JP6349221B2 - Weighing container - Google Patents

Description

  The present invention relates to a weighing container.

As a container that can discharge while measuring the contents, for example, as shown in Patent Document 1 below, the container body in which the contents are accommodated and the mouth of the container body are mounted so as to be movable upward in an upwardly biased state. There is known a measuring container including a storage body and a cap-shaped tubular cap body that is detachably attached to the mouth portion of the container body and covers the storage body and presses down the storage body.
In the mouth part of the container body, a communication wall part in which a communication opening for communicating the inside of the container body and the inside of the storage body is formed is provided. The storage body is disposed below the communication wall and includes a valve body that opens and closes the communication opening. And a valve body raises with cancellation | release of pressing-down of the storage body by a cap body, and is comprised so that a communication opening may be block | closed.

  According to this measuring container, the contents of the container body can be caused to flow into the storage body by placing the container body in an inverted posture, and the valve body is gradually communicated by removing the cap body while maintaining the inverted state. Begin to close the opening and finally close the communication opening and seal. As a result, the contents stored inside the storage body immediately before sealing can be transferred to the cap body, and a fixed amount of content can be discharged.

JP 2014-69866 A

  However, in the above-mentioned conventional measuring container, the valve body closes the communication opening and seals with the removal of the cap body, so that it is possible to discharge a fixed amount of content. It is not designed to eject objects. Therefore, the application is easily limited, and there is room for improvement in operability.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a measuring container capable of discharging a predetermined amount of contents in addition to discharging a predetermined amount of contents. That is.

In order to achieve the above object, the present invention provides the following means.
(1) A measuring container according to the present invention is mounted on a container main body in which contents are stored, and is movably mounted on the mouth of the container main body toward the outside of the container main body along the container axial direction. A cap body having a hole formed therein and a lid body for opening and closing the discharge hole, wherein the cap body is formed in a cylindrical shape, and an inner side thereof communicates the inside of the container main body and the discharge hole. In the mouth portion of the container body, a communication wall portion formed with a communication opening for communicating the inside of the container body and the inside of the storage body is provided, and the storage body is provided on the communication wall portion. In contrast, a valve that is disposed inside the container main body along the container axial direction and closes the communication opening with movement toward the outer side of the container main body along the container axial direction with respect to the mouth of the container main body. comprising a body, said container body and said cap member One of them is engaged with a guide groove formed on the other of the container body and the cap body, and on the outside of the container body along the container axial direction of the cap body with respect to the mouth portion of the container body. A protrusion is formed that moves along the guide groove with movement toward the guide groove, and an engagement protrusion that engages with the protrusion when the valve element closes the communication opening. Is formed .

  According to this measuring container, when the container body is directed downward with the cap body mounted, the contents in the container body flow into the storage body through the communication opening. Then, when the cap body is moved toward the outside of the container body along the container axial direction with the container body in that state (posture), the valve body gradually begins to block the communication opening, and finally The communication opening is closed and sealed. Therefore, the contents can be measured, and a fixed amount of contents can be stored in the reservoir in the cap body. Thereby, the measured fixed quantity of content can be discharged by opening a cover body and opening a discharge hole.

When discharging an arbitrary amount of contents, for example, after opening the lid and opening the discharge hole, the container body is directed downward with the communication opening being open. Thereby, the contents can be directly guided from the inside of the container main body to the discharge hole through the inside of the reservoir, and an arbitrary amount of the contents can be discharged.
In this way, since it can be used while switching between a mode for discharging a fixed amount of content and a mode for discharging an arbitrary amount of content, it is an easy-to-use weighing container with excellent operability. be able to.
Furthermore, when the cap body is moved toward the outside of the container main body along the container axial direction with respect to the mouth portion of the container main body, the protrusion moves along the guide groove, so that the cap body is moved more stably. The operability can be further improved.
Further, when the valve body closes and seals the communication opening, and the fixed amount of content is stored in the storage body in the cap body, the engagement convex portion engages with the projection body. It is easy to grasp that the measurement has been properly performed by the tactile sense. Therefore, it is possible to discharge a certain amount of contents more reliably and to quickly shift to a discharge operation.

(2) The cap body includes a cap-shaped tubular cap body in which the discharge hole is formed in the top wall portion and is detachably attached to the mouth portion of the container body. The cap body includes the storage body. However, it may be separable in the container axial direction.

  In this case, the valve body closes and seals the communication opening, and after the quantitative content is stored in the reservoir in the cap body, the cap body is removed from the mouth of the container body, and the quantitative content is stored in the reservoir. To the cap body. Therefore, for example, a fixed amount of content can be directly discharged from the opening of the cap body without using the discharge hole. In this way, when discharging a certain amount of contents, it is possible to use the cap body removed from the container body, so that the usage can be widened, and it is possible to selectively use according to the situation .

(3) Between the said container main body and the said cap body, the biasing member which urges | biases the said cap body toward the outer side of the said container main body along a container axial direction with respect to the opening part of the said container main body is provided. It may be done.

  In this case, since the urging member urges the cap body, the cap body is moved more smoothly and easily toward the outside of the container body along the container axial direction with respect to the mouth of the container body. easy. Therefore, the operability can be further improved. Moreover, since the valve body can be pressed against the communication opening by the urging member, the communication opening can be closed with high sealing performance.

