BAYONET CONNECTION STRUCTURE BETWEEN CONTAINER MOUTH PORTION AND CAP

Abstract
A bayonet connection structure between a container mouth portion and a cap is provided in which a crush and abrasion of a rotation prevention portion on a container mouth portion side is prevented.
Description
TECHNICAL FIELD

The present invention relates to a bayonet connection structure between a mouth portion of a container where a pump dispenser is mounted via a cap, and the cap.


BACKGROUND ART

Conventionally, a pump dispenser is generally manufactured separately from a container, and is used as a jet container with a jet function as being connected to a mouth portion of the container via a cap.


As a connection structure between the mouth portion (a neck portion) of the container (a bottle) and the cap as described above, various types are present, such as those of screwing or fitting-in. Among these, an example of a connection by using two motions, “a pushing motion” and “a rotating motion”, is a bayonet connection.


This is useful because the operation is simple and fixation force is reliable.


As an example of a bayonet connection structure, Patent Literature 1 (cap mount mechanism) describes a structure as below.


That is, the patent specification describes that at least three bayonet provisions are formed on an outer surface of a neck portion of a bottle, lugs as many as the bayonet provisions are formed on an outer surface of a cap and configured to releasably lock by three or more bayonet mechanisms and, compared to a structure using two or more bayonet mechanisms, the cap does not rock and therefore the bottle and the cap are reliably sealed together.


CITATION LIST
Patent Literature

PTL 1: U.S. Pat. No. 6,032,814


SUMMARY OF INVENTION
Technical Problem

However, in the cap mount mechanism described in Patent Literature 1, both of a cap slip prevention function and a rotation prevention function are achieved by the bayonet provisions and the lugs. Therefore, if opening and closing are repeated several times, the bayonet provisions on a bottle side may be disadvantageously crushed or abraded.


The present invention was made in view of these circumstances, and has an object of providing a bayonet connection structure between a container mouth portion and a cap in which a crush and abrasion of a rotation prevention portion on a mouth portion (neck portion) side of the container (a bottle) is prevented.


Solution to Problems

The inventor has diligently conducted studies to solve the problems described above and found that the problems can be solved by providing separate mechanisms for slip prevention and rotation prevention as measures against the above, thereby completing the present invention.


That is, the present invention resides in (1) a bayonet connection structure between a mouth portion of a container where a pump dispenser is mounted via a cap, and the cap, wherein the cap includes a plurality of slip prevention claws spaced apart from each other in a circumferential direction on an inner circumferential surface, one of the plurality of slip prevention claws is a slip prevention claw elastically displaceable in a radial direction, and a rotation prevention projection extending in an axial direction is provided between the elastically-displaceable slip prevention claw and each of the other slip prevention claws, and the mouth portion of the container has a hollow cylindrical portion with an outer circumferential surface provided with a plurality of slip prevention claw engagement portions with which the plurality of slip prevention claws of the cap engage, the slip prevention claw engagement portions being as many as the plurality of slip prevention claws, each of the slip prevention claw engagement portions engaging with the other slip prevention claws has an end in a clockwise direction provided with a rotation prevention stopper adjacently extending in the axial direction, and the mouth portion further includes a rotation prevention rib extending in the axial direction, the rotation prevention rib to be got over by the rotation prevention projection of the cap when the cap is rotated.


The present invention resides in (2) the bayonet connection structure between the mouth portion of the container and the cap according to (1) above, wherein the number of the plurality of slop prevention claws are three, the number of rotation prevention projections is two, the number of the plurality of slip prevention claw engagement portions is three, the number of rotation prevention stoppers is two, and the number of rotation prevention ribs is two.


The present invention resides in (3) the bayonet connection structure between the mouth portion of the container and the cap according to (1) or (2) above, wherein the pump dispenser includes a case body supporting a pump and the cap, and the case body and the cap are integrally formed.


The present invention resides in (4) the bayonet connection structure between the mouth portion of the container and the cap according to (1) and (2) above, wherein the pump dispenser includes a case body supporting a pump and the cap, the case body and the cap are formed of separate members, and the case body and the cap are mounted by fitting.


The present invention resides in (5) the bayonet connection structure between the mouth portion of the container and the cap between according to any one of (1) to (4) above, wherein the pump dispenser is a trigger pump dispenser.


