JP2007314253A - Vessel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent an inner vessel from dropping in a vessel constructed by combining an outer vessel and an inner vessel, to fill the outer vessel and the inner vessel with an agent in a state of their assembling, and to reduce an amount of waste parts. <P>SOLUTION: The vessel 10 includes the inner vessel 21 housed in the outer vessel 11, and the outer vessel 11 and the inner vessel 21 are combined by one combining member 30. The combining member 30 has an outer tube 30A, a middle tube 30B and an inner tube 30C arranged coaxially. A communication hole 35 formed at the bottom part of a recessed part 36 by the middle tube 30B and the inner tube 30C functions as a filling opening communicating with the outer vessel 11. One end opening of the inner tube 30C coaxially disposed with the opening of the inner vessel 21 functions as a filling opening to the inner vessel 21. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a container for discharging an agent such as liquid or powder.

  Conventionally, in a container in which an inner container is contained in an outer container, an outer nozzle coupled to the outer container and an inner nozzle coupled to the inner container are fitted to each other.

  (a) The outer container and the inner container are assembled through the fitting of the outer nozzle and the inner nozzle coupled to each of them, and if the fitting force between the outer nozzle and the inner nozzle is weak, the container is being transported or used. The two nozzles are disengaged from each other in two minutes, and the inner container falls off the outer container.

  (b) It is necessary to fill the outer container and the inner container with the agent before connecting the nozzles to the containers, and thus before assembling the outer container and the inner container. The outer container and the inner container cannot be filled with the agent in their assembled state.

  (c) The disposal form of the container remains in the assembled state from the beginning when the nozzles are coupled to the outer container and the inner container, and the amount of discarded parts is excessive.

  An object of the present invention is to prevent an inner container from dropping off, filling an outer container and an inner container with agents in an assembled state, and reducing the amount of discarded parts in a container in which the inner container is coupled to the outer container. There is.

  In the container according to claim 1, the inner container is housed in the outer container, and the outer container and the inner container are coupled by a single coupling member, and the coupling member includes an outer cylinder part, an intermediate cylinder part, and an inner cylinder part. A communication hole provided in the bottom of the recess formed by the intermediate cylinder part and the inner cylinder part is used as a filling opening communicating with the outer container, and one end opening of the inner cylinder part coaxial with the inner container opening is connected to the inner container. An outer peripheral annular attaching / detaching portion is provided on a nozzle body integrally provided inside an outer nozzle portion having an inner discharge port for the agent from the outer container and an inner nozzle portion having an inner discharge port for the agent from the outer container. The inner nozzle portion and the inner cylindrical portion of the coupling member are provided with a lower end seal portion of the inner discharge port in a state where the fitting portion provided on the coupling member is detachable and the nozzle body is attached to the coupling member. It is.

  1 is a schematic view showing a container according to the first embodiment, FIG. 2 is an enlarged cross-sectional view of a main part of the container according to the first embodiment, FIG. 3 is a schematic view showing a filling state of the container, and FIG. FIG. 5 is a schematic diagram showing the state of attachment of the closure body to the container, FIG. 6 is a schematic view showing the state of attachment of the closure body to another container, and FIG. 7 is the second embodiment. It is a principal part expanded sectional view of this container.

First Embodiment (FIGS. 1 to 6)
The container 10 is composed of at least one agent A (or B) of two agents A and B having different properties that react when mixed. The agent A or B contains a surfactant (for example, a detergent or a detergent containing a surfactant). This is a two-agent discharge container for simultaneously discharging an alkaline agent and an oxygen-based bleach containing a surfactant. As shown in FIG. 1, the container 10 has an inner container 21 with one end opened in an outer container 11 with one end opened, and the outer container 11 and the inner container 21 are coupled by a single coupling member 30. That is, the driving portion 31 of the coupling member 30 is driven and coupled to the driving portion 11A of the opening portion of the outer container 11, and the inner peripheral screw portion of the coupling member 30 is sealed to the screw portion 21A of the opening portion of the inner container 21. 32 is screwed and sealed.