(4) The urging member may be formed between the container main body and the cap body, and may be disposed in an accommodation space where communication with the inside of the reservoir and the inside of the container main body is blocked.

  In this case, since the urging member and the contents can be prevented from coming into contact with each other, the material of the urging member can be selected without being influenced by the contents, and the degree of freedom in design can be improved. Further, since the contents do not touch the urging member, it is not necessary to consider the relationship with the urging member, and the contents can be widely selected from a wide range of fields.

(5) The lid body may be connected to the cap body via a hinge portion.

  In this case, since the lid can be opened and closed with one touch, for example, it is easy to use and the loss of the lid can be prevented.

  According to the present invention, it is possible to use a mode in which a fixed amount of content is discharged and a mode in which an arbitrary amount of content is discharged as necessary. It can be.

It is a longitudinal section showing a 1st embodiment of a measuring container concerning the present invention. It is a side view of the inside stopper member which comprises the measuring container shown in FIG. It is a longitudinal cross-sectional view which shows the state which moved the cap body upward from the state shown in FIG. It is a longitudinal cross-sectional view which shows the state which inverted the measuring container shown in FIG. It is a longitudinal cross-sectional view which shows the state which moved the cap body downward from the state shown in FIG. It is a figure which shows the state which opens the cover body from the state shown in FIG. 5, opens the discharge hole, and discharges the fixed content. It is a figure which shows the state which opened the cover body from the state shown in FIG. 4, open | released the discharge hole, and is discharging the content of arbitrary amounts. It is a figure which shows the state which removed the cap main body from the state shown in FIG. 5, and transferred the arbitrary amount of contents to the cap main body. It is a figure which shows the state which is discharging | emitting the arbitrary amount of contents using the cap main body shown in FIG. It is a side view of the inside plug member which shows the modification of 1st Embodiment. It is a longitudinal cross-sectional view which shows 2nd Embodiment of the measuring container which concerns on this invention. It is a side view of the inside stopper member which comprises the measuring container shown in FIG. FIG. 12 is a longitudinal sectional view showing a state where the cap body is moved downward after the weighing container shown in FIG. 11 is inverted. It is a figure which shows the state which opened the cover body from the state shown in FIG. 13, opened the discharge hole, and discharged the fixed content. It is a longitudinal cross-sectional view which shows 3rd Embodiment of the measuring container which concerns on this invention. It is a longitudinal cross-sectional view of the measuring container which shows the modification of 3rd Embodiment.

(First embodiment)
Hereinafter, a first embodiment of a measuring container according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the measuring container 1 of the present embodiment is attached to a bottomed cylindrical container body 2 in which the contents W (see FIG. 4) are accommodated, and a mouth 2 a of the container body 2. A cap-shaped cap 4 having a discharge hole 3 and a lid 5 for opening and closing the discharge hole 3 are provided.

  In addition, the container main body 2 and the cap body 4 are arrange | positioned in the state which each center axis line located on the common axis. In the present embodiment, this common axis is referred to as a container axis O, the cap body 4 side along the container axis O is referred to as the upper side, and the container body 2 side is referred to as the lower side. Further, in a plan view viewed from the container axis O direction, a direction orthogonal to the container axis O is referred to as a radial direction, and a direction around the container axis O is referred to as a circumferential direction. Further, “upright” for the measuring container 1 means a posture in which the opening of the mouth portion 2a faces upward, and “inverted” means a posture in which the opening of the mouth portion 2a faces downward.

A plurality of vertical grooves 6 that are recessed toward the outside in the radial direction and open upward are formed on the inner peripheral surface on the upper end side of the mouth 2a of the container body 2 at intervals in the circumferential direction.
The contents W accommodated in the container body 2 are fluid contents such as liquids and powders, and are selected from various fields such as industrial fields, medical fields, and food fields. Can do. More specifically, it is possible to select the contents W from food, medicines, cosmetics, and the like. In the present embodiment, the powdered contents W are illustrated as an example.

An inner plug member 10 is attached to the mouth 2 a of the container body 2.
As shown in FIGS. 1 and 2, the inner plug member 10 surrounds the mounting cylinder 11 mounted on the mouth portion 2 a of the container body 2, and the mounting cylinder 11 with a space from the outside in the radial direction. The first guide tube 12 extending upward from the mouth 2a, the second guide tube 13 disposed inside the mouth 2a of the container body 2, the vertical center of the first guide tube 12, and the mounting tube 11 And the lower end of the second guide tube 13 are connected to the upper end of the second guide tube 13 and connected to the upper end opening edge of the mouth 2a of the container body 2. The container body 2 is connected to the second guide cylinder 13 so as to close the second guide cylinder 13, and has a communication wall portion 16 having a communication opening 15 formed at the center thereof, and is disposed below the communication wall portion 16. A bottomed cylindrical storage cylinder 17 disposed inside, a communication wall 16 and a storage cylinder A plurality of connecting pieces 18 for connecting the 7, and a.

