JP6452521B2 - container - Google Patents

Description

  The present invention relates to a container provided with an overcap, and more particularly, to a container provided with an inner cap member attached to a mouth tube portion of a container body and an overcap that covers the inner plug member.

As a container for filling contents with different viscosities such as sauce, ketchup, etc., a container with a spout attached to the mouth tube and a cap with an overcap from above has been conventionally known. First, the overcap was rotated and removed, and then the pull ring was pulled up to open the spout of the inner plug, and the contents were poured out.
Therefore, it is configured so that the plug formed in the spout of the inner plug member can be removed simply by rotating and lifting the overcap without pulling the pull ring, and the relatively low viscosity Worcester sauce is also available. A container equipped with an inner stopper member that can be used for a tonkatsu sauce having a relatively high viscosity is known. (For example, refer to Patent Document 1).

JP 2007-145370 A

  However, the container of Patent Document 1 corresponds to the contents having different viscosities such as Worcester sauce, medium-concentrated sauce, tonkatsu sauce, etc. by replacing a part of the inner plug member. There was a problem that the contents with different viscosities could not be handled.

  An object of the present invention is to solve the above-described problem, and includes an inner plug member attached to the mouth tube portion of the container body, and an overcap that covers the inner plug member, and only rotates the overcap. It is an object of the present invention to provide a container that can easily remove the plug formed at the outlet of the inner plug member and can handle a set of inner plug members from low to high in viscosity of the contents. .

In order to solve the above-described problems, the present invention provides a container including a middle plug member attached to the mouth tube portion of the container main body and an overcap that covers the inner plug member as a container. Equipped with a mouth tube part and a shoulder part and a body part connected to the lower end of the mouth tube part, the inner plug member is attached to the mouth tube part of the container body and attached to the upper part of the middle plug part And the middle plug is provided with a container mounting portion and a flow rate adjusting plate, and the flow rate adjusting plate is connected to the inner peripheral side of the container mounting portion. A plurality of flow passage holes formed on the plug, and the dispensing cap includes an outer peripheral wall mounted on the top of the plug during installation, a dispensing cylinder, and a plug formed on the dispensing cylinder. comprising a top wall, and an outer peripheral wall on the back surface of the top wall includes a抜栓mechanism for抜栓the plug body, the plug is of formed along the inner periphery of the pouring cylinder of pouring in plug Are connected via the weakened portion breakable thin that,抜栓mechanism is vertically from the back of the top wall, to employ a configuration which is characterized in that it is provided in the sealing ring to seal the inner circumference of the pouring cylinder .

As an embodiment of the flow rate adjusting plate, the flow rate adjusting plate has a configuration in which the flow path holes are formed at equal intervals along the outer peripheral edge of the rectifying wall, and the flow rate adjusting plate has a circular flow path hole. The structure is characterized in that it is formed radially at 45 ° intervals from the center of the rectifying wall, and the flow rate adjusting plate is characterized in that the rectifying wall is inclined upward from the outer periphery toward the center. The flow rate adjusting plate adopts a configuration characterized in that a protrusion is formed in the central portion of the flow straightening wall, the upper end surface of which is in contact with the lower end surface of the plug body of the spouting outlet when attached.

As an embodiment of the inner plug member, the inner plug member employs a configuration in which the mounting plug and the dispensing plug are connected via a hinge.
Further, as an embodiment of the pouring plug, the plug of the pouring plug has a cylindrical wall in the upper center, and a plurality of external teeth formed in the vertical direction are arranged on the outer periphery of the cylindrical wall. An insertion boss is inserted inside the sealing ring on the top wall of the overcap so that it fits into the inner periphery of the cylindrical wall when the lid is closed. A configuration is adopted in which a plurality of internal teeth formed in the contacting vertical direction are arranged.

  The present invention relates to a container having an inner stopper member attached to a mouthpiece portion of a container body and an overcap that covers the inner stopper member, and the inner stopper member is attached to the mouthpiece portion of the container body. It is equipped with a plug during installation and a dispensing plug installed at the top of the plug during installation. It can handle even expensive ones.