  As shown in FIGS. 1 and 2, the container 10 is configured such that the nozzle body 40 can be attached to and detached from the coupling member 30 by an outer peripheral annular attaching / detaching portion. The nozzle body 40 has a trumpet-shaped outer discharge port 41 that divides and discharges the agent from the outer container 11 through the communication hole 35 provided in the coupling member 30, and a trumpet shape that liquefies and discharges the agent from the inner container 21. This is an integrally molded product including the inner discharge port 42. The nozzle body 40 is screwed and coupled to an outer peripheral threaded portion (fitting portion) 33 of the coupling member 30 by screwing a threaded portion 43 as an outer circumferential annular detachable portion that is coaxial with the outer discharge port 41 and attached to the coupling member 30 in a liquid-tight manner. In addition, the outer seal portion 44A facing the screw portion 43 can be liquid-tightly contacted with the outer peripheral seal portion 34A of the coupling member 30, and the lower end seal portion 44B of the inner discharge port 42 is connected to the inner periphery of the coupling member 30. It is possible to make liquid-tight contact with the seal portion 34B.

  The container 10 is integrally provided with a driving portion 51 of the partition member 50 driven into and combined with a driving portion 45 provided on the inner peripheral side with respect to the screw portion 43 of the nozzle body 40.

  In the container 10, a screw portion 61 of a measuring cap 60 is detachably screwed and coupled to a screw portion 52 of a partition member 50 integrated with the nozzle body 40 as described above. The outer container 11 and the inner container 21 are loaded with two agents A and B having different properties, and the agents A and B are moved to the outer discharge port 41 and the inner discharge port of the nozzle body 40 by tilting the container 10. 42 can be discharged simultaneously and mixed with a measuring cap 60.

  In the container 10, the agent recovery means 70 is provided in the nozzle body 40. In the agent recovery means 70, the portion that connects the outer discharge port 41 of the nozzle body 40 to the driving portion 45 is a concave agent recovery portion 71, and the recess that connects the inner peripheral screw portion 32 of the coupling member 30 to the outer peripheral screw portion 33. The agent recovery part 71 is inserted and disposed in the recess 36. The liquid dripped from the outer discharge port 41 and the inner discharge port 42 of the nozzle body 40 is recovered by the agent recovery unit 71. The partition member 50 is coupled to the nozzle body 40 as described above, and is provided on the outer periphery of the outer container 11 and the discharge ports 41 and 42 of the inner container 21 and the agent recovery unit 71. The partition member 50 includes an annular agent introduction recess 53 for introducing an agent dripping from the measurement cap 60 and the discharge ports 41 and 42 on the outer periphery, and the agent introduction recess 53 is formed by a hole-like or slit-like communication port 54. The communication port 54 is allowed to communicate with the inner peripheral side agent recovery unit 70, and the communication port 54 is disposed in the circumferential direction of the partition member 50 with the discharge ports 41, 42 interposed therebetween (the discharge port 41, 42). The annular sub-discharge port 55 connected to the inner-side agent recovery part 70 is formed above the agent introduction recess 53 so as to be provided in a part located on the opposite side to the part in the pouring direction side). The container 10 is a means for informing the user of the pouring direction of the container 10 by providing a gripping part such as a handle indicating this direction on the anti-pouring direction side of the outer surface of the outer container 11. The position of the communication port 54 provided in the partition member 50 may be regarded as the anti-pouring direction side to know the pouring direction side of the container 10.

  The outer container 11, the inner container 21, the coupling member 30, the nozzle body 40, the partition member 50, and the measuring cap 60 are made of a resin molded product.