The mounting cylinder 11 is mounted on the mouth 2a of the container body 2 by undercut fitting. However, it is not limited to this case. For example, it may be attached to the mouth 2a of the container body 2 by screwing.
On the outer peripheral surface on the upper end portion side of the second guide cylinder 13, there are formed vertical rib-like engagement pieces 19 that protrude outward in the radial direction and are spaced apart in the circumferential direction. These engagement pieces 19 are respectively fitted in the vertical grooves 6 formed in the mouth portion 2a of the container body 2 and engaged with the vertical grooves 6 from the circumferential direction. Accordingly, the inner plug member 10 is attached to the mouth portion 2a in a state of being prevented from rotating with respect to the mouth portion 2a of the container body 2.

  The housing cylinder 17 is disposed coaxially with the container axis O, and includes a housing wall portion 17a having the same or reduced diameter as the opening diameter of the communication opening 15, and a bottom wall portion 17b that closes the lower end side opening of the housing wall portion 17a. I have. A coil spring 39 to be described later is housed in the housing cylinder 17. A first holding projection 17 c that protrudes upward and holds the lower end of the coil spring 39 is formed at the center of the bottom wall portion 17 b.

The housing cylinder 17 configured in this manner is integrally connected to the communication wall portion 16 by the connecting piece 18. In the illustrated example, four connecting pieces 18 are formed at intervals in the circumferential direction.
The connecting pieces 18 extend along the container axis O, and the upper ends of the connecting pieces 18 are connected to the communication wall portion 16, and the connecting pieces 18 are bent radially inward from the lower ends of the vertical pieces 18 a. And a bent piece 18b connected to the upper end, and is formed in an L shape in side view. However, the shape and number of the connecting pieces 18 are not limited to those described above.

  The above-described inner stopper member 10 is a member that functions as a part of the container body 2. The first guide cylinder 12 and the second guide cylinder 13 are members that guide a movable inner plug 31 of the cap body 4 to be described later so as to move up and down. The communication opening 15 is located in the mouth portion 2 a of the container main body 2 and is an opening that communicates the inside of the container main body 2 with the inside of the movable inner plug 31.

  Further, as shown in FIGS. 1 and 2, a projection body, which will be described later, is formed on the cap body 4 side on the outer peripheral surface of the upper half of the first guide cylinder 12 from the middle portion in the vertical direction to the upper end portion. A guide groove 20 is formed in which 55 is movably engaged.

  The guide groove 20 has a lower end groove 21 positioned at an intermediate portion in the vertical direction of the first guide cylinder 12 and extends from the lower end groove 21 toward one side in the circumferential direction and gradually upwards toward one side in the circumferential direction. From the first circumferential groove 22 extending toward the first direction, the second circumferential groove 23 extending further horizontally from the circumferential end portion of the first circumferential groove 22 toward one side in the circumferential direction, and from the circumferential end portion of the second circumferential groove 23 A vertical groove 24 that extends upward and opens upward is provided.

  The guide groove 20 is formed so as to be recessed radially inward from the outer peripheral surface of the first guide cylinder 12, and the depth thereof is, for example, about half the thickness of the first guide cylinder 12. Further, the circumferential length of the entire guide groove 20 along the circumferential direction is shorter than, for example, a half circumference of the first guide cylinder 12. In particular, the distance along the container axis O direction from the lower end groove 21 to the second circumferential groove 23 is equivalent to the distance along the container axis O direction until a valve main body 37a described later closes the communication opening 15. .

As shown in FIG. 1, the cap body 4 is attached to the mouth portion 2 a of the container main body 2 via the inner plug member 10 so as to be movable upward in an upward biased state.
The cap body 4 is detachably attached to the first guide cylinder 12 of the inner plug member 10, and has a top cylindrical cap body 30 in which the discharge hole 3 is formed in the top wall 40, and an inner side of the cap body 30. A cylindrical movable inner plug (reservoir) 31 that is disposed and whose inside communicates with the inside of the container main body 2 and the discharge hole 3 is provided.

First, the movable inner plug 31 will be described.
The movable inner plug 31 is connected to the storage cylinder 35 disposed above the communication wall portion 16 of the inner plug member 10 and the storage cylinder 35 via the connection member 36 and is disposed below the communication wall portion 16. And a valve body 37 that closes the communication opening 15 so as to be freely opened and closed.

  The storage cylinder 35 is disposed inside the first guide cylinder 12, is disposed inside the first storage cylinder 35 a in which the vertical movement is guided by the first guide cylinder 12, and the second guide cylinder 13, and the second A second storage cylinder 35b whose vertical movement is guided by the guide cylinder 13, and an annular wall 35c that connects the lower end of the first storage cylinder 35a and the upper end of the second storage cylinder 35b and is in contact with the upper surface of the flange portion 14; Are formed in a two-stage cylindrical shape.

The upper end portion of the first storage cylinder 35a is equal to the height of the upper end portion of the first guide cylinder 12 of the inner plug member 10, and is in contact with the top wall portion 40 of the cap body 30 from below. The second storage cylinder 35b has a smaller diameter than the first storage cylinder 35a, and extends downward from the radially inner end of the annular wall 35c. The lower end portion of the second storage cylinder 35b is in contact with the communication wall portion 16 from above.
Thus, for example, the lower limit position of the storage cylinder 35 is defined by the lower end portion of the second storage cylinder 35 b coming into contact with the communication wall portion 16. In addition, you may comprise so that the annular wall 35c may contact the upper surface of the flange part 14 and prescribe | regulate the lowest limit position of the storage cylinder 35, and the lower end part of the 2nd storage cylinder 35b may be in communication wall part 16. You may comprise so that the lowest limit position of the storage cylinder 35 may be prescribed | regulated by contacting and the annular wall 35c contacting the upper surface of the flange part 14. FIG.