The present invention resides in (6) the connection structure between the mouth portion of the container and the cap according to any one of (1) to (4) above, wherein the pump dispenser is a push pump dispenser.


The present invention resides in (7) the bayonet connection structure between the mouth portion of the container and the cap according to any one of (1) to (4) above, wherein the pump dispenser is a pressure accumulator pump dispenser.


Advantageous Effects of Invention

According to the bayonet connection structure between the container mouth portion and the cap, the cap includes a plurality of slip prevention claws spaced apart from each other in a circumferential direction on an inner circumferential surface, one of the plurality of slip prevention claws is a slip prevention claw elastically displaceable in a radial direction, and a rotation prevention projection extending in an axial direction is provided between the elastically-displaceable slip prevention claw and each of the other slip prevention claws, and the mouth portion of the container has a hollow cylindrical portion with an outer circumferential surface provided, with a plurality of slip prevention claw engagement portions with which the plurality of slip prevention claws of the cap engage, the slip prevention claw engagement portions being as many as the plurality of slip prevention claws, each of the slip prevention claw engagement portions engaging with the other slip prevention claws has an end in a clockwise direction provided with a rotation prevention stopper adjacently extending in the axial direction, and the mouth portion further includes a rotation prevention rib extending in the axial direction, the rotation prevention rib to be got over by the rotation prevention projection of the cap when the cap is rotated.


Therefore, a crush and abrasion of the rotation prevention stopper extending in the axial direction and the rotation prevention rib extending in the axial direction on the container mouth portion side can be prevented.


Also, the pump dispenser includes a case body supporting a pump, and the cap, and when the case body and. the cap are integrally formed, the number of form blocks to form the case body and the cap by using synthetic resin is less, thereby reducing manufacturing cost.


Furthermore, the pump dispenser includes the case body supporting the pump, and the cap, and when the case body and the cap are formed of separate members and the case body and the cap are mounted by fitting, the case body and the cap can be each formed of a suitable synthetic resin.





BRIEF DESCRIPTION OF DRAWINGS


FIG. 1 is a side view of an embodiment of a bayonet connection structure between a container mouth portion and a cap according to the present invention.



FIG. 2 is a vertical sectional view of the bayonet connection structure between the container mouth portion and the cap depicted in FIG. 1.



FIG. 3 is a vertical sectional view of the cap depicted in FIG. 1.



FIG. 4 is a plan view of the cap depicted in FIG. 3 when viewed from below.



FIG. 5 is a side view of a hollow cylindrical portion of a container mouth portion depicted in FIG. 6.



FIG. 6 is a side view of the container mouth portion depicted in FIG. 2.



FIG. 7 is a sectional view of the mouth and the cap in a horizontal direction when the cap is inserted in the container mouth portion depicted in FIG. 1 in a vertical direction.



FIG. 8 is an enlarged view of a circle X portion of FIG. 7.



FIG. 9 is a sectional view of the mouth portion and the cap in the horizontal direction when the cap inserted in the container mouth portion depicted in FIG. 7 in the vertical direction is rotated in a clockwise direction.



FIG. 10 is an enlarged view of a circle V portion of FIG. 9.



FIG. 11 is a side view of the state before the cap fits in the container mouth portion in the vertical direction.



FIG. 12 is a side view of the state where the cap is rotated in the clockwise direction after the cap fits in the container mouth portion in the vertical direction.



FIG. 13 is a partially-sectional side view when the bayonet connection structure according to the present invention between a container mouth portion and a cap is applied to a push pump dispenser.





DESCRIPTION OF EMBODIMENT

A preferable embodiment of the present invention is described in detail below with reference to the drawing as required. Note in the drawings that identical components are provided with a same reference numeral, and redundant description is omitted.


Also, positional relations such as upper, lower, left, and right positions are based on positional relations depicted in the drawings unless otherwise specified.


Furthermore, dimension ratios of the drawings are not restricted to those as depicted.


As depicted in FIG. 1 to FIG. 10, a bayonet connection structure between a mouth portion 21 of a container 20 and a cap 11 according to an embodiment of the present invention has a unique structure.


The cap 11 has two types of portions having different functions, that is, slip prevention claws 12 and 13 and rotation prevention projections 14.


