JP6832242B2 - Discharge container - Google Patents

Description

The present invention relates to a discharge container.

Conventionally, for example, as shown in Patent Document 1 below, a container body in which the contents are housed and a discharger having a stem arranged so as to be movable downward in an upwardly urged state at the mouth of the container body are provided. A provided discharge container is known.

Japanese Unexamined Patent Publication No. 2000-142766

However, in the above-mentioned conventional discharge capacity, it is difficult to switch to a different discharge mode because the discharge mode of the contents is largely determined by the specifications of the discharger.
For example, it is different from the discharge shape (for example, mist shape) of the contents discharged from the discharger or switching to discharge a larger amount of contents than the discharge amount discharged from the discharger by one discharge operation. It is difficult to switch the contents to be discharged in a discharge shape (for example, linear). Therefore, it cannot be used in various ways such as switching the discharge mode according to the situation, and there is room for improvement.

The present invention has been made in view of such circumstances, and an object of the present invention is to provide a discharge container capable of easily switching the discharge mode of the contents.

In order to solve the above-mentioned problems, the discharge container according to the present invention has a container body in which the contents are housed and a discharge port which is attached to the mouth of the container body and has a first discharge port for discharging the contents. A cap and a discharger attached to the discharge cap are provided, and the discharger is provided on a cylinder, a stem disposed on the cylinder so as to be movable downward in an upwardly biased state, and an upper end portion of the stem. It has a pressing head that is mounted and has a second discharge port formed to discharge the contents, and is closed by covering the first discharge port from the outside and moves relative to the first discharge port. This is characterized by providing an opening / closing lid for opening the first discharge port.

According to the present invention, since the first discharge port and the second discharge port are provided, any of the discharge ports can be arbitrarily selected to discharge the contents.
When the contents are discharged from the first discharge port, the first discharge port is opened by moving the opening / closing lid relative to the first discharge port. As a result, the contents contained in the container body can be discharged to the outside through the first discharge port. At this time, for example, by tilting the container body so that the first discharge port faces downward, the contents can be poured out from the first discharge port.

When the contents are discharged from the second discharge port, the first discharge port is closed by the opening / closing lid. As a result, the opening / closing lid blocks the communication between the first discharge port and the outside of the container body, so that it is possible to regulate the discharge of the contents to the outside through the first discharge port. In this state, the pressing head is pressed to move the stem downward. As a result, the contents in the cylinder can be discharged to the outside through the second discharge port.
When the pressing operation of the pressing head is released, the stem is restored and moved upward by the upward bias, so that the pressure inside the cylinder becomes negative. As a result, the contents contained in the container body can be sucked up into the cylinder to prepare for the next discharge.

In this way, the contents can be discharged by arbitrarily selecting the first discharge port or the second discharge port. In particular, the second discharge port is formed on the push head of the discharger, and can, for example, discharge a small amount of contents in the form of mist. On the other hand, since the first discharge port is formed on the discharge cap attached to the mouth of the container body, it is less subject to design restrictions and the contents are discharged in a discharge mode different from that of the second discharge port. can do. For example, the opening area of the first discharge port can be made larger than the opening area of the second discharge port, and a larger amount of contents can be linearly discharged from the first discharge port than the second discharge port.
Therefore, it is possible to easily switch the discharge mode of the contents simply by arbitrarily selecting the first discharge port or the second discharge port, and it is possible to perform various uses such as performing the optimum discharge suitable for the application. it can. Therefore, the discharge container is easy to use and has improved convenience.

Further, since the opening / closing lid is closed by covering the first discharge port from the outside, the inside of the first discharge port can be completely blocked from the outside of the container body, and the seal of the first discharge port can be sealed. The sex can be improved. Further, for example, it becomes possible to prevent the contents remaining inside the first discharge port from coming into contact with the outside air, and it is possible to maintain a good hygiene state inside the first discharge port.

Further, the opening / closing lid may be formed so as to be elastically deformable, and may be provided with a closing portion that abuts on the opening peripheral edge portion of the first discharge port in the discharge cap to close the first discharge port.
In this case, since the closing portion of the discharge cap that comes into contact with the opening peripheral edge of the first discharge port and closes the first discharge port is formed so as to be elastically deformable, the sealing property of the opening / closing lid is improved. be able to.
Further, since the closing portion is elastically deformed, when the opening / closing lid opens / closes the first discharge port, the closing portion is prevented from being caught on the inner peripheral surface of the first discharge port, and the closing portion is prevented from being caught by the first discharge port of the opening / closing lid. It becomes possible to suppress the relative movement from being hindered, and the first discharge port can be easily opened and closed by the opening / closing lid.

Further, the discharge cap may be provided with a discharge nozzle extending outward in the radial direction and having the first discharge port formed at the tip thereof.
In this case, since the discharge cap is provided with a discharge nozzle, for example, by pointing the first discharge port of the discharge nozzle to a position where the contents are to be discharged, the contents can be easily discharged to the position where the contents are to be discharged. .. Further, since the position of the first discharge port can be separated from the mouth portion of the container body in the radial direction, for example, it is possible to prevent the contents from the first discharge port from adhering to a portion other than the discharge nozzle. Can be done.