  The connecting member 36 is disposed coaxially with the container shaft O, and has a connecting shaft portion 36a disposed inside the communication opening 15 so as to penetrate the communication opening 15, and a radially outward direction from the connecting shaft portion 36a. And a plurality of connecting ribs 36b protruding radially.

  The connection shaft portion 36 a has an upper end portion that is equivalent to the height of the annular wall 35 c, and a lower end portion that protrudes toward the inside of the container body 2 from the communication wall portion 16. The connecting rib 36 b is formed over the entire length of the connecting shaft portion 36 a and is formed in a vertically long plate shape whose outer end portion in the radial direction is positioned in the vicinity of the opening end in the communication opening 15. And the radial direction outer end part of the upper end side in the connection rib 36b is connected to the radial direction inner end part of the annular wall 35c. Thereby, the connecting member 36 can move up and down together with the storage cylinder 35.

The valve body 37 includes a valve body 37a having a circular shape in plan view connected to the lower end portion of the connecting shaft portion 36a and the lower end portions of the plurality of connecting ribs 36b, and obliquely outward from the outer periphery of the valve body 37a. And a valve seat portion 37b that extends upward and can open and close the communication opening 15.
As shown in FIG. 3, the valve seat portion 37 b comes into contact with the communication wall portion 16 from below by closing the cap body 4 with respect to the inner plug member 10 and closes the communication opening 15. At this time, for example, the valve seat portion 37b may abut against the communication wall portion 16 in an airtight or liquid tight manner. And the valve seat part 37b contact | abuts from the downward direction with respect to the communicating wall part 16, and the movable inner stopper 31 is located in the uppermost limit position.

  As shown in FIG. 1, when the movable inner plug 31 is located at the lowest limit position, there is a gap between the valve seat portion 37b and the communication wall portion 16, and the supply port S is secured. ing. Therefore, the content W in the container body 2 flows into the storage cylinder 35 through the communication opening 15 while passing between the plurality of connecting pieces 18 in the inner plug member 10 and between the supply port S and the plurality of connecting ribs 36b. It is possible.

Further, the valve body 37 includes a sliding cylinder portion 38 that protrudes further downward from the valve body 37 a and is accommodated in the accommodation cylinder 17 of the inner plug member 10.
The sliding cylinder part 38 is formed so as to gradually increase in diameter from the intermediate part in the vertical direction toward the lower end part, and the lower end part is slidably fitted to the inner peripheral surface of the housing wall part 17a. Yes. In addition, although the sliding cylinder part 38 moves up and down with the movable inner stopper 31, it is in contact with the inner peripheral surface of the accommodating wall part 17a even when the movable inner stopper 31 is moved to the uppermost position ( (See FIG. 3). Therefore, the space defined by the inside of the sliding cylinder portion 38 and the inside of the housing cylinder 17 functions as a housing space R in which communication with the inside of the movable inner plug 31 and the inside of the container body 2 is blocked.

In the accommodation space R, a coil spring (biasing member) 39 that biases the entire movable inner plug 31 upward with respect to the mouth portion 2a of the container body 2 is disposed in a compressed state. The valve main body 37 a is formed with a second holding projection 37 c that protrudes downward from the center and holds the upper end of the coil spring 39.
As a result, the coil spring 39 has a lower end portion held by the first holding projection 17c formed on the housing cylinder 17, and an upper end portion held by the second holding projection 37c formed on the valve main body 37a, whereby the valve body It is accommodated in the state positioned stably between 37 and the accommodating cylinder 17. The entire cap body 4 is urged upward by the coil spring 39.

  The cap body 30 is separable from the movable inner plug 31 in the container axis O direction. The cap body 30 has a ceiling wall portion 40 having a discharge hole 3 formed in the center thereof, and extends downward from the outer peripheral edge of the ceiling wall portion 40, and the first guide tube 12 of the inner plug member 10 is radially outward. It is formed in the top cylinder shape provided with the outer cylinder 41 encircling from.

  The top wall 40 closes the upper end opening of the first guide cylinder 12 in the inner plug member 10 and the upper end opening of the first storage cylinder 35 a in the movable inner plug 31. The top wall 40 is formed with a discharge cylinder 42 protruding upward from the opening edge of the discharge hole 3. The lid 5 is connected to the top wall 40 via a hinge 43.

  The lid body 5 is disposed above the top wall portion 40 with a space therebetween, a top wall portion 50 covering the top wall portion 40 from above, and extending downward from the outer peripheral edge of the top wall portion 50, and the top wall portion And a peripheral wall portion 51 in contact with the upper surface of 40.

  And the lower end part of the top wall part 50 in the cover body 5 and the upper end part of the outer cylinder 41 in the cap main body 30 are integrally connected via the hinge part 43. In addition, a cylindrical plug body 52 that protrudes downward and is detachably fitted inside the discharge cylinder 42 is formed at the center of the top wall 50. Therefore, by opening the lid 5 around the hinge portion 43, the stopper 52 can be detached from the discharge cylinder 42 and the discharge hole 3 can be opened.

