JP2017047926A - Erecting and inverted both way adapter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to enhance setting property for a discharger.SOLUTION: An erecting and inverted both way adapter 1 comprises a body cylindrical part 10 and an outside air introduction valve 30. The body cylindrical part 10 is provided with an erecting time introduction hole 29 through which a content liquid in a container body 102 can be introduced at an erecting time of a discharger 100, an inverted time introduction hole 21 through which the content liquid in the container body 102 can be introduced at inverted time of a discharger 100, and a communication passage r which communicates the erecting time introduction hole 29 and the inverted time introduction hole 21, and a lower end opening of a cylinder 101, and is further provided with a selector valve 25 which blocks communication between the inverted time introduction hole 21 and the communication passage r at the erecting time of the discharger 100, and communicates the inverted time introduction hole 21 and the communication passage r with each other at the inverted time of the discharger 100. The outside air introduction valve 30 is fitted into the body cylindrical part 10, a communication window 10a is formed on the body cylindrical part 10, and the outside air introduction valve 30 is provided with a valve part 32 which so contacts an outer peripheral surface of the cylinder 101 as to be capable of being separated therefrom and openably blocks communication between the communication window 10a and an outside air introduction passage R.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a right-and-left inverted adapter.

Conventionally, it is used by being mounted on a discharge device that discharges the content liquid. When the discharge device is upright and upside down, the positive liquid is supplied to the cylinder at the negative pressure in the cylinder at the discharge device. A dual-purpose adapter is known (see Patent Document 1 below).
Here, as the content liquid in the container body is supplied into the cylinder, the discharger is formed with an outside air introduction path for introducing outside air into the container body, and the discharger is inverted through this outside air introduction path. In order to prevent the contents liquid in the container body from leaking to the outside at times, the upside-down dual-use adapter is equipped with an outside air introduction valve that freely blocks communication between the inside and outside of the container body through the outside air introduction path. Yes.

JP 2014-213943 A

  However, conventionally, it has been necessary to mount the main body cylinder portion of the adapter for both ends upright and the outside air introduction valve individually to the discharge device, and there is room for improvement in improving the setability.

  This invention is made | formed in view of the situation mentioned above, Comprising: It aims at providing the adapter for normal inversion which improved the setting property with respect to a discharger.

In order to solve the above problems, the present invention proposes the following means.
A vertically inverted adapter according to the present invention includes a stem that is movably moved downward in an upward biased state, a piston that is linked to the vertical movement of the stem, and the piston that is slidably fitted up and down inside. A cylinder disposed in the container body containing the content liquid, and a discharge head attached to the upper end of the stem and formed with a discharge hole for discharging the content liquid, and inside and outside the container body And is used by being attached to a discharge device in which an outside air introduction path communicating with the discharge device is formed, and supplying the content liquid into the cylinder at the time of negative pressure in the cylinder both when the discharge device is upright and when it is inverted. A cylindrical external air introduction valve, which is a front / reverse adapter for use, and which is configured to openably block communication between the inside of the container body through which the cylinder is fitted and the outside of the container body through the outside air introduction path. And equipped with The main body cylinder portion is open toward the bottom in the container main body, and an upright introduction hole through which the liquid content in the container main body can be introduced when the discharger is upright, and above the upright introduction hole And an introductory introduction hole through which the liquid in the container body can be introduced when the discharger is inverted, and the upright introduction hole and the inverted introduction hole and the lower end opening of the cylinder are communicated with each other. A communication passage is formed, the communication between the inverted introduction hole and the communication passage is blocked when the discharger is upright, and the inverted introduction hole is connected to the communication when the discharger is inverted. A switching valve that communicates with the passage is disposed, the outside air introduction valve is fitted into the main body cylinder portion, and a communication window that communicates the inside with the inside of the container main body is formed in the main body cylinder portion. The outside air introduction valve is separated from the outer peripheral surface of the cylinder. Contact, wherein the valve portion for closing opened freely is provided a communication between the communication windows with the air introduction path.

