cap main body 8), and a ceiling wall portion 31b covering the upper surface of the peripheral wall portion 31a. Have. A plurality (four in the present embodiment) of locking projections 31c are provided side by side in the circumferential direction on the inner peripheral surface of the peripheral wall portion 31a.

  The bottom plate 32 has a disk shape in which a circular center hole 32a is provided at the center. The bottom plate 32 has an inner flange portion 32b that protrudes from the periphery of the center hole 32a in the diameter reducing direction.

  In the inner plug 18, the upper plug member 21 is fitted into the lower plug member 20 in a state where the lower plug member 20 is inserted inside the center hole 32 a, whereby each locking convex portion is formed in each locking concave portion 20 a. 21a is locked. In addition, the inner flange portion 32b is sandwiched between the lower flange portion 20b and the upper flange portion 21b. As a result, the inner plug 18 is made such that the lower plug member 20 and the upper plug member 21 are integrated so that the bottom plate 32 (outer lid 17A) and the central axis coincide with the inner side of the bottom plate 32 (outer lid 17A). It is attached so that it can rotate freely.

  A plurality (four in this embodiment) of locking recesses 32 c are provided on the outer peripheral portion of the bottom plate 32 side by side in the circumferential direction. In the outer lid 17A, the bottom plate 32 to which the inner plug 18 is attached is fitted inside the outer lid main body 31, and each locking convex portion 31c is locked to each locking concave portion 32c. A bottom plate 32 is integrally attached.

  The rotation limiting mechanism 24C is a ratchet mechanism so that the inner plug 18 rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17A is screwed to the cap body 8. The rotation direction of the inner plug 18 with respect to the outer lid 17A is limited.

  Specifically, the rotation limiting mechanism 24C includes an external gear 33, a plurality (two in this embodiment) pawl members 34, and a plurality (two in this embodiment) spring members 35. Yes.

  The external gear 33 is provided integrally with the upper plug member 21 on the upper outer peripheral surface of the upper plug member 21. The external gear 33 has a shape in which a plurality of inclined teeth 33a inclined in the same direction are arranged in the circumferential direction.

  The two pawl members 34 are arranged at opposing positions outside the external gear 33. Each pawl member 34 is rotatably attached to the upper surface of the bottom plate 32 so as to mesh with the inclined teeth 33 a of the external gear 33.

  Specifically, the pawl member 34 is made of, for example, a metal plate having excellent corrosion resistance such as stainless steel, and includes a shaft portion 34a on the base end side and an arm portion 34b extending from the shaft portion 34a toward the distal end side. The arm portion 34b has a claw portion 34c protruding from the side surface facing the external gear 33 on the tip side. On the other hand, a shaft hole 32d that supports the shaft portion 34a of the pawl member 34 and a step surface 32e that supports the distal end side of the arm portion 34b are provided on the upper surface of the bottom plate 32.

  Each pawl member 34 is rotatably attached to a position where the claw portion 34c meshes with the inclined tooth 33a of the external gear 33 in a state where the arm portion 34b is extended in the same direction as the inclined tooth 33a is inclined. It has been.

  The two spring members 35 are arranged corresponding to positions adjacent to the pawl members 34, respectively. Each spring member 35 is attached to the upper surface of the bottom plate 32 in a state in which each pawl member 34 is urged in a direction in which the claw portion 34 c is engaged with the inclined tooth 33 a of the external gear 33.

  Specifically, the spring member 35 is made of a metal coil spring having excellent corrosion resistance, such as stainless steel, and has one hook portion 35a provided on one end side and the other provided on the other end side. And a hook portion 35b.

  The spring member 35 has one hook portion 35 a hooked to one hook portion 34 d provided on the distal end side of the pawl member 34, and the other hook portion 35 b provided to the upper surface of the bottom plate 32. It is hooked on the part 32e. Accordingly, each spring member 35 urges each pawl member 34 in a direction in which the claw portion 34 c is engaged with the inclined tooth 33 a of the external gear 33.