Further, in the discharge container according to the present invention, the first discharge port is formed on the discharge cap at intervals in the circumferential direction, the opening / closing lid has a cylindrical shape, and the first discharge port is described. It is characterized in that it is arranged so as to be relatively movable in the axial direction along the central axis of the cylinder.
In this case, the plurality of first discharge ports can be integrated by a simple operation of moving the tubular opening / closing lid relative to the plurality of first discharge ports formed on the discharge caps. It can be opened and closed, and the discharge container can be provided with good operability.

Further, in the discharge container according to the present invention, the first discharge port is separately arranged at a position of the discharge cap that sandwiches the central axis of the cylinder in the radial direction, and is viewed from the axial direction along the central axis. In a plan view, any one of the two first discharge ports and the positions in the circumferential direction of each of the second discharge ports are characterized in that they coincide with each other.
In this case, since the positions of the first discharge port and the second discharge port in the circumferential direction coincide with each other, after the contents are discharged from either the first discharge port or the second discharge port. , When the contents are discharged from either one, it is not necessary to change the relative circumferential positions of the hand and the discharge container, and excellent operability can be provided.

Further, since the first discharge port is formed separately in the discharge cap at a position sandwiching the central axis of the cylinder in the radial direction, two first discharge ports are used when the contents are discharged from the first discharge port. Of these, the first discharge port for discharging the contents can be arbitrarily selected. As a result, the relative circumferential positions of the hand and the discharge container, which are suitable for discharging the contents from the first discharge port, can be easily determined with a small amount of adjustment.

According to the present invention, the discharge mode of the contents can be easily switched.

It is a vertical sectional view of the discharge container which concerns on 1st Embodiment of this invention. It is a figure which shows the state which opened the 1st discharge port by moving the opening / closing lid upward from the state shown in FIG. It is a figure which shows the state which the contents are discharged from the 1st discharge port with the 1st discharge port facing downward from the state shown in FIG. It is a vertical sectional view of the discharge container which concerns on 2nd Embodiment of this invention. It is a figure which shows the state which opened the 1st discharge port by moving the opening / closing lid upward from the state shown in FIG. It is a figure which shows the state which the contents are discharged from the 1st discharge port with the 1st discharge port facing downward from the state shown in FIG.

(First Embodiment)
Hereinafter, the first embodiment of the discharge container according to the present invention will be described with reference to the drawings. In each drawing used in the following description, the scale may be appropriately changed in order to make each member a recognizable size.

As shown in FIG. 1, the discharge container 1 of the present embodiment is attached to the mouth portion 3A of the bottomed tubular container body 3 in which the contents are housed, and a first discharge port 11 for discharging the contents is formed. The discharge cap 10 is provided, and the discharger 20 attached to the discharge cap 10 is provided. The discharge cap 10 has a ridged tubular shape. The discharger 20 has a cylinder 41.
The contents are not particularly limited, and examples thereof include cosmetic solutions, liquid foods (seasoning solutions, soy sauce, vinegar, etc.), cleaning solutions, chemical solutions, and the like.

In FIG. 1, the central axes of the container body 3, the discharge cap 10 and the cylinder 41 are arranged on a common axis. Hereinafter, this common axis is referred to as a central axis O, and the direction along the central axis O is referred to as an axial direction. Further, the discharger 20 side along the axial direction is referred to as an upper side, and the opposite side is referred to as a lower side. Further, in a plan view seen from the axial direction, the direction orthogonal to the central axis O is referred to as the radial direction, and the direction orbiting around the central axis O is referred to as the circumferential direction.

A first female screw portion 4A is formed on the inner peripheral surface of the peripheral wall portion 12 of the discharge cap 10. The discharge cap 10 is attached to the mouth portion 3A of the container body 3 by screwing the first female screw portion 4A into the first male screw portion 4B formed on the outer peripheral surface of the mouth portion 3A of the container body 3. .. The discharge cap 10 may be attached to the mouth portion 3A by undercut fitting or the like.
The top wall portion 13 of the discharge cap 10 has an annular shape. Of the discharge cap 10, the connecting portion between the top wall portion 13 and the peripheral wall portion 12 is formed in a curved surface shape that protrudes outward in the radial direction. The top wall portion 13 is arranged on the upper end opening edge of the mouth portion 3A of the container body 3.

On the lower surface of the top wall portion 13 of the discharge cap 10, a seal cylinder 14 that protrudes downward and extends over the entire circumference is formed. The seal cylinder 14 is arranged coaxially with the central axis O and is fitted inside the mouth portion 3A of the container body 3. As a result, the sealing property between the mouth portion 3A of the container body 3 and the discharge cap 10 can be ensured. Further, the discharge cap 10 sandwiches the mouth portion 3A of the container body 3 in the radial direction by the peripheral wall portion 12 and the seal cylinder 14.
A nozzle hole 13A that penetrates the top wall portion 13 in the axial direction is formed in a portion of the inner peripheral edge portion of the top wall portion 13 that is located inward in the radial direction from the seal cylinder 14. The nozzle holes 13A are separately arranged at positions sandwiching the central axis O in the radial direction in the inner peripheral edge portion of the top wall portion 13.

