JP2016190668A - Double container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To propose a double container capable of easily switching characteristics of a content liquid poured therefrom.SOLUTION: In a double container of the invention, a spout cap 3 is provided with: an air passage connecting a vent hole 2e with a foam body 8; a liquid outlet 7b which enables a content liquid flowing out from an inner layer body 1 to be poured to the outside through a liquid passage that does not pass through the foam body 8; a foam outlet 6d which enables the content liquid flowing out from the inner layer body 1 to be poured to the outside through a foam passage that passes through the foam body 8; and an opening/closing body 11 which may open or close the liquid outlet 7b.SELECTED DRAWING: Figure 1

Description

  The present invention comprises a volume-reducible inner layer body that contains the content liquid, and an outer layer body that forms the outer shell of the container by accommodating the inner layer body inside, and only the inner layer body is provided as the content liquid is dispensed. The present invention relates to a double container for volume reduction, and particularly to a technique capable of switching the properties of the content liquid to be poured out.

  As a container to store cosmetics such as lotion, shampoo, rinse or liquid soap, food seasoning or chemicals, etc. 2. Description of the Related Art A double container (also referred to as a delamination container or a delamination container) including an outer layer body that forms an outer shell of the container is known. According to such a double container, the content liquid can be poured out by pressing the body part of the outer layer body, and after releasing the pressure, the body part of the outer layer body is restored and the inner layer body and the outer layer body are restored. It is possible to reduce the volume of only the inner layer body by introducing outside air to the body. As such a double container, Patent Document 1 discloses a squeeze-type container in which the content liquid can be mixed with air and poured out in the form of foam.

JP 2009-149327 A

  By the way, even if it is a container which can be poured out in the form of foam, depending on the intended use, it may be preferable to pour out directly in a liquid state. For this reason, the new double container which can switch easily the property of the content liquid to pour by simple operation is calculated | required.

  In order to solve such a problem, the present invention has a state in which the content liquid can be directly poured out in a liquid state, and a state in which the content liquid can be mixed with air to be poured out in a foam state. The aim is to propose a new double container that can be easily switched.

The present invention includes a volume-reducible and deformable inner layer body that contains a content liquid, and an outer layer body that has a vent hole that penetrates the peripheral wall of the mouth and forms an internal space between the inner layer body and the vent hole. A double container comprising a pouring cap that surrounds the vent and is attached to the peripheral wall of the mouth,
The dispensing cap is
A foam that foams the content liquid by allowing the content liquid of the inner layer body and the air in the internal space to pass along with the pressure on the outer layer body,
An air passage connecting the vent and the foam;
A liquid outlet for pouring out the content liquid flowing out of the inner layer body to the outside through a liquid passage not passing through the foam;
A foam pouring outlet for pouring the content liquid flowing out from the inner layer body to the outside through a foam passage passing through the foam;
It is a double container provided with the opening-closing body which can open and close the said liquid injection outlet.

  The opening / closing body is disposed at an interval in the circumferential direction connecting the cylindrical wall and the closing plate, a cylindrical wall that can be attached to and detached from the foam outlet, a closing plate that can close the liquid outlet. It is preferable to provide a plurality of connecting pieces.

The dispensing cap includes a foam dispensing cylinder that extends in a direction along the central axis of the outer layer body and has the foam dispensing outlet at an end opposite to the inner layer body side,
It is preferable that the cylinder wall of the opening / closing body is connected to the bubble dispensing cylinder via an opening / closing body hinge.

The opening / closing body includes a lid body capable of closing an end portion of the cylindrical wall opposite to the inner layer body side in a state of being attached to the foam pouring outlet,
The lid is preferably connected to the cylindrical wall via a lid hinge.

The air path includes an air communication port between the vent and the foam,
The air passage is closed when the one side surface of the outer layer body is displaced to a one-side inclined posture in the air path toward the vertically lower side, and the one side surface is opposed to the one side with the central axis of the outer layer body interposed therebetween. It is preferable to provide an air moving valve that opens the air communication port when the other side surface is displaced to the other side inclined posture in which the other side surface is directed vertically downward.

The opening / closing body hinge is disposed on the other side surface;
It is preferable that the lid hinge is disposed on the one side surface.