Further, the flow rate adjusting plate of the present invention guides the liquid remaining on the flow straightening wall to the flow passage hole provided at the outer peripheral edge quickly because the flow straightening wall is inclined upward from the outer periphery toward the center. Then, the content liquid can be collected in the container body through the flow path hole.
Furthermore, in the flow rate adjusting plate of the present invention, the middle portion of the rectifying wall is formed with a protrusion that is in contact with the lower end surface of the plug body of the plug during mounting when the upper end surface is mounted, so that the plug being dispensed is being mounted. After mounting on the top of the plug, the plug body of the plug being dispensed is pushed down because the bottom surface of the plug is in contact with the top surface of the protrusion of the flow rate adjustment plate of the plug during installation. This can prevent the weakened portion from being broken.

It is explanatory drawing of the state which covered the overcap in the container of this invention, (a) is a sectional elevational view, (b) is the upper surface enlarged view of the XX cross section of (a). It is explanatory drawing of the container equipped with the inside stopper member, (a) is a top view, (b) is a cross-sectional elevation view. It is explanatory drawing of an inside plug member, (a) is an elevation view, (b) is a bottom view. It is explanatory drawing of a plug | inlet during mounting | wearing, (a) is a top view, (b) is a cross-sectional elevation view. It is explanatory drawing of the extraction | pouring inside stopper, (a) is a top view, (b) is a cross-sectional elevation view. It is explanatory drawing of an overcap, (a) is a cross-sectional elevation view, (b) is a bottom view. It is explanatory drawing at the time of the extraction | pouring in the container of this invention, (a) is a cross-sectional side view, (b) is a figure showing the relationship between the contents and a flow volume adjusting plate.

  Next, examples of the container provided with the overcap of the present invention will be described with reference to the drawings.

  In FIG. 1, A is a container main body, B is an inner stopper member attached to the mouth tube portion of the container main body A, and C is an overcap that covers the inner stopper member B and seals the inside of the container.

  As shown in FIGS. 1 and 2, the container main body A is provided with a cylindrical mouth tube portion 1 and a shoulder formed in a substantially quadrangular shape with a transverse section having a circular arc at a corner portion. The neck portion 1 is provided with an engagement protrusion 4 on the outer periphery of the upper portion, and an annular neck ring 5 is provided therebelow.

As shown in FIG. 2, the shoulder portion 2 includes a shoulder wall 6 extending from the lower end of the mouthpiece portion 1 so as to form a substantially square shape, an inclined wall 7 that expands downward from the lower end of the shoulder wall 6, and an inclined wall 7 and a step 8 connected to the upper end of the body 3.
The inclined wall 7 is formed of four side portions 7a and four corner portions 7b, and an engaging recess 9 is formed in the center of the side portion 7a.

  As shown in FIGS. 1 to 3, the inner stopper member B includes an attaching stopper B1 attached to the mouthpiece portion 1 of the container body A, an extraction stopper B2 attached to the upper part of the attaching stopper B1, and an attachment. It is comprised from hinge B3 which connects middle stopper B1 and extraction middle stopper B2.

  As shown in FIGS. 1 to 4, the mounting stopper B1 includes a container mounting portion B1a that is mounted on the mouth tube portion 1 of the container main body A, and a flow rate adjusting plate 14 that is formed inside the container mounting portion B1a. Yes. The container mounting portion B1a includes an annular upper wall 10 that comes into contact with the upper end surface of the mouth tube portion 1 at the time of mounting, an outer cylinder 11 that is suspended from the outer peripheral edge of the upper wall 10, and a vertical suspension that extends from the inner peripheral edge of the upper wall 10. It is comprised from the inner cylinder 13 made.

  A mounting cylinder 12 is erected on the upper wall 10 from the inner peripheral edge, and the outer cylinder 11 has an engaging portion 15 that engages with the engaging protrusion 4 of the mouth tube portion 1 at the lower end portion of the inner peripheral surface. The hinge B3 is continuously formed at a predetermined position on the outer periphery.