The discharge cap 10 is arranged inside the mouth portion 3A of the container body 3, and includes a support cylinder portion 15 that supports the discharger 20. The support cylinder portion 15 is arranged coaxially with the central axis O. The inner peripheral edge of the top wall 13 of the discharge cap 10 is connected to the outer peripheral surface of the support cylinder 15.
The upper end of the support cylinder portion 15 is located above the top wall portion 13. The lower end portion of the support cylinder portion 15 is located below the lower end portion of the mouth portion 3A.

The support cylinder portion 15 has a multi-stage tubular shape whose diameter is gradually reduced from the upper side to the lower side. That is, the support cylinder portion 15 is configured such that the first large diameter cylinder portion 15A, the medium diameter cylinder portion 15B, and the first small diameter cylinder portion 15C are continuously provided in this order from the upper side to the lower side.
A second female threaded portion 5A is formed on the inner peripheral surface of the first large diameter tubular portion 15A. The second female thread portion 5A is formed inside the first large-diameter tubular portion 15A over the entire axial direction. In the illustrated example, the inner peripheral edge portion of the top wall portion 13 of the discharge cap 10 is connected to the outer peripheral surface of the first large diameter tubular portion 15A.

In the support cylinder portion 15, a first connecting cylinder portion 15D whose diameter gradually decreases from the upper side to the lower side is formed in a portion located between the medium diameter cylinder portion 15B and the first small diameter cylinder portion 15C. .. The first large-diameter cylinder portion 15A, the medium-diameter cylinder portion 15B, the first connection cylinder portion 15D, and the first small-diameter cylinder portion 15C are respectively arranged coaxially with the central axis O.
A support flange portion 15E that projects outward in the radial direction and extends over the entire circumference is formed at the upper end portion of the support cylinder portion 15.

As shown in FIG. 1, the discharge cap 10 is directed upward from an upper portion extending outward in the radial direction from the support cylinder portion 15 and an opening peripheral edge portion of the nozzle hole 13A in the top wall portion 13 of the discharge cap 10. It includes a discharge nozzle 16 having an extending lower portion. The discharge nozzle 16 is integrally formed with the first large-diameter cylinder portion 15A and the support flange portion 15E of the support cylinder portion 15.

In a cross-sectional view orthogonal to the central axis O, the inner peripheral surface of the lower portion of the discharge nozzle 16 and the nozzle hole 13A are inscribed in the inner peripheral surface of the seal cylinder 14 and circumscribed in the outer peripheral surface of the first large diameter cylinder portion 15A. doing. The inside of the discharge nozzle 16 passes through the inside of the nozzle hole 13A and communicates with the inside of the seal cylinder 14.
The upper portion of the discharge nozzle 16 extends outward in the radial direction from the upper end portion of the lower portion.

A plurality of discharge nozzles 16 are formed on the discharge cap 10 at intervals in the circumferential direction. In the illustrated example, the discharge nozzles 16 are separately arranged at positions of the discharge cap 10 that sandwich the central axis O in the radial direction. Not limited to such a configuration, the quantity and the position of the discharge nozzles 16 can be changed as appropriate.
In the cross-sectional view, the opening peripheral edge of the first discharge port 11 in the discharge nozzle 16 has a radial position equal to that of the first male screw portion 4B in the mouth portion 3A of the container body 3.

The discharge container 1 includes a tubular interposing member 30 that is fixed to the discharger 20 and is movably attached to the discharge cap 10 in the axial direction. The interposition member 30 is arranged inside the support cylinder portion 15 of the discharge cap 10 and is arranged coaxially with the central axis O. The interposition member 30 has a two-stage tubular shape whose diameter is reduced from the upper side to the lower side.

The interposition member 30 includes a second large-diameter tubular portion 31 having a second male threaded portion 5B formed on the outer peripheral surface, a second small-diameter tubular portion 32 disposed below the second large-diameter tubular portion 31, and a second small-diameter tubular portion 32. The second connecting cylinder portion 33 for connecting the two large diameter cylinder portions 31 and the second small diameter cylinder portion 32 is provided. The second large-diameter cylinder portion 31, the second connection cylinder portion 33, and the second small-diameter cylinder portion 32 are each arranged coaxially with the central axis O.
The second male screw portion 5B is formed on the upper portion of the outer peripheral surface of the second large diameter tubular portion 31. The second male threaded portion 5B is screwed into the second female threaded portion 5A of the support cylinder portion 15 of the discharge cap 10. The lower portion of the second large-diameter tubular portion 31 is inserted inside the medium-diameter tubular portion 15B of the support tubular portion 15.
Therefore, the interposition member 30 is movable together with the discharger 20 in the axial direction with respect to the discharge cap 10 as it rotates relative to the discharge cap 10 in the circumferential direction.
Further, the first female screw portion 4A and the second female screw portion 5A may have a reverse screw relationship. As a result, when the discharger 20 and the interposition member 30 are rotated relative to the discharge cap 10 in the circumferential direction, the discharge cap 10 is separated from the mouth portion 3A of the container body 3 without gripping the discharge cap 10. There is nothing.