  According to the present invention, when the opening / closing body opens the liquid outlet, the content liquid can be poured out from the liquid outlet to the outside through the liquid passage that does not pass through the foam. In addition, by closing the liquid injection port with an opening / closing body, air is supplied from the vent through the air passage to the foam, while the content liquid is mixed with air via the foam to form a foam. Can be poured out from the spout. That is, the property of the content liquid to be dispensed can be switched by a simple operation simply by changing the open / closed state of the liquid pouring outlet by the opening / closing body, which improves usability.

It is a partial expanded sectional view in side view which shows one Embodiment of the double container according to this invention. It is a figure explaining the situation which makes the state which opened and closed the liquid pouring outlet, and pours the content liquid in the state of liquid. It is a figure explaining the situation which closes a liquid pouring opening with an opening-and-closing body, and pours out the contents liquid in the shape of a bubble. It is a partial expanded sectional view in side view which shows other embodiment of the double container according to this invention. It is a figure explaining the situation which makes the state which opened and closed the liquid pouring outlet, and pours the content liquid in the state of liquid. It is a figure explaining the situation which closes a liquid pouring opening with an opening-and-closing body, and pours out the contents liquid in the shape of a bubble.

  Hereinafter, the present invention will be described more specifically with reference to the drawings. In the present specification, claims, and abstract, the term “above” refers to bubble injection with respect to the peripheral wall of the mouth of the outer layer body in a state where the outer layer body is in an upright posture as shown in FIG. The side on which the exit is located, and “below” is the opposite side. In addition, the “one side surface of the outer layer body” is the left side surface (indicated by symbol A in the drawing) of the outer layer body in FIGS. 1 and 4, and the “other side surface of the outer layer body” is the same as FIGS. 4 is the right side surface of the outer layer body (indicated by B in the figure).

  FIG. 1 shows one embodiment of a double container according to the present invention. The double container of the present embodiment includes an inner layer body 1 that stores the content liquid, an outer layer body 2 that houses the inner layer body 1 inside, and a dispensing cap 3 that is attached to the outer layer body 2. The pouring cap 3 includes an inner plug 4, a base 5, and a nozzle head 6. Further, the inner plug 4, the base 5, and the nozzle head 6 are provided with a holder 7, a foam 8, a liquid check valve 9, and an outdoor air introduction moving valve 10.

  The inner layer body 1 includes a storage space S for storing the content liquid and an upper opening 1a connected to the storage space S. The inner layer body 1 is made of a thin synthetic resin and can be deformed and reduced in volume.

  The outer layer body 2 is formed by connecting a cylindrical mouth portion peripheral wall 2a to a body portion 2b having reversible flexibility and a bottom portion 2c for closing the lower end of the body portion 2b. A male screw portion 2d is provided on the outer surface of the mouth peripheral wall 2a. In addition, a through-hole (vent hole) 2e for taking in air into the internal space N formed between the inner peripheral body 1 and the vent hole 2e is provided on the outer peripheral wall 2a. Is provided with a groove portion 2f in which the male screw portion 2d is cut out in the vertical direction. The groove 2f functions as a passage for air that flows out of or flows into the vent 2e, but is not necessarily provided, for example, between the male screw 2d and a female screw described later. It is also possible to allow air to enter and exit using the gap formed in the bottom.

  In this embodiment, the inner layer body 1 and the outer layer body 2 are made by laminating synthetic resins having low compatibility with each other in a peelable manner. Although not shown in the figure, between the inner layer body 1 and the outer layer body 2, there is provided one or a plurality of adhesive bands that extend in the vertical direction and partially join the inner layer body 1 and the outer layer body 2 May be. The inner layer body 1 and the outer layer body 2 can be obtained by blow molding a parison in which the synthetic resin material of the inner layer body 1 and the synthetic resin material of the outer layer body 2 are laminated. Alternatively, the preform formed in the test tube may be formed by biaxial stretch blow molding, or the outer layer body and the inner layer body may be formed separately, and then the inner layer body may be mounted in the outer layer body.

  The inner plug 4 includes a plate-like partition wall 4 a that covers the upper opening 1 a of the inner layer body 1. A liquid outlet 4b communicating with the inner layer body 1 is formed at the center of the partition wall 4a. In addition, a cylindrical seal wall 4c is provided on the lower surface of the partition wall 4a so as to sandwich the inner layer body 1 between the inner surface of the mouth peripheral wall 2a.

