One-touch openable cap

Abstract

A one-touch openable cap includes: a base including coupling means coupled to a bottle, a ring connected to the coupling means and disposed with a space between the coupling means and the ring to be deformed by press forces from left and right sides so as to allow a front edge of the ring to be frontwardly pushed out, and a latch portion disposed on the front edge of the ring; and a lid portion pivotable relative to the base and including a body to cover the nozzle when the lid portion is closed, a claw disposed on the body and to be latched to the latch portion when the lid portion is closed. Upon press of the ring from the left and right sides, the ring is deformed, the claw is released from the latch portion, the lid portion pivots, and the nozzle is uncovered.

Claims

1. A one-touch openable cap comprising: a base comprising a coupler coupled to a bottle having a nozzle from which a content inside the bottle is discharged, a ring connected to a portion of the coupler and disposed with a space between the coupler and the ring, the ring being configured to be deformed by press forces from left and right sides so as to allow a front edge of the ring to be frontwardly pushed out, and a latch portion disposed on the front edge of the ring; and a lid portion disposed in such a way as to be pivotable relative to the base and comprising a body configured to cover the nozzle when the lid portion is closed, a claw disposed on the body and configured to be latched to the latch portion when the lid portion is closed; wherein the one-touch openable cap is configured such that, upon press of the ring from the left and right sides, the ring is deformed, the claw is released from the latch portion, the lid portion pivots, and the nozzle is uncovered.

2. The one-touch openable cap according to claim 1, further comprising a pressing mechanism that couples the coupler to the front edge of the base to press down a vicinity of the latch portion so as not to cause the vicinity of the latch portion to be upwardly deformed, and that enables a deformation movement of the front edge.

3. The one-touch openable cap according to claim 1, wherein the pivoting of the lid portion is made by spring energization.

4. The one-touch openable cap according to claim 1, wherein a protrusion is disposed on a rear side of the base in a protruding manner, and wherein the lid portion pivots in such a way as to cross over the protrusion, and the lid portion is latched to the protrusion to allow an opened state of the lid portion to be kept.

5. The one-touch openable cap according to claim 1, wherein the lid portion includes, inside the lid portion, a seal portion disposed with a space between the lid portion and the seal portion, and wherein, when the lid portion is closed, a tip of the nozzle comes into airtight contact with the seal portion.

6. A storage and discharge apparatus comprising: the one-touch openable cap according to claim 1; and a bottle configured to couple the one-touch openable cap to the bottle, wherein a content is filled inside the bottle.

7. The storage and discharge apparatus according to claim 6, wherein the content is a dental medicament.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a diagram of a storage and discharge apparatus in which an example of a one-touch openable cap according to the present invention is attached to a bottle, (A) being a front side perspective view at the time when a lid portion is closed, (B) being a front side perspective view at the time when the lid portion is opened, (C) being a rear side perspective view at the time when the lid portion is closed, (D) being a rear side perspective view at the time when the lid portion is opened.

(2) FIG. 2 is a diagram at the time when a one-touch openable cap of a storage and discharge apparatus according to the present invention is closed, (A) being a front view, (B) being a left side view, (C) being a rear side view, (D) being a plan view, (E) being a bottom view, (F) being a A-A line cross sectional view, (G) being a B-B line cross sectional view.

(3) FIG. 3 is a diagram at the time when the one-touch openable cap of the storage and discharge apparatus according to the present invention is opened, (A) being a front view, (B) being a left side view, (C) being a plan view, (D) being a bottom view, (E) being a C-C line cross sectional view, (F) being a D-D line cross sectional view.

(4) FIG. 4 is a segmented cross sectional view of the storage and discharge apparatus according to the present invention and illustrated in FIG. 2(F), (A) being the same diagram as that of FIG. 2(F), (B) being a cross sectional view of a bottle, (C) being a cross sectional view of a cover, (D) being a cross sectional view at the time when the one-touch openable cap is closed, (E) being a cross sectional view at the time when the one-touch openable cap is opened.

(5) FIG. 5 is a rear side perspective view of the storage and discharge apparatus according to the present invention.

