JP6774904B2 - Weighing cap - Google Patents

Description

The present invention relates to a measuring cap.

As the measuring cap, for example, as shown in Patent Document 1 below, a climax cylinder-shaped mounting cylinder mounted on the mouth of a container body in which the contents are housed, and a measuring cylinder fixed inside the mounting cylinder. Weighing caps with, are known. The measuring cylinder extends from the top wall of the mounting cylinder toward the inside of the container body, and a measuring scale is formed on the inner peripheral surface thereof.

When the conventional measuring cap is used, after removing the measuring cap from the container body, for example, the container body is tilted and the contents are poured into the measuring cylinder through the mouth. At this time, since a measuring scale is formed on the measuring cylinder, the contents can be weighed and poured into the measuring cylinder. This makes it possible to use a measured amount of content.

Jitsufuku No. 5-36839

However, in the above-mentioned conventional weighing cap, since it is necessary to align the contents with the weighing scale, the contents must be carefully poured into the measuring cylinder, and there is room for improvement in operability during weighing. It was. For example, as a result of comparing the contents poured out to the measuring cylinder with the measuring scale, if the contents do not reach the measuring scale, the contents are repeatedly poured out to the measuring scale. It is necessary to make fine adjustments so that Therefore, it is easy to take time and effort, and the operability is poor.
Further, with the conventional weighing cap, the contents easily exceed the weighing scale at the time of weighing, so that it is difficult to weigh the contents stably with good reproducibility. In particular, when the content exceeds the weighing scale, it may be necessary to redo the weighing, and in this respect as well, there is room for improvement in operability during weighing.

The present invention has been made in view of such circumstances, and an object of the present invention is to be able to appropriately measure the contents by a simple operation and to perform the measurement stably with good reproducibility. It is to provide a weighing cap that can be used.

(1) The measuring cap according to the present invention has a climaxed tubular measuring cylinder portion that is detachably attached to the mouth of the container body in which the contents are housed, and the measuring cylinder portion that is attached to the measuring cylinder portion and described above. A ridged tubular outer cap having a cap top wall portion arranged outside the container body along the cap axial direction with respect to the top wall portion of the measuring cylinder portion is provided, and the measuring cylinder portion is provided with the top wall portion. A bottomed tubular compartment tube portion that extends from the portion toward the inside of the container body and the inside thereof opens toward the top wall portion of the cap, and the compartment cylinder portion that surrounds the compartment cylinder portion from the outside in the radial direction. A pouring cylinder portion that extends from the top wall portion toward the inside of the container body from the compartment cylinder portion and defines an annular measuring chamber that opens toward the inside of the container body with the compartment cylinder portion. And, a collection chamber communicating with the inside of the compartment cylinder portion is defined between the measuring cylinder portion and the outer cap, and the measuring chamber and the collection chamber are provided in the compartment cylinder portion. In addition to communicating with each other, an introduction hole is formed to guide the surplus of the contents exceeding the predetermined first set volume among the volumes of the measuring chamber from the measuring chamber side to the collecting chamber side.

According to the measuring cap according to the present invention, after removing from the mouth of the container body, the outer cap is turned upside down so as to face downward, so that the measuring chamber is opened upward and the injection is performed. The open end of the cylinder and the bottom wall of the compartment cylinder are in a state of facing upward. As a result, the contents in the container body can be gradually accumulated in the measuring chamber by pouring the contents in the container body into the measuring cap through the mouth of the container body.
At this time, since the introduction hole is formed in the compartment cylinder portion, even if the content exceeding the first set volume is poured into the measuring chamber from the container body side, the amount exceeding the first set volume is formed. The contents, that is, the surplus of the contents, can be guided from the measuring chamber side to the collection chamber side through the introduction hole and escaped. Therefore, a fixed amount of contents, that is, an amount of contents corresponding to the first set volume can be stored in the measuring chamber, and accurate weighing can be performed.
Further, even if the contents are further poured into the measuring chamber from the container body side, the amount of the contents accumulated in the measuring chamber does not change, and the contents only flow to the collection chamber side through the introduction hole. , The user can easily grasp that the weighing is completed, for example, by visually recognizing the change in the flow of the contents.

In particular, unlike the conventional method that used a weighing scale, the contents were simply poured out from the container body side to the measuring cap side, and the excess contents were released to the collection chamber side while being determined in the measuring chamber. Since a large amount of contents can be stored, the contents can be appropriately weighed by a simple operation, and the weighing can be performed stably with good reproducibility.
After pouring the contents accumulated in the measuring chamber to the outside, for example, by attaching the measuring cap to the mouth of the container body and returning it to the original state, the contents accumulated in the collection chamber can be introduced into the introduction hole and It can be returned to the inside of the container body through the inside of the dispensing cylinder.