That is, the cap 11 includes the plurality of slip prevention claws 12 and 13 spaced apart from each other in a circumferential direction on an inner circumferential surface, one of the plurality of slip prevention claws 12 and 13 is the slip prevention claw 12 elastically displaceable in a radial direction, and the rotation prevention projections 14 extending in an axial direction are each provided between the elastically-displaceable slip prevention claw 12 and each of the other slip prevention claws 13.


On the other hand, the mouth portion 21 of the container 20 includes slip prevention claw engagement portions 23 (each having a rotation prevention stopper 24) and rotation. prevention ribs 25 functioning correspondingly to the slip prevention claws 12 and 13 and the rotation prevention projections 14 of the cap 11.


That is, the mouth portion 21 of the container 20 has a hollow cylindrical portion 22 with an outer circumferential surface provided with the plurality of slip prevention claw engagement portions 23 with which the plurality of slip prevention claws 12 and 13 of the cap 11 engage, the slip prevention claw engagement portions 23 being as many as the plurality of slip prevention claws 12 and 13, each of the slip prevention claw engagement portions 23 engaging with the other slip prevention claws 13 has an end in a clockwise direction provided with the rotation prevention stopper 24 adjacently extending in an axial direction, and the mouth portion 21 further includes the rotation prevention ribs 25 extending in the axial direction, each the rotation prevention ribs 25 to be got over by a relevant one of the rotation prevention projections 14 of the cap 11 when the cap 11 is rotated.



FIG. 1 is a side view of the bayonet connection structure between the mouth portion 21 of the container 20 and a trigger pump dispenser 10 according to the present invention.


Note that, as depicted in FIG. 1, FIG. 11, and FIG. 12, the trigger pump dispenser 10 includes and a trigger pump dispenser 10′ rotatably and pivotally mounted on a case body 11′ supporting a pump (including an incorporation portion such as a cylinder, a piston, and a base portion).



FIG. 2 is a vertical sectional view of the bayonet connection structure between the mouth portion 21 of the container 20 and the cap 11 depicted in FIG. 1, depicting the state where an elastically-displaceable slip prevention claw and slip prevention claw engagement portions 23 of the mouth portion 21 engage with each other.



FIG. 3 and FIG. 4 depict the cap 11. The cap 11 includes one elastically-displaceable slip prevention claw 12, two slip prevention claws 13, and two rotation prevention projections 14 extending in the axial direction.



FIG. 5 and FIG. 6 depict the mouth portion 21. The mouth portion 21 has an outer circumference of the hollow cylindrical portion 22 provided with three slip prevention claw engagement portions 23, two rotation prevention stoppers 24 extending in the axial direction, and two rotation prevention ribs 25 extending in the axial direction.



FIG. 7 and FIG. 8 depict the state where the cap 11 fits in the mouth portion 21 in the axial direction.


When the cap 11 fits in the mouth portion 21 in the axial direction, with the elastically-displaceable slip prevention claw 12 and the slip prevention claws 13 of the cap 11 not interfering with the slip prevention claw engagement portions 23 of the mouth portion 21, the cap 11 fits in the mouth portion 21 in the axial direction.



FIG. 9 and FIG. 10 depict the state where the cap 11 is rotated in a clockwise direction after the cap fits in the mouth portion 21 the axial direction.


When the cap 11 is strongly rotated in the clockwise direction from the state of FIG. 7 and FIG. 8, the rotation prevention projections 14 of the cap 11 extending in the axial direction each get over a relevant one of the rotation prevention ribs 25 of the mouth portion 21 extending in the axial direction in the course of rotation.


Here, an operator operating the cap 11 feels a resistance in the course of rotation, such as a click feeling or a collision feeling.


Also, at approximately the same time when the rotation prevention projections 14 extending in the axial direction get over the rotation prevention ribs 25 similarly extending in the axial direction, an end of each of the two slip prevention claws 13 of the cap 11 abuts on a relevant one of the rotation prevention stoppers 24 of the mouth portion 21 extending in the axial direction (refer to FIG. 5 and FIG. 6).


With this, the cap 11 is positioned in a rotating direction.


Furthermore, here, the elastically-displaceable slip prevention claw 12 and the slip prevention claws 13 of the cap 11 each engage with a relevant one of the slip prevention claw engagement portions 23 of the mouth portion 21 to prevent the cap 11 from slipping in the axial direction.