  On the outer periphery of the upper portion of the mounting cylinder 12, there is provided an engaging protrusion 16 that engages with the dispensing stopper B2.

  The flow rate adjusting plate 14 includes a tapered rectifying wall 17 that inclines upward from the inner peripheral lower end of the inner cylinder 13 toward the center, and a dome-shaped protrusion 18 that is erected at the center of the rectifying wall 17. A plurality of flow path holes 19 are formed on the outer peripheral side of the rectifying wall 17 at equal intervals along the circumference.

As shown in FIGS. 1 to 3 and 5, the dispensing middle plug B <b> 2 is suspended from the annular upper wall 20, the outer peripheral wall 21 suspended from the outer peripheral edge of the upper wall 20, and the lower surface of the upper wall 20. The inner cylinder 22, the pouring cylinder 23 erected from the inner peripheral edge of the upper wall 20, and the breakable thinned weakened portion 24 formed along the vicinity of the lower end of the inner circumference of the pouring cylinder 23. It is comprised from the disk-shaped stopper 25 connected.
In the present embodiment, the plug body 25 is formed on the inner periphery of the dispensing cylinder 23. However, the plug body 25 is formed anywhere such as the upper end of the dispensing cylinder 23 as long as it can be unplugged by the unplugging mechanism described later. It doesn't matter.

On the outer periphery of the outer peripheral wall 21, a linear notch surface 21a is formed as a positioning means at a predetermined location, and a hinge B3 is continuously provided at a predetermined position on the lower outer periphery other than the notch surface 21a.
In the present embodiment, as shown in FIG. 3B, the cut-out surface 21a is formed at two upper and lower portions, but it may be formed at least at one location.
In the present embodiment, the shoulder 2 and the body 3 of the container main body A are formed in a substantially square shape. Therefore, as will be described later, when the hinge B3 is not provided, the cutout surface 21a is vertically and horizontally It is preferable to form in four places.
At the lower end of the inner periphery of the outer peripheral wall 21, an engaging ridge 29 is formed that engages with the engaging protrusion 16 of the mounting cylinder 12 when mounted on the upper portion of the mounting plug B <b> 1.

The plug body 25 is formed with a tapered portion on the lower surface, a cylindrical wall 26 is erected in the upper center, a fitting protrusion 27 is formed on the inner periphery of the upper end of the cylindrical wall 26, and the cylindrical shape Four external teeth 28 formed in the vertical direction are disposed on the outer periphery of the wall 26.
In the present embodiment, the number of external teeth 28 is four, but the number of external teeth 28 may be smaller or larger.
In addition, the lower end surface of the plug body 25 comes into contact with the upper end surface of the protrusion 18 of the mounting plug B1 when the dispensing plug B2 is mounted.

As shown in FIGS. 1 to 3, the hinge B3 employs a hinge structure that hardly protrudes radially outward, so that when the dispensing plug B2 is mounted on the upper portion of the mounting plug B1, a convex portion is formed on the outer periphery. I can't, so it looks good.
Of course, a normal hinge in which a convex part remains on a part of the outer periphery may be used.

  As shown in FIGS. 1 and 6, the overcap C includes a top wall 30 and an outer peripheral wall 31 that is suspended from the outer edge of the top wall 30, and has a substantially square cross-sectional shape.

An insertion boss portion 33 having a fitting portion 32 formed on the outer peripheral tip from the center is suspended from the back surface of the top wall 30, and the outer periphery of the insertion boss portion 33 is poured out when the lid is closed. A cylindrical sealing ring 34 that seals the inner periphery of 23 is suspended, and an intermediate cylindrical wall 35 is suspended outside the sealing ring 34.
In this embodiment, when the lid is closed, the outer periphery of the sealing ring 34 seals the inner periphery of the dispensing tube 23. However, the outer periphery of the dispensing tube is sealed by the inner periphery of the sealing ring. Also good.