(2) At the open end of the dispensing cylinder portion, a dispensing piece that further protrudes toward the inside of the container body is formed, and the introduction hole is formed with the dispensing piece of the compartment cylinder portion. May be formed in a portion located on the opposite side of the cap shaft in the radial direction.

In this case, after weighing the contents, for example, by tilting the measuring cap with the dispensed piece facing downward, the contents accumulated in the measuring chamber can be dispensed to the outside using the dispensed piece. Can and weighed quantities of content can be used.
Since the introduction hole is located on the opposite side of the cap shaft in the radial direction from the injection piece, the introduction hole is in a state of facing upward when the above-mentioned contents are injected. Therefore, the contents accumulated in the collection chamber move toward the bottom wall side of the partition cylinder portion as the measuring cap tilts, but it is difficult to reach the introduction hole facing upward. Therefore, it is possible to prevent the contents from flowing out to the outside of the compartment cylinder portion through the introduction hole, and the contents can be retained in the compartment cylinder portion. As a result, it is possible to discharge only the contents accumulated in the measuring chamber to the outside without mixing the contents accumulated in the collection chamber, and it is possible to use the contents in a more accurately measured amount. ..

(3) The introduction hole is formed vertically on the peripheral wall of the compartment cylinder portion along the cap axial direction, extends toward the inside of the container body, and is one of the introduction holes. An obstruction piece capable of closing the portion from the inside of the compartment cylinder portion is formed, and the outer cap is attached to the measuring cylinder portion so as to be relatively rotatable around the cap axis, and the obstruction piece is attached with rotation. Can be switched between a closed position that closes a part of the introduction hole and an open position that opens the introduction hole, and the introduction hole is said when the closed piece is located at the closed position. Of the volume of the measuring chamber, the surplus content exceeding the second set volume, which is larger than the first set volume, may be guided from the measuring chamber side to the collecting chamber side.

In this case, for example, when the outer cap is rotated to position the closed piece in the open position, the introduction hole can be opened, so that the content exceeding the first set volume is described above. It is possible to store a fixed amount of contents (amount corresponding to the first set volume) in the measuring chamber while allowing the material to escape to the collection chamber side through the introduction hole.
On the other hand, when the outer cap is rotated to position the closed piece at the closed position, a part of the introduction hole is closed by the closed piece, so that the contents are placed in the measuring chamber by the amount of the closed piece. It can be stored, and a larger amount of contents can be stored in the measuring chamber. Then, after the amount of contents corresponding to the second set volume is accumulated in the measuring chamber, the contents exceeding the second set volume (surplus contents) are introduced through the introduction holes so as to get over the obstructed piece. It can be escaped to the collection room side through. As a result, an amount of contents corresponding to the second set volume, which is larger than the first set volume, can be stored in the measuring chamber.
From the above, the amount of contents to be weighed can be changed by a simple operation of simply rotating the outer cap, and the weighing cap can be made easier to use.

(4) The introduction hole may be formed from the peripheral wall to the bottom wall in the section cylinder portion.

In this case, since the introduction hole is formed up to the bottom wall of the compartment cylinder portion that faces upward when the contents are weighed, the contents flow from the measuring chamber side to the collection chamber side. Easy to check. Therefore, it is easy and surely to grasp that the weighing of the contents is completed.

According to the measuring cap according to the present invention, the contents can be appropriately weighed by a simple operation, and the weighing can be performed stably with good reproducibility.

It is a figure which shows the embodiment of the measuring cap which concerns on this invention, and is the vertical sectional view of the state which is attached to the mouth part of the container body. It is a side view which looked at the section cylinder part and introduction hole shown in FIG. 1 from the side. It is a vertical cross-sectional view which shows the state which the contents corresponding to the 1st set volume are accumulated in the measuring chamber of the measuring cap shown in FIG. It is a vertical cross-sectional view which shows the state which moved the block piece to an open position from the state shown in FIG. It is a vertical cross-sectional view which shows the state which the contents corresponding to the 2nd set volume are accumulated in the measuring chamber of the measuring cap shown in FIG. It is a vertical cross-sectional view which shows the state which showed the state which turned upside down after removing the measuring cap from the state shown in FIG. 6 is a vertical cross-sectional view showing a state in which the measuring cap is tilted from the state shown in FIG. 6 and the contents accumulated in the measuring chamber are poured out to the outside. FIG. 5 is a vertical cross-sectional view showing a state in which the measuring cap is removed from the state shown in FIG. 4 and then turned upside down to pour the contents from the container body side to the measuring cap side.