In the dispenser to which the adapter for both sides of the invention according to the present invention is attached, first, when the dispenser is upright and upside down, the stem and piston are pushed into the cylinder to make the inside of the cylinder positive pressure. Rises in the stem and is discharged from the discharge hole of the discharge head.
After that, when the stem and piston are restored and moved relative to the cylinder, and the inside of the cylinder is made negative pressure, when the discharger is upright, the switching valve blocks the communication between the introductory introduction hole and the communication path. The liquid in the container body reaches the lower end opening of the cylinder through the upright introduction hole and the communication path and flows into the cylinder.
On the other hand, when the dispenser is inverted, the upright introduction hole that opens to the bottom of the container body protrudes from the liquid level of the content liquid in the container body, and the upside introduction hole and the communication path communicate with each other. The content liquid inside reaches the lower end opening of the cylinder through the inverted introduction hole and the communication path and flows into the cylinder.
Here, regardless of whether the discharger is upright or inverted, when the liquid in the container body flows into the cylinder, the container body becomes negative pressure, and this negative pressure acts on the outside air introduction valve. As the valve portion is separated from the outer peripheral surface of the cylinder, the inside of the container body and the outside communicate with each other through the outside air introduction path, and the outside air is introduced into the container body. Thereafter, when the internal pressure of the container main body returns, the valve portion comes into contact with the outer peripheral surface of the cylinder again, and the external air introduction valve blocks communication between the container main body and the outside through the external air introduction path.
According to the above-mentioned right / left inverted adapter, since the outside air introduction valve is fitted in the main body cylinder portion, when attaching the right / left inverted adapter to the discharger, the main body cylinder portion and the outside air introduction valve are assembled together. It becomes possible to move the entire adapter for both purposes, and it is possible to provide excellent setability.
Moreover, since the outside air introduction valve is fitted in the main body cylinder portion, the outside air introduction valve including the valve portion can be protected by the main body cylinder portion. Therefore, for example, when storing or transporting a plurality of right-and-left inverted adapters in which the outside-air introduction valve is fitted in the main body cylinder portion, the outside-air introduction valve contacts with the other right-and-left inverted adapters. , It is possible to suppress deformation or damage.

  The valve portion may face the communication window.

  In this case, since the valve portion is opposed to the communication window, when the valve portion is separated from the outer peripheral surface of the cylinder and the outside air is introduced into the container body, the outside air is drawn between the valve portion and the outer peripheral surface of the cylinder. It can be easily introduced into the container body quickly through the communication window.

  According to the adapter for both ends upright according to the present invention, the setability with respect to the discharger is improved.

It is an axial direction sectional view showing the adapter for both ends upright according to an embodiment of the present invention and a dispenser equipped with the adapter. FIG. 2 is an axial cross-sectional view in which an upper half of the both-side-upright adapter and the discharger in FIG. 1 is enlarged. FIG. 2 is an axial cross-sectional view in which a lower half of the adapter for both the upside-down adapter and the discharger in FIG. 1 is enlarged. It is a side view which shows the adapter for both sides upright of FIG. It is the elements on larger scale which show the right-and-left inverted adapter and discharge device of FIG.

  DESCRIPTION OF EMBODIMENTS Hereinafter, a front / reverse dual-use adapter according to an embodiment of the present invention will be described with reference to the drawings. In each drawing used in the following description, the scale is appropriately changed to make each member a recognizable size.

  As shown in FIG. 1 to FIG. 5, the adapter 1 for both ends upside down according to the present embodiment is used by being mounted on a discharge device 100 that discharges the content liquid, and the discharge device 100 is both upright and inverted. The content liquid is supplied into the cylinder 101 at the time of negative pressure in the cylinder 101 to be described later in the discharge device 100.

First, the dispenser 100 will be described.
As shown in FIG. 2, the discharger 100 includes a cylindrical mounting cap 103 that is attached to the mouth portion 102 a of the container main body 102, and a cylindrical stem 104 that is movably moved downward in an upward biased state. A vertical cylindrical piston 105 linked to the vertical movement of the stem 104, a cylindrical cylinder 101 in which the vertical piston 105 is slidably fitted up and down, and an upper end of the stem 104. , A discharge head 106 having a discharge hole 106a for the content liquid and a trigger 107 for pushing down the stem 104 are provided.

  Here, the mounting cap 103, the stem 104, the vertical piston 105, and the cylinder 101 are arranged with their respective central axes positioned on a common axis. Hereinafter, this common axis is referred to as a central axis O, and a direction orthogonal to the central axis O in a plan view viewed from the central axis O is a radial direction, and a direction around the central axis O is a circumferential direction. Further, the direction in which the discharge hole 106a of the discharge head 106 is directed is the front, the reverse direction is the rear, and the direction perpendicular to the vertical direction and the front-rear direction is the left-right direction.