On the inner peripheral surface of the sealing ring 34, four internal teeth 36 formed in the vertical direction are disposed as an unplugging mechanism for unplugging the plug body 25.
In the present embodiment, the number of the inner teeth 36 is four, but the number of inner teeth 36 may be smaller or larger than the number of outer teeth 28, and the same number as the outer teeth 28 may be provided. preferable.
Further, a mechanism that does not require positioning of the inner plug member B and the overcap C by forming the inner teeth 36 and the outer teeth 28 in a knurled shape may be employed as the plugging mechanism.
Further, in the present embodiment, the stopper mechanism is provided on the sealing ring 34, but any mechanism provided on the back surface of the top wall 30 such as the fitting boss portion 33 may be used.

The outer peripheral wall 31 is formed of four side portions 31a and four corner portions 31b.
A locking rib 37 that extends from the outer periphery of the middle cylindrical wall 35 to the vicinity of the lower end of the outer peripheral wall 31 through the back surface of the top wall 30 is provided at the center of the inner surface of the side portion 31a.

The locking rib 37 is formed with a locking portion 38 that engages with any of the engaging recesses 9 provided in the inclined wall 7 of the shoulder portion 2 of the container main body A at the lower end tip. An inner wall 39 is formed from above at the position where it abuts against the tip of the ring 5, and other inner surfaces do not contact the outer peripheral surface of the container main body A, the mounting plug B1, and the dispensing plug B2. Is formed.
At the lower part of the inner wall 39, there is provided a locking projection 40 whose upper part engages with the lower outer periphery of the neck ring 5 when the lid is closed.

Next, usage modes and operational effects of this embodiment will be described.
The assembly operation of the container provided with the overcap according to this embodiment is as follows. First, the discharging stopper B2 is rotated around the hinge B3 with respect to the mounting stopper B1, and the discharging stopper B2 is mounted on the upper portion of the mounting stopper B1. And the inner plug member B is set.
At that time, the engagement protrusion 16 formed on the mounting cylinder 12 of the plug B1 during mounting is engaged by engaging with the engaging protrusions 29 formed on the inner periphery of the outer peripheral wall 21 of the outlet plug B2. Is done.
Further, in this embodiment, the lower end surface of the plug body 25 of the outlet plug B2 is in contact with the upper end surface of the protrusion 18 of the flow rate adjusting plate 14 of the plug B1 being mounted. It is not necessary to be provided, and it may be provided at a position where it comes into contact with the stopper.

Since the middle plug member B of this embodiment is connected with the middle plug B1 and the middle middle plug B2 via the hinge B3, it can be molded with a single mold during production. Efficiency can be increased.
In addition, since the dispensing plug B2 and the mounting plug B1 are set as a set by the hinge B3, the working efficiency when both are set is improved.

Thereafter, the inner plug member B is plugged into the mouth tube portion 1 of the container body A filled with the contents.
In the plugging step, the mouth tube portion 1 of the container main body A is applied to the annular groove formed by the inner tube 13, the upper wall 10 and the outer tube 11 of the plug B1 during mounting, and the upper wall 20 of the plug B2 being poured out. By applying a pressing force from above, the engaging portion 15 of the outer cylinder 11 gets over and engages the engaging protrusion 4 of the mouth tube portion 1, and the mouth tube portion 1 is connected to the inner periphery and the inner periphery of the outer tube 11. The tube 13 is fitted by being sandwiched between the outer periphery of the tube 13 and the upper wall 10.
In addition, by attaching the straight line of the cutout surface 21a of the outer peripheral wall 21 of the outlet plug B2 in parallel with either side of the shoulder part 2 and the trunk part 3 of the container body A formed in a substantially square shape. The stopper B2 is positioned with respect to the container body A.

  Finally, the work is completed by covering the container main body A with the overcap C so as to cover the inner plug member B.

  In the crowning process by the overcap C, the positions of the side portions 31a and the corner portions 31b of the outer peripheral wall 31 are respectively adjusted to the side portions 7a and the corner portions 7b of the inclined wall 7 of the container main body A, while being over from above the container main body A. The cap C is pushed down to engage, and the engaging recess 9 formed in the side portion 7a of the inclined wall 7 of the shoulder portion 2 of the container body A is engaged with the engaging portion formed in the engaging rib 37 of the overcap C. 38 is engaged.