  The spring member 35 is not necessarily limited to the configuration using the coil spring described above. For example, a ring member made of silicon resin or the like is used, and each pawl member 34 is removed by the elastic force of the ring member. It is also possible to urge in the direction in which the claw portion 34c is engaged with the inclined tooth 33a of the tooth gear 33. Moreover, it is possible to change suitably about the shape, material, etc.

  In the rotation restricting mechanism 24C, the claw portion 34c of the pawl member 34 gets over the inclined tooth 33a against the bias of the spring member 35 with respect to the inclined tooth 33a of the external gear 33, and is intermediate to the outer lid 17A. The stopper 18 (or the outer lid 17A with respect to the inner stopper 18) can rotate independently. On the other hand, when the inner plug 18 (or the outer lid 17A) is turned in the opposite direction, the claw portion 34c of the pawl member 34 is abutted against the corner portion 33b formed between the adjacent inclined teeth 33a. Thus, the independent rotation of the inner plug 18 with respect to the outer lid 17A (or the outer lid 17A with respect to the inner plug 18) is prevented.

  In the rotation limiting mechanism 24C of the present embodiment, the inner plug 18 rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17A is screwed (fastened) to the cap body 8. Thus, the rotation direction of the inner plug 18 with respect to the outer lid 17A is limited. Conversely, the rotation direction of the outer lid 17A relative to the inner plug 18 is limited so that the outer lid 17A rotates only in the direction (clockwise direction) in which the outer lid 17A is screwed (fastened) to the cap body 8. ing.

  The cap unit 1C having the above-described configuration has basically the same configuration as the cap unit 1A except that the outer lid 17A and the rotation limiting mechanism 24C described above are provided, and thus has the same function as the cap unit 1A. An effect can be obtained.

  That is, when the lid body 9 is attached to the cap body 8 and the liquid passage hole 12 is closed, first, the inner plug 18 is fitted inside the liquid passage hole 12 by covering the cap body 8 with the lid body 9. The lid packing 22 comes into contact with the first straight hole 12b of the liquid passage hole 12.

  Next, from this state, the lid body 9 is moved in a direction (clockwise direction) in which the second female screw portion 19 (outer lid 17A) is screwed to the second male screw portion 15 (cap body 8). When rotated, the inner plug 18 is prevented from rotating independently of the cap body 8 by the frictional force of the lid packing 22 in contact with the liquid passage hole 12.

  On the other hand, the outer lid 17A is not limited in the rotation direction by the rotation limiting mechanism 24C with respect to the inner plug 18 that is prevented from rotating. For this reason, the outer lid 17 </ b> A rotates with respect to the inner plug 18 while the claw portion 34 c of the pawl member 34 gets over the inclined tooth 33 a with respect to the inclined tooth 33 a of the external gear 33.

  Therefore, by rotating the outer lid 17 </ b> A clockwise with respect to the cap body 8, the inner plug 18 moves downward of the liquid passage hole 12 without rotating. As a result, the lid packing 22 is pushed together with the inner plug 18 to the lower side of the fluid passage hole 12 and is in close contact with the first straight hole portion 12b of the fluid passage hole 12 without being twisted.

  Here, it is preferable that a slight gap (play) is provided between the bottom plate 32 (the outer lid 17A) and the inner plug 18 in the radial direction from the center axis of each other. Accordingly, when the inner plug 18 closes the liquid passage hole 12 while alleviating the uneven contact of the lid packing 22 with respect to the liquid passage hole 12 due to the axial deviation between the bottom plate 32 (the outer lid 17A) and the inner plug 18, The lid packing 22 can be brought into close contact with the entire circumference of the first straight hole 12 b of the liquid hole 12.