  The mounting cap 103 has a circular ceiling wall 103a in plan view with an opening formed in the center, a cylindrical peripheral wall 103b extending downward from the outer peripheral edge of the ceiling wall 103a, and an inner side facing the ceiling. A cylindrical upper tube portion 103c communicating with the opening of the wall portion 103a, a cylindrical guide tube portion 103d extending upward from the upper end of the upper tube portion 103c, and the upper tube portion 103c and the guide tube portion 103d. , And a trigger support portion 103e disposed on the rear side.

  The trigger support portion 103e protrudes rearward from the outer peripheral surfaces of the upper tube portion 103c and the guide tube portion 103d, and has a pair of side wall portions 103f that are opposed to each other with a space in the left-right direction, and a pair of side wall portions. And a rear wall portion 103g formed between the rear ends of 103f. A protruding portion 103h that protrudes upward is formed at the rear portion of the upper end of the side wall portion 103f. A cylindrical swing shaft 103i extending in the left-right direction protrudes from the outer surface of the protrusion 103h.

The stem 104 is inserted inside the guide tube portion 103d so as to be movable up and down. The upper portion of the stem 104 protrudes upward from the upper end of the guide tube portion 103d, and the lower portion of the stem 104 protrudes downward from the lower end of the guide tube portion 103d, and is disposed in the upper tube portion 103c. In addition, a head 104 a whose upper end is closed is formed at the upper end of the stem 104. A columnar pressed portion 104b is protruded from each of the left and right side surfaces of the head 104a. In addition, a nozzle connecting cylinder portion 104c that communicates with the inside of the stem 104 protrudes forward from the head portion 104a.
The nozzle connecting cylinder part 104 c has a cylindrical shape extending in the front-rear direction, and the front part of the nozzle connecting cylinder part 104 c is disposed in the ejection head 106.
The vertical piston 105 is fitted to the lower end portion of the stem 104 and slides along the inner peripheral surface of the cylinder 101 as the stem 104 moves up and down.

The cylinder 101 includes a bottomed cylindrical cylinder main body 101a, a plate-shaped supported portion 101b that is formed in an annular shape in a plan view and protrudes radially outward from an intermediate portion in the vertical direction of the cylinder main body 101a, A cylindrical valve seat tube portion 101c projecting downward from the lower end of the cylinder body 101a, and a cylindrical connection tube portion 101d projecting downward from the lower end of the valve seat tube portion 101c.
The upper part of the cylinder body 101 a is fitted into the upper cylinder part 103 c of the mounting cap 103, and the lower part of the cylinder body 101 a is disposed inside the peripheral wall 103 b of the mounting cap 103.
The connecting portion between the inner peripheral edge of the supported portion 101b and the outer peripheral surface of the cylinder main body 101a penetrates in the vertical direction, and on the outer peripheral side of the cylinder main body 101a, the portion positioned above the supported portion 101b A communication hole 101e is formed to communicate with a portion located on the lower side.
Here, the gap between the outer peripheral surface of the stem 104 and the inner peripheral surface of the guide cylinder portion 103d, the gap between the outer peripheral surface of the cylinder 101 and the inner peripheral surface of the upper cylinder portion 103c, and the communication hole 101e are a container. An outside air introduction path R that communicates the inside of the main body 102 with the outside is configured.
The lower portion of the valve seat tube portion 101c has a tapered shape that gradually decreases in diameter as the inner diameter and outer diameter decrease downward.

In the cylinder 101, a vertical core rod 108 extending in the vertical direction, a vertical coil spring 109, and a spherical on-off valve 111 are disposed.
The vertical core rod 108 is a rod-shaped member inserted into the vertical piston 105. An upper portion of the vertical core rod 108 is inserted into the stem 104, and an enlarged diameter portion 108 a is formed at the lower portion of the vertical core rod 108. A plurality of vertical rib portions 108b placed on the bottom surface of the cylinder main body portion 101a are disposed at the lower end portion of the enlarged diameter portion 108a at intervals in the circumferential direction.
The vertical coil spring 109 is interposed between the vertical piston 105 and the vertical rib portion 108 b of the vertical core rod 108.
The on-off valve 111 is accommodated inside the valve seat tube portion 101c and is detachably disposed on a tapered surface in the valve seat tube portion 101c.

  The discharge head 106 extends in the front-rear direction, and has a cylindrical nozzle cylinder portion 106b whose front end is closed, a horizontal piston 106c that is slidably fitted back and forth in the nozzle cylinder portion 106b, and a front-rear direction. A horizontal core rod 106d that extends and is disposed in the nozzle cylinder portion 106b, and a horizontal coil spring 106e that is disposed in the nozzle cylinder portion 106b. The nozzle cylinder portion 106b, the horizontal piston 106c, the horizontal core rod 106d, and the horizontal coil spring 106e are disposed coaxially with the common shaft. Hereinafter, this common axis is referred to as a nozzle axis O1.