Hereinafter, embodiments of the measuring cap according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the measuring cap 1 of the present embodiment is detachably attached to the mouth portion 11 of the container body 10 in which the content W (see FIG. 3) is housed, and the mouth portion 11 is opened and closed. It includes a tubular measuring cylinder portion 2 and a topped tubular outer cap 3 attached to the measuring cylinder portion 2.

In FIG. 1, the central axes of the mouth portion 11, the measuring cylinder portion 2, and the outer cap 3 of the container body 10 are arranged on a common axis. Hereinafter, this common shaft is referred to as a cap shaft O, and the outside of the container body 10 along the cap shaft O direction, that is, the outer cap 3 side is referred to as an upper side, and the container body 10 side on the opposite side is referred to as a lower side. Further, the direction orthogonal to the cap axis O in a plan view from the cap axis O direction is referred to as a radial direction, and the direction of orbiting around the cap axis O is referred to as a circumferential direction.

The content W is not particularly limited, but for example, a cosmetic solution, a moisturizer, a beauty essence, a detergent solution, a softener solution, a chemical solution (scratch drug, an anti-inflammatory agent, an analgesic agent, etc.), a deodorant solution, etc. Examples thereof include various liquids such as an aromatic liquid containing a volatilizer.

(Mouth of the container body)
First, the mouth portion 11 of the container body 10 will be described.
The mouth portion 11 of the container body 10 is formed by a first mouth portion 12 formed in the container body 10 and a second mouth portion 13 in the bottomed tubular inner plug member 14 attached to the first mouth portion 12. It is configured.

A first screw portion 15 is formed on the outer peripheral surface of the first mouth portion 12, and a portion located below the first screw portion 15 protrudes outward in the radial direction and extends vertically. A plurality of stop ribs 16 are formed at intervals in the circumferential direction.

The inner plug member 14 extends radially inward from the outer cylinder portion 20 that surrounds the first opening portion 12 from the outside in the radial direction and the upper end portion of the outer cylinder portion 20, and is placed on the upper end opening edge of the first opening portion 12. An annular flange portion 21 arranged, the second opening portion 13 extending upward from the flange portion 21, an inner cylinder portion 22 extending downward from the inner peripheral edge portion of the flange portion 21, and an inner cylinder. A bottom wall portion 23 extending radially inward from the lower end portion of the portion 22 is provided, and is arranged coaxially with the cap shaft O.

A second screw portion 24 screwed to the first screw portion 15 is formed on the inner peripheral surface of the outer cylinder portion 20. As a result, the entire inner plug member 14 is attached to the first opening portion 12 by screw coupling. However, the method of attaching the inner plug member 14 to the first opening portion 12 is not limited to screw coupling, and may be attached by, for example, undercut fitting.

A rib 25 having a wall surface facing in the circumferential direction is formed on the inner peripheral surface of the outer cylinder portion 20 on the lower end side. When the inner plug member 14 is attached to the first opening portion 12, the rib 25 can be engaged with the detent rib 16 of the first opening portion 12 from the circumferential direction. As a result, the inner plug member 14 is prevented from being opened with respect to the first opening portion 12 by engaging the rib 25 with the detent rib 16 from the circumferential direction.

The second opening portion 13 is formed to have substantially the same diameter as the first opening portion 12, and a third screw portion 26 is formed on the outer peripheral surface thereof.
The inner cylinder portion 22 is formed to have an outer diameter smaller than the inner diameter of the first opening portion 12, and is arranged inside the first opening portion 12 with a slight gap between the inner cylinder portion 22 and the first opening portion 12. ing. A seal cylinder portion 27 integrally formed with the flange portion 21 is arranged between the inner cylinder portion 22 and the first opening portion 12. The seal cylinder portion 27 extends downward from the flange portion 21 and is tightly fitted inside the upper end portion of the first opening portion 12.

The bottom wall portion 23 is formed so as to be inclined with respect to a surface perpendicular to the cap shaft O, and a pouring nozzle 30 for pouring out the content W is integrally formed.
The injection nozzle 30 projects upward from the bottom wall portion 23, and the inside thereof communicates with the inside of the container body 10. In the illustrated example, the injection nozzle 30 is formed with its central axis slightly eccentric with respect to the cap axis O. However, the pouring nozzle 30 may be formed so that its central axis is coaxial with the cap shaft O or substantially coincides with the cap shaft O.