The cap 11 does not easily rotate from this state in a direction of returning to an original position.


To return to an original position, it is required to strongly rotate the cap with force.



FIG. 11 and FIG. 12 depict a procedure of mounting the trigger pump dispenser 10 including the cap 11 on the container 20 including the mouth portion 21.



FIG. 11 depicts the state before the trigger pump dispenser 10 is moved in the axial direction as indicated by an arrow to be inserted in the container 20 including the mouth portion 21.


For example, in this state, the container is filled with liquid.



FIG. 12 depicts the state where, after the trigger pump dispenser 10 is inserted in the container 20, the trigger pump dispenser 10 is rotated in a clockwise direction as indicated by an arrow to he mounted on the container 20.


Here, as described, above, the end of each of the slip prevention claws 13 of the cap 11 abuts on the relevant one of the rotation prevention stoppers 24 of the mouth portion 21, and the elastically-displaceable slip prevention claw 12 and the slip prevention claws 13 of the cap 11 each engage with the relevant one of the slip prevention claw engagement portions 23 of the mouth portion 21 to be positioned.


Also, to fill the container with liquid, the trigger pump dispenser 10 is rotated in the counterclockwise direction in the state depicted in FIG. 12 and then is pulled out upward for liquid filling or refilling.


Meanwhile, the following connection method between the mouth portion 21 of the container 20 and the cap 11 different from the method described above can be thought.


After the container 20 is filled with liquid, by fixing the positions of the trigger pump dispenser 10 and the container 20 and merely pressing them as they are, both can be set.


That is, with the elastically-displaceable slip prevention claw 12 and the slip prevention claws 13 of the cap 11 and the slip prevention claw engagement portion 23 of the mouth portion 21 being aligned to correspond to each other, when the cap 11 is considerably strongly pressed into the mouth portion 21 of the container 20, the elastically-displaceable slip prevention claw 12 becomes to have a spring action. Also, since the slip prevention claw 13 has slight elasticity, the elastically-displaceable slip prevention claw 12 and the slip prevention claws 13 and the slip prevention claw engagement portions 23 can engage with each other without cursing each of claws 12 and 13.


Also, after the cap 11 is rotated in a reverse rotating direction with respect to the mouth portion 21 of the container 20, the cap 11 is pulled out in the axial direction, thereby filling the container 20 with liquid.


Note that after filling the container 20 with liquid, the cap 11 can be mounted on the mouth portion. 21 of the container 20 by the above-described method.


According to the bayonet connection structure between the mouth portion 21 of the container 20 and the cap 11 according to the embodiment of the present invention, the following effects can be provided.


In the bayonet connection structure between the mouth portion 21 of the container 20 and the cap 11 according to an embodiment of the present invention, the cap 11 includes the plurality of slip prevention claws 12 and 13 spaced apart from each other in a circumferential direction on an inner circumferential surface, one of the plurality of slip prevention claws 12 and 13 is the slip prevention claw 12 elastically displaceable in a radial direction, and the rotation prevention projection 14 extending in the axial direction is provided between the elastically-displaceable slip prevention claw 12 and each of the other slip prevention claws 13, and the mouth portion 21 of the container 20 has the hollow cylindrical portion 22 with an outer circumferential surface provided with the plurality of slip prevention claw engagement portions 23 with which the plurality of slip prevention claws 12 and 13 of the cap 11 engage, the slip prevention claw engagement portions 23 being as many as the plurality of slip prevention claws 12 and 13, each of the slip prevention claw engagement portions 23 engaging with the other slip prevention claws 13 has an end in a clockwise direction provided with the rotation prevention stopper 24 adjacently extending in the axial direction, and the mouth portion 21 further includes rotation prevention rib 25 extending in the axial direction, the rotation prevention rib 25 to be gotten over by the rotation prevention projection 14 of the cap 11 when the cap 11 is rotated. Therefore, a crush and abrasion of the rotation prevention stoppers 24 and the rotation prevention ribs 25 on the mouth portion 21 side of the container 20 can be prevented.