  Further, in the rotation limiting mechanism 24C, the outer lid 17A rotates clockwise with respect to the inner plug 18, so that every time the claw portion 34c of the pawl member 34 gets over the inclined tooth 33a of the external gear 33, "click" Sounds like this. Thereby, while the outer lid 17 </ b> A rotates to the end of the screwing, it is possible to confirm the tightening condition of the lid body 9 with respect to the cap body 8 by the sound generated from the rotation limiting mechanism 24 </ b> C.

  Furthermore, when attaching the lid body 9 to the cap body 8, only the outer lid 17A can be rotated clockwise (closed) without rotating the inner plug 18 with respect to the cap body 8, and therefore the outer lid 17A. The operating resistance when the is closed can be reduced.

  When the lid packing 22 is removed from the inner plug 18, the inner plug 18 does not come into contact with the liquid passage hole 12. In this state, the outer lid 17 </ b> A is rotated clockwise with respect to the cap body 8 (closing operation). When this occurs, the inner plug 18 rotates together with the outer lid 17A. In this case, the frictional force (operation resistance) due to the lid packing 22 in contact with the liquid passage hole 12 described above is not generated, and the sound of the claw portion 34c of the pawl member 34 getting over the inclined teeth 33a of the external gear 33 is not generated. Therefore, when attaching the lid body 9 to the cap body 8, it is possible to easily notice that the lid packing 22 is forgotten to be attached to the inner plug 18.

  On the other hand, in the cap unit 1C, when the lid body 9 is removed from the cap body 8 and the liquid passage hole 12 is opened, first, the lid 9 is tightened with respect to the cap body 8 from the second male side. The lid body 9 is rotated in a direction (counterclockwise direction) opposite to the direction in which the second female screw portion 19 (outer lid 17A) is screwed with the screw portion 15 (cap body 8). At this time, since the inner plug 18 is restricted in the rotation direction by the rotation restricting mechanism 24C with respect to the outer lid 17A, the inner plug 18 moves upward of the liquid passage hole 12 while rotating together with the outer lid 17A.

  Thereby, the lid packing 22 moves toward the upper side of the liquid passage hole 12 while rotating together with the inner plug 18. In this case, the lid packing 22 can be quickly detached toward the tapered hole portion 12a side from the state where the lid packing 22 is in close contact with the first straight hole portion 12b of the liquid passage hole 12.

  Further, when removing the lid 9 from the cap body 8, the outer lid 17A is rotated counterclockwise with respect to the cap body 8 than when the outer lid 17A is rotated clockwise (closed) with respect to the cap body 8. When the rotation operation (opening operation) is performed, the operation resistance when the outer lid 17A is opened is increased. Thereby, it can prevent feeling loose when it rotates in the direction (counterclockwise direction) which removes the cover body 9. FIG.

  Further, in a state where the lid body 9 is attached to the cap body 8, even if an external force is applied to the outer lid 17A, a gap (play) is provided between the bottom plate 32 (outer lid 17A) and the inner plug 18 described above. Therefore, it is possible to suppress the bias of the contact of the lid packing 22 with respect to the liquid passage hole 12 due to the axial deviation between the bottom plate 32 (the outer lid 17A) and the inner plug 18. As a result, the lid packing 22 can be maintained in close contact with the entire circumference of the first straight hole portion 12b of the liquid passage hole 12, so that liquid leakage from the liquid passage hole 12 can be prevented. .

  Further, in the state where the lid body 9 is removed from the cap body 8, there is no screw thread or the like for screwing inside the liquid passage hole 12, so that the beverage (contents) flowing out from the liquid passage hole 12 can be removed. The flow is not hindered and the beverage (contents) does not accumulate. Thereby, the liquid permeability and the washing | cleaning property in the liquid passage hole 12 can be kept favorable, and it is possible to make it easy to drink or pour the beverage (contents) flowing out from the liquid passage hole 12.

  As described above, in the cap unit 1 </ b> C of the present embodiment, it is possible to improve the operability when opening and closing the lid body 9 while maintaining good sealing performance by the lid packing 22. Therefore, in the container 100 with a cap provided with such a cap unit 1C, it is possible to further improve the usability.