The diameter of the second connecting cylinder portion 33 is gradually reduced from the upper side to the lower side. The second connection cylinder portion 33 is inserted into the first connection cylinder portion 15D of the support cylinder portion 15. The second small diameter cylinder portion 32 is inserted into the first small diameter cylinder portion 15C of the support cylinder portion 15. The lower end of the second small-diameter tubular portion 32 projects downward from the lower end of the first small-diameter tubular portion 15C.

A locking flange portion 34 is formed at the upper end portion of the second large-diameter tubular portion 31 so as to project outward in the radial direction and extend over the entire circumference. The locking flange portion 34 is placed on the support flange portion 15E of the support cylinder portion 15.
On the upper surface of the locking flange portion 34, a first locking cylinder portion 34A extending upward and a second locking cylinder located inside the first locking cylinder portion 34A in the radial direction and extending upward. A portion 34B and an annular locking protrusion 34C located inside the second locking cylinder portion 34B in the radial direction and projecting upward are formed. The first locking cylinder portion 34A, the second locking cylinder portion 34B, and the locking protrusion 34C are each arranged coaxially with the central axis O.
The axial size of the first locking cylinder 34A is larger than the axial size of the second locking cylinder 34B. The axial size of the second locking cylinder portion 34B is larger than the axial size of the locking protrusion 34C.

The discharge container 1 includes a fixing member 21 for fixing the interposition member 30 to the discharger 20.
The fixing member 21 includes an annular base member 22 for fixing the interposing member 30, and a guide cylinder portion 23 extending upward from the inner peripheral edge portion of the base member 22. The base member 22 and the guide cylinder portion 23 are respectively arranged coaxially with the central axis O.

The base member 22 has a plate shape with the front and back surfaces facing in the axial direction. On the upper surface of the base member 22, a holding cylinder portion 24 which is arranged coaxially with the central axis O and protrudes upward is formed. An annular groove that is recessed upward and extends continuously over the entire circumference is formed inside the holding cylinder portion 24. A locking hole 22A communicating with the annular groove is formed on the lower surface of the base member 22. The locking hole 22A is formed in an annular shape that extends continuously over the entire circumference.
The first locking cylinder portion 34A of the interposing member 30 is fitted into the annular groove of the holding cylinder portion 24 through the locking hole 22A.

Of the opening peripheral edge of the locking hole 22A on the lower surface of the base member 22, the portion located on the outer side in the radial direction of the locking hole 22A protrudes downward and the locking flange portion 34 in the interposition member 30. A contact cylinder portion 25 that comes into contact with the upper surface of the surface is formed. Further, the lower surface of the base member 22 is arranged on the upper end opening edge of the second locking cylinder portion 34B in the locking flange portion 34 of the interposing member 30.
The guide cylinder portion 23 extends upward from the inner peripheral edge portion of the base member 22.

The discharger 20 is, for example, a pump mechanism for discharging the contents, and is attached to a stem 42 arranged on the cylinder 41 so as to be movable downward in an upwardly biased state and the upper end portion of the stem 42 to discharge the contents. A pressing head 50 having a second discharge port 51 formed therein is provided.
The discharger 20 is arranged in the cylinder 41, the stem 42, and the pressing head 50 described above, and is connected to the stem 42 with the eclipsed cylindrical piston 43, and the stem 42 and the piston 43 are moved upward. The urging member 44 that urges the piston 43, the piston guide 45 that guides the movement of the piston 43 along the axial direction, and the inflow of the contents into the cylinder 41 through the tube 46, which are arranged inside the cylinder 41. It is provided with a valve body 47 that allows the content to flow out of the cylinder 41 through the tube 46 and regulates the outflow of the contents.

The cylinder 41 is arranged in the interposing member 30. The cylinder 41 is formed in a two-stage cylinder shape whose diameter is reduced along the outer shape of the interposing member 30 from the upper side to the lower side.
The cylinder 41 is arranged coaxially with the central axis O.
A tube 46 that communicates with the inside of the container body 3 is connected to the lower end of the cylinder 41. The upper end of the cylinder 41 is located above the locking flange 34 of the interposition member 30.

An outer flange portion 48 that protrudes outward in the radial direction and extends over the entire circumference is formed at the upper end portion of the cylinder 41. The outer flange portion 48 is arranged on the locking protrusion 34C of the locking flange portion 34 of the interposing member 30 via the packing 49. Then, the outer flange portion 48 and the locking flange portion 34 of the interposition member 30 are sandwiched between the base member 22 of the fixing member 21 and the support flange portion 15E of the discharge cap 10, so that the interposition member 30 is fixed to the cylinder 41.

The stem 42 includes a lower stem 42B and an upper stem 42A.
The lower end of the lower stem 42B is movable along the axial direction while being in sliding contact with the inner peripheral surface of the cylinder 41. The upper portion of the lower stem 42B projects upward from the upper end portion of the cylinder 41 and is arranged in the guide cylinder portion 23 of the fixing member 21.

The lower end of the upper stem 42A is movable along the axial direction while being in sliding contact with the inner peripheral surface of the guide cylinder portion 23. The upper end of the lower stem 42B is tightly fitted in the lower end of the upper stem 42A. The upper end portion of the upper stem 42A has a tubular shape extending upward from the upper end portion of the guide cylinder portion 23.