The upper surface of the partition wall 4a is provided with a recess 4d that is open upward. Further, on the outer side in the radial direction with respect to the recess 4d, an upper wall 4e provided at a distance from the partition wall 4a and a connecting wall 4f for connecting the partition wall 4a and the upper wall 4e are provided. Here, the connecting wall 4f is provided with a through hole 4j that penetrates the connecting wall 4f in the radially inner and outer directions at the center in the vertical direction.

  The base 5 includes a cylindrical outer peripheral wall 5a that surrounds the vent hole 2e and that has a lower end portion hermetically contacting the outer surface of the mouth peripheral wall 2a. A female screw portion 5b corresponding to the male screw portion 2d is provided on the inner surface of the outer peripheral wall 5a. In addition, you may make it hold | maintain by undercut instead of a screw | thread. A top wall 5c extending radially inward is provided on the upper portion of the outer peripheral wall 5a. The top wall 5c is provided with a recess 5d that opens in an annular shape centering on the central axis O. The recess 5d is provided with a through hole (outside air communication port) 5e. Yes. A cylindrical inner peripheral wall 5f extending downward is provided at the inner edge of the top wall 5c.

  The nozzle head 6 has an outer shape continuous to the outer peripheral wall 5a of the base 5, and includes a peripheral wall 6a that is retained by the outer peripheral wall 5a, an upper wall 6b that is integrally connected to the upper portion of the peripheral wall 6a, and an upper wall 6b. A cylindrical foam extraction cylinder 6c extending upward is provided. The upper end of the bubble pouring cylinder 6c is open, and a bubble pouring outlet 6d is formed here. An annular guide wall 6e that enters the recess 5d is provided on the lower surface of the upper wall 6b, and a through hole (outside air inlet) 6f that penetrates the upper wall 6b is provided on the inner side of the guide wall 6e. Yes.

  A holder 7 is provided between the base 5 and the inner plug 4. The holder 7 includes a cylindrical liquid dispensing cylinder 7 a extending in a direction along the central axis O. The upper end of the liquid dispensing cylinder 7a is open, and a liquid dispensing outlet 7b is formed here.

  The lower end of the liquid pouring cylinder 7a is connected to a plate-like wall 7c extending outward in the radial direction, and the plate-like wall 7c is provided with an opening 7d penetrating the plate-like wall 7c in the vertical direction. ing. In the present embodiment, the opening 7d communicates with the liquid outlet 4b provided in the partition wall 4a.

  An annular wall 7e is provided on the outer edge of the plate-like wall 7c. The lower end of the annular wall 7e is fitted in the recess 4d. The upper end of the annular wall 7e is in a state where a gap is provided between the lower surface of the top wall 5c and the outer peripheral surface of the inner peripheral wall 5f (in this embodiment, the lower surface of the top wall 5c and the outer peripheral surface of the inner peripheral wall 5f). Are provided on the top wall 5c and the inner peripheral wall 5f. The gap formed between the lower surface of the top wall 5c and the outer peripheral surface of the inner peripheral wall 5f and the upper end portion of the annular wall 7e is hereinafter referred to as a passage t1.

  Further, a thin valve body 7f extending outward in the radial direction is provided on the outer peripheral surface of the annular wall 7e. The valve body 7f is in airtight contact with the upper surface of the upper wall 4e in a normal state, but is separated from the upper wall 4e due to an increase in pressure on the upper wall 4e side.

  A foam 8 is disposed on the radially outer side of the liquid dispensing cylinder 7a. The foam 8 has a large number of gaps inside such as sponge, felt, and sintered porous body. Various shapes can be applied to the foam 8, but in the present embodiment, a stepped annular foam having a larger diameter at the bottom than the top is used. In addition, you may use the cyclic | annular foam which abbreviate | omits the large diameter lower part and becomes the same outer diameter.

  A liquid check valve 9 is provided at the liquid outlet 4b. The liquid check valve 9 includes an annular portion 9a held between the partition wall 4a and the plate-like wall 7c. On the radially inner side of the annular portion 9a, an inner valve portion 9b that closes the liquid outlet 4b in a steady state and opens the liquid outlet 4b when the pressure in the accommodation space S increases is provided. In the illustrated example, the inner valve portion 9b is a three-point valve that is integrally connected to the annular portion 9a via an elastically deformable arm, but may be a one-point valve or a two-point valve.