(Fourth embodiment)
Next, a cap unit 1D shown in FIGS. 12 to 14 will be described as a fourth embodiment of the present invention. FIG. 12 is an exploded perspective view of the cap unit 1D as viewed from above. FIG. 13 is an exploded perspective view of the cap unit 1D as viewed from below. FIG. 14 is a cross-sectional view showing the configuration of the cap unit 1D. Moreover, in the following description, about the site | part equivalent to the said cap unit 1A, while omitting description, the same code | symbol shall be attached | subjected in drawing.

  The cap unit 1D of the present embodiment constitutes the cap-equipped container 100 by being attached to the container body 2 instead of the cap unit 1A.

  Specifically, as shown in FIGS. 12 to 14, the cap unit 1 </ b> D includes an outer lid 17 </ b> B and an inner plug 18 </ b> A instead of the outer lid 17 and the inner plug 18, and rotation limitation instead of the rotation limiting mechanism 24 </ b> A. And a mechanism 24D. The rest is basically the same as the cap unit 1A.

  The outer lid 17B includes an outer lid body 36 and a top plate 37 made of a heat resistant resin such as polypropylene (PP). The outer lid main body 36 has a peripheral wall portion 36a formed in a substantially cylindrical shape so as to be flush with the outer peripheral surface of the outer cylinder member 10 (cap main body 8), and has a diameter smaller than that of the peripheral wall portion 36a at the upper portion of the peripheral wall portion 36a. A top wall portion 36c in which the opening portion 36b is formed, a bottom wall portion 36e located inside the opening portion 36b and having a circular center hole 36d in the center portion, and a center of the bottom wall portion 36e There is an inner cylindrical portion 36f that protrudes downward from the periphery of the hole 36d in a cylindrical shape, and an upper plug portion 36g that protrudes downward in a cylindrical shape from the periphery of the inner cylindrical portion 36f of the bottom wall portion 36g. doing.

  The top plate 37 is made of a heat resistant resin such as polypropylene (PP), for example, and has a disk shape corresponding to the opening 36b. A cylindrical fitting tube portion 37a fitted inside the center hole 36d and an annular outer fitting convex portion 37b fitted inside the opening 36b protrude from the lower surface of the top plate 37. Is provided. The top plate 37 is integrally attached to the top wall portion 36c while being fitted around the opening portion 36b so as to be flush with the top wall portion 36c.

  The inner plug 18A includes a bottomed cylindrical lower plug member 38 made of a heat resistant resin such as polypropylene (PP). In the inner plug 18A, the lower plug member 38 is rotatably attached to the outer lid main body 36 via a rotation limiting mechanism 24D described later in a state where the upper plug portion 37e is fitted in the lower plug member 38. Yes.

  The rotation limiting mechanism 24D is a one-way clutch mechanism so that the inner plug 18A rotates only in the opposite direction (counterclockwise direction) to the direction in which the outer lid 17B is screwed to the cap body 8 (clockwise direction). In addition, the rotation direction of the inner plug 18A with respect to the outer lid 17B is limited.

  Specifically, the rotation limiting mechanism 24D includes a one-way clutch 39, a rotating shaft 40, a shaft holder 41, an upper ring washer 42, and a lower ring washer inside the lower plug member 38 and the upper plug portion 36g. 43, a bearing 44, and a rotation stopper plate 45.

  The one-way clutch 39 restricts the rotation direction to only one direction via a cam clutch disposed between an outer ring and an inner ring (not shown). For example, the HF type series manufactured by TNT, etc. may be used. it can. The one-way clutch 39 is inserted in a state where the outer ring is prevented from rotating inside the inner cylinder portion 36f.

  The rotating shaft 40 is made of a cylindrical member made of, for example, stainless steel, and has a pair of cutout portions 40a at opposing positions on the outer peripheral surface thereof. The pair of cutout portions 40a are cut out in parallel with each other from the lower end of the rotating shaft 40 to the upper middle portion.