  The nozzle tube portion 106b includes a rear portion 106f that is undercut-fitted to the nozzle connecting tube portion 104c, and a front portion 106g having an inner diameter that is smaller than the rear portion 106f. In FIG. 8, a stepped surface facing rearward is formed at a connection portion between the rear portion 106f and the front portion 106g. A valve seat 106h is formed on the front portion 106g of the nozzle cylinder portion 106b by the step surface. Further, an annular housing groove portion 106i centering on the nozzle axis O1 as viewed from the front is formed on the front end surface of the nozzle tube portion 106b. The housing groove portion 106i communicates with the nozzle tube portion 106b. Yes. A cylindrical spray cap 106j whose front end is closed is attached to the housing groove 106i, and the discharge hole 106a is formed in the central portion of the front wall of the spray cap 106j.

The lateral piston 106c has a double cylindrical shape extending in the front-rear direction, and includes a nozzle outer cylinder part 106k and a nozzle inner cylinder part 106n disposed inside the nozzle outer cylinder part 106k.
The front end portion of the nozzle outer cylinder portion 106k is in sliding contact with the inner peripheral surface of the rear portion 106f of the nozzle cylinder portion 106b, and the rear end portion of the nozzle outer cylinder portion 106k is the inner portion of the front portion of the nozzle connecting cylinder portion 104c. It is in sliding contact with the peripheral surface.
The nozzle inner cylinder portion 106n extends forward from an intermediate portion in the front-rear direction of the nozzle outer cylinder portion 106k, and the front end portion of the nozzle inner cylinder portion 106n contacts the valve seat 106h of the nozzle cylinder portion 106b. It touches. The nozzle inner cylinder portion 106n is formed with a through hole 106p that penetrates the nozzle inner cylinder portion 106n in the nozzle radial direction orthogonal to the nozzle axis O1.

The horizontal core rod 106d is a rod-shaped member inserted into the horizontal piston 106c. The rear portion of the horizontal core rod 106d is inserted into the nozzle connecting cylinder portion 104c, and a plurality of horizontal rib portions 106q are spaced around the nozzle axis O1 on the outer peripheral surface of the intermediate portion in the front-rear direction of the horizontal core rod 106d. There are a plurality of openings.
The horizontal coil spring 106e extends in the front-rear direction, and is interposed between the rear end portion of the nozzle inner cylinder portion 106n of the horizontal piston 106c and the horizontal rib portion 106q of the horizontal core rod 106d.

The trigger 107 is attached to the trigger support portion 103e via the swing shaft 103i, and is provided so as to be swingable around the swing shaft 103i.
The trigger 107 includes a top plate portion 107a disposed above the head portion of the stem, a rear plate portion 107b extending obliquely downward from the rear end edge of the top plate portion 107a, and a top plate portion 107a. A front plate portion 107c extending obliquely downward from the front end edge of the front plate portion, and a pair of side plate portions 107d suspended separately from the left and right side end edges of the top plate portion 107a.

A long hole portion 107e extending in the vertical direction is formed in the upper portion of the front plate portion 107c, and the nozzle cylinder portion 106b of the discharge head 106 is inserted into the long hole portion 107e. Further, the lower portion of the front plate portion 107c is a finger hook portion for putting a finger or the like.
A pressing portion 107f for pressing down the stem 104 is provided on the inner side surface of the side plate portion 107d. The pressing portion 107f is a pair of plate-like members that sandwich the head 104a of the stem 104 from both the left and right sides. The pressed portion 104b of the stem 104 is fitted to the lower end of the pressing portion 107f so as to be slidable about its axis. An arcuate push-out notch 107g is formed. Further, a shaft hole 107h is formed in the rear portion of the side plate portion 107d. The shaft hole portion 107h is inserted through the swing shaft 103i of the trigger support portion 103e so as to be slidable about the central axis.
In the example shown in the figure, a stopper 110 is provided on the trigger support portion 103e to restrict the rotational movement of the trigger 107 around the swing shaft 103i downward.
The stopper 110 rotates in the left-right direction between a restriction position where the trigger support portion 103e is in contact with or close to the lower end of the pressing portion 107f of the side plate portion 107d and a release position that is spaced rearward from the pressing portion 107f. The shaft 110a is supported so as to be rotatable. The stopper 110 is provided with a pair of knob pieces 110b that sandwich the pair of side plate portions 107d from the outside in the left-right direction.