In the present embodiment, the radial direction from the cap shaft O toward the central axis of the ejection nozzle 30 is referred to as the front, and the opposite side is referred to as the rear.

The dispensing nozzle 30 is formed so as to project upward from the second port portion 13 and gradually taper toward the front as the upper end portion side thereof goes upward. As a result, the upper end of the ejection nozzle 30 is located on the front side. The upper end of the pouring nozzle 30 located in front of this is the pouring outlet 31. Therefore, by tilting the container body 10 with the spout 31 facing downward, it is possible to pour out the contents W in the container body 10 through the spout 31.

A slit 32 is formed in a portion of the pouring nozzle 30 located on the rear side over the entire length from the pouring outlet 31 to the connecting portion between the pouring nozzle 30 and the bottom wall portion 23. As a result, the ejection nozzle 30 of the present embodiment is formed in a C shape in cross-sectional view. However, the shape of the ejection nozzle 30 is not limited to the C shape in the cross-sectional view, and may be formed in, for example, a circular shape or an elliptical shape in the cross-sectional view.

(Measuring cap)
Next, the measuring cap 1 will be described in detail.
The measuring cylinder portion 2 is detachably attached to the second opening portion 13 of the inner plug member 14 of the mouth portion 11 of the container body 10.
The material of the measuring cylinder 2 is not particularly limited, but a synthetic resin such as polypropylene or polyethylene is preferable, and a transparent or translucent synthetic resin is preferable.

The measuring cylinder portion 2 is a bottomed cylinder that extends downward from the top wall portion 40 arranged above the pouring nozzle 30 and the central portion of the top wall portion 40, and the inside thereof opens upward. The shape-shaped partition cylinder 41, the injection cylinder 42 extending downward from the outer peripheral edge of the top wall 40 and surrounding the compartment 41 from the outside in the radial direction, and the second port 13 from the outside in the radial direction. It includes a mounting cylinder portion 43 that surrounds the mounting cylinder portion 43, and an annular connecting wall portion 44 that connects the upper end portion of the mounting cylinder portion 43 and the dispensing cylinder portion 42.

The top wall portion 40 is formed in a circular shape in a plan view in which the outer diameter is slightly smaller than the inner diameter of the inner cylinder portion 22 of the inner plug member 14.
The partition tube portion 41 includes a peripheral wall 41a extending downward from the top wall portion 40 and a bottom wall 41b that closes the lower end opening of the peripheral wall 41a, and is capped in a state of being inserted from above inside the ejection nozzle 30. It is arranged coaxially with the axis O. In the illustrated example, the compartment cylinder portion 41 is inserted into the pouring nozzle 30 so that the bottom wall 41b is located slightly below the flange portion 21 of the inner plug member 14.

The dispensing cylinder portion 42 is formed so as to surround the compartment cylinder portion 41 and the dispensing nozzle 30 from the outside in the radial direction and extend downward from the compartment cylinder portion 41. In the illustrated example, the dispensing cylinder portion 42 is arranged between the inner cylinder portion 22 of the inner plug member 14 and the dispensing nozzle 30, and the inside thereof opens downward.
The space defined between the dispensing cylinder portion 42, the peripheral wall 41a of the compartment cylinder portion 41, and the top wall portion 40 is an annular measuring chamber 45 that opens downward.

A dispensing piece 46 that projects further downward is formed at a portion of the lower end portion (opening end portion) of the dispensing cylinder portion 42 that is located on the front side. As a result, after removing the measuring cap 1, by tilting the measuring cap 1 with the dispensing piece 46 facing downward, the contents W accumulated in the measuring chamber 45 are discharged to the outside through the dispensing piece 46. It is possible.
A sharpened lip portion 46a is formed at the lower end portion of the ejection piece 46 so as to slightly protrude toward the front and gradually decrease in thickness toward the front.

A fourth screw portion 47 screwed to the third screw portion 26 formed in the second opening portion 13 is formed on the inner peripheral surface of the mounting cylinder portion 43. As a result, the entire measuring cap 1 is attached to the second opening 13 by screw coupling. However, the method of attaching the measuring cap 1 to the second opening 13 is not limited to screw coupling, and may be attached by, for example, undercut fitting.

The connecting wall portion 44 extends inward in the radial direction from the upper end portion of the mounting cylinder portion 43, and is arranged on the upper end opening end of the second opening portion 13 with an annular first connecting wall portion 44a and a first connecting wall portion. A tubular second connecting wall portion 44b extending upward from the inner peripheral edge portion of the portion 44a and extending radially inward from the upper end portion of the second connecting wall portion 44b and being connected to the dispensing cylinder portion 42. It is provided with an annular third connecting wall portion 44c.
However, the shape of the connecting wall portion 44 is not limited to this case, and for example, the inner peripheral edge portion of the first connecting wall portion 44a may be configured to be connected to the dispensing cylinder portion 42. ..

