JP2018122879A - Spouting container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a spouting container that can measure substantially quantitatively one of a first agent and a second agent and spout the measured the one after contacting the one to the other.SOLUTION: A spouting container 10 comprises a container main body 1 for storing a liquid first agent and a fitting cap 2 having a spouting hole 22a formed, fitted to a mouth part 1a of the container main body. The fitting cap has a second agent storage part 32 which has an introducing hole 2a for the first agent formed and stores the second agent, a storage part 40 arranged below the second agent storage part and a communication part 2b that communicates the inside of the storage part with the spouting hole. In the second agent storage part is formed a dripping hole 32b, positioned lower than the introducing hole, which communicates inside of the second agent storage part with the inside of the storage part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a dispensing container.

  Conventionally, a two-component mixing container as shown in Patent Document 1 below is known. The two-agent mixing container includes a first agent accommodating portion that accommodates the first agent, a second agent accommodating portion that is provided above the first accommodating portion, and that accommodates the second agent, and a second agent accommodating portion. A bottom lid that closes the lower end of the bottom cover. When the two-agent mixing container is operated, the bottom lid is removed, the second agent in the second agent storage portion falls toward the first agent storage portion, and the first agent and the second agent are mixed.

JP 2003-292059 A

  In this type of container, it is desired that one of the first agent and the second agent is simply weighed in a simple quantitative amount, and brought into contact with the other before being poured out. On the other hand, in the configuration disclosed in Patent Document 1, it is difficult to meet the above requirements because almost the entire amounts of the first agent and the second agent are mixed together during use.

  The present invention has been made in consideration of such circumstances, and a dispensing container that can be dispensed after one of the first agent and the second agent is weighed in a substantially quantitative amount and brought into contact with the other is provided. The purpose is to provide.

  In order to solve the above-mentioned problems, a dispensing container according to the present invention includes a container main body that contains a liquid first agent, and a mounting cap that is formed with a dispensing hole and is mounted to the mouth of the container main body. And the mounting cap has a first agent introduction hole formed therein, a second agent accommodating portion for accommodating the second agent, and a reservoir disposed below the second agent accommodating portion. And a communication portion that communicates the inside of the storage portion and the extraction hole, and the second agent storage portion is positioned below the introduction hole, and in the second agent storage portion and the A drip hole communicating with the inside of the storage part is formed.

According to the present invention, when the dispensing container is tilted, the liquid first agent in the container body flows into the second agent accommodating portion through the introduction hole. Thereafter, when the dispensing container is in an upright posture, the portion of the first agent that has flowed into the second agent container is positioned above the introduction hole from the second agent container to the container body through the introduction hole. leak. For this reason, a substantially fixed amount of the first agent remains in the second agent storage portion. Thus, after the property of the substantially fixed amount of the first agent remaining in the second agent container is changed by contacting with the second agent, the inside of the reservoir is passed through the dropping hole formed in the second agent container. Drip sequentially. After that, by tilting the dispensing container again, the first agent whose properties in the storage part have been changed is poured out from the dispensing hole through the communication part, and at the same time, the first agent in the container body is second through the introducing hole. It flows again into the agent container and the above-described action is repeated.
As described above, according to the dispensing container of the present invention, the substantially constant amount of the first agent that has contacted the second agent is dispensed, and the first agent is metered to a substantially constant amount in preparation for the next dispensing. The second agent can be contacted.

  Here, the opening area of the introduction hole may be larger than the opening area of the dropping hole.

  In this case, since the opening area of the introduction hole is larger than the opening area of the dropping hole, when the pouring container is tilted and returned to the upright posture, the excess first agent that has flowed into the second agent container from the introduction hole Can quickly flow out into the main body container, and the amount of the first agent remaining in the second agent container can be stabilized.

  Moreover, the inside of the storage part and the inside of the container main body may communicate with each other through the communication part.

In this case, even when the pouring hole is closed when the pouring container is tilted, the container main body is allowed to flow into the container main body through the dropping hole and the communication portion while allowing the air in the second agent storage portion to flow into the container main body. The first agent can be smoothly flowed into the second agent accommodating portion through the introduction hole.
Furthermore, even when the first agent in contact with the second agent is dripped from the dripping hole into the storage portion, the air in the storage portion passes through the communication portion into the container body even when the extraction hole is closed. Therefore, the liquid dripping from the dripping hole and the air in the reservoir are smoothly replaced. Thereby, the time interval etc. at which the liquid drops from the dropping hole can be made equal between the case where the pouring hole is closed and the case where it is not closed.