(6) FIG. 6 is a diagram that describes an opening mechanism utilizing a press and a deformation in the one-touch openable cap according to the present invention, (A) being a plan view of the one-touch openable cap, illustrating a state at the time when a base is deformed by press forces (F1 and F2) from left and right sides, (B) being a plan view of the one-touch openable cap, illustrating the base before the deformation or at the time when the deformation has been recovered. When F1 and F2 are stressed to the ring 5B (stress portions 5C and 5C), the width of ring 5B is compressed (W>W) and shortened. The ring 5B is deformed so as to cause the length in long-length direction orthogonal to the width direction to be elongated (L<L). The claw 6B is released from the latch portion 5D, and the lid portion 6 is uncovered.

(7) FIG. 7 is a cross sectional view of the storage and discharge apparatus, illustrating a state at the time when a content falls in drops from the nozzle.

DESCRIPTION OF EMBODIMENT

(8) Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings. The present invention, however, is not limited to the embodiment.

Example 1

(9) As illustrated in FIGS. 1 to 6, a storage and discharge apparatus 1 according to the present invention includes a bottle 2, a cover 3, and a one-touch openable cap 4.

(10) The bottle 2 includes: a body 2a configured to be filled with a content 2b, especially, a fluid material, for example, a medicament used in dentists (a dental adhesive agent); a coupling portion 2c that is located above the body 2a and includes, on its outside, a screw thread 2d configured to be screwed with the one-touch openable cap 4; and a nozzle 2e that is located on the upper side of the coupling portion and configured to discharge the content 2b or cause it fall in drops from a tip portion 2f thereof. The shape and row material of each of the body 2a and the nozzle 2e are appropriately selected in accordance with requirements and a discharge method for the content 2b. There is no limitation in the shape of the coupling portion 2c, provided that the coupling portion 2c is configured to be coupled to the one-touch openable cap 4.

(11) The cover 3 incorporates, in its internal space, the bottle 2 in a stationary state. The cover 3 is made of a cushion material for buffering an impact, for example, a drop impact, on the bottle 2, and further, when the content 2b is a volatile material or the like, the cover 3 is made of a heat insulating material for blocking a heat conduction to the bottle 2 (the content 2b) when needed.

(12) The one-touch openable cap 4 is formed of a base 5 and a lid portion 6, mainly as shown in FIG. 4 (E), and includes a seal portion 7 and a spring 8 (FIGS. 4 and 5) when needed. The one-touch openable cap 4 is attached to the bottle 2 to cover the nozzle 2e, and is capable of allowing an opening operation to be performed by a single hand.

(13) The base 5 includes: a coupling means (a coupler) 5m, which has a cylindrical shape, and includes, on its inside, for example, a screw portion 5a configured to be coupled to the bottle 2; a ring 5b, which is connected to a portion of the coupling means 5m, is disposed with a space 5r between the coupling means 5m and the ring 5b, and is configured to be deformed so as to cause a front edge 5k to be frontwardly pushed out by press forces from left and right sides (for example, left and right simultaneous forces against left and right press portions 5c and 5c); and a latch portion 5d, which is disposed on the front edge of the ring 5b.

(14) The coupling means 5m has, in its inside, a coupling portion 2c of the bottle 2 and the nozzle 2e, and the tip portion 2f of the nozzle 2e protrudes from a hole 5h. The latch portion 5d allows a claw 6b of the lid portion to be latched to the latch portion 5d.

(15) Moreover, the base 5 includes a pressing mechanism that allows the coupling means 5m and the front edge 2k of the base 5 to be coupled to each other to press down the vicinity of the latch portion 5d so as not to cause the vicinity of the latch portion 5d to be upwardly deformed, and that enables a frontward deformation movement of the front edge 5k (FIG. 6(A)).

(16) An example of the pressing mechanism 5n is shown in a dashed line enclosing portion of FIG. 1, or FIG. 4. In this example, the pressing mechanism 5n includes: a pressing member 5f, which has one end coupled to the outer circumference of the coupling means 5m, has an approximately L-letter shape in a vertical cross sectional view (FIG. 4(E)), and is disposed with a space 5i between the coupling means 5m and the pressing member 5f; and two frame plates 5e and 5e, which protrude from the front edge 5k of the ring 5b, and have upper faces to which the other end of the pressing member 5f, namely, the lower end thereof, is consecutively disposed.

(17) The pressing mechanism 5n and the latch portion 5d form an opening 5p having a rectangular shape in a plan view; the claw 6b is inserted into the opening 5p; the claw 6b is latched to the latch portion 5d; thereby latching the lid portion 6 to the base 5 so as to keep the sealing of the nozzle 2e. In a dashed-line enclosing portion of FIG. 4, there is illustrated a state in which the latch portion 5d and the claw 6b are latched to each other.