  At the same time, the fitting portion 32 on the outer periphery of the insertion boss portion 33 of the overcap C is fitted over the fitting protrusion 27 on the inner periphery of the cylindrical wall 26 formed on the top of the plug body 25 of the outlet plug B2. At the same time, the inner teeth 36 on the inner periphery of the sealing ring 34 enter the space where the outer teeth 28 on the outer periphery of the cylindrical wall 26 are absent.

By installing the dispensing stopper B2 with respect to the container main body A with a predetermined positional relationship, the sealing ring 34 is placed in a space without the outer teeth 28 on the outer periphery of the cylindrical wall 26 of the stopper 25 in the dispensing cylinder 23. It can be set at a position where the inner teeth 36 of the circumference enter, and the inner teeth 36 (members provided on the inner surface of the overcap) and the outer teeth 28 (members provided on the surface of the plug during extraction) collide (interfere). The plug body 25 is not pushed downward.
In addition, after the dispensing plug B2 is mounted on the upper part of the mounting plug B1, the plug body 25 of the discharging plug B2 has a lower end surface that contacts the upper end surface of the protrusion 18 of the flow rate adjusting plate 14 of the mounting plug B1. Since the lowering is prevented by contact, the plug body 25 can be prevented from being pushed downward and breaking the weakened portion 24.

  The outer edge of the neck ring 5 of the container main body A and the lower portion of the inner wall 39 of the locking rib 37 of the overcap C slide and get over the respective locking projections 40, The lower part of the outer edge of the neck ring 5 is engaged to prevent the overcap C from being detached from the container body A.

In using the container provided with the overcap, first, the overcap C is grasped and rotated in any direction.
When the overcap C is rotated, the locking portion 38 of the locking rib 37 of the overcap C moves away from the engaging recess 9 of the inclined wall 7 and comes into contact with the surface of the inclined wall 7, thereby While deforming the side 31a, the overcap C is lifted.
When the overcap C is lifted, the engagement between the outer edge of the neck ring 5 of the container body A and the inner wall 39 of the locking rib 37 inside the overcap C is released, and the overcap C is detached from the container body A and opened. Covered.

Simultaneously with the rotation of the overcap C, the inner teeth 36 formed on the inner periphery of the sealing ring 34 collide with the outer teeth 28 formed on the outer periphery of the cylindrical wall 26 of the outlet plug B2 and are being poured out. When the plug body 25 of the plug B2 is rotated, the thinned weakened portion 24 is broken, and the plug body 25 is disconnected from the plug B2 during extraction, so that the plug 25 is unplugged, and as shown in FIG. A spout is opened along the inner periphery.
At that time, the plug body 25 cut off from the discharging plug B2 is held by the overcap C as it is by fitting the fitting boss portion 33 of the overcap C into the cylindrical wall 26.

  In dispensing the contents, the container is tilted with the overcap C removed, and the contents are poured out from the dispensing cylinder 23 of the dispensing plug B2.

In the container of the present embodiment, when the content is a low-viscosity liquid such as Worcester sauce, as shown in FIG. 7, the content liquid in the container main body A of the stopper B1 is attached to the inclination of the container. The rectifying wall 17 of the flow rate adjusting plate 14 is temporarily dammed up, flows into the inner cylinder 13 using the lower flow path hole 19 in contact with the liquid content of the rectifying wall 17 as a flow path, and is poured out from the dispensing cylinder 23. .
Further, the upper flow passage hole 19 where the content liquid of the rectifying wall 17 does not come into contact becomes an air flow path, and air replacement with the inside and outside of the container main body A is performed, thereby preventing pulsation of the content liquid and stabilizing the content liquid. Then, it can flow into the inner cylinder 13.

  The liquid having a low viscosity is stably flowed into the inner cylinder 13 through the flow path hole 19 of the flow rate adjusting plate 14 of the plug B1 during mounting, so that the liquid flow at the flow rate of the content liquid depending on the tilt angle of the container. The turbulence can be rectified and stably poured out from the dispensing cylinder 23, so that even if the container is tilted too much at a stretch, the content liquid can be poured out at once or scattered. it can.