The piston 43 is fitted in the lower stem 42B. The upper end of the piston 43 projects upward from the lower stem 42B. The lower part of the piston 43 protrudes downward from the lower stem 42B. The lower end of the piston 43 is slidably fitted in the cylinder 41 in the axial direction. The upper portion of the piston 43 projects upward from the upper end portion of the cylinder 41. A plurality of through holes 43A penetrating in the radial direction are formed in the portion of the piston 43 located in the lower stem 42B at intervals in the circumferential direction. The through hole 43A communicates with the inside and outside of the piston 43.

The upper end of the piston guide 45 is arranged in the piston 43, and the lower end is tightly fitted to the inner peripheral surface of the cylinder 41. A valve body accommodating portion S is defined in a portion of the cylinder 41 located below the piston guide 45.
A plurality of communication holes 41A that communicate the inside and the outside of the cylinder 41 are formed at intervals in the circumferential direction.
The urging member 44 is arranged between the piston guide 45 and the piston 43, and supports the piston 43 in an upward urging state so as to be movable downward.

The valve body 47 is housed in the valve body accommodating portion S. The valve body 47 has a spherical shape, and is made movable in the valve body accommodating portion S by its own weight, for example. The valve body 47 is configured to be seated or separated from the seal portion 41B formed on the inner peripheral surface of the lower portion of the cylinder 41, and communicates with and shuts off the lower end opening 41C of the cylinder 41 and the valve body accommodating portion S. It is designed to switch.
In the upright posture of the discharge container 1, the valve body 47 sits on the seal portion 41B and closes the lower end opening 41C of the cylinder 41, blocking the communication between the inside of the container body 3 and the valve body accommodating portion S. doing.

The pressing head 50 has a ridged tubular shape. The pressing head 50 extends downward from the central portion in the radial direction of the top wall portion 52 and is inserted into the upper end portion of the upper stem 42A, and the insertion shaft portion 53 of the top wall portion 52. It is provided with a surrounding cylinder portion 54 extending downward from a portion located on the outer side in the radial direction and fitted with an upper stem 42A on the inner side.
The peripheral wall portion 55 of the pressing head 50 is capable of axially entering a portion located between the guide cylinder portion 23 and the holding cylinder portion 24 above the base member 22 of the fixing member 21. There is.

A columnar nozzle shaft portion 56 that protrudes outward in the radial direction is formed at the upper end portion of the surrounding cylinder portion 54. The nozzle tip 57 on which the above-mentioned second discharge port 51 is formed is mounted on the nozzle shaft portion 56. The second discharge port 51 communicates with the inside of 42A through a spin groove formed in the nozzle tip 57, a flow passage formed between the nozzle shaft portion 56 and the nozzle tip 57, and the like.
Here, in the plan view, the positions of the second discharge port 51 and the first discharge port 11 of one of the two first discharge ports in the circumferential direction coincide with each other.

The discharge container 1 of the present embodiment further includes an overcap 60 that covers the pressing head 50.
The overcap 60 has an ecstatic tubular shape having a cap peripheral wall 61 that surrounds the pressing head 50 from the outside in the radial direction, and a cap top wall 62 that closes the upper end opening of the cap peripheral wall 61 and covers the pressing head 50 from above. Is formed in. The overcap 60 is arranged coaxially with the central axis O. The lower end of the cap peripheral wall 61 is in contact with the upper surface of the base member 22 of the fixing member 21.
The discharger 20 is not limited to such an embodiment, and a known pump mechanism having another configuration can be adopted.

Further, in the present embodiment, the discharge container 1 includes an opening / closing lid 70 that closes the first discharge port 11 by covering it from the outside. The opening / closing lid 70 is attached to the discharger 20. The opening / closing lid 70 has a tubular shape, and the upper end opening edge thereof is connected to the outer peripheral edge of the base member 22 of the fixing member 21 of the discharger 20. Therefore, the opening / closing lid 70 is attached to the discharger 20 so as to be relatively immovable in the radial direction. The opening / closing lid 70 is arranged coaxially with the central axis O.
The opening / closing lid 70 opens the first discharge port 11 by moving relative to the first discharge port 11. In the illustrated example, the opening / closing lid 70 can move in the axial direction with respect to the first discharge port 11 by moving in the axial direction together with the fixing member 21.

The opening / closing lid 70 is formed so as to be elastically deformable, and has a tubular closing portion 71 that abuts on the first discharging port 11 to close the first discharging port 11 and a coating that covers the closing portion 71 from the outside in the radial direction. It has a cylinder 72 and. The closing portion 71 is fitted in the covering cylinder 72. An inner flange portion 71A that projects inward in the radial direction is formed at the upper end portion of the closing portion 71. The inner flange portion 71A is axially sandwiched between the outer peripheral edge portion of the base member 22 of the fixing member 21 and the outer peripheral edge portion of the locking flange portion 34 of the interposing member 30. The closing portion 71 is formed of a soft material such as nitrile rubber, butyl rubber, silicone rubber, elastomer, or urethane.