  In addition, a spherical outside air introduction moving valve 10 is disposed inside the guide wall 6e. The outside air introduction moving valve 10 can move between the upper surface of the top wall 5c and the lower surface of the upper wall 6b along the guide wall 6e.

  The nozzle head 6 is provided with an opening / closing body 11 that can open and close the liquid injection port 7b. The opening / closing body 11 includes a cylinder wall 11b that is connected to the bubble dispensing cylinder 6c via a hinge (opening / closing body hinge) 11a and is detachable from the bubble outlet 6d. The opening / closing body 11 includes a circular closing plate 11c that can be fitted into the liquid pouring outlet 7b to close the liquid pouring outlet 7b. The cylindrical wall 11b and the closing plate 11c are connected to each other by a plurality (four in this example) of connecting pieces 11d arranged at intervals in the circumferential direction.

  The opening / closing body 11 includes a lid 11e that can close the upper end of the cylindrical wall 11b (the upper end when the cylindrical wall 11b is attached to the bubble outlet 6c). The lid 11e has a top cylindrical shape, and the peripheral wall is connected to the cylindrical wall 11b via a hinge (lid hinge) 11f. The lid hinge 11f is arranged on one side A side of the outer layer body 2, and the opening / closing body hinge 11a is arranged on the other side B side of the outer layer body 2.

  Further, an operation piece 11g extending to the one side surface A side of the outer layer body 2 is provided on the outer peripheral surface of the cylindrical wall 11b, and the outer surface of the peripheral wall portion of the lid body 11e extends to the other side surface B side of the outer layer body 2. An operation piece 11h is provided. The operation piece 11g is used as an operation unit when the opening / closing body 11 is rotated via the opening / closing body hinge 11a. Further, as shown in FIG. 2, the operating piece 11h is engaged with the upper surface of the upper wall 6b when the opening / closing body 11 is rotated through the opening / closing body hinge 11a with the lid 11e closed. Thus, it functions as a stopper for holding the open state of the opening / closing body 11. The operation piece 11h is used as an operation unit when the lid 11e is rotated via the lid hinge 11f. As shown in FIG. 3, when the lid 11e is opened, the operation piece 11g is engaged with a protrusion formed on the peripheral wall portion of the lid 11e so as to keep the lid 11e open. It has become.

  As shown in FIG. 1, the inside of the pouring cap 3 includes the vent 2e through the groove 2f, the gap between the partition wall 4a and the upper wall 4e, the through hole 4j, the separated valve body 7f and the upper part. A gap formed between the wall 4e and an air path reaching the foam 8 via the passage t1 is formed. Here, the air path is also connected to an outside air introduction path that leads to the outside air introduction port 6f and the outside air communication port 5e.

  Further, inside the dispensing cap 3, there are a liquid passage from the liquid outlet 4b to the liquid outlet 7b, and a bubble passage from the liquid outlet 4b through the opening 7d to the foam outlet 6d via the foam 8. Is formed.

  When the contents are poured out from the double container having such a configuration in a liquid state, as shown in FIG. 2, the liquid outlet 7 b is opened by the opening / closing body 11. The side surface A is displaced to the one side inclined posture with the downward direction. As a result, the transfer valve 10 for introducing the outside air is seated on the lower surface of the upper wall 6b and closes the outside air introduction port 6f, so that the outside air introduction path is blocked, and the air leaks out to the outside in the internal space N. Is blocked. When the body portion 2b of the outer layer body 2 is pressed, the storage space S is pressurized through the air in the internal space N, the liquid check valve 9 opens the liquid outlet 4b, and the content liquid in the storage space S Since it reaches from the liquid outlet 4b to the liquid outlet 7b without going through the foam 8, it can be poured out in a liquid state. At this time, the elastic force of the valve, the cross-sectional area of the air passage, the cross-sectional area of the liquid passage, etc. should be set appropriately so that the valve element 7f is more difficult to open than the liquid check valve 9. Or by setting the cross-sectional area and length of the passage t1 appropriately so that the resistance of the air flow path is sufficiently larger than the resistance of the liquid passage even if the valve body 7f is opened, Usability can be improved by suppressing air leakage through the foam 8 when the body 2b is pressed and reducing the pressing force required to pour out the inner solution.