Next, the front / reverse dual-use adapter 1 will be described.
As shown in FIG. 2 to FIG. 4, the adapter for upside-down use 1 can freely open communication between the cylindrical main body cylinder portion 10 and the inside of the container main body 102 through the outside air introduction path R of the discharge device 100 and the outside. A cylindrical outside air introduction valve 30 to be shut off. The main body cylinder portion 10 and the outside air introduction valve 30 are disposed coaxially with the central axis O.
The main body cylinder part 10 includes a cylindrical outer cylinder member 11 fitted on the lower end of the cylinder main body part 101a, an upper part disposed in the outer cylinder member 11, and a lower part protruding downward from the outer cylinder member 11. The inner cylindrical member 12 and a cylindrical pipe 13 whose upper end is fitted into the lower end of the inner cylindrical member 12. The outer cylindrical member 11, the inner cylindrical member 12, and the pipe 13 are arranged coaxially with the central axis O.

The outer cylinder member 11 is disposed in a cylindrical outer cylinder part 14 in which the lower end part of the cylinder main body part 101 a is fitted in the upper end part, and an intermediate part in the vertical direction of the outer cylinder part 14. A partition wall 15 that divides the interior vertically, a cylindrical mounting cylinder 16 that extends upward from the partition wall 15 and is connected to the connecting cylinder 101d of the cylinder 101, and extends downward from the partition wall 15 And a cylindrical lower tube portion 17 to which the upper end portion of the inner tube member is coupled.
The inner diameter and outer diameter of the outer cylinder portion 14 above the partition wall portion 15 are larger than the inner diameter and outer diameter of the portion below the partition wall portion 15. The upper portion of the outer cylindrical portion 14 has a stepped diameter increasing from the lower side toward the upper side. In the example shown in the drawing, a small diameter portion 14a extending upward from the partition wall portion 15 and a small diameter portion 14a. The large-diameter portion 14b, which has a large diameter and is positioned above the small-diameter portion 14a, and a step portion 14c that connects the small-diameter portion 14a and the large-diameter portion 14b. An annular flange portion 14d is projected from the upper end portion of the large diameter portion 14b toward the radially outer side in plan view. The outer diameter of the flange portion 14d is equal to the outer diameter of the supported portion 101b, and the inner diameter of the flange portion 14d is larger than the inner diameter of the supported portion 101b. The upper surface of the flange portion 14d abuts on the lower surface of the supported portion 101b with the communication hole 101e open. A ring-shaped packing 50 is disposed on the lower surface of the supported portion 101b in plan view. The packing 50 is arrange | positioned on the upper end opening edge of the opening part 102a.

Here, the main body cylinder portion 10 is formed with a communication window 10 a that communicates the inside with the container main body 102. A plurality of communication windows 10a are formed at intervals in the circumferential direction. The communication window 10a is disposed so as to reach the stepped portion 14c from the lower end portion of the large diameter portion 14b.
The large-diameter portion 14b is provided with an annular mounting projection 18 projecting radially inward in plan view. The mounting protrusion 18 is disposed at a portion of the large diameter portion 14b that is continuous with the communication window 10a from above. The mounting protrusions 18 are arranged at intervals in the circumferential direction. The attachment protrusion 18 is disposed at a portion corresponding to the communication window 10a along the circumferential direction.

The partition wall 15 is formed with a liquid passage hole 19 penetrating in the vertical direction.
The mounting cylinder portion 16 is externally fitted to the connection cylinder portion 101 d of the cylinder 101. In addition, the mounting tube portion 16 is formed with a notch 20 that extends over the entire length of the mounting tube portion 16 in the vertical direction and communicates with the liquid passage hole 19.
A part of the outer peripheral surface at the upper end of the lower cylindrical portion 17 is connected to the inner peripheral surface of the outer cylindrical portion 14, and the radial direction is between the other portion and the inner peripheral surface of the outer cylindrical portion 14. The gap is provided. The outer cylindrical member 11 is formed with an inverted introduction hole 21 that penetrates the part at the upper end portion of the lower cylindrical portion 17 and the outer cylindrical portion 14 integrally in the radial direction. The introductory hole 21 can introduce the content liquid in the container body 102 when the discharger 100 is inverted.