  The mounting cap may be provided with a replenishing hole communicating with the second agent accommodating portion, and the replenishing cap may be detachably fitted in the replenishing hole.

  In this case, by repeatedly using the dispensing container, for example, the effect of changing the properties of the first agent by the second agent is reduced, or the second agent is eluted in the first agent and the remaining amount is reduced. At this time, it is possible to open the replenishment hole by removing the replenishment cap, replace the second agent in the second agent storage portion through the replenishment hole, or replenish the second agent through the replenishment hole.

  According to the present invention, it is possible to provide a dispensing container that can be dispensed after one of the first agent and the second agent is weighed substantially quantitatively and brought into contact with the other.

It is a longitudinal cross-sectional view of the extraction container which concerns on 1st Embodiment. It is a figure explaining the usage method of the extraction container of FIG. It is a longitudinal cross-sectional view of the extraction container which concerns on 2nd Embodiment.

(First embodiment)
Hereinafter, the structure of the extraction container according to the present embodiment will be described with reference to FIGS. In each drawing used in the following description, the scale is appropriately changed to make each member a recognizable size.
The dispensing container 10 includes a bottomed cylindrical container main body 1 in which the liquid first agent P is accommodated, and a mounting cap 2 mounted on the mouth portion 1 a of the container main body 1. As the first agent P, for example, a lotion containing water or a liquid detergent is used.

  Here, in this embodiment, the direction along the central axis O of the container body 1 is referred to as the vertical direction, the bottom side of the container body 1 in the vertical direction is referred to as the lower side, and the mouth 1a side is referred to as the upper side. Further, in a plan view viewed from the up and down direction, a direction orthogonal to the central axis O is referred to as a radial direction, and a direction around the central axis O is referred to as a circumferential direction. Further, in plan view, a direction from a hinge part 23 to be described later to the operation part 21c is referred to as a front-rear direction, the operation part 21c side in the front-rear direction is referred to as a front side, and the hinge part 23 side is referred to as a rear side.

  The mounting cap 2 includes a cap body 20 screwed into the mouth 1 a of the container body 1, a measuring cylinder member 30 attached to the cap body 20, and a bottomed cylindrical shape attached to the lower end portion of the measuring cylinder member 30. Storage member 40 (storage part). In the illustrated example, the cap body 20, the measuring cylinder member 30, and the storage member 40 are formed separately, but they may be integrally formed. Moreover, the container main body 1, the cap main body 20, the measurement cylinder member 30, and the storage member 40 may be formed of, for example, a transparent resin material so that the inside can be visually recognized.

(Cap body)
The cap body 20 includes a top cylindrical fixing portion 22 fixed to the mouth portion 1a of the container main body 1, and a top cylindrical opening / closing lid 21 connected to the fixing portion 22 via a hinge portion 23. I have. The central axes of the fixing portion 22 and the opening / closing lid 21 are located coaxially with the central axis O of the container body 1. The open / close lid 21 is provided above the fixed portion 22 and is rotatable around the hinge portion 23 with respect to the fixed portion 22 and the container body 1.

  The fixing portion 22 includes a pouring hole 22a penetrating the top wall in the vertical direction, a pouring cylinder 22c extending upward from the top wall, a small tubular portion 22b extending downward from the top wall, and A large cylindrical portion 22d is formed. The pouring hole 22a, the pouring cylinder 22c, the small cylinder portion 22b, and the large cylinder portion 22d are located on the radially inner side of the mouth portion 1a of the container body 1. The pouring hole 22a and the pouring cylinder 22c are located in front of the central axis O (on the operation portion 21c side), and the inner surfaces of the pouring hole 22a and the pouring cylinder 22c are connected to each other. The extraction hole 22a is located on the radially inner side of the large cylinder portion 22d. The upper end portion of the dispensing cylinder 22c gradually increases in diameter as it goes upward.

  The large tube portion 22d has a larger diameter than the small tube portion 22b, and surrounds the small tube portion 22b. The central axis of the large cylinder portion 22d is located coaxially with the central axis O of the container body 1. The central axis of the small cylinder part 22b is located behind (the hinge part 23 side) from the central axis O of the container body 1. Thereby, the central axis of the small cylinder part 22b is located behind the central axis of the large cylinder part 22d, and the width of the radial gap formed between the small cylinder part 22b and the large cylinder part 22d is It is getting smaller gradually toward. A restricting plate 22f extending downward is formed at the rear end portion of the lower end opening edge of the small tube portion 22b. The restricting plate 22f suppresses the second agent S accommodated in the second agent accommodating portion 32 described later from falling into the container body 1.