The first connecting wall portion 44a is formed with a seal cylinder portion 48 extending downward and closely fitting inside the upper end portion of the second opening portion 13. Further, a guide cylinder portion 49 extending upward is formed on the outer peripheral edge portion of the top wall portion 40. In the illustrated example, the outer diameter of the guide cylinder portion 49 is formed to be slightly smaller than the outer diameter of the injection cylinder portion 42.
The guide tube portion 49 is not essential and may not be provided.

The outer cap 3 is mounted so as to be rotatable relative to the measuring cylinder portion 2 around the cap shaft O. The material of the outer cap 3 is not particularly limited, but for example, a synthetic resin such as polypropylene or polyethylene is preferable as in the measuring cylinder portion 2, and a transparent or translucent synthetic resin may be used. preferable.

The outer cap 3 extends downward from the cap top wall portion 50 arranged above the top wall portion 40 of the inner plug member 14 and the outer peripheral edge portion of the cap top wall portion 50, and guides the measuring cylinder portion 2. The first cap peripheral wall portion 51 that surrounds the tubular portion 49 from the outside in the radial direction and the third cap peripheral wall portion 51 that further extends downward from the lower end portion of the first cap peripheral wall portion 51 and is connected to the third of the dispensed tubular portions 42 in the measuring cylinder portion 2. A second cap peripheral wall portion 52 that surrounds a portion located above the wall portion 44c from the outside in the radial direction is provided.

The first cap peripheral wall portion 51 is rotatably in contact with the outer peripheral surface of the guide cylinder portion 49 around the cap axis O. As a result, the entire outer cap 3 can be rotated while being stably guided by the guide cylinder portion 49.
The second cap peripheral wall portion 52 is rotatably connected around the cap shaft O in a state where the pouring cylinder portion 42 is prevented from coming off upward. In the illustrated example, the second cap peripheral wall portion 52 can be rotated around the cap shaft O by being undercut fitted to the annular protrusion 42a formed on the dispensing cylinder portion 42 over the entire circumference. It is connected.

A collection chamber 53 for collecting excess contents W is defined between the outer cap 3 and the measuring cylinder portion 2 configured as described above. The collection chamber 53 is defined between the top wall portion 40, the cap top wall portion 50, and the guide cylinder portion 49, and communicates with the inside of the compartment cylinder portion 41.

Then, the compartment cylinder portion 41 communicates with the inside of the measuring chamber 45 and the inside of the collection chamber 53, and of the volume in the measuring chamber 45, the surplus portion of the content W exceeding the predetermined first set volume V1 is supplied. An introduction hole 54 that leads from the measuring chamber 45 side to the collecting chamber 53 side is formed.

The introduction hole 54 is formed in a portion of the compartment cylinder portion 41 located on the side opposite to the ejection piece 46 in the radial direction with the cap shaft O interposed therebetween.
Specifically, as shown in FIGS. 1 and 2, the introduction hole 54 is formed vertically along the cap shaft O in a portion of the peripheral wall 41a of the section cylinder portion 41 located on the rear side. In the illustrated example, the introduction hole 54 is formed vertically from a portion of the peripheral wall 41a located at the same height as the third connecting wall portion 44c to the bottom wall 41b and opens downward.

The introduction hole 54 is formed in a side view table shape so that the peripheral width along the circumferential direction gradually increases from the upper opening edge 54a located above the opening edge of the introduction hole 54 toward the lower side. ing. However, the shape of the introduction hole 54 is not limited to this case, and may be formed in a vertically long slit shape, for example.

An annular space defined by a portion of the peripheral wall 41a of the partition cylinder portion 41 from the top wall portion 40 to the upper opening edge 54a of the introduction hole 54, the top wall portion 40, and the dispensing cylinder portion 42. Is defined as the first set volume V1. As a result, as shown in FIG. 3, when the measuring cap 1 is removed, the content W corresponding to the first set volume V1 can be stored in the measuring chamber 45. Then, the introduction hole 54 is made capable of allowing the surplus portion of the content W exceeding the first set volume V1 to escape to the recovery chamber 53 side.

As shown in FIG. 1, the outer cap 3 is formed with a closing member 60 extending downward from the cap top wall portion 50 and inserted inside the partition cylinder portion 41. The closing member 60 includes a cylindrical closing cylinder portion 61 and a closing piece 62 extending further downward from the lower end of the closing cylinder portion 61, and is arranged coaxially with the cap shaft O. ..