  If the contents are liquid such as tonkatsu sauce, etc., the liquid flow rate will be slowed by the viscosity of the liquid, so even if the container is tilted too much, the content liquid will be poured out all at once. There is no end.

  The middle plug member B of the present embodiment is composed of a middle plug B1 and a middle middle plug B2, and is provided with a flow rate adjusting plate 14 in the middle plug B1 so that it is a liquid with a certain degree of viscosity such as a tonkatsu sauce. Even if the liquid is low in viscosity, such as Worcester sauce, it is possible to cope with one type of inner plug as an inner plug that does not tilt the container too much to pour out the content liquid at once.

In this embodiment, as shown in FIG. 4, the flow passage hole 19 of the flow rate adjusting plate 14 of the plug B1 is formed in a circular shape with a diameter L slightly smaller than half of the radius R of the flow rate adjusting plate 14 when viewed from above. Eight radial positions are arranged along the outer peripheral edge of the rectifying wall 17 at 45 ° intervals.
For example, if the diameter of the channel hole 19 is too small, the high-viscosity content liquid cannot be discharged from the hole, that is, if the diameter of the channel hole 19 is too large, the low-viscosity content liquid will be discharged all at once. It flows in and cannot be rectified.
Further, if the flow path hole 19 is on the inner peripheral side of the rectifying wall 17, the container has to be tilted more for pouring the content liquid, and the container is tilted at an early stage of the tilting angle of the rectifying wall 17. The content liquid comes into contact with the upper flow path hole 19 and closes the air flow path, so that the air is not replaced with the inside and outside of the container body A, and the dispensing is stopped.
Furthermore, when the number of the radial flow path holes 19 arranged in the rectifying wall 17 is increased, the low-viscosity content liquid cannot be once blocked by the rectifying wall 17 and flows into the inner cylinder 13 at once. When the flow cannot be rectified and the number of the flow passage holes 19 is reduced, the flow passage is limited, and the amount flowing into the inner cylinder 13 is reduced, so that it takes time for pouring.
As described above, it is most preferable to form the flow path hole 19 like the flow rate adjusting plate 14 of the plug B1 in the present embodiment.

After the contents are poured out, the container is returned to the tilt position, and the positions of the side portions 31a and the corner portions 31b of the outer peripheral wall 31 are aligned with the side portions 7a and the corner portions 7b of the inclined wall 7, respectively, in the same manner as the first lid. However, when the overcap C is pushed down from above the container body A, the container body A is closed.
At that time, the sealing ring 34 of the overcap C has a plug body 25 of the inner plug B2 that is broken from the outlet plug B2 on the inner periphery, and is held by the insertion boss portion 33. Inserted into the inner periphery to seal the inside of the container.

In the present embodiment, the flow straightening wall 17 of the flow rate adjusting plate 14 of the plug B1 during mounting is inclined downward toward the outer periphery, so that the content liquid remaining on the flow straightening wall 17 was quickly provided on the outer peripheral edge. The content liquid can be collected in the container body A through the flow path hole 19 through the flow path hole 19.
The rectifying wall 17 may not be tapered as in the present embodiment, but may be a horizontal plate shape.

  In this embodiment, the mounting plug B1 and the dispensing plug B2 are integrally formed via the hinge B3, but the hinge B3 is eliminated, and the mounting plug B1 and the dispensing plug B2 are molded separately. It may be set at the time of assembly.

In this embodiment, the cross-sectional shape of the container is formed in a substantially square shape, but if the lid can be opened by positioning, pushing the overcap into the container body from above and closing it, and rotating the overcap Therefore, the shape of the container may be a polygonal shape in which the cross-sectional shape has a plurality of sides and corners, and the overcap is pushed into the container body from above without being positioned, and the lid is closed. As long as the cap is opened by rotating the cap, the cross-sectional shape of the container may be any shape other than a circle.
In addition, it is only necessary to push the overcap into the container body from above to close the cap, and to turn off the cap of the spouting plug by rotating the overcap when the cap is first opened. Any plugging mechanism may be used.