  The coupling member 30 is a cylindrical body that has an outer cylindrical portion 30A, an intermediate cylindrical portion 30B, and an inner cylindrical portion 30C coaxially. The outer cylindrical portion 30A has a driving portion 31 to the outer container 11 (driving portion 11A), and a nozzle body 40. An outer peripheral threaded portion 33 (with an outer peripheral annular attaching / detaching portion) and an outer peripheral seal portion 34A with the nozzle body 40 (outer seal portion 44A) are provided, and the inner cylinder portion 30C is connected to the inner container 21 (screw portion 21A). And the inner peripheral seal portion 34B with the nozzle body 40 (lower end seal portion 44B), the intermediate cylindrical portion 30B and the inner cylindrical portion 30C form a recess 36, and the communication hole 35 is formed at the bottom of the recess 36. Is forming. A reinforcing rib 37 is provided at the bottom of the recessed portion 36.

  The nozzle body 40 is a cylinder body having a screwed cylinder portion 40A, a driving cylinder portion 40B, an outer nozzle portion 40C, and an inner nozzle portion 40D. The screwed cylinder portion 40A is connected to the coupling member 30 (the outer peripheral screw portion 33). The threaded portion 43, the driven cylinder portion 40B have an outer seal portion 44A with the coupling member 30 (peripheral seal portion 34A), the driven portion 45 with the partition member 50 (drive portion 51), and the outer nozzle portion 40C has an outer discharge port 41. The inner nozzle part 40D is provided with an inner discharge port 42 and a lower end seal part 44B, and an agent collecting part 71 is formed by the driving cylinder part 40B and the outer nozzle part 40C. A flow guide 46 for the outer discharge port 41 is provided between the outer nozzle portion 40C and the inner nozzle portion 40D, and a flow guide 47 for the inner discharge port 42 is provided inside the inner nozzle portion 40D.

  The partition member 50 is a cylinder having a driving cylinder part 50A and a sub-discharge cylinder part 50B coaxially. The driving cylinder part 50A has a driving part 51 for the nozzle body 40 (driving part 45), and a sub-discharge cylinder part. 50B is provided with a threaded portion 52 and a sub discharge port 55 with a measuring cap 60 (threaded portion 61). The partition member 50 includes an annular seal portion 56 in which the measuring cap 60 is sealed to the driving cylinder portion 50 </ b> A. The aforementioned agent introduction recess 53 is formed inside the annular seal portion 56, and is coupled to the outside of the annular seal portion 56. A flange portion 57 that is sealed to the member 30 is provided.

  The measuring cap 60 has a cylindrical shape and includes an outer peripheral seal portion 62 that seals the annular seal portion 56 of the partition member 50 on the outer periphery of the base end. The measuring cap 60 includes a screw portion 61 that is screwed to the screw portion 52 of the partition member 50 on the back side of the ceiling, and seal portions 64 and 65 that are sealed to the discharge ports 41 and 42 of the nozzle body 40, respectively.

  Here, the nozzle body 40 of the container 10 has the discharge ports 41 and 42 as the cylindrical bodies as described above, and their central axes are arranged concentrically. An annular gap between the outer discharge port 41 and the inner discharge port 42 becomes a flow path for the agent A of the outer container 11.

  Further, the nozzle body 40 of the container 10 has a trumpet shape in which the inner discharge port 42 protrudes outward from the outer discharge port 41 in the axial direction, and each of the outer discharge port 41 and the inner discharge port 42 opens outward.

  Moreover, the container 10 also makes the outer container 11 and the inner container 21 into a cylinder, and arrange | positions the central axis of those nozzle bodies concentrically.

The container 10 is assembled as follows.
(1) The outer container 11 and the inner container 21 are coupled by the coupling member 30 (FIG. 1).

  (2) The contents of the assembly according to the above (1) of the outer container 11 and the inner container 21 are filled. The inner container 21 is filled with the agent B (FIG. 3 (1)), and the outer container 11 is filled with the agent A (FIG. 3 (2)).

  (3) An assembly of the nozzle body 40, the partition member 50, and the measuring cap 60 (or a closing lid 80, which will be described later) is assembled to the coupling member 30 of the above (2) to form the product container 10 (FIG. 4).