  The peripheral wall of the fixed portion 22 surrounds the large tube portion 22d and the small tube portion 22b. On the inner peripheral surface of the fixing portion 22, a female screw portion that is screwed with a male screw portion formed on the outer peripheral surface of the mouth portion 1 a is formed. In the vertical direction, the lower end portion of the peripheral wall of the fixed portion 22 is located below the lower end portion of the small tube portion 22b, and the lower end portion of the small tube portion 22b is located below the lower end portion of the large tube portion 22d.

  The opening / closing lid 21 opens and closes the dispensing hole 22a by rotating around the hinge portion 23 with respect to the fixed portion 22. A seal cylinder 21 a extending downward is formed on the top wall of the opening / closing lid 21. The seal cylinder 21a is fitted into the extraction cylinder 22c to seal the extraction hole 22a. In addition, you may employ | adopt the structure which the sealing cylinder 21a fits in the extraction hole 22a, without providing the extraction cylinder 22c. An operation portion 21c is formed at the lower end portion of the peripheral wall of the opening / closing lid 21 so as to protrude outward in the radial direction. The operation portion 21c is disposed on the opposite side of the hinge portion 23 that sandwiches the central axis O in the radial direction. In the vertical direction, the operation portion 21c is positioned below the lower end portion of the seal cylinder 21a.

(Measuring tube member)
The measuring cylinder member 30 includes an outer cylinder part 31 extending in the vertical direction, a cylindrical second agent containing part 32 formed inside the outer cylinder part 31 and extending in the vertical direction, and upward from the outer cylinder part 31. It has a fitting cylinder part 34 that extends, and an annular flange part 35 that extends radially outward from the upper end of the fitting cylinder part 34. The outer cylinder part 31, the second agent storage part 32, and the fitting cylinder part 34 are located on the radially inner side of the mouth part 1 a of the container body 1.

  The outer cylinder part 31 has a smaller diameter than the mouth part 1a of the container body 1, and the central axis of the outer cylinder part 31 is located in front of the central axis O of the mouth part 1a. For this reason, the width of the radial gap formed between the outer cylinder portion 31 and the mouth portion 1a gradually increases from the front toward the rear. The lower end part of the outer cylinder part 31 is located below the lower end part of the opening part 1a in the up-down direction. On the inner peripheral surface of the lower end portion of the outer cylindrical portion 31, a locked portion 31b that is recessed toward the radially outer side is formed.

  The second agent S is accommodated in the second agent accommodating portion 32. The second agent S may be eluted into the first agent P, or may not be eluted into the first agent P. The second agent S may be granular, spherical, powdery, block-like or the like. As the second agent S, for example, a hydrogen generating agent that reacts with moisture contained in the first agent P to generate hydrogen, a fragrance that has a fragrance and dissolves in the first agent P, and the like can be used.

  The lower end portion of the second agent accommodating portion 32 is located above the lower end portion of the outer cylinder portion 31. A reduced diameter portion 32 a that gradually decreases in diameter as it goes downward is formed at the lower end of the second agent storage portion 32. A drop hole 32b is formed at the lower end of the reduced diameter portion 32a so as to penetrate the reduced diameter portion 32a in the vertical direction. The second agent accommodating portion 32 has a smaller diameter than the outer cylinder portion 31, and the second agent accommodating portion 32 is located in the outer cylinder portion 31. For this reason, a gap extending in the vertical direction (hereinafter referred to as communication portion 2 b) is formed between the second agent storage portion 32 and the outer cylinder portion 31.

  The central axis of the second agent storage part 32 is located behind the central axis of the outer cylinder part 31. The rear end portion of the second agent accommodating portion 32 is formed integrally with the rear end portion of the outer cylinder portion 31, and the upper end portion of the integrally formed portion has a through hole 31a penetrating this portion in the front-rear direction. Is formed. The through hole 31a is disposed at the same position in the circumferential direction as the restriction plate 22f of the cap body 20, and is partially covered by the restriction plate 22f. The opening area of the through hole 31a is larger than the surface area of the regulating plate 22f viewed from the opening direction, and a gap (hereinafter referred to as an introduction hole 2a) is formed between the inner surface of the through hole 31a and the regulating plate 22f. Yes. The opening area of the introduction hole 2a is larger than the opening area of the dropping hole 32b. The introduction hole 2a is located behind the extraction hole 22a and the dropping hole 32b. The dripping hole 32b is located below the introduction hole 2a. The lower end opening edge of the dropping hole 32b is positioned below the upper end opening edge of the storage member 40 in the vertical direction, and is positioned inside the storage member 40 in the radial direction.