  The present invention provides a container that is closed by pushing the overcap against the container body from above, and that is opened by rotating the overcap. By rectifying the liquid flow and pouring from the dispensing cylinder, even if the content is liquid with a certain degree of viscosity or liquid with a low viscosity, it can be handled with a single type of plug member. Can be widely used regardless of the contents.

A Container body B Inner plug member B1 Plug installed B1a Container mount B2 Outlet plug B3 Hinge C Overcap R Radius of flow rate adjustment plate L Diameter of channel hole 1 Mouth tube part 2 Shoulder part 3 Body part 4 Engagement Projection 5 Neck ring 6 Shoulder wall 7 Inclined wall 7a Side part 7b Corner part 8 Step part 9 Engaging recess 10 Upper wall 11 Outer cylinder 12 Mounting cylinder 13 Inner cylinder 14 Flow rate adjusting plate 15 Engaging part 16 Engaging protrusion 17 Rectifying wall 18 Protruding portion 19 Channel hole 20 Upper wall 21 Outer peripheral wall 21a Notched surface 22 Inner cylinder 23 Outlet cylinder 24 Weakened section 25 Plug body 26 Cylindrical wall 27 Fitting protrusion 28 External tooth 29 Engaging protrusion 30 Top Wall 31 Peripheral wall 31a Side part 31b Corner part 32 Fitting part 33 Insertion boss part 34 Sealing ring 35 Middle cylinder wall 36 Internal tooth 37 Locking rib 38 Locking part 39 Inner side wall 40 Locking protrusion

Claims (7)

In a container provided with an inner cap member attached to the mouth tube portion of the container body, and an overcap that covers the inner plug member,
The container body includes a mouth tube portion, and a shoulder portion and a trunk portion that are connected to the lower end of the mouth tube portion,
The inner plug member includes a mounting plug that is mounted on the mouth tube portion of the container body, and a dispensing plug that is mounted on the upper portion of the plug during mounting.
The stopper during mounting includes a container mounting part and a flow rate adjusting plate,
The flow rate adjusting plate includes a rectifying wall continuously provided on the inner peripheral side of the container mounting portion, and a plurality of flow path holes formed in the rectifying wall,
The spouting plug includes an outer peripheral wall mounted on the top of the plug during mounting, a spout tube, and a plug formed on the spout tube.
The overcap has a top wall and an outer peripheral wall,
The back of the top wall is equipped with an unplugging mechanism for unplugging the plug ,
The plug body of the spouting spout is connected via a breakable thin wall weakening formed along the inner periphery of the spout tube,
The container is characterized in that the stopper mechanism is provided on a sealing ring that is suspended from the back surface of the top wall and seals the dispensing tube from the inner periphery .   The container according to claim 1, wherein the flow rate adjusting plate has channel holes formed at equal intervals along the outer peripheral edge of the rectifying wall.   The container according to claim 2, wherein the flow rate adjusting plate has eight circular flow path holes formed radially at 45 ° intervals from the center of the rectifying wall.   The container according to any one of claims 1 to 3, wherein the flow regulating plate has a rectifying wall inclined upward from the outer periphery toward the center.   The container according to any one of claims 1 to 4, wherein the inner plug member includes a middle plug and a middle plug being connected via a hinge. 6. The flow rate adjusting plate according to any one of claims 1 to 5, wherein a protrusion is formed in the central portion of the flow straightening wall, the upper end surface of which is in contact with the lower end surface of the plug body of the spouting outlet when attached. Container as described. The plug body of the dispensing spout has a cylindrical wall upright in the upper center.
A plurality of external teeth formed in the vertical direction are arranged on the outer periphery of the cylindrical wall,
Inside the sealing ring of the top wall of the overcap, a fitting boss portion that fits into the inner periphery of the cylindrical wall when closed is suspended,
The container according to any one of claims 1 to 6, wherein a plurality of inner teeth formed in a vertical direction that contact the outer teeth when the lid is opened are disposed on the inner periphery of the sealing ring .

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