Also, the trigger pump dispenser 10 includes the case body 11′ supporting the pump, and the cap 11, and when the case body 11 and the cap 11 are integrally formed, the number of form blocks to form the case body 11′ and the cap 11 by using synthetic resin is less, thereby reducing manufacturing cost.


Furthermore, the trigger pump dispenser 10 includes the case body 11′ supporting the pump, and the cap 11, and when the case body 11′ and the cap 11 are formed of separate members and the case body 11′ and the cap 11 are mounted by fitting, the case body 11′ and the cap 11 can be each formed of a suitable synthetic resin.


The pump dispenser of the present invention can be also applied to a different type other than the trigger pump dispenser 10.


For example, FIG. 13 is a partially-sectional side view when the bayonet connection structure according to the present invention between a


mouth portion not shown of the container 20 and a cap 31 is applied to a push pump dispenser 30.


Note in FIG. 13 that the mouth portion is not viewable as being hidden by the cap 31.


Furthermore, the non-viewable mouth portion and the cap 31 are configured to be approximately identical to the mouth portion 21 and the cap 11 depicted in FIG. 1 to FIG. 12.


Still further, the trigger pump dispenser 10 and the push pump dispenser 30 can be naturally applied to those of a pressure accumulator type.


INDUSTRIAL APPLICABILITY

The bayonet connection structure between the container mount portion and the cap according to the present invention can be applied to other fields, such as cosmetic containers and coating containers, as long as the principles can be applied.


REFERENCE SIGNS LIST


10 . . . trigger pump dispenser



10′. . . trigger



11 . . . cap



11′. . . case body



12 . . . elastically-displaceable slip prevention claw



13 . . . slip prevention claw



14 . . . rotation prevention projection



20 . . . container



21 . . . mouth portion



22 . . . hollow cylindrical portion



23 . . . slip prevention claw engagement portion



24 . . . rotation prevention stopper



25 . . . rotation prevention rib



30 . . . push pump dispenser



31 . . . cap

Claims
  • 1. A bayonet connection structure between a mouth portion of a container where a pump dispenser is mounted via a cap, and the cap, wherein the cap includes a plurality of slip prevention claws spaced apart from each other in a circumferential direction on an inner circumferential surface, one of the plurality of slip prevention claws is a slip prevention claw elastically displaceable in a radial direction, and a rotation prevention projection extending in an axial direction is provided between the elastically-displaceable slip prevention claw and each of the other slip prevention claws, andthe mouth portion of the container has a hollow cylindrical portion with an outer circumferential surface provided with a plurality of slip prevention claw engagement portions with which the plurality of slip prevention claws of the cap engage, the slip prevention claw engagement portions being as many as the plurality of slip prevention claws, each of the slip prevention claw engagement portions engaging with the other slip prevention claws has an end in a clockwise direction provided with a rotation prevention stopper adjacently extending in the axial direction, and the mouth portion further includes a rotation prevention rib extending in the axial direction, the rotation prevention rib to be got over by the rotation prevention projection of the cap when the cap is rotated.
  • 2. The bayonet connection structure between the mouth portion of the container and the cap according to claim 1, wherein the number of the plurality of slop prevention claws are three, the number of rotation prevention projections is two, the number of the plurality of slip prevention claw engagement portions is three, the number of rotation prevention stoppers is two, and the number of rotation prevention ribs is two.
  • 3. The bayonet connection structure between the mouth portion of the container and the cap according to claim 1, wherein the pump dispenser includes a case body supporting a pump, and the cap, and the case body and the cap are integrally formed.
  • 4. The bayonet connection structure between the mouth portion of the container and the cap according to claim 1, wherein the pump dispenser includes a case body supporting a pump and the cap, the case body and the cap are formed of separate members, and the case body and the cap are mounted by fitting.
  • 5. The bayonet connection structure between the mouth portion of the container and the cap between according to claim 1, wherein the pump dispenser is a trigger pump dispenser.
  • 6. The bayonet connection structure between the mouth portion of the container and the cap according to claim 1, wherein the pump dispenser is a push pump dispenser.
  • 7. The bayonet connection structure between the mouth portion of the container and the cap according to claim 1, wherein the pump dispenser is a pressure accumulator pump dispenser.
Priority Claims (1)
Number Date Country Kind
2011-107708 May 2011 JP national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/JP2012/003096 5/11/2012 WO 00 11/8/2013