(Action of discharge container)
Next, a case where the contents are discharged by using the discharge container 1 configured as described above will be described. It is assumed that the contents of the container body 3 are sucked up in the cylinder 41. When discharging the contents, either the first discharge port 11 or the second discharge port 51 can be arbitrarily selected to discharge the contents.

A case where the contents are discharged from the first discharge port 11 will be described.
In this case, from the state shown in FIG. 1, the discharger 20 is moved upward by rotating the discharger 20 together with the interposition member 30 in the circumferential direction with respect to the discharge cap 10, as shown in FIG. , The discharger 20 and the interposition member 30 are positioned above the discharge cap 10. As a result, the opening / closing lid 70 is located above the first discharge port 11, and by opening the first discharge port 11, the first discharge port 11 and the inside of the container body 3 can communicate with each other.

After opening the first discharge port 11, the container body 3 is tilted so that the first discharge port 11 faces downward as shown in FIG. 4, so that the contents in the container body 3 can be opened through the first discharge port 11. Can be poured out.
In particular, since it has a pair of discharge nozzles 16, the container main body is used while the contents are discharged from the first discharge port 11 of one discharge nozzle 16 as described above. Air can flow into 3. Therefore, the contents can be poured out while appropriately replacing the air in the container body 3.
The contents may be discharged from the first discharge port 11 while the upper end of the female screw portion 5A of the discharge cap 10 and the lower end of the male screw portion 5B of the discharger 20 are screwed together.

After that, the opening / closing lid 70 is moved downward by rotating the discharger 20 together with the interposing member 30 with respect to the discharge cap 10 in the direction opposite to the opening of the first discharge port 11 in the circumferential direction. Then, as shown in FIG. 1, the opening / closing lid 70 closes the first discharge port 11. As a result, the communication between the first discharge port 11 and the inside of the container body 3 can be cut off. Then, the discharge container 1 can be stored in a state where the discharge of the contents through the first discharge port 11 is restricted.

At this time, since the closing portion 71 of the opening / closing lid 70 abuts on the first discharge port 11 in a state of being elastically deformed, the closing portion 71 can act as a sealing member, and the discharge container 1 is still attached. When the container body 3 is conveyed in the above, even if the contents reach the first discharge port 11 due to the change in the posture of the container body 3, the contents leak to the outside from the first discharge port 11. Can be reliably suppressed.

Next, a case where the contents are discharged from the second discharge port 51 will be described.
In this case, after removing the overcap 60 from the state shown in FIG. 1, as shown in FIG. 1, the pressing head 50 is pressed against the urging force of the urging member 44 to push the upper stem 42A and the upper stem 42A. The lower stem 42B is moved downward. As a result, the contents in the cylinder 41 can be guided into the pressing head 50 through the inside of the upper stem 42A and the lower stem 42B, and the flow passage formed between the nozzle shaft portion 56 and the nozzle tip 57. And it can be guided to the second discharge port 51 through a spin groove or the like formed in the nozzle tip 57.
As a result, the contents in the cylinder 41 can be discharged to the outside through the second discharge port 51.

When the pressing of the pressing head 50 is released, the piston 43, the upper stem 42A, the lower stem 42B, and the pressing head 50 are restored and moved upward by the upward urging force of the urging member 44 to return to the original state. At this time, since the pressure inside the cylinder 41 becomes negative, the contents in the container body 3 can be sucked up into the cylinder 41 through the tube 46 and stored in the cylinder 41.
As a result, it is possible to prepare for the next discharge of the contents.

As described above, since the discharge container 1 of the present embodiment includes the first discharge port 11 and the second discharge port 51, any of the discharge ports can be arbitrarily selected to discharge the contents. Can be made to.
In particular, the second discharge port 51 is formed in the push head 50 of the discharger 20, and can, for example, discharge a small amount of contents in the form of mist. On the other hand, since the first discharge port 11 is formed on the discharge cap 10 mounted on the mouth portion 3A of the container body 3, it is less subject to design restrictions and has a different discharge mode from the second discharge port 51. The contents can be discharged with. For example, the opening area of the first discharge port 11 may be made larger than the opening area of the second discharge port 51, and a larger amount of contents may be linearly discharged from the first discharge port 11 than the second discharge port 51. It is possible.
Therefore, by simply selecting the first discharge port 11 or the second discharge port 51 arbitrarily, the discharge mode of the contents can be easily switched, and various uses such as performing optimum discharge suitable for the application are performed. be able to. Therefore, the discharge container 1 is easy to use and has improved convenience.

Further, since the opening / closing lid 70 is closed by covering the first discharge port 11 from the outside, the inside of the first discharge port 11 can be completely blocked from the outside of the container body 3, and the first The sealing property of the discharge port 11 can be improved. Further, for example, it becomes possible to prevent the contents remaining inside the first discharge port 11 from coming into contact with the outside air, and it is possible to maintain a good hygiene state in the first discharge port 11.