  The shaft holder 41 is made of, for example, a cylindrical member made of stainless steel or the like, and has a pair of flat portions 41a at opposing positions on the inner peripheral surface thereof. The pair of flat portions 41a form surfaces parallel to each other from the lower end of the shaft holder 41 to the upper middle portion.

  The rotary shaft 40 is inserted from the upper side of the shaft holder 41, and is held by the shaft holder 41 in a state where the pair of cutout portions 40a is engaged with the pair of flat portions 41a. The rotating shaft 40 is inserted into the inner ring of the one-way clutch 39 via the shaft holder 41.

  The rotating shaft 40 protrudes from the lower side of the shaft holder 41. A bearing 44 and a rotation stopper plate 45 are attached to the protruding portion via an upper ring washer 42 and a lower ring washer 43. The upper ring washer 42, the lower ring washer 43, and the bearing 44 are not particularly limited, and commercially available ones can be used.

  The anti-rotation plate 45 is made of, for example, a disc made of stainless steel or the like, and has a central hole 45a having a shape corresponding to the lower end portion of the rotating shaft 40 at the center thereof. The lower end of the rotating shaft 40 is inserted in a state of being prevented from rotating in the center hole 45a.

  In addition, a plurality (four in this embodiment) of positioning pieces 45 b protruding in the diameter increasing direction are provided on the outer peripheral portion of the rotation stopper plate 45 side by side in the circumferential direction. On the other hand, an accommodation recess 38 a for accommodating the bearing 44 and the rotation stopper plate 45 is provided inside the lower plug member 38. A plurality (four in this embodiment) of positioning slits 38b with which the positioning pieces 45b are engaged are provided side by side in the circumferential direction on the inner peripheral surface of the housing recess 38a.

  Accordingly, the inner plug 18A is rotatably attached to the inner side of the outer lid 17B via the rotation limiting mechanism 24D in a state where the outer lid 17B and the central axis coincide with each other. That is, in the inner plug 18A, the lower plug member 38 is integrally attached to the rotary shaft 40 that is rotatably supported via the one-way clutch 39 and the bearing 44.

  In the rotation limiting mechanism 24D, when the one-way clutch 39 tries to turn the inner plug 18A (or the outer lid 17B) in one direction, the inner plug 18A (or the outer lid with respect to the inner plug 18A) is rotated with respect to the outer lid 17B. 17B) is independently rotatable. On the other hand, when the inner plug 18A (or the outer lid 17B) is turned in the opposite direction, the independent rotation of the inner plug 18A (or the outer lid 17B for the inner plug 18A) with respect to the outer lid 17B is prevented. It becomes.

  In the rotation limiting mechanism 24D of the present embodiment, the inner plug 18A rotates only in the direction (counterclockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17B is screwed (fastened) to the cap body 8. As described above, the rotation direction of the inner plug 18A with respect to the outer lid 17B is limited. Conversely, the rotation direction of the outer lid 17B relative to the inner plug 18A is limited so that the outer lid 17B rotates only in the direction (clockwise direction) in which the outer lid 17B is screwed (fastened) to the cap body 8. ing.

  The cap unit 1D having the above-described configuration has basically the same configuration as the cap unit 1A except that the cap unit 1A includes the outer lid 17B, the inner plug 18A, and the rotation limiting mechanism 24D. It is possible to obtain the same effect as the above.

  That is, when the lid body 9 is attached to the cap body 8 and the liquid passage hole 12 is closed, first, the inner wall 18A is fitted inside the liquid passage hole 12 by covering the cap body 8 with the lid body 9. The lid packing 22 comes into contact with the first straight hole 12b of the liquid passage hole 12.

  Next, from this state, the lid body 9 is moved in the direction (clockwise direction) in which the second female screw portion 19 (outer lid 17B) is screwed to the second male screw portion 15 (cap body 8). When rotated, the inner plug 18 </ b> A is prevented from rotating independently with respect to the cap body 8 by the frictional force of the lid packing 22 in contact with the liquid passage hole 12.