  The fitting cylinder part 34 is externally fitted to the large cylinder part 22 d of the cap body 20. The flange portion 35 is in contact with or close to the top wall of the fixing portion 22 of the cap body 20 from below. The flange portion 35 is opposed to the upper end opening edge in the mouth portion 1 a of the container body 1 in the vertical direction, and an annular packing 4 is sandwiched between the upper end opening edge and the flange portion 35. Thereby, the mouth part 1a is sealed.

  A bulging portion 33 that bulges rearward from the outer tube portion 31 is formed in a portion of the measuring tube member 30 located between the through hole 31a and the fitting tube portion 34 in the vertical direction. . In the radial direction, the radially inner surface of the bulging portion 33 is disposed at the same position as the inner surface of the large cylindrical portion 22d. For this reason, a gap is formed between the bulging portion 33 and the small cylinder portion 22b, and the radial width of the gap is that of the radial gap between the large cylinder portion 22d and the small cylinder portion 22b. It is equivalent to the width. The widths of these gaps are adjusted so as to allow air to pass and not allow the first agent P to pass. The inside of the container main body 1 and the inside of the communication part 2b communicate with each other through the communication part 2b, the gap between the large cylinder part 22d and the small cylinder part 22b, and the gap between the small cylinder part 22b and the bulging part 33. .

(Storage member)
The peripheral wall 41 of the storage member 40 is fitted in the outer cylinder portion 31 of the measuring cylinder member 30. The storage member 40 is located below the fixing portion 22 of the cap body 20 in the vertical direction. An annular abutting portion 43 that protrudes outward in the radial direction is formed at the central portion in the vertical direction of the peripheral wall 41 of the storage member 40. An annular locking portion 41 a that protrudes outward in the radial direction is formed above the abutting portion 43 in the peripheral wall 41. The locking part 41 a is locked to the locked part 31 b of the outer cylinder part 31. Thereby, the vertical movement of the storage member 40 relative to the measuring cylinder member 30 is restricted. The bottom wall 42 of the storage member 40 is formed in a curved surface shape that protrudes downward.

  Next, the effect | action of the extraction container 10 comprised as mentioned above is demonstrated.

  When the operation portion 21c is operated to rotate the opening / closing lid 21 around the hinge portion 23 and the dispensing container 10 is tilted as shown in FIG. 2A, the first agent P in the container body 1 is introduced into the introduction hole 2a. And flows into the second agent container 32 through the second agent container 32. At this time, the air in the 2nd agent accommodating part 32 is discharged | emitted outside the extraction container 10 through the dripping hole 32b, the communication part 2b, and the extraction hole 22a. In addition, when the dispensing container 10 is tilted, even if the opening / closing lid 21 is closed and the dispensing hole 22a is closed, the air in the second agent storage part 32 remains in the dropping hole 32b, the communication part. 2b, it flows into the container main body 1 through the gap between the large tube portion 22d and the small tube portion 22b and the gap between the small tube portion 22b and the bulging portion 33. For this reason, even if the pouring hole 22a is closed, the first agent P in the container body 1 can be smoothly allowed to flow into the second agent accommodating portion 32 through the introduction hole 2a.

  Next, as shown in FIG. 2B, when the dispensing container 10 is returned to the upright posture, the first agent P that has flowed into the second agent accommodating portion 32 is positioned above the introduction hole 2a. About a part, it flows out out of the introduction hole 2a, and returns in the container main body 1. FIG. For this reason, when the dispensing container 10 is returned to the upright posture, the lower end portion of the second agent storage portion 32 is determined from the internal volume of the portion of the second agent storage portion 32 located below the introduction hole 2a. The first agent P of the difference volume obtained by subtracting the volume of the second agent S deposited on the second agent stays in the second agent accommodating portion 32, and the first agent P contacting the second agent S is measured. It can be a nearly fixed amount.