(18) Further, the base 5 includes: a receiving portion 5s, which is a portion where the lid portion 6 is pivotably attached at the side opposite the front edge 5k; and a left-to-right shaft 5t protruding from the receiving portion 5s. The lower edge of the lid portion 6 is fit into the left-to-right shaft 5t, and the lid portion 6 pivots about the shaft 5t.

(19) Further, as an example method of keeping the opened state of the lid portion 6, a protrusion 5g is disposed on the receiving portion 5s in a protruding manner. A rotation force at the time of opening causes a fringe 6c of the lid portion 6 to cross over the protrusion 5g, and after the lid portion 6 has crossed over the protrusion 5g, even in an upside-down state for allowing the content 2b to drop (FIG. 7), the fringe 6c does not cross over the protrusion 5g because of the weight of the lid portion 6, thereby allowing the opened state of the lid portion 6 (the nozzle 2e) to be kept.

(20) The lid portion 6 is disposed in such a way as to be pivotable relative to the base 5, and includes: a body 6a, which covers the nozzle 2e when the lid portion 6 is closed; and the claw 6b, which is disposed on the body 6a, and is latched to the latch portion 5d when the lid portion 6 is closed. Moreover, the body 6a disposes, in its inside, a rib 6h for a strength reinforcement, and the rib 6h is provided with a groove 6d, into which the seal portion 7 is incorporated. At four-direction portions of the groove 6d, claws 6i for preventing the drop of the seal portion 7 and latching to the seal portion 7 are disposed in a protruding manner. Further, in order to cause the left and right press portions 5c and 5c to protrude in directions toward the side faces, there are disposed cutouts 6e and 6e having shapes that come into close contact with the peripheries of the press portions 5c and 5c.

(21) The seal portion 7 is preferred to be formed of a cushion material at a portion with which the tip portion 2f of the nozzle 2e comes into contact, thereby enabling the implementation of the protection and the stable sealed airtightness of the nozzle 2e. Moreover, when the seal portion 7 is disposed in such a way that a space 7a is disposed inside the body 6a of the lid portion 6 and between the body 6a and the seal portion 7, further stable sealed airtightness can be implemented.

(22) As illustrated in FIG. 5, the spring 8 is a torsion coil spring, which has a coil portion fit into the shafts 5t, has arms on the end portions latched to the base 5 and the lid portion 6, respectively, and exerts spring energization so as to cause the lid portion 6 to pivot in a direction for the nozzle 2e to be exposed. The spring 8 is not limited to torsion coil springs, and rather, any releasing mechanism may be employed that, upon release of the claw 6b from the latch portion 5d, allows the lid portion 6 to pivot in the direction for the nozzle 2e to be exposed.

(23) With the one-touch openable cap 4 implemented as described above, as illustrated in FIG. 6(A), the ring is pressed from the left and right sides so that the ring 5b is deformed (deformed such that its left-to-right width W is compressed to W and its long-length-direction length L is elongated to L); the claw 6b is released from the latch portion 5d; the lid portion 6 is caused to pivot by the spring energization; the nozzle 2e is exposed and the lid portion 6 is uncovered.

(24) The spring property of the ring 5b allows the lid portion 6 to be repeatedly opened and closed. The simultaneous pressing to the ring 5b from the left and right sides deforms the ring 5b so that the claw 6b is released from the latch portion 5d. Such configuration prevents any erroneous operation. For example, when a drop event occurs and only the press portion 5c at one side is pressed, spring at the other side absorbs a deformation pressure (buffer effect), and a deformation sufficient to allow the claw 6b to be released from the latch portion 5d does not occur, and thus, any erroneous pivoting of the lid portion 6 is prevented.

REFERENCE SIGNS LIST

(25) 1 storage and discharge apparatus 2 bottle 2a body 2b content 2c coupling portion 2d screw threads 2e nozzle 2f tip portion 3 cover 4 one-touch openable cap 5 base 5a screw portion 5b ring 5c press portion 5d latch portion 5e frame plate 5f pressing member 5g protrusion 5h hole 5i space 5k front edge 5m coupling means 5n pressing mechanism 5p opening 5r space 5s receiving portion 5t shaft 6 lid portion 6a body 6b claw 6c fringe 6d groove 6e cutoff 6h rib 6i claw 7 seal portion 7a space 8 spring