  On the other hand, the outer lid 17B is not limited in the rotation direction by the rotation limiting mechanism 24D with respect to the inner plug 18A that is prevented from rotating. For this reason, the outer lid 17B rotates with respect to the inner plug 18A.

  Therefore, by rotating the outer lid 17B clockwise with respect to the cap body 8, the inner plug 18A moves downward of the liquid passage hole 12 without rotating. Thereby, the lid packing 22 is pushed together with the inner plug 18A to the lower side of the fluid passage hole 12, and is in close contact with the first straight hole portion 12b of the fluid passage hole 12 without being twisted.

  Furthermore, when attaching the lid body 9 to the cap body 8, only the outer lid 17B can be rotated clockwise (closed) without rotating the inner plug 18A with respect to the cap body 8, so this outer lid 17B. The operating resistance when the is closed can be reduced.

  When the lid packing 22 is removed from the inner plug 18A, the inner plug 18A does not come into contact with the liquid passage hole 12, and in this state, the outer lid 17B is rotated clockwise with respect to the cap body 8 (closing operation). When this occurs, the inner plug 18A rotates with the outer lid 17B. In this case, the frictional force (operation resistance) due to the lid packing 22 in contact with the liquid passage hole 12 is not generated. Therefore, when attaching the lid 9 to the cap body 8, it is possible to easily notice that the lid packing 22 is forgotten to be attached to the inner plug 18A.

  On the other hand, in the cap unit 1D, when the lid body 9 is removed from the cap body 8 and the liquid passage hole 12 is opened, first, the lid body 9 is tightened with respect to the cap body 8 from the second male side. The lid body 9 is rotated in a direction (counterclockwise direction) opposite to the direction in which the second female screw portion 19 (outer lid 17B) is screwed with the screw portion 15 (cap body 8). At this time, since the inner plug 18A is restricted by the rotation restriction mechanism 24D in the rotation direction with respect to the outer lid 17B, the inner plug 18A moves upward of the liquid passage hole 12 while rotating together with the outer lid 17B.

  Accordingly, the lid packing 22 moves toward the upper side of the liquid passage hole 12 while rotating together with the inner plug 18A. In this case, the lid packing 22 can be quickly detached toward the tapered hole portion 12a side from the state where the lid packing 22 is in close contact with the first straight hole portion 12b of the liquid passage hole 12.

  Further, when removing the lid 9 from the cap body 8, the outer lid 17B is rotated counterclockwise with respect to the cap body 8 than when the outer lid 17B is rotated clockwise (closed) with respect to the cap body 8. When the rotating operation (opening operation) is performed, the operating resistance when the outer lid 17B is opened is increased. Thereby, it can prevent feeling loose when it rotates in the direction (counterclockwise direction) which removes the cover body 9. FIG.

  Further, in the state where the lid body 9 is removed from the cap body 8, there is no screw thread or the like for screwing inside the liquid passage hole 12, so that the beverage (contents) flowing out from the liquid passage hole 12 can be removed. The flow is not hindered and the beverage (contents) does not accumulate. Thereby, the liquid permeability and the washing | cleaning property in the liquid passage hole 12 can be kept favorable, and it is possible to make it easy to drink or pour the beverage (contents) flowing out from the liquid passage hole 12.

  As described above, in the cap unit 1D of the present embodiment, it is possible to improve the operability when opening and closing the lid body 9 while maintaining good sealing performance by the lid packing 22. Therefore, in the container 100 with a cap provided with such a cap unit 1D, it is possible to further improve the usability.

In addition, this invention is not necessarily limited to the thing of the said embodiment, A various change can be added in the range which does not deviate from the meaning of this invention.
For example, the cap units 1 </ b> A to 1 </ b> D have a configuration in which the lid packing 22 is in contact with the first straight hole portion 12 b of the liquid passage hole 12 when the cap body 8 is covered with the lid body 9. However, when the cap body 8 is covered with the lid body 9, the lid packing 22 may be in non-contact with the first straight hole portion 12 b of the liquid passage hole 12.