  When the substantially fixed amount of the first agent P remaining in the second agent storage portion 32 comes into contact with the second agent S accumulated at the lower end portion in the second agent storage portion 32, for example, the second agent S Is a hydrogen generating agent, the hydrogen generated by the reaction between the hydrogen generating agent and the moisture of the first agent P dissolves in the first agent P. Or when the 2nd agent S is a fragrance | flavor, a scent is given to the 1st agent P because the 1st agent P and the 2nd agent S contact. Thus, the 1st agent (henceforth contact liquid R) which changed the property by contacting the 2nd agent S is dripped sequentially in the storage member 40 from the dripping hole 32b. At this time, even in the case where the opening / closing lid 21 is closed and the extraction hole 22a is closed, the air in the storage member 40 is a gap between the communication portion 2b, the large tube portion 22d, and the small tube portion 22b. In addition, since it moves into the container main body 1 through the gap between the small tube portion 22b and the bulging portion 33, the replacement of the air with the contact liquid R is performed smoothly in the storage member 40. When the open / close lid 21 is open, the air in the storage member 40 is discharged from the dispensing hole 22a as the contact liquid R drops from the dropping hole 32b. Therefore, when the contact liquid R is dropped, the time interval of dropping is the same when the opening / closing lid 21 is open and when it is closed.

  In addition, by appropriately changing the inner diameter of the dropping hole 32b, the time interval at which the contact liquid R drops from the dropping hole 32b, the size of the droplet, and the like are changed. The time for the second agent S to contact can be easily adjusted. Thereby, according to the kind of the 1st agent P and the 2nd agent S, it becomes possible to make contact liquid R into desired quality easily.

  Next, when the pouring container 10 is tilted again as shown in FIG. 2 (c), the contact liquid R in the storage member 40 is poured out through the communicating portion 2b, the pouring hole 22a, and the pouring cylinder 22c. At this time, when the first agent P in the container main body 1 flows into the second agent storage part 32 through the introduction hole 2a and then the dispensing container 10 is again in the upright posture, the second agent storage part as described above. A substantially fixed amount of the first agent P stays in 32 and comes into contact with the second agent S, whereby a contact liquid R is obtained, and the contact liquid R drops through the dropping hole 32b.

  As described above, according to the present embodiment, the mounting cap 2 is disposed below the second agent storage portion 32 in which the introduction hole 2a of the first agent P is formed and the second agent storage portion 32. The storage member 40, and a communication portion 2b that allows the inside of the storage member 40 to communicate with the extraction hole 22a. The second agent storage portion 32 is positioned below the introduction hole 2a, and the second agent. A drip hole 32b that communicates the inside of the housing portion 32 and the storage member 40 is formed. With this configuration, by tilting the dispensing container 10, the contact liquid R in the storage member 40 is dispensed from the dispensing hole 22 a, and a substantially fixed amount of the first liquid is stored in the second agent container 32 in preparation for the next dispensing. Agent P can be retained. When the dispensing container 10 is in the upright posture, the first agent P drops through the dropping hole 32b while being in contact with the second agent S. Therefore, the operation of setting the dispensing container 10 in the upright posture is repeated. Thus, a substantially constant amount of contact liquid R can be dispensed each time.

  In addition, as described above, when the pouring container 10 is tilted and placed in an upright posture, a substantially fixed amount of the first agent P stays in the second agent storage portion 32 and comes into contact with the second agent S. For example, compared with the configuration in which the entire amount of the first agent P in the container body 1 is in contact with the second agent S, until the first agent P comes into contact with the second agent S and until it is dispensed from the dispensing hole 22a. The time can be shortened. Thereby, for example, when a hydrogen generating agent is used as the second agent P, it is possible to prevent the hydrogen eluted in the contact liquid R from escaping from the contact liquid R after a long period of time.

  In addition, since the opening area of the introduction hole 2a is larger than the opening area of the dropping hole 32b, when the pouring container 10 is tilted and returned to the upright posture, it flows into the second agent storage portion 32 from the introduction hole 2a. The excess first agent P can be quickly discharged into the container main body 1, and the amount of the first agent P remaining in the second agent storage portion 32 can be stabilized.

  Moreover, when the container main body 1, the measurement cylinder member 30, and the storage member 40 are formed of a transparent material, the state of the first agent P and the second agent S in the second agent storage portion 32, and the dropping hole 32b. The appearance of the contact liquid R dripping from the outside can be made visible from the outside of the pouring container 10, and the aesthetics of the pouring container 10 can be improved. Furthermore, since the inside of the second agent storage part 32 becomes visible, for example, the extraction container 10 is tilted with the first agent P remaining in the second agent storage part 32 and is extracted from the extraction hole 22a. It is possible to suppress variation in the amount of the contact liquid R that is applied.