The closing cylinder portion 61 extends downward from the central portion of the cap top wall portion 50 and is in contact with the inside of the peripheral wall 41a of the partition cylinder portion 41. The closed cylinder portion 61 is in contact with the compartment cylinder portion 41 so as to be relatively rotatable around the cap shaft O. The lower end of the closing cylinder portion 61 is located at a height equivalent to the upper opening edge 54a of the introduction hole 54, and is formed so as not to block the introduction hole 54 from the inside of the partition cylinder portion 41.

A plurality of through holes 63 penetrating the closed cylinder portion 61 in the radial direction are formed in the portion of the closed cylinder portion 61 mainly located above the top wall portion 40 at intervals in the circumferential direction.
The through hole 63 is formed in a vertically long slit shape over the entire length of the closed cylinder portion 61 mainly located above the top wall portion 40. As a result, the inside of the closing cylinder portion 61 communicates with the inside of the collection chamber 53 through the through hole 63.

The obstruction piece 62 is formed in an arc shape in a cross-sectional view, and extends downward so that the lower end portion thereof reaches the vicinity of the bottom wall 41b of the partition cylinder portion 41. As shown in FIG. 2, the peripheral width of the closing piece 62 along the circumferential direction is slightly larger than the maximum peripheral width of the introduction hole 54. As a result, the blocking piece 62 can block a part of the introduction hole 54 from the inside of the partition cylinder portion 41.

The closing member 60 configured as described above rotates as the outer cap 3 rotates around the cap shaft O. Therefore, the closing piece 62 has a closing position P1 that closes a part of the introduction hole 54 as shown in FIG. 1 and an opening position that opens the introduction hole 54 as shown in FIG. It is possible to move between P2 and P2. That is, it is possible to switch the position of the closing piece 62 between the opening position P2 and the closing position P1 by rotating the outer cap 3.

As shown in FIG. 4, when the obstruction piece 62 is located at the obstruction position P1, the volume of the annular space defined by the obstruction piece 62, the top wall portion 40, and the dispensing cylinder portion 42 is the above. The second set volume V2 is larger than the first set volume V1.
As a result, as shown in FIG. 5, when the measuring cap 1 is removed, the content W corresponding to the second set volume V2 can be stored in the measuring chamber 45. In this case, the introduction hole 54 is capable of allowing the surplus portion of the content W exceeding the second set volume V2 to escape to the recovery chamber 53 side.

The outer peripheral surface of the measuring cylinder portion 2 (for example, the outer peripheral surface of the connecting wall portion 44) and the outer peripheral surface of the outer cap 3 (for example, the outer peripheral surface of the second cap peripheral wall portion 52) are provided with the outer cap 3 with respect to the measuring cylinder portion 2. A display unit for displaying the circumferential position (rotational position) of the above may be provided. The display unit is not particularly limited, and examples thereof include marks and scales displayed by engraving, printing, and the like. In this case, for example, the first display unit may be provided on the outer peripheral surface side of the measuring cylinder portion 2, and the second display portion may be provided on the outer peripheral surface side of the outer cap 3. By doing so, the rotational position of the outer cap 3 with respect to the measuring cylinder 2 can be easily grasped by the relative positional relationship between the first display unit and the second display unit, and the position of the closing piece 62 can be opened. It is possible to easily and accurately switch between P2 and the closed position P1.

(Use of weighing cap)
Next, a case where the content W is weighed by using the measuring cap 1 configured as described above will be described.
In this case, after the measuring cap 1 is removed from the mouth portion 11 of the container body 10, the measuring cap 1 is arranged upside down so that the outer cap 3 faces downward as shown in FIG. In the state shown in FIG. 6, the obstruction piece 62 is located at the obstruction position P1.

By turning the measuring cap 1 upside down, the outer cap 3 side along the cap axis O direction faces downward, and the measuring cylinder portion 2 side faces upward. Therefore, the measuring chamber 45 is opened upward, and the lower end of the dispensing cylinder 42 and the bottom wall 41b of the compartment 41 are facing upward.
Next, the container body 10 is tilted with the spout 31 facing downward, and the contents W in the container body 10 are poured into the measuring cap 1 through the spout 31. As a result, the content W can be gradually accumulated in the measuring chamber 45.