  In the case of this configuration, the inner plug 18 (18A) is moved to the outer lid 17 (17A, 17B) by rotating the lid 9 clockwise (closing operation) from the state where the cap body 8 is put on the cap body 8. It moves toward the lower side of the liquid passage hole 12 while rotating together. Then, after the lid packing 22 comes into contact with the liquid passage hole 12, the rotation of the inner plug 18 (18A) is prevented, and only the outer lid 17 (17A, 17B) is rotated. Thereby, it is possible to obtain the same effect as the cap units 1A to 1D.

  For the rotation limiting mechanisms 24A to 24D, the inner plug is only in the direction (clockwise direction) opposite to the direction (clockwise direction) in which the outer lid 17 (17A, 17B) is screwed to the cap body 8. Although the rotation direction of the inner plug 18 (18A) with respect to the outer lid 17 (17A, 17B) is limited so that 18 (18A) rotates, a configuration opposite to that may be used. That is, the outer lid 17 (17A, 17A, 17A, 17A, 17A, 17A, 17A, 17B, 17C, 17B, 17B, 17B, 17B, 17B, 17B) The rotation direction of the inner plug 18 (18A) relative to 17B) may be limited.

  Further, in the cap units 1A to 1D, the rotation restriction mechanisms 24A to 24D are omitted, that is, the outer lid is not restricted without restricting the rotation direction of the inner plug 18 (18A) with respect to the outer lid 17 (17A, 17B). It is also possible to adopt a configuration in which the inner plug 18 (18A) is rotatably attached to both directions (counterclockwise direction and clockwise direction) with respect to 17 (17A, 17B).

  Further, the present invention is not limited to the configuration of the cap units 1A to 1D in which the lid body 9 that opens and closes the liquid passage hole 12 is detachably attached to the cap body 8 described above, but the upper opening 2d of the container body 2 is also provided. In the cap unit provided with a lid that opens and closes, it is possible to apply the same configuration as the lid 9 of the cap units 1A to 1D.

  That is, in the present invention, a cap body attached to the neck 2c of the container body 2 and a lid body for opening and closing the upper opening 2d of the container body 2 are provided, and the lid body is screwed onto the outer peripheral portion of the cap body. The outer lid attached to the inner lid, the inner lid that is rotatably attached to the inner side of the outer lid, the inner plug that closes the upper opening 2d while being fitted inside the container body 2, and the outer lid that is attached to the outer periphery of the inner plug. In addition, the container body 2 has a structure having a waterproof packing (seal member) that seals between the overhanging portion 7 provided on the inner side of the container body 2 and the inner plug, and further, the rotation direction of the inner plug with respect to the outer lid is unidirectional. It is also possible to employ a configuration in which a rotation limiting mechanism is provided that limits the rotation only to the axis.

  In this case, the inner cylinder member 11 of the cap body 8 is omitted, and the outer cylinder member 10 of the cap body 8 serves as a drinking mouth or a spout. Thereby, cost reduction and size reduction by reduction of a number of parts are possible.

  Moreover, although this invention has illustrated the case where this invention is applied to the container 100 with a cap which gave the heat retention / cooling function by the container main body 2 which has the vacuum heat insulation structure mentioned above, such a vacuum heat insulation structure is illustrated. It is not necessarily limited to the thing provided with the container main body 2 having. That is, the present invention can be widely applied to containers with a cap in which the cap unit is detachably attached to the mouth and neck of the container body.