  Further, when the contents are poured out in the form of foam, as shown in FIG. 3, the liquid outlet 7 b is closed by the opening / closing body 11, the lid body 11 e is opened, and the outer layer body 2, for example, The side surface B is displaced to the other side inclined posture with the downward direction. As a result, the outside air introduction moving valve 10 is seated on the lower surface of the upper wall 6b in the same manner as in the one-side inclined posture, and the outside air introduction port 6f is closed. When the body portion 2b of the outer layer body 2 is pressed, the storage space S is pressurized through the air in the internal space N, the liquid check valve 9 opens the liquid outlet 4b, and the content liquid in the storage space S Flows into the foam 8 from the liquid outlet 4b through the opening 7d. At this time, the air in the inner space N is air gaps 2e, grooves 2f, gaps between the partition walls 4a and the upper wall 4e, through holes 4j, gaps formed between the separated valve element 7f and the upper wall 4e. , And flows into the foam 8 via the passage t1. Thereby, since the content liquid is mixed with air in the foam 8 and foamed, the foam-like content liquid can be poured out from the foam outlet 6d.

  After the content liquid is poured out, the pressure on the body of the outer layer body 2 is released to change the posture of the outer layer body 2 to the original upright posture (see FIG. 1). Thereby, since the movement valve 10 for introducing outside air is separated from the lower surface of the upper wall 6b, the outside air introduction port 6f is opened. And since the outer layer body 2 tries to return to its original shape by its own restoring force and the internal space N is in a negative pressure state, the outside air flows from the outside air introduction port 6f to the outside air communication port 5e, the groove portion 2f, and the ventilation port. 2e is introduced into the internal space N. Thereby, it is possible to restore only the outer layer body 2 while reducing the volume of the inner layer body 1. In addition, since the valve body 7f is seated on the upper wall 4e, the foam-like content liquid contained in the foam body 8 does not flow backward toward the internal space N.

  Next, another embodiment of the double container according to the present invention will be described with reference to FIGS. As shown in FIG. 4, the double container of the present embodiment is different from the above-described embodiment in that the through hole 4j is configured as an air communication port 4k that is opened and closed by the air moving valve 12. Others have the same configuration. In the present embodiment, the connecting wall 4f has a protruding portion (air moving valve seating portion) 4l that protrudes from one side of the partition wall 4a and the upper wall 4e to the other side of the air communication port 4k. I have.

  According to the double container having such a configuration, the content liquid can be poured out in a liquid state as in the case of the above-described embodiment. In addition, as shown in FIG. 5, when the one side surface A of the outer layer body 2 is displaced downward to the one-side inclined posture as shown in FIG. Since the air communication port 4k is closed by being seated on 4l, the air path is blocked and the flow of air to the foam 8 is blocked. Therefore, the pressing force with respect to the body part 2b of the outer layer body 2 required for pouring the inner solution can be reduced, and the usability can be improved. In this embodiment, since the opening / closing body hinge 11a is disposed on the other side surface B side of the outer layer body 2, when the opening / closing body 11 is tilted in the direction in which it is most difficult to prevent the inner solution from being poured out, as described above. Since one side A of the outer layer body 2 faces downward, the air communication port 4k is reliably closed by the air moving valve 12.

  In addition, when the content is poured out in the form of foam, the content liquid can be poured out in the form of foam as in the case of the above-described embodiment. In addition, as shown in FIG. 6, when the outer side body 2 is displaced to the other side inclined posture in which the outer layer body 2 is directed downward as shown in FIG. Since the air communication port 4k is opened away from 4l, the air path is in a communicating state, so that air can be supplied to the foam 8. In the present embodiment, since the lid hinge 11f is arranged on the one side surface A side of the outer layer body 2, when the lid body 11e is tilted in the direction in which it is most difficult to prevent the inner solution from being poured out, as described above. Since the other side surface B of the outer layer body 2 is directed downward, the air communication port 4k is reliably opened by the air moving valve 12.