As shown in FIG. 3, the inner cylinder member 12 includes a cylindrical upper cylinder part 22 having an upper end connected to the lower cylinder part 17, a lower part than the upper cylinder part 22, and a lower part on the outer side. A cylindrical lower cylindrical portion 23 projecting downward from the cylindrical member 11 and a cylindrical coupling cylindrical portion 24 that couples the upper cylindrical portion 22 and the lower cylindrical portion 23 are provided.
The upper end portion of the upper cylindrical portion 22 is externally fitted to the lower cylindrical portion 17. And between the outer peripheral surface of the upper cylinder part 22 and the inner peripheral surface of the outer cylinder part 14, the 1st flow path r1 which distribute | circulates a content liquid is formed. The first flow path r1 communicates with the liquid passage hole 19.
The lower end portion of the upper cylindrical portion 22 has a tapered shape that gradually decreases in diameter as the inner diameter and the outer diameter decrease downward, and a spherical switching valve 25 is disposed inside the upper cylindrical portion 22. .
Between the outer peripheral surface of the coupling cylinder part 24 and the inner peripheral surface of the outer cylinder part 14, the 2nd flow path r2 which distribute | circulates a content liquid is formed. The second flow path r2 communicates with the first flow path r1. The coupling cylinder portion 24 is formed with a communication hole 26 that communicates the inside with the second flow path r2. A plurality of communication holes 26 are formed in the coupling cylinder portion 24 at intervals in the circumferential direction.
Here, the communication hole 26, the second flow path r 2, the first flow path r 1, and the liquid flow hole 19 communicate with an upright introduction hole 29 and the inverted introduction hole 21, which will be described later, and a lower end opening of the cylinder 101. The communication path r is configured.

The lower cylinder part 23 is fitted in the lower end part of the outer cylinder member 11. Further, the upper end portion of the lower cylinder portion 23 has a tapered shape that gradually decreases in diameter as the inner diameter and the outer diameter increase, and a spherical lower valve body 27 is formed inside the lower cylinder portion 23. It is arranged.
A plurality of second vertical rib portions 28 projecting inward in the radial direction and extending in the vertical direction are formed on the inner peripheral surface of the lower cylindrical portion 23 at intervals in the circumferential direction. The lower end portion of the second vertical rib portion 28 protrudes inward in the radial direction, and restricts the lower valve body 27 from moving below the lower end portion of the second vertical rib portion 28.

  The upper end portion of the pipe 13 is fitted in the lower end portion of the lower cylindrical portion 23, and the lower end opening portion of the pipe 13 forms an upright introduction hole 29 that opens toward the bottom portion in the container main body 102. The upright introduction hole 29 can introduce the content liquid in the container body 102 when the discharge device 100 is upright. The upright introduction hole 29 is disposed below the inverted introduction hole 21.

As shown in FIGS. 2 and 5, the outside air introduction valve 30 is fitted into the main body cylinder portion 10. The outside air introduction valve 30 includes a cylindrical valve main body cylinder portion 31 and an annular valve portion 32 in a plan view that is connected to the lower end portion of the valve main body cylinder portion 31.
The valve main body cylinder part 31 is fitted in the large diameter part 14b. The upper end opening edge of the valve main body cylinder portion 31 is arranged at the same position in the vertical direction as the upper end opening edge of the large diameter portion 14b. The lower end opening edge of the valve body cylinder portion 31 is disposed between the upper end edge and the lower end edge of the communication window 10a along the vertical direction. On the inner peripheral surface of the lower end portion of the valve body cylinder portion 31, a protrusion 33 is provided that protrudes inward in the radial direction. The protrusion 33 is formed over the entire circumference in the circumferential direction. A diameter-expanded surface 33a that gradually increases in diameter as it goes downward is formed at the lower end of the protrusion 33. A communication gap g communicating with the outside air introduction path R is provided between the inner peripheral surface of the valve main body cylinder portion 31 and the outer peripheral surface of the cylinder 101. A communication hole 101e is opened in the communication gap g. The communication gap g allows communication between the outside air introduction path R and the communication window 10a. On the outer peripheral surface of the lower end portion of the valve main body cylinder portion 31, an attachment groove portion 34 that is recessed toward the inside in the radial direction and is attached to the attachment protrusion 18 is formed over the entire circumference. The mounting groove 34 is disposed between the upper end edge and the lower end edge of the protrusion 33 along the vertical direction. The lower end edge of the mounting groove 34 is disposed between the upper end edge and the lower end edge of the diameter-expanded surface 33a along the vertical direction.
The valve portion 32 is inclined so as to extend radially inward as it goes downward. Further, the valve portion 32 is elastically deformable in the radial direction, and is in contact with the outer peripheral surface of the cylinder 101 so as to be separated toward the outer side in the radial direction. The valve portion 32 closes the communication between the communication window 10a and the outside air introduction path R so as to be freely opened. The valve portion 32 closes the communication gap g so as to be freely opened. The lower end opening edge of the valve part 32 is located above the upper surface of the step part 14c.