Further, since the opening / closing lid 70 is attached to the discharger 20 so as to be relatively immovable in the radial direction, when the opening / closing lid 70 is moved relative to the first discharge port 11 to open the first discharge port 11. It is possible to prevent the opening / closing lid 70 from being separated from the discharger 20 and being lost, for example.
Further, since the closing portion 71 that abuts on the opening peripheral edge of the first discharge port 11 in the discharge cap 10 and closes the first discharge port 11 is formed so as to be elastically deformable, the first discharge of the opening / closing lid 70. The sealing property around the outlet 11 can be improved.
Further, since the closing portion 71 is elastically deformed, when the opening / closing lid 70 opens / closes the first discharge port 11, the closing portion 71 is caught by the inner peripheral edge portion of the first discharge port 11, and the first discharge of the opening / closing lid 70. It becomes possible to suppress the relative movement with respect to the outlet 11 from being hindered, and the opening / closing lid 70 can easily open / close the first discharge port 11.

Further, since the discharge cap 10 extends outward in the radial direction and includes a discharge nozzle 16 having a second discharge port 51 formed at its tip, for example, the discharge nozzle 16 is placed at a position where the contents are to be discharged. By pointing, the contents can be easily discharged to the desired position. Further, since the position of the first discharge port 11 can be separated from the mouth portion 3A of the container body 3 in the radial direction, for example, the contents from the first discharge port 11 adhere to a portion other than the discharge nozzle 16. It can be suppressed.
Further, a plurality of first discharge ports 11 formed on the discharge caps 10 at intervals in the circumferential direction can be easily operated by simply moving the cylindrical opening / closing lid 70 relative to the axial direction. The first discharge port 11 can be opened and closed integrally, and the discharge container 1 can be provided with good operability.

Further, since the positions of the first discharge port 11 and the second discharge port 51 in the circumferential direction coincide with each other, the contents are discharged from either the first discharge port 11 or the second discharge port 51. Later, when the contents are discharged from either one, it is not necessary to change the relative positions of the hand and the discharge container 1 in the circumferential direction, and excellent operability can be provided.

Further, since the first discharge port 11 is separately formed at a position of the discharge cap 10 that sandwiches the central axis O of the cylinder 41 in the radial direction, the contents are formed when the contents are discharged from the first discharge port 11. The first discharge port for discharging an object can be arbitrarily selected. As a result, the relative circumferential positions of the hand and the discharge container 1, which are suitable for discharging the contents from the first discharge port 11, can be easily determined with a small adjustment amount.

(Second Embodiment)
Next, a second embodiment of the discharge container according to the present invention will be described with reference to the drawings. In the second embodiment, the same parts as the components in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

As shown in FIG. 4, the discharge container 2 according to the present embodiment does not include the interposing member 30. The support cylinder portion 75 in the discharge cap 10B of the discharge container 2 extends straight in the axial direction, and the position of the lower end portion is the same as the position of the lower end portion of the seal cylinder 14. The inner peripheral surface of the support cylinder portion 75 faces the cylinder 41 of the discharger 20 with a radial gap. A first locking cylinder portion 34A, a second locking cylinder portion 34B, and a locking protrusion 34C are formed on the upper surface of the support flange portion 75E of the support cylinder portion 75, respectively.

The outer flange portion 48 of the cylinder 41 is arranged on the upper surface of the support flange portion 75E of the support cylinder portion 75 via the packing 49. Further, the contact cylinder portion 25 of the fixing member 21 is in contact with the upper surface of the support flange portion 75E from above. The radial positions of the opening peripheral portion of the first discharge port 11 and the peripheral wall portion 12 of the discharge cap 10B in the discharge nozzle 16 are the same as each other. At the lower end of the peripheral wall portion 12 of the discharge cap 10B, a regulation flange portion 17 that projects outward in the radial direction and extends over the entire circumference is formed.

In the present embodiment, the opening / closing lid 70B is formed separately from the discharger 20 and is detachably attached to the discharger 20. The opening / closing lid 70B is detachably attached to the fixing member 21 of the discharger 20. The outer peripheral edge of the base member 22 of the fixing member 21 is detachably fitted in the upper end opening of the opening / closing lid 70B.
A holding protrusion 73 that protrudes inward in the radial direction is formed on the inner peripheral surface of the upper end portion of the opening / closing lid 70B. A holding recess 22B that is recessed inward in the radial direction is formed on the outer peripheral edge of the base member 22. The holding protrusion 73 is engaged with the inner surface of the holding recess 22B from below.

On the outer peripheral surface of the peripheral wall portion 12 of the discharge cap 10, a strip-shaped locking rib 18 that protrudes outward in the radial direction and extends in the axial direction is formed. A plurality of locking ribs 18 are formed on the outer peripheral surface of the peripheral wall portion 12 at intervals in the circumferential direction. The locking rib 18 extends straight upward from the upper surface of the regulation flange portion 17.
As shown in FIG. 5, when the opening / closing lid 70B is moved downward and the first discharge port 11 is opened, the lower end opening edge of the opening / closing lid 70B comes into contact with the upper surface of the regulation flange portion 17 of the discharge cap 10B. Movement below that is restricted. At this time, the inner peripheral surface of the closing portion 71B of the opening / closing lid 70B and the locking rib 18 are brought into pressure contact in the radial direction.