  DESCRIPTION OF SYMBOLS 100 ... Container with cap 1A-1D ... Cap unit 2 ... Container main body 2c ... Mouth neck part 2d ... Upper opening part 3 ... Outer container 4 ... Inner container 5 ... Vacuum heat insulation layer 6 ... First female screw part 7 ... Overhang Part 8: Cap body 9 ... Lid 10: Outer cylinder member 11 ... Inner cylinder member 12 ... Liquid passage hole 12a ... Taper hole part 12b ... First straight hole part 13 ... First male screw part 14 ... Water-stop packing DESCRIPTION OF SYMBOLS 15 ... 2nd external thread part 17, 17A, 17B ... Outer lid 18 ... Inner plug 19 ... 2nd internal thread part 20 ... Lower side plug member 21 ... Upper side plug member 22 ... Lid packing (seal member) 23 ... Top Plates 24A to 24D: Rotation limiting mechanism 25 ... Internal gear 26 ... Pawl 27 ... Spring member 28 ... Crown gear 29 ... Pawl 30 ... Ring member 31 ... Outer lid body 32 ... Bottom plate 33 ... External gear 34 ... Pawl 35 ... spring members 36 ... outer lid body 37 ... ceiling plate 38 ... lower plug member 39 ... one-way clutch 40 ... rotating shaft 41 ... shaft holder 42 ... upper ring washer 43 ... lower ring washer 44 ... Bearing 45 ... detent plate

Claims (11)

A cap body that is attached to the mouth and neck of the container body that is open at the top, and that has a liquid passage hole therein, and a lid that opens and closes the liquid passage hole,
The lid body is an outer lid that is attached to the outer periphery of the cap body by screwing;
An inner plug that is rotatably attached to the inside of the outer lid, and closes the liquid passage hole while being fitted inside the liquid passage hole,
A cap unit, comprising a seal member attached to an outer peripheral portion of the inner plug and sealing between the liquid passage hole and the inner plug. A cap body that is attached to the mouth and neck of the container body that is open at the top, and a lid that opens and closes the upper opening of the container body,
The lid body is an outer lid that is attached to the outer periphery of the cap body by screwing;
An inner plug that is rotatably attached to the inside of the outer lid and closes the upper opening in a state of being fitted inside the container body,
A cap unit comprising a seal member attached to an outer peripheral portion of the inner plug and sealing between a protruding portion provided inside the container main body and the inner plug.   The cap according to claim 1, wherein the lid has a rotation limiting mechanism that limits a rotation direction of the inner plug relative to the outer lid so that the inner plug rotates only in one direction. unit.   The rotation limiting mechanism limits the rotation direction of the inner plug relative to the outer lid so that the inner plug rotates only in a direction opposite to the direction in which the outer lid is screwed to the cap body. The cap unit according to claim 3.   The rotation restriction mechanism restricts the rotation direction of the inner plug relative to the outer lid so that the inner plug rotates only in the same direction as the direction in which the outer lid is screwed to the cap body. The cap unit according to claim 3, wherein the cap unit is characterized in that:   The rotation limiting mechanism is configured to rotate when the rotation of the inner plug with respect to the cap body or the container body is prevented by the frictional force of the seal member in contact with the liquid passage hole or the protruding portion. The rotation direction of the outer lid with respect to the inner plug is limited so that the outer lid rotates with respect to the inner plug only in a direction that is not subject to the limitation of the rotation direction due to. Cap unit according to any one of the above. The liquid passage hole has a tapered hole portion gradually reduced in diameter from the upper end of the cap body downward, and a straight hole portion having the same diameter from the lower end of the tapered hole portion downward.
2. The seal member is in close contact with the straight hole portion in the vicinity of a boundary between the tapered hole portion and the straight hole portion when the inner plug closes the liquid passage hole. Cap unit according to   The cap unit according to claim 3, wherein the rotation limiting mechanism is a ratchet mechanism.   The cap unit according to any one of claims 3 to 7, wherein the rotation limiting mechanism is a one-way clutch mechanism. The cap unit according to any one of claims 1 to 9,
A container with a cap comprising a container body to which the cap unit is attached.   The said container main body has a vacuum heat insulation structure, The container with a cap of Claim 10 characterized by the above-mentioned.

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