  Next, the operation of the front / reverse adapter 1 will be described.

  In the dispenser 100 to which the adapter for both normal and inverted use 1 is mounted, first, when the dispenser 100 is upright and inverted, the knob 110b is gripped to move the stopper 110 around the rotary shaft 110a from the restricted position to the released position. The movement of the trigger 107 by the stopper 110 is released. Then, the trigger 107 is gripped and swung around the swing shaft 103i, and the stem 104 and the vertical piston 105 are pushed into the cylinder 101 while the inside of the valve seat tube portion 101c is closed by the on-off valve 111, and the cylinder 101 101 is set to a positive pressure. Then, the content liquid in the cylinder 101 rises in the stem 104 and is introduced into the nozzle connecting cylinder portion 104c, the horizontal piston 106c is separated from the valve seat 106h, and the content liquid is discharged from the discharge hole 106a of the discharge head 106. The

  Thereafter, when the grip of the trigger 107 is released, the stem 104 and the vertical piston 105 are restored and moved relative to the cylinder 101 based on the urging force from the vertical coil spring 109. At this time, the inside of the cylinder 101 becomes a negative pressure, and this negative pressure acts on the on-off valve 111 to open the inside of the valve seat cylinder portion 101c, and acts on each of the switching valve 25 and the lower valve body 27 through the communication path r. . Then, when the discharge device 100 is upright, the state in which the switching valve 25 blocks the communication between the introductory introduction hole 21 and the communication path r is maintained, and the lower valve body 27 is at the lower end of the second vertical rib portion 28. Get away from. As a result, the content liquid in the container main body 102 reaches the lower end opening of the cylinder 101 through the upright introduction hole 29, the main body cylinder portion 10, and the communication path r and flows into the cylinder 101.

  On the other hand, when the dispenser 100 is inverted, the upright introduction hole 29 that opens to the bottom of the container body 102 protrudes from the liquid level of the content liquid in the container body 102. In addition, the switching valve 25 is separated from the inner side of the upper cylindrical portion 22 based on its own weight in a state where the inverted introduction hole 21 is located in the content liquid in the container body 102. The communication path r communicates with the inside of the main body cylinder portion 10. Therefore, when a negative pressure is generated in the cylinder 101, the liquid in the container main body 102 reaches the lower end opening of the cylinder 101 through the inversion time introduction hole 21, the main body cylindrical portion 10 and the communication path r, and the cylinder 101 101 flows in.

Here, regardless of whether the dispenser 100 is upright or inverted, when the liquid content in the container body 102 flows into the cylinder 101, the inside of the container body 102 becomes negative pressure, and this negative pressure is outside air. By acting on the introduction valve 30 through the communication window 10a and separating the valve portion 32 from the outer peripheral surface of the cylinder 101, the inside of the container body 102 and the outside communicate with each other through the communication gap g and the outside air introduction path R, and the inside of the container body 102 Outside air is introduced. Thereafter, when the internal pressure of the container main body 102 returns to the original state, the valve portion 32 is restored and deformed to come into contact with the outer peripheral surface of the cylinder 101 again. Communication with is interrupted.
In the present embodiment, since the valve portion 32 faces the communication window 10a, when the valve portion 32 is separated from the outer peripheral surface of the cylinder 101 and outside air is introduced into the container body 102, the outside air is It is possible to facilitate the quick introduction into the container main body 102 through the communication window 10 a from between the portion 32 and the outer peripheral surface of the cylinder 101.

  As described above, according to the forward / inverted dual-use adapter 1 according to this embodiment, since the outside air introduction valve 30 is fitted in the main body cylinder portion 10, the forward / inverted dual-use adapter 1 is attached to the discharge device 100. In this case, it becomes possible to move the entire body-inverted adapter 1 to which the main body cylinder portion 10 and the outside air introduction valve 30 are assembled, so that excellent setability can be provided.

  Moreover, since the outside air introduction valve 30 is fitted in the main body cylinder portion 10, the outside air introduction valve 30 including the valve portion 32 can be protected by the main body cylinder portion 10. Therefore, for example, when the outdoor air introduction valve 30 is stored or transported in a state in which a plurality of right and left inverted adapters 1 fitted in the main body cylinder portion 10 are packed or transported, the outside air introduction valve 30 is in another normal inverted state. It can control that it contacts with the adapter 1 for two, and is deform | transformed or damaged.