At this time, since the closing piece 62 is located at the closing position P1, the closing piece 62 closes a part of the introduction hole 54 from the inside of the partition cylinder portion 41. Therefore, the content W can be stored in the measuring chamber 45 by the amount that the introduction hole 54 is closed, and as shown in FIG. 6, the content corresponding to the second set volume V2 is stored in the measuring chamber 45. W can be accumulated.
After that, the content W exceeding the second set volume V2, that is, the surplus content W, is guided to the collection chamber 53 side through the introduction hole 54 so as to get over the obstruction piece 62 and escaped. Can be done.

Therefore, a fixed amount of contents W, that is, an amount of contents W corresponding to the second set volume V2 can be stored in the measuring chamber 45, and accurate weighing can be performed. Further, even if the content W is further poured into the measuring chamber 45 from the container body 10 side, the amount of the content W accumulated in the measuring chamber 45 does not change, and the collection chamber 53 side is passed through the introduction hole 54. Since the content W only flows through the container W, the user can easily grasp that the weighing has been completed by visually recognizing the change in the flow of the content W, for example.

Since the introduction hole 54 is formed up to the bottom wall 41b of the compartment cylinder portion 41 that faces upward when the content W is weighed, the content W moves from the measuring chamber 45 side to the collection chamber 53 side. It is easy to check how it flows toward you. Therefore, it is easy and surely easy to know that the measurement of the content W has been completed.

As described above, according to the measuring cap 1 of the present embodiment, the content W is simply poured out from the container body 10 side to the measuring cap 1 side, unlike the conventional case where the measuring scale is used. Therefore, since a fixed amount of the content W can be stored in the measuring chamber 45 while allowing the excess content W to escape to the collection chamber 53 side, the content W can be appropriately weighed by a simple operation. At the same time, weighing can be performed stably with good reproducibility.

Further, after weighing the content W, as shown in FIG. 7, by tilting the measuring cap 1 with the dispensing piece 46 facing downward, the contents accumulated in the measuring chamber 45 using the dispensing piece 46. The object W can be smoothly discharged to the outside. As a result, the measured amount of the content W can be used.

Since the lip portion 46a is formed on the dispensing piece 46, it is possible to improve the drainage of the content W at the time of dispensing. For example, the content is transmitted along the outer peripheral surface of the dispensing cylinder portion 42. It is possible to prevent the W from dripping, and for example, it is possible to prevent the content W from adhering to the fourth screw portion 47. This makes it possible to prevent inconveniences such as the screw connection between the third screw portion 26 and the fourth screw portion 47 becoming hard due to the influence of the content W.

In particular, since the introduction hole 54 is located on the opposite side in the radial direction from the injection piece 46 with the cap shaft O in between, the introduction hole 54 is in a state of facing upward when the contents W described above are injected. Become. Therefore, the content W accumulated in the collection chamber 53 moves toward the bottom wall 41b side of the partition cylinder portion 41 with the inclination of the measuring cap 1, but it is difficult to reach the introduction hole 54 facing upward. Therefore, it is possible to prevent the content W from flowing out to the outside of the compartment cylinder 41 through the introduction hole 54, and the content W can be retained in the compartment 41.
As a result, only the content W accumulated in the measuring chamber 45 can be discharged to the outside without mixing the content W accumulated in the collection chamber 53, and the content in a more accurately measured amount can be discharged to the outside. W can be used. Therefore, the measuring cap 1 can be easily used.

After the contents W accumulated in the measuring chamber 45 are poured out to the outside, the measuring cap 1 is attached to the mouth portion 11 of the container body 10 and returned to the original state, so that the contents are accumulated in the collection chamber 53. The content W can be returned to the inside of the container body 10 through the inside of the introduction hole 54 and the dispensing cylinder portion 42 and the inside of the dispensing nozzle 30.

Further, according to the measuring cap 1 of the present embodiment, the amount of the content W to be measured can be changed by rotating the outer cap 3.
In this case, for example, after removing the measuring cap 1, the outer cap 3 is rotated around the cap shaft O to switch the position of the closing piece 62 from the closing position P1 to the opening position P2. As a result, as shown in FIG. 8, the introduction hole 54 can be opened. Therefore, by pouring the content W into the measuring cap 1 from the container body 10 side, the amount exceeding the first set volume V1. The content W (surplus of the content W) can be released to the collection chamber 53 side through the introduction hole 54, and the content W corresponding to the first set volume V1 can be stored in the measuring chamber 45.

In this way, the amount of the content W to be weighed can be changed by a simple operation of simply rotating the outer cap 3. That is, by locating the obstruction piece 62 at the obstruction position P1, a large amount of the contents W can be measured as shown in FIG. 6, and by locating the obstruction piece 62 at the open position P2, FIG. A small amount of content W can be weighed as shown. Therefore, for example, the amount to be weighed can be arbitrarily selected according to the application, and the easy-to-use weighing cap 1 can be obtained.