  In the peripheral wall portion 51 of the lid body 5, a hook-shaped operation piece 53 protruding outward in the radial direction is provided at a portion located on the opposite side of the hinge portion 43 with respect to the container axis O. Is formed. By using this operation piece 53, the opening / closing operation of the lid 5 around the hinge portion 43 can be easily performed.

  A protrusion that protrudes radially inward on the inner peripheral surface of the outer cylinder 41 of the cap body 30 and engages movably along the guide groove 20 in the guide groove 20 formed in the first guide cylinder 12. A body 55 is formed. Thus, since the outer cylinder 41 is externally mounted on the first guide cylinder 12 with the protrusion 55 engaged in the guide groove 20, the cap body 30 is attached to the container shaft with respect to the inner plug member 10. While being able to move upward while rotating around O, it is possible to remove the cap body 30 from the inner plug member 10 by rotating the cap body 30 almost halfway.

As the cap body 30 rotates and moves upward, the protrusion 55 moves from the lower end groove 21 in the order of the first circumferential groove 22, the second circumferential groove 23, and the longitudinal groove 24, and finally leaves the longitudinal groove 24. . At this time, as shown in FIG. 2, in the guide groove 20, a connection portion between the lower end groove 21 and the first circumferential groove 22, a connection portion between the first circumferential groove 22 and the second circumferential groove 23, and a vertical groove In FIG. 24, engagement convex portions 56, 57, and 58 that engage with the protrusion 55 are formed.
Therefore, when the protrusion 55 moves along the guide groove 20, it temporarily engages with each of the engaging convex portions 56 to 58 and gets over the engaging convex portions 56 to 58 while releasing the engagement. Moving.

  In particular, the protrusion 55 is positioned in the lower end groove 21 by engaging with an engaging convex portion 56 formed at a connection portion between the lower end groove 21 and the first circumferential groove 22. Further, as described above, the distance along the container axis O direction from the lower end groove 21 to the second circumferential groove 23 is the distance along the container axis O direction until the valve body 37a closes the communication opening 15. Therefore, when the valve body 37 a closes the communication opening 15, the protrusion 55 gets over the engagement protrusion 57 formed at the connection portion between the first circumferential groove 22 and the second circumferential groove 23. And reaches the second circumferential groove 23. Furthermore, since the engagement convex part 58 formed in the vertical groove 24 engages with the protrusion 55 when removing the cap main body 30 from the inner plug member 10, the cap main body 30 is prevented from coming off from the inner plug member 10. Has been.

(Operation of weighing container)
Next, the operation when the contents W are discharged using the weighing container 1 configured as described above will be described.
First, the case where the content W is quantitatively discharged will be described.
In this case, the container main body 2 in the state where the cap body 4 shown in FIG. 1 is mounted is changed from an upright state to an inverted state as shown in FIG. Then, the content W in the container main body 2 flows into the storage cylinder 35 through the communication opening 15 and is stored while passing between the plurality of connection pieces 18, the supply ports S, and the plurality of connection ribs 36b.

  In addition, by turning the container body 2 in an inverted posture or downward, the top and bottom of the measuring container 1 are inverted, and the cap body 4 along the container axis O direction is on the lower side, and the container body 2 side is on the upper side. Therefore, in the following description, the up-down direction is reversed when the container body 2 is in the inverted posture or in the downward direction.

  Then, when the cap body 30 is rotated around the container axis O while the container body 2 is in an inverted state, the protrusion 55 positioned in the lower end groove 21 of the guide groove 20 gets over the engagement convex portion 56 and changes to the second position. Move to one circumferential groove 22. Thereby, the cap body 30 can be moved downward while rotating around the container axis O. Further, the protrusion 55 follows the movement of the cap body 30 and moves along the first circumferential groove 22 and reaches the second circumferential groove 23.

  At the same time, since the movable plug 31 is urged by the spring force of the coil spring 39, it moves downward while following the cap body 30, and the valve body 37 gradually begins to close the communication opening 15. When the protrusion 55 reaches the second circumferential groove 23, as shown in FIG. 5, the valve seat 37b of the valve body 37 comes into contact with the communication wall 16 from above, and the communication opening 15 is completely formed. Seal and seal.

  Therefore, the contents W can be measured, and the fixed contents W can be stored inside the storage cylinder 35 in the movable inner plug 31. Accordingly, as shown in FIG. 6, the measured contents W can be discharged by opening the discharge hole 3 by opening the lid 5 around the hinge portion 43.

On the other hand, when discharging an arbitrary amount of the contents W, the lid 5 is opened around the hinge portion 43 while the container body 2 is in the upright posture as shown in FIG. Then, the discharge hole 3 is opened. And the container main body 2 is tilted with the communication opening 15 opened, and the mouth portion 2a faces downward. Accordingly, as shown in FIG. 7, the content W can be directly guided from the inside of the container body 2 through the inside of the storage cylinder 35 to the discharge hole 3, and an arbitrary amount of the content W can be discharged.
As shown in FIG. 4, the container body 2 is turned upside down, the contents W are stored in the storage cylinder 35, and then the lid 5 is opened around the hinge portion 43, so that an arbitrary amount can be obtained. The contents W may be discharged.