(Second Embodiment)
Next, a second embodiment according to the present invention will be described. The basic configuration is the same as that of the first embodiment. For this reason, the same code | symbol is attached | subjected to the same structure, the description is abbreviate | omitted, and only a different point is demonstrated.

  In the present embodiment, as shown in FIG. 3, a replenishment hole 22 e that penetrates the top wall of the fixing portion 22 in the vertical direction is formed in the mounting cap 2. The replenishment hole 22e is located on the radially inner side of the small tube portion 22b and communicates with the second agent storage portion 32. The replenishing hole 22e is located rearward (on the hinge part 23 side) with respect to the pouring hole 22a and the pouring cylinder 22c. A refill cap 3 is detachably fitted in the refill hole 22e.

  The opening / closing lid 21 of the present embodiment is formed with a cylindrical pressing portion 21b extending downward from the top wall. The pressing portion 21b faces the replenishing hole 22e with the replenishing cap 3 interposed therebetween in the vertical direction. The pressing part 21b is arranged behind the seal cylinder 21a (on the hinge part 23 side). In the vertical direction, the lower end portion of the pressing portion 21b is located above the lower end portion of the seal cylinder 21a.

  According to this embodiment, by repeatedly using the dispensing container 10, for example, the effect of changing the properties of the first agent P by the second agent S is reduced, or the second agent S is eluted into the first agent P. When the remaining amount is reduced, the replenishment cap 3 is removed to open the replenishment hole 22e, and the second agent S in the second agent accommodating portion 32 is exchanged through the replenishment hole 22e. The second agent S can be replenished into the storage portion 32.

Further, after the replenishment of the second agent S is completed, even when the replenishment cap 3 is reinserted into the replenishment hole 22e, even if the fitting is insufficient, the replenishment is performed by the pressing portion 21b by closing the opening / closing lid 21. The cap 3 can be pressed toward the replenishing hole 22e, and the replenishing hole 22e can be reliably closed.
Furthermore, since the replenishment hole 22e is located behind the pouring hole 22a, the distance from the hinge part 23, which is the rotation center of the opening / closing lid 21, to the replenishment cap 3 is reduced, and the pressing part 21b is replenished with the replenishment cap 3. The operating force of the operating portion 21c when pressing the refilling hole 22e toward the replenishing hole 22e can be kept small.

  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 the above-described embodiment, it has been described that the storage member 40 is positioned below the fixing portion 22 of the cap body 20 in the vertical direction, but the present invention is not limited thereto. For example, the storage member 40 may be located at the same position in the vertical direction as the fixed portion 22, and the storage member 40 may be covered with the fixed portion 22. Even in this case, by forming the cap body 20 from a transparent material, it is possible to make it visible from the outside of the dispensing container 10 such as how the contact liquid R drops from the dropping hole 32b.

  Moreover, in the said embodiment, although the clearance gap between the inner surface of the through-hole 31a of the measurement cylinder member 30 and the control board 22f was made into the introduction hole 2a, it is not restricted to this, The introduction hole 2a is a 2nd agent accommodating part. The slit etc. which were formed in 32 may be sufficient.

  In addition, the constituent elements in the above-described embodiment can be appropriately replaced with known constituent elements without departing from the gist of the present invention, and the above-described embodiments and modifications may be appropriately combined.

  DESCRIPTION OF SYMBOLS 1 ... Container main body 1a ... Mouth part 2 ... Mounting cap 2a ... Introduction hole 2b ... Communication part 10 ... Outlet container 22a ... Outlet hole 32 ... 2nd agent accommodating part 32b ... Dropping hole 40 ... Reserving member (reserving part) O ... center axis P ... first agent S ... second agent

Claims (4)

A container main body in which the liquid first agent is stored;
A pouring hole is formed, and a mounting cap mounted on the mouth of the container body,
The mounting cap is
A second agent storage portion in which the introduction hole of the first agent is formed and the second agent is stored;
A storage section disposed below the second agent storage section;
A communication portion for communicating the inside of the storage portion and the extraction hole,
The second container accommodating portion is formed with a dropping hole that is positioned below the introduction hole and communicates the inside of the second agent accommodating portion and the inside of the storage portion.   The dispensing container according to claim 1, wherein an opening area of the introduction hole is larger than an opening area of the dripping hole.   The dispensing container according to claim 1, wherein the storage section and the container main body communicate with each other through the communication section. The mounting cap is provided with a replenishing hole that communicates with the second agent containing portion,
The dispensing container according to any one of claims 1 to 3, wherein a refill cap is detachably fitted in the refill hole.

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