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

For example, in the above embodiment, the measuring cap 1 is configured so that the amount of the content W to be measured can be changed, but the measurement cap 1 is not limited to this case and may not be changed.
In this case, the closing member 60 can be omitted, and the outer cap 3 may be non-rotatably attached to the measuring cylinder portion 2. Further, it is not necessary to form the introduction hole 54 in a vertically long shape, and the introduction hole 54 may be formed in a circular or elliptical shape in a side view, for example.
Even in this configuration, the content W can be stored in the measuring chamber 45 while allowing the excess content W to escape to the collection chamber 53 side through the introduction hole 54, so that a fixed amount is stored in the measuring chamber 45. The contents W of can be stored. Therefore, the same effect as that of the above embodiment can be achieved.

Further, the closing piece 62 may be configured to gradually close a part of the introduction hole 54 according to the rotation operation of the outer cap 3. In this case, since the closing ratio for closing the introduction hole 54 can be changed, the amount of the content W to be measured can be further changed in a plurality of steps. Therefore, for example, it is possible to arbitrarily select the amount to be weighed from three or more stages according to the application.

Further, in the above embodiment, an example is shown in which the inner plug member 14 having the pouring nozzle 30 is attached to the first port portion 12 of the container main body 10, but the inner plug member 14 is not indispensable and is the first. The measuring cap 1 may be attached to the 1-port portion 12.

In addition, it is possible to replace the constituent elements in the embodiment with well-known constituent elements as appropriate without departing from the spirit of the present invention, and the embodiments and modifications may be appropriately combined.

O ... Cap shaft P1 ... Blocking position P2 ... Opening position 1 ... Measuring cap 2 ... Measuring cylinder 3 ... Outer cap 10 ... Container body 11 ... Container body mouth 40 ... Top wall 41 ... Partition cylinder 41a ... Peripheral wall 41b of the part ... Bottom wall of the section cylinder 42 ... Dispensing cylinder 45 ... Measuring chamber 46 ... Dispensing piece 50 ... Cap top wall 53 ... Recovery chamber 54 ... Introduction hole 62 ... Blocking piece

Claims (4)

A climaxed tubular measuring tube that is detachably attached to the mouth of the container body that houses the contents,
An ecstatic tubular outer cap that is attached to the measuring cylinder and has a cap top wall that is arranged outside the container body along the cap axial direction with respect to the top wall of the measuring cylinder. Prepare,
The measuring cylinder portion
A bottomed tubular partition tube portion that extends from the top wall portion toward the inside of the container body and has an inside opening toward the top wall portion of the cap.
The compartment cylinder portion is surrounded from the outside in the radial direction, extends from the top wall portion toward the inside of the container body from the compartment cylinder portion, and opens toward the inside of the container body with the compartment cylinder portion. It is equipped with a dispenser tube that defines an annular measuring chamber.
A collection chamber communicating with the inside of the partition cylinder is defined between the measuring cylinder and the outer cap.
The partition cylinder portion communicates the measuring chamber and the collecting chamber, and the surplus portion of the contents exceeding the predetermined first set volume among the volumes of the measuring chamber is supplied from the measuring chamber side to the partition cylinder portion. A measuring cap with an introduction hole that leads to the collection chamber side. In the measuring cap according to claim 1,
At the open end of the dispensing cylinder portion, a dispensing piece that further protrudes toward the inside of the container body is formed.
The introduction hole is a measuring cap formed in a portion of the compartment cylinder portion located on the side opposite to the ejection piece in the radial direction with the cap shaft interposed therebetween. In the measuring cap according to claim 1 or 2.
The introduction hole is formed vertically on the peripheral wall of the compartment cylinder portion along the cap axis direction.
The cap top wall portion is formed with a closing piece that extends toward the inside of the container body and can close a part of the introduction hole from the inside of the compartment cylinder portion.
The outer cap is rotatably mounted around the cap axis with respect to the measuring cylinder portion, and at the same time, the closing piece is closed with rotation, and the closing position and the introduction hole for partially closing the introduction hole are provided. It is possible to switch to the open position to open,
When the closed piece is located at the closed position, the introduction hole retains a surplus of the contents exceeding the second set volume, which is larger than the first set volume, in the volume of the measuring chamber. A measuring cap that leads from the measuring chamber side to the collecting chamber side. In the measuring cap according to claim 3,
The introduction hole is a measuring cap formed from the peripheral wall to the bottom wall in the compartment tube portion.

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