  As described above, according to the measuring container 1 of the present embodiment, it is possible to use the mode in which the fixed amount of the content W is discharged and the mode in which the arbitrary amount of the content W is discharged as necessary. Therefore, it can be set as the measuring container 1 excellent in operability and easy to use.

  In particular, when a fixed amount of content W is to be discharged, the engagement convex portion 57 formed at the connection portion between the first circumferential groove 22 and the second circumferential groove 23 at the timing when the valve body 37 a closes the communication opening 15. Engage with the protrusion 55. Thus, the user can easily grasp that the communication opening 15 is closed by the tactile sensation at the time of engagement, and that the fixed content W is stored in the storage cylinder 35 and appropriately measured. Therefore, it is possible to discharge the fixed amount of contents W more reliably, and it is possible to quickly shift to the discharge operation.

  Further, when the fixed amount of content W is discharged, the projection body 55 is engaged with the horizontally long second circumferential groove 23 extending in the circumferential direction, so that the cap body 30 is dropped (dropped) with respect to the inner plug member 10. ) Can be prevented. Therefore, it is possible to discharge the fixed amount of content W with confidence. Even if the protrusion 55 moves to the connecting portion between the second circumferential groove 23 and the vertical groove 24 due to the rotation of the cap body 30, the engaging convex portion 58 formed in the vertical groove 24 is formed on the protrusion 55. By engaging, the cap main body 30 is prevented from dropping off from the inner plug member 10. Therefore, it is difficult for the cap body 30 to drop off unexpectedly.

Further, in the measuring container 1, the cap body 30 can be detached from the inner plug member 10, so that the weighed quantitative content W is transferred to the cap body 30, and the content W is utilized using the cap body 30. Can be discharged.
This will be described in detail.
In this case, from the state shown in FIG. 5, the cap body 30 is further rotated around the container axis O with respect to the inner plug member 10, and the protrusion 55 is connected to the connection portion between the second circumferential groove 23 and the vertical groove 24. Move. Subsequently, the cap body 30 is moved downward with respect to the inner plug member 10. As a result, the protrusion 55 moves in the vertical groove 24 over the engagement convex portion 58 and then separates from the vertical groove 24.

Thereby, as shown in FIG. 8, the cap main body 30 can be removed from the inner plug member 10, and a fixed amount of contents W can be transferred from the storage cylinder 35 to the cap main body 30. As a result, as shown in FIG. 9, a fixed amount of content W can be directly discharged from the opening portion of the cap body 30 without using the discharge hole 3. In this way, when discharging a fixed amount of contents W, it is possible to use the cap body 30 removed from the container body 2, so that the usage can be widened, and it is possible to use properly according to the situation. Is possible.
As shown in FIG. 8, since the valve body 37a blocks the communication opening 15 until the cap body 30 is mounted again, the leakage of the contents W in the container body 2 can be prevented.

Furthermore, according to the measuring container 1 of this embodiment, the following effects can be achieved.
Since the coil spring 39 biases the cap body 4, as shown in FIG. 5, the storage cylinder 35 can be moved downward while quickly following the downward movement of the cap body 30 relative to the inner plug member 10. Therefore, the cap body 4 can be moved downward without requiring excessive force, and operability can be improved. Further, since the valve seat portion 37b of the valve element 37 can be pressed against the communication wall portion 16 using the spring force of the coil spring 39, the communication opening 15 can be reliably sealed and closed. Therefore, the content W can be more reliably measured, and the leakage of the content W can be effectively prevented.

  Further, since the coil spring 39 is disposed in the accommodation space R and the contact between the coil spring 39 and the contents W is prevented, the material of the coil spring 39 can be selected without being affected by the contents W, and the coil spring 39 can be selected. The degree of freedom of design (such as material selectivity) can be improved. Further, since the content W does not touch the coil spring 39, it is not necessary to consider the relationship with the coil spring 39, and the content W can be widely selected from a wide range of fields.

In the first embodiment, the guide groove 20 includes the lower end groove 21, the first circumferential groove 22, the second circumferential groove 23, and the vertical groove 24. However, the present invention is not limited to this case.
For example, the first circumferential groove 22 and the second circumferential groove 23 are not essential, and may be the guide groove 20 in which the lower end groove 21 and the vertical groove 24 are directly connected. In this case, the cap body 30 may be moved downward relative to the inner plug member 10 without rotating around the container axis O.

  Also, as shown in FIG. 10, the second circumferential groove 23 may be a guide groove 20 formed short. In this case, since the cap main body 30 can be removed with a small amount of rotation, it is suitable when, for example, a fixed amount of content W is discharged using the cap main body 30. However, when the second circumferential groove 23 is formed long, the cap body 30 can be effectively prevented from falling off.