(Action of discharge container)
According to the discharge container 2 of the present embodiment configured as described above, by moving the opening / closing lid 70B downward from the state shown in FIG. 4, as shown in FIG. 5, the first discharge port 11 Can be opened. As a result, the first discharge port 11 and the inside of the container body 3 can be communicated with each other.
After opening the first discharge port 11, the container body 3 is tilted so that the first discharge port 11 faces downward as shown in FIG. 6, so that the contents in the container body 3 can be opened through the first discharge port 11. Can be poured out. At this time, since the inner peripheral surface of the closing portion 71B and the locking rib 18 of the peripheral wall portion 12 of the discharge cap 10 are in pressure contact with each other in the radial direction, the opening / closing lid 70B is shafted from the peripheral wall portion 12 of the discharge cap 10. It is regulated to move in the direction and close the first discharge port 11.

Here, since the holding protrusion 73 of the opening / closing lid 70B is engaged with the holding recess 22B of the base member 22 from below, it is possible to prevent the opening / closing lid 70B from coming off the base member 22.
Further, since the opening / closing lid 70B is formed separately from the discharger 20, the shapes of the discharger 20 and the opening / closing lid 70B can be simplified, and the moldability of these can be ensured. it can.

The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

For example, in each of the above embodiments, the opening / closing lids 70 and 70B are attached to the discharger 20, but the present invention is not limited to such a mode. The opening / closing lids 70 and 70B may be attached to a portion other than the discharger 20, such as the container body 3 or the discharge cap 10.
Further, in each of the above embodiments, the body portion of the container body 3 may be deformable in volume reduction. In this case, when the contents are discharged from the first discharge port 11, the contents can be pushed out from the inside of the container body 3 by reducing the volume and deforming the body of the container body 3, and the first discharge port. The contents can be efficiently discharged from No. 11.

Further, in each of the above embodiments, the opening / closing lids 70 and 70B are configured to include the closing portion 71, but the present invention is not limited to such an embodiment. The opening / closing lids 70 and 70B do not have to include the closing portion 71.
Further, in each of the above embodiments, the discharge caps 10 and 10B are provided with the discharge nozzle 16, but the present invention is not limited to such a mode. The discharge caps 10 and 10B do not have to include the discharge nozzle 16.

Further, in each of the above embodiments, the positions in the circumferential direction of each of the first discharge port 11 and the second discharge port 51 are shown to coincide with each other in the plan view, but the present invention is not limited to this aspect. .. The positions of the first discharge port 11 and the second discharge port 51 in the circumferential direction do not have to coincide with each other.
Further, in each of the above embodiments, the first discharge port 11 is separately formed at a position sandwiching the central axis in the radial direction among the discharge caps 10 and 10B, but the configuration is limited to such a mode. I can't. Only one first discharge port 11 may be formed in the discharge caps 10 and 10B.

Further, in each of the above embodiments, the opening / closing lids 70 and 70B have been shown to move relative to the first discharge port 11 in the axial direction, but the present invention is not limited to this aspect. For example, the opening / closing lids 70 and 70B may be configured to be movable relative to the first discharge port 11 in the radial direction, and the first discharge port 11 may be opened by the radial movement of the opening / closing lids 70 and 70B. Absent.

1, 2 Discharge container 3 Container body 3A Port 10 Discharge cap 11 1st discharge port 16 Discharge nozzle 20 Discharger 41 Cylinder 42 Stem 50 Pushing head 51 2nd discharge port 70, 70B Opening and closing lid 71 Closing part O Central axis

Claims (4)

The container body that houses the contents and
A discharge cap that is attached to the mouth of the container body and has a first discharge port for discharging the contents.
A discharger mounted on the discharge cap is provided.
The discharger is mounted on a cylinder, a stem disposed on the cylinder so as to be movable downward in an upwardly biased state, and a second discharge port formed on the upper end of the stem to discharge the contents. With a head,
It is provided with an opening / closing lid that closes the first discharge port by covering it from the outside and opens the first discharge port by moving relative to the first discharge port .
A plurality of the first discharge ports are formed on the discharge cap at intervals in the circumferential direction.
The opening / closing lid has a tubular shape and is disposed so as to be relatively movable in the axial direction along the central axis of the cylinder with respect to the first discharge port . The container body that houses the contents and
A discharge cap that is attached to the mouth of the container body and has a first discharge port for discharging the contents.
A discharger mounted on the discharge cap is provided.
The discharger is mounted on a cylinder, a stem disposed on the cylinder so as to be movable downward in an upwardly biased state, and a second discharge port formed on the upper end of the stem to discharge the contents. With a head,
It is provided with an opening / closing lid that closes the first discharge port by covering it from the outside and opens the first discharge port by moving relative to the first discharge port .
The first discharge port is separately arranged at a position of the discharge cap that sandwiches the central axis of the cylinder in the radial direction.
In a plan view seen from the axial direction along the central axis, the positions in the circumferential direction of any one of the two first discharge ports and each of the second discharge ports coincide with each other. Characterized discharge container. The opening / closing lid is formed so as to be elastically deformable, and is provided with a closing portion that abuts on the opening peripheral edge portion of the first discharge port in the discharge cap and closes the first discharge port. The discharge container according to claim 1 or 2. The invention according to any one of claims 1 to 3, wherein the discharge cap extends outward in the radial direction and includes a discharge nozzle having the first discharge port formed at the tip thereof. Discharge container.

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