  Further, as shown in FIGS. 1 and 5, the container 10 is configured such that a closing lid 80 can be attached to and detached from the coupling member 30. The closure lid 80 has a cylindrical cylindrical shape, includes a screw portion 81 to the coupling member 30 (outer peripheral threaded portion 33) on the inner periphery of the base end, and the coupling member 30 (the outer peripheral seal portion 34A of the outer cylindrical portion 30A) on the back side of the ceiling. ) And a seal portion 83 with the coupling member 30 (the inner peripheral seal portion 34B of the inner cylinder portion 30C).

  Therefore, in the container 10, the outer container 11 and the inner container 21 filled with the agents A and B are combined with the closing lid 80 to the connecting member 30 in the manufacturing stage, and the distribution form (FIG. 5) is used. A configuration in which the closing lid 80 is removed and the assembly of the nozzle body 40 (the partition member 50 and the measuring cap 60) is replaced with the coupling member 30 can be used (FIG. 4). Further, in the disposal stage after use of the container 10, a configuration in which the assembly of the nozzle body 40 (partition member 50, measuring cap 60) is removed and the closing lid 80 is replaced with the coupling member 30 is the disposal form (same as FIG. 5). The assembly of the removed nozzle body 40 (partition member 50, measuring cap 60) is a reused product for a new container 10.

  In addition, the closing lid 80 can be used for the container 10A which is used up by one opening of other varieties and does not require weighing (FIG. 6).

According to this embodiment, there are the following operations.
(a) Since the outer container 11 and the inner container 12 are coupled by a single coupling member 30 and the coupling member 30 does not divide into two parts, the outer container 11 and the inner container 21 are two parts of the coupling member 30. Therefore, the inner container 21 can be prevented from falling off.

  (b) In a state where the outer container 11 and the inner container 21 are assembled by the coupling member 30 and the nozzle body 40 is not yet assembled, the outer container 11 and the contents are kept while the outer container 11 and the inner container 21 are assembled. A large filling opening without the nozzle body 40 can be secured in each of the containers 21, and the respective agents 11 and 21 can be filled with the agent in their assembled state. Therefore, the filling productivity can be improved.

  (c) Since the nozzle body 40 can be attached to and detached from the coupling member 30, the container 10 can be easily discarded by removing the nozzle body 40, the partition member 50, and the measuring cap 60 from the container 10. The partition member 50 and the measuring cap 60 can be reused.

  (d) The remaining liquid at the previous measurement remaining in the measurement cap 60 can be recovered by the agent recovery means 70.

  (e) The remaining liquid at the previous measurement remaining in the measurement cap 60 is introduced from the measurement cap 60 into the agent introduction recess 53 on the outer peripheral side of the partition member 50, and is collected in the agent collection unit 71 through the communication port 54. . When the container 10 is tilted at the next use of the container 10, the collected agent collected in the agent collecting unit 711 is discharged from the sub discharge port 55 along the inner surface of the partition member 50. Since the auxiliary discharge port 55 is formed so as to rise, even if the inclination angle of the container 10 is shallow, such as 0 ° to 5 °, the discharge port 41, 42 can be poured out together with the discharge agents A and B from 42.

  (f) The communication port 54 communicating from the outer peripheral side to the inner peripheral side of the partition member 50 is located at a site opposite to the pouring direction side site of the container 10 across the discharge ports 41 and 42. When the container 10 is tilted in the pouring direction, the collected agent collected in the agent collecting portion 71 does not leak to the outer surface side of the partition member 50 through the communication port 54.

  (g) When the contents A and B of the container 10 contain a surfactant, the recovered surfactant that has been introduced from the agent introduction recess 53 and recovered in the agent recovery section 71 is not dripped down and contaminated. The liquid can be poured out together with the discharge agents A and B from the discharge ports 41 and 42 toward the target portion.

(Other effects)
(h) Since the nozzle body 40 is an integrally molded product including the outer discharge port 41 and the inner discharge port 42, the nozzle body 40 can be made into a single part and the assembly productivity of the container 10 can be improved.