(Second Embodiment)
Next, a second embodiment of the weighing container according to the present invention will be described. In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

As shown in FIG. 11, the measuring container 60 of the present embodiment includes a cap body 61 in which a storage cylinder 35 of a movable inner stopper (storage body) 63 and a cap body 62 are integrally combined.
The first storage cylinder 35a is smaller in diameter than the first guide cylinder 12 so that an annular space is formed between the first storage cylinder 35a and the first guide cylinder 12 of the inner plug member 10. The diameter of the second storage cylinder 35 b gradually increases from the middle part in the vertical direction toward the lower end part, and the lower end part is slidably fitted to the inner peripheral surface of the second guide cylinder 13. Thus, the space functions as a housing space R in which communication with the inside of the movable inner stopper 63 and the inside of the container body 2 is blocked.

  A coil spring 39 is disposed in the accommodation space R. The coil spring 39 is held at a lower end portion by a holding piece 65 formed on the inner plug member 10 side, and an upper end portion is held between an outer holding cylinder 66 and an inner holding cylinder 67 formed on the cap body 62 side. Yes.

  The holding pieces 65 are formed so as to protrude radially inward from the inner peripheral surface of the first guide cylinder 12 in the inner plug member 10, and a plurality of holding pieces 65 are arranged at intervals in the circumferential direction. The lower end portion of the holding piece 65 is connected to the annular wall 35c. A concave portion 65 a for accommodating the lower end portion of the coil spring 39 is formed at the upper end portion of the holding piece 65. Accordingly, the coil spring 39 is held by the plurality of holding pieces 65 in a state where the lower end portion is accommodated in the recess 65a.

The outer holding cylinder 66 protrudes downward from the top wall portion 40 of the cap body 62 and is fitted inside the first guide cylinder 12 in the inner plug member 10. The inner holding cylinder 67 protrudes downward from the top wall portion 40 of the cap body 62 and is disposed radially inward of the outer holding cylinder 66. The upper end portion of the coil spring 39 is held between the outer holding cylinder 66 and the inner holding cylinder 67.
As a result, the coil spring 39 is housed in a stably positioned state between the inner plug member 10 and the cap body 62.

  Further, the inner holding cylinder 67 is undercut fitted to the first storage cylinder 35a. Thereby, the storage cylinder 35 and the cap main body 62 are integrally combined. Accordingly, by moving the cap body 62 upward by the spring force of the coil spring 39, the movable inner plug 63 can be simultaneously moved upward.

  Since it is configured as described above, in this embodiment, the inner plug member 10 does not include the connecting piece 18 and the housing cylinder 17 in the first embodiment. Further, the movable inner plug 63 does not include the sliding cylinder portion 38.

  Further, as shown in FIG. 12, a guide groove 68 is formed on the outer peripheral surface of the first guide cylinder 12 of the present embodiment, in which the lower end groove 21 and the lower end portion of the vertical groove 24 are connected in the circumferential direction. . Accordingly, the protrusion 55 can be moved from the lower end groove 21 to the vertical groove 24 by slightly rotating the cap main body 62 around the container axis O with respect to the inner plug member 10. It is possible to move up. However, the shape of the guide groove 68 is not limited to this case, and for example, it may be formed in the same manner as in the first embodiment.

(Operation of weighing container)
Next, an operation when the contents W are discharged using the weighing container 60 configured as described above will be described.
First, when discharging an arbitrary amount of the contents W, as in the first embodiment, the lid 5 is opened around the hinge portion 43 while the container body 2 is in the upright posture. The discharge hole 3 is opened, and then the container body 2 is tilted while the communication opening 15 is opened, and the mouth portion 2a faces downward, whereby an arbitrary amount of the contents W can be discharged.

  Subsequently, when the content W is to be discharged in a constant amount, the cap body 62 is slightly rotated around the container axis O in a state where the container body 2 is in an inverted state as shown in FIG. As a result, the protrusion 55 positioned in the lower end groove 21 of the guide groove 68 moves over the engagement convex portion 56 and moves to the vertical groove 24. Thereby, since the whole cap body 61 is urged downward by the coil spring 39, it moves downward relative to the inner plug member 10. Accordingly, the valve seat portion 37b of the valve body 37 comes into contact with the communication wall portion 16 from above to completely close the communication opening 15 and seal it.

  Thereby, the contents W can be measured, and the fixed contents W can be stored inside the storage cylinder 35 in the movable inner plug 63. As a result, as shown in FIG. 14, the measured content W can be discharged by opening the discharge hole 3 by opening the lid 5 around the hinge portion 43.

Thus, even in the weighing container 60 of the present embodiment, a mode for discharging a fixed amount of content W and a mode for discharging an arbitrary amount of the content W are required as in the first embodiment. It can be used while switching accordingly.
In particular, in the case of the present embodiment, since the storage cylinder 35 and the cap body 62 are integrally combined, the entire cap body 61 is moved even if the coil spring 39 biases the cap body 62. be able to. Therefore, it is easy to set the installation position of the coil spring 39 freely.

(Third embodiment)
Next, a third embodiment of the weighing container according to the present invention will be described. In the third embodiment, the same components as those in the second embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  As shown in FIG. 15, the measuring container 70 of the present embodiment does not include the coil spring 39 in the second embodiment. Accordingly, the holding piece 65 and the outer holding cylinder 66 in the second embodiment are not provided. And the inner holding cylinder 67 and the 1st storage cylinder 35a are diameter-expanded rather than 2nd Embodiment. Thereby, it is possible to store more contents W in the storage cylinder 35 than in the second embodiment.