  The double container according to the present invention is not limited to these embodiments, and various modifications can be made within the scope according to the claims. For example, the opening / closing body 11 does not necessarily require the cylinder wall 11b to be connected to the foam dispensing cylinder 6c via the opening / closing hinge 11a. For example, the cylinder wall 11b is attached to and detached from the foam dispensing cylinder 6c via a screw. It can also be set as the structure made. The opening / closing body 11 is not necessarily provided with the lid 11e, and the lid 11e may be omitted. Further, the outer layer body 2 of the present embodiment has the same shape on one side A and the other side B on the outer shape, but the shape can be changed between each other, or a display showing the distinction of the properties of the foam can be provided on each side. This can improve usability.

1: Inner layer 1a: Upper opening 2: Outer layer 2a: Portion peripheral wall 2b: Body 2c: Bottom 2d: Male screw 2e: Vent 2f: Groove 3: Pouring cap 4: Inner plug 4a: Septum 4b: Liquid Outlet 4c: Seal wall 4d: Recess 4e: Upper wall 4f: Connection wall 4j: Through hole 4k: Air communication port 4l: Air transfer valve seat 5: Base 5a: Outer wall 5b: Female thread 5c: Top wall 5d : Recess 5e: outside air communication port 5f: inner peripheral wall 6: nozzle head 6a: peripheral wall 6b: upper wall 6c: bubble pouring tube 6d: bubble pouring port 6e: guide wall 6f: outside air inlet 7: holder 7a: liquid pouring Outlet 7b: Liquid outlet 7c: Plate wall 7d: Opening 7e: Annular wall 7f: Valve body 8: Foam 9: Liquid check valve 9a: Annular part 9b: Inner valve part 10: Transfer valve for introducing outside air 11: Opening / closing body 11a: Hinge for opening / closing body 11b: Tube wall 11c: Closing plate 11d: Connecting piece 11 : Lid 11f: lid hinge 11g: operation piece 11h: operation piece 12: air movement valve A: one side B of the outer layer B: other side N of the outer layer N: inner space O: central axis S of the outer layer Housing space t1: passage

Claims (6)

An inner layer body that can be deformed and volume-reduced to store the content liquid, an outer layer body that has a vent hole that penetrates the peripheral wall of the mouth and forms an internal space between the inner layer body and the vent hole, and the vent hole A double container provided with a pouring cap attached to the peripheral wall of the mouth,
The dispensing cap is
A foam that foams the content liquid by allowing the content liquid of the inner layer body and the air in the internal space to pass along with the pressure on the outer layer body,
An air passage connecting the vent and the foam;
A liquid outlet for pouring out the content liquid flowing out of the inner layer body to the outside through a liquid passage not passing through the foam;
A foam pouring outlet for pouring the content liquid flowing out from the inner layer body to the outside through a foam passage passing through the foam;
A double container comprising an opening / closing body capable of opening and closing the liquid injection port.   The opening / closing body is disposed at an interval in the circumferential direction connecting the cylindrical wall and the closing plate, a cylindrical wall that can be attached to and detached from the foam outlet, a closing plate that can close the liquid outlet. The double container according to claim 1, comprising a plurality of connecting pieces. The dispensing cap includes a foam dispensing cylinder that extends in a direction along the central axis of the outer layer body and has the foam dispensing outlet at an end opposite to the inner layer body side,
The double container according to claim 2, wherein the cylindrical wall of the opening / closing body is connected to the foam dispensing cylinder via an opening / closing body hinge. The opening / closing body includes a lid body capable of closing an end portion of the cylindrical wall opposite to the inner layer body side in a state of being attached to the foam pouring outlet,
The double container according to claim 2 or 3, wherein the lid is connected to the cylindrical wall via a lid hinge. The air path includes an air communication port between the vent and the foam,
The air passage is closed when the one side surface of the outer layer body is displaced to a one-side inclined posture in the air path toward the vertically lower side, and the one side surface is opposed to the one side with the central axis of the outer layer body interposed therebetween. The double container according to any one of claims 1 to 4, further comprising an air moving valve that opens the air communication port when the other side surface is displaced to the other side inclined posture in which the other side surface is directed vertically downward. The opening / closing body hinge is disposed on the other side surface;
The double container according to claim 5, wherein the lid hinge is disposed on the one side surface side.

Images