  (i) Since the closing lid 80 and the nozzle body 40 can be replaced with the coupling member 30 of the container 10, the closing lid 80 is used in the distribution stage and the disposal stage of the container 10, and the nozzle body 40 and the partition are used in the use stage. By using the assembly of the member 50 and the measuring cap 60, the complicated and expensive nozzle body 40 and the like can be reused repeatedly by the user.

Second Embodiment (FIG. 7)
The container 10 of the second embodiment is different from the container 10 of the first embodiment in the attachment / detachment structure of the nozzle body 40 and the partition member 50 to the coupling member 30.

  In the container 10 of the second embodiment, after removing the screw-in cylinder part 40A of the nozzle body 40 and driving and coupling the driving cylinder part 50A of the partition member 50 to the driving cylinder part 40B of the nozzle body 40, A screw-in cylinder part 50C newly provided around the driving cylinder part 50A in the partition member 50 is screwed into the outer peripheral screw part 33 of the coupling member 30 so as to be detachable from the coupling member 30 in a liquid-tight manner.

Drawing 1 is a mimetic diagram showing the container of a 1st embodiment. FIG. 2 is an enlarged cross-sectional view of a main part of the container according to the first embodiment. FIG. 3 is a schematic view showing a filling state of the container. FIG. 4 is a schematic view showing a state in which the nozzle body is attached to the container. FIG. 5 is a schematic view showing a state where the closure body is attached to the container. FIG. 6 is a schematic view showing a state where the closure body is attached to another container. FIG. 7 is an enlarged cross-sectional view of a main part of the container according to the second embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Container 11 Outer container 21 Inner container 30 Coupling member 40 Nozzle body 41 Outer discharge port 42 Inner discharge port 43 Outer periphery attaching / detaching part (screw part)
50 Partition member 53 Agent introduction recess 54 Communication port 55 Sub discharge port 60 Measuring cap 70 Agent recovery means 71 Agent recovery unit

Claims (6)

The inner container is placed in the outer container, and the outer container and the inner container are coupled by a single coupling member.
The coupling member has an outer cylinder part, an intermediate cylinder part, and an inner cylinder part coaxially, and a communication hole provided in a bottom part of a recess formed by the intermediate cylinder part and the inner cylinder part serves as an opening for filling communicating with the outer container, One end opening of the inner cylindrical portion coaxial with the opening of the inner container is used as an opening for filling the inner container,
An outer peripheral annular attaching / detaching portion is provided in the coupling member on the nozzle body integrally provided inside the outer nozzle portion having the inner discharge port for the agent from the inner container and the outer nozzle portion having the outer discharge port for the agent from the outer container. Make it detachable from the fitting part,
In a state where the nozzle body is attached to the coupling member, the inner nozzle portion and the inner cylindrical portion of the coupling member are provided with a lower end seal portion of the inner discharge port.   The container according to claim 1, wherein a measuring cap is detachable from the nozzle body.   The container according to claim 1, wherein agent recovery means is provided on the nozzle body.   The agent recovery means is provided with an agent recovery portion at a lower portion on the outer peripheral side of the outer nozzle portion, a partition member is provided above the agent recovery portion provided at the outer nozzle portion, a measuring cap is detachably provided on the partition member, The container according to claim 3, further comprising an agent introduction recess for introducing the residual liquid of the measuring cap on the outer peripheral side, and the agent introduction recess having a communication port communicating with the agent recovery unit. Means for informing the pouring direction of the container, and means for informing the pouring direction of the communication port of the agent introduction recess of the partition member across the outer discharge port in the circumferential direction of the partition member Prepare for the part located on the opposite side of the direction part,
The container according to claim 4, wherein a secondary discharge port formed by a partition member continuous with the agent recovery unit is formed upright from the agent introduction recess.   The container in any one of Claims 1-5 in which the content of the said container contains surfactant.

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