  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, the lower valve body 27 and the packing 50 may not be provided.
In the said embodiment, the main body cylinder part 10 is provided with the outer side cylinder member 11, the inner side cylinder member 12, and the pipe 13, and the main body cylinder part 10 is formed with the several member, However, This invention is limited to this. Absent. For example, the main body cylinder part 10 may be integrally formed with one member.
The valve part 32 does not need to oppose the communication window 10a.

  In the above embodiment, the mounting protrusion 18 is formed on the inner peripheral surface of the main body cylinder portion 10 and the mounting groove portion 34 is formed on the outer peripheral surface of the valve main body cylinder portion 31, but the present invention is not limited to this. For example, the attachment groove 34 may be formed on the inner peripheral surface of the main body cylinder portion 10, and the attachment protrusion 18 may be formed on the outer peripheral surface of the valve main body cylinder portion 31.

Further, the dispenser 100 to which the adapter for both sideways upside down 1 according to the present invention is applicable is not limited to the configuration shown in the embodiment.
For example, the stopper 110 may not be provided.
In the above-described embodiment, the discharge head 106 and the stem 104 are pushed into the cylinder 101 by operating the trigger 107. However, the discharge head 106 and the stem 104 are directly operated without the trigger 107. It may be configured to.
Further, the discharge head 106 is not limited to the configuration shown in the above-described embodiment, and for example, the horizontal piston 106c, the horizontal core rod 106d, and the horizontal coil spring 106e may be omitted.
Moreover, in the said embodiment, the external air introduction path R is a clearance gap between the outer peripheral surface of the stem 104 and the inner peripheral surface of the guide cylinder part 103d, and between the outer peripheral surface of the cylinder 101 and the inner peripheral surface of the upper cylinder part 103c. However, instead of this, the form of the outside air introduction path R is appropriately changed such that the through hole is formed in the mounting cap 103 and the outside air introduction path R is constituted by this through hole. It may be changed.

  In addition, it is possible to appropriately replace the constituent elements in the embodiment with known constituent elements without departing from the spirit of the present invention, and the above-described modified examples may be appropriately combined.

DESCRIPTION OF SYMBOLS 1 Adapter for both normal and inverted 10 Main body cylinder part 10a Communication window 21 Introducing introduction hole 25 Switching valve 29 Erecting introduction hole 30 Outside air introduction valve 32 Valve part 100 Discharger 101 Cylinder 102 Container body 104 Stem 105 Vertical piston (piston)
106 Discharge head 106a Discharge hole r Communication path R Outside air introduction path

Claims (2)

A stem disposed in an upwardly biased state so as to be movable downward, a piston linked to the vertical movement of the stem, and the piston is slidably fitted inside and accommodated in a container main body containing the content liquid. A cylinder to be disposed, and a discharge head attached to the upper end of the stem and formed with a discharge hole for discharging the content liquid, and an outside air introduction path communicating the inside of the container body with the outside is formed. The adapter is a dual-use adapter for supplying the liquid in the cylinder at the time of negative pressure in the cylinder, both when the dispenser is upright and inverted.
A main body cylinder portion into which the cylinder is fitted, and
A cylindrical outside air introduction valve that releasably blocks communication between the inside and outside of the container body through the outside air introduction path;
In the main body cylinder part,
An opening hole at the time of erecting that opens toward the bottom in the container body, and that allows the content liquid in the container body to be introduced when the dispenser is erect.
An inverted introduction hole that is disposed above the upright introduction hole and into which the content liquid in the container body can be introduced when the discharger is inverted,
A communication path that connects the upright introduction hole and the inverted introduction hole and the lower end opening of the cylinder is formed, and
A switching valve is provided that cuts off the communication between the introductory introduction hole and the communication path when the discharger is upright and communicates the inversion introduction hole and the communication path when the discharger is inverted. And
The outside air introduction valve is fitted in the main body cylinder part,
The main body cylinder portion is formed with a communication window that communicates the inside with the inside of the container main body.
The outside air introduction valve is provided with a valve portion that abuts on the outer peripheral surface of the cylinder in a releasable manner and closes the communication between the communication window and the outside air introduction path so as to be freely opened. Right-and-left inverted adapter.   The adapter for both ends upright and inverted according to claim 1, wherein the valve portion is opposed to the communication window.

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