  An air replacement pipe 71 is attached to the top wall 40 of the cap body 62. The pipe 71 is disposed below the discharge hole 3 and coaxially with the container axis O, and is supported by the top wall 40 via a plurality of support pieces 72. The support pieces 72 are arranged at intervals in the circumferential direction, the upper end portion is connected to the inner peripheral edge of the discharge hole 3, and the lower end portion is connected to the upper end portion of the pipe 71.

  The inner diameter of the pipe 71 is set so that the opening area of the pipe 71 is smaller than the opening area formed between the support pieces 72 adjacent in the circumferential direction. Thus, when the contents W are discharged, the contents W preferentially pass between the support pieces 72 adjacent in the circumferential direction rather than passing through the inside of the pipe 71 and flow to the outside from the discharge holes 3. .

  Therefore, according to the measuring container 70 configured in this way, when the contents W are discharged, air can be introduced into the container main body 2 from the outside through the pipe 71, so that the air in the container main body 2 is replaced. This can be performed more appropriately and stably, and the discharge performance can be improved.

(Modification of the third embodiment)
In the third embodiment, air replacement is performed using the pipe 71, but the pipe 71 is not limited to the pipe 71 as long as air replacement can be appropriately performed. For example, in the measuring container 80 shown in FIG. 16, the discharge hole 3 is not coaxial with the container axis O, but is formed at a position shifted in the radial direction from the container axis O. Is formed so as to be located on the opposite side in the radial direction from the discharge hole 3 across the container axis O.

  In this case, air replacement is appropriately performed by discharging the contents W with the container body 2 tilted downward so that the replacement hole 81 is positioned on the upper side and the discharge hole 3 is positioned on the lower side. And it can be performed stably. In addition, the plug body 82 that closes the replacement hole 81 may be formed in the top wall portion 40 in accordance with the formation of the replacement hole 81.

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

  For example, in each of the embodiments described above, the inner plug member 10 having the communication wall portion 16 in which the communication opening 15 is formed is attached to the mouth portion 2a of the container body 2. However, the inner plug member 10 itself is not essential. The communication wall portion 16 in which the communication opening 15 is formed may be integrally provided inside the mouth portion 2a.

Moreover, in each said embodiment, it was set as the structure which connected the cover body 5 via the hinge part 43 to the cap main bodies 30 and 62, However, It is not limited to this case, For example, it can slide to the cap main bodies 30 and 62 The lid body 5 may be connected to the cap body 30, or the cap body 30 or 62 may be detachably combined with the lid body 5.
However, it is preferable to cover the cap bodies 30 and 62 via the hinge portion 43 because the lid 5 can be opened and closed with one touch, for example, and it is easy to use and can prevent the lid 5 from being lost.

O ... Container shaft R ... Storage space W ... Contents 1, 60, 70, 80 ... Measuring container 2 ... Container body 2a ... Port of container body 3 ... Discharge hole 4, 61 ... Cap body 5 ... Cover body 15 ... Communication Opening 16 ... Communication wall 20, 68 ... Guide groove 30,62 ... Cap body 31,63 ... Movable plug (reservoir)
35 ... Storage cylinder 37 ... Valve element 39 ... Coil spring (biasing member)
40 ... Top wall part of cap body 43 ... Hinge part 55 ... Projection body 57 ... Engaging convex part

Claims (5)

A container body for storing contents;
A cap body that is mounted on the mouth of the container body so as to be movable toward the outside of the container body along the container axial direction, and in which a discharge hole is formed,
A lid for opening and closing the discharge hole,
The cap body is formed in a cylindrical shape, and includes a storage body whose inside communicates with the inside of the container body and the discharge hole,
In the mouth portion of the container main body, a communication wall portion is provided in which a communication opening for communicating the inside of the container main body and the inside of the reservoir is formed,
The storage body is disposed away from the inside of the container main body along the container axial direction with respect to the communication wall portion, and is moved toward the outside of the container main body along the container axial direction with respect to the mouth of the container main body. With a valve body that closes the communication opening along with ,
One of the container body and the cap body is engaged with a guide groove formed on the other of the container body and the cap body, and the container shaft of the cap body with respect to the mouth of the container body A protrusion is formed that moves along the guide groove along with the movement toward the outside of the container body along the direction,
The measuring container , wherein the guide groove is formed with an engaging convex portion that engages with the protrusion when the valve body closes the communication opening . The measuring container according to claim 1,
The cap body includes a cap body having a top cylindrical shape in which the discharge hole is formed in the top wall portion and is detachably attached to the mouth portion of the container body,
The measuring container, wherein the cap body is separable in the container axial direction with respect to the reservoir. The measuring container according to claim 1 or 2,
Between the said container main body and the said cap body, the biasing member which urges | biases the said cap body toward the outer side of the said container main body along a container axial direction with respect to the opening part of the said container main body is provided. A weighing container characterized by that. The measuring container according to claim 3,
The urging member is formed between the container main body and the cap body, and is disposed in an accommodating space where communication with the inside of the reservoir and the inside of the container main body is blocked. . The measuring container according to any one of claims 1 to 4 ,
The weighing container, wherein the lid is connected to the cap body via a hinge portion.

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