JP4362769B2 - Multi-component mixed release aerosol container - Google Patents

Description

  The present invention relates to a multi-component mixed-release aerosol container for mixing a first liquid and a second liquid separately stored in a container and releasing them to the outside.

  For example, there are aerosol products for hair dyes in which a first container containing a dye or the like and a second container containing an oxidant or the like are juxtaposed.

  The dye and the oxidizer are stored in separate containers. When they are mixed, they cause a chemical reaction and solidify, making it easy to clog the passage of the release mechanism, etc. This is to prevent it from being done.

When the operation button is pressed, the valve corresponding to each container is opened, and the contents flow into the mixing section through the respective passage sections, where they are mixed and discharged into the external space (see, for example, Patent Document 1). ).
JP-A-10-211971

  In this way, conventional aerosol products that are released into the external space in the form of mixed contents stored in separate containers have a large overall product because a plurality of containers for storing contents are juxtaposed. In particular, there is a problem that it is difficult to hold for users with small hands and is unusable.

  Therefore, in the present invention, the aerosol container for mixing and discharging the first liquid and the second liquid separately stored is disposed outside the inner bag for storing the first liquid and the second container. It is an object of the present invention to make the entire aerosol container compact by forming a three-layer structure of an outer bag for storing the liquid and a container disposed on the outer side for storing the propellant.

The present invention solves the above problems as follows.
(1) In a multi-liquid mixed discharge type aerosol container (for example, an aerosol container 1 described later) that mixes the first liquid and the second liquid stored in separate space areas inside the container and discharges them to the outside of the container,
A deformable inner bag-like storage portion (for example, an inner bag 11 described later), which is attached to a container and forms an inner space area (for example, an inner space 11a described later) for the first liquid;
A deformable outer bag-shaped storage part (formed in an outer space area for the second liquid (for example, an internal space 12a described later), which is attached to a container so as to be arranged outside the inner bag-shaped storage part ( For example, an outer bag 12) described later,
A propellant storage area (for example, an internal space 13a described later) formed inside a container (for example, an outer container 13 described later) outside the outer bag-shaped storage unit;
A mixing portion (for example, a common passage portion 31c described later) of the first liquid output from the inner bag-shaped storage portion and the second liquid output from the outer bag-shaped storage portion,
The inner bag storage part is
Only in a part of the inner peripheral surface, in the form of a convex portion that protrudes to the outside of the outer peripheral surface, the inner bag-shaped storage is formed continuously in the vertical direction from the lower end side to the upper end side of the inner bag-shaped storage unit. The inner peripheral surface groove-shaped portion that acts as a passage of the first liquid from the lower end side to the upper end side of the inner space region of the inner bag-shaped storage portion even when the inner peripheral surfaces are in contact with each other when the portion is deformed (For example, an inner surface side groove portion 11b described later),
Only in a part of the outer peripheral surface, in the form of a convex portion protruding to the inner side of the inner peripheral surface, the outer bag-shaped storage is formed in the vertical direction continuously from the lower end side to the upper end side of the inner bag storage portion. Even when the portion is deformed and its inner peripheral surface comes into contact with the outer peripheral surface of the inner bag-shaped storage portion, from the lower end side of the external space region between the inner bag-shaped storage portion and the outer bag-shaped storage portion An outer peripheral surface groove-shaped portion (for example, an outer surface-side groove portion 11d described later) that acts as a passage for the second liquid to the upper end side,
The inner circumferential groove-shaped portion is
When the outer bag-shaped storage portion is deformed and its inner peripheral surface comes into contact with the outer peripheral surface of the inner bag-shaped storage portion, a convex rising portion on the outer peripheral surface side of the inner peripheral surface groove-shaped portion, and the outer bag An outer peripheral surface side gap (for example, a later-described gap 11c) that acts as a passage for the second liquid is continuously secured in the vertical direction from the lower end side to the upper end side of the inner bag-like storage portion. Is a groove-shaped portion,
The outer peripheral groove-shaped portion is
When the inner bag-shaped storage portion is deformed and the inner peripheral surfaces come into contact with each other, between the convex rising portion on the inner peripheral surface side of the outer peripheral surface groove-shaped portion and the inner bag-shaped storage portion, A groove-shaped portion having a shape in which an inner peripheral surface side gap (for example, a later-described gap 11e) that acts as a passage for the first liquid is continuously secured in the vertical direction from the lower end side to the upper end side of the inner bag-shaped storage portion. It is.
(2) In (1) above,
A first stem rubber (for example, a first stem rubber 23 described later) as a valve action member for the first liquid, and a second stem rubber (for example, a second stem rubber described later) as a valve action member for the second liquid. A stem rubber mounting member (for example, a stem rubber mounting member 26 described later) for holding the stem rubber 24);
In the stem rubber mounting member,
An intermittent claw portion (for example, a claw portion 26a described later) for always forming the passage of the second liquid is provided on the outer portion of the annular lower surface,
And the annular convex part (for example, below-mentioned annular convex part 26d) which acts as a valve member between said 1st stem rubber is provided in the inner part of the said annular lower surface.

  In the present invention, as described above, the inside of the container is composed of an inner bag-shaped storage portion for the first liquid, an outer bag-shaped storage portion for the second liquid disposed outside the container, and an outer bag storage portion. Since it has a three-layer structure consisting of an outer propellant storage area, the entire aerosol container can be made compact.

  Moreover, since the mixing part of the 1st liquid and the 2nd liquid is provided, both can be discharge | released outside a container in the state mixed positively.

  Further, since a groove-like portion extending between the upstream side and the downstream side of the inner space region or the outer space region is formed on the peripheral surface of the inner bag-like storage portion, for example, the outer bag-like storage portion by the action of the propellant Even when the inner surface of the inner bag-shaped storage portion is deformed and the inner surfaces of the inner bag-shaped storage portions are in contact with each other, the upstream space and the downstream space of the contact portion (the respective bag-shaped portions The first and second liquid passages are secured by the grooves.

  That is, in the case of a space area including the groove-shaped part (for example, an outer space area when the groove-shaped part is formed on the outer peripheral surface of the inner bag-shaped storage part), the passage is secured by the groove-shaped part itself. . In addition, in the case of the space area on the side not including the groove-shaped part (for example, the inner space area in the above case), the convex part formed on the back surface side (= the space area) together with the groove-shaped part ( The passage is secured by a gap generated at the rising portion along the convex portion in a state where the inner peripheral surface of the storage portion (which constitutes the space area) is in contact.

The best mode for carrying out the present invention will be described with reference to FIGS.
1 to 6 are explanatory diagrams of an aerosol container having a three-layer structure including an inner bag, an outer bag, and an outer container. FIG. 1 is a stationary mode, FIG. 2 is a detailed view of the inner bag, and FIG. FIG. 4 is a detailed view, FIG. 4 is a detailed view showing the flow of contents, FIG. 5 is a detailed view showing the flow of contents, and FIG. 6 is a detailed view of the discharge path when a stem rubber mounting member having a valve function is used.

In these figures,
1 is an aerosol container for mixing and discharging the first liquid and the second liquid,
11 is an inner bag for storing the first liquid, 11a is an inner space of the inner bag, 11b is an inner surface side groove portion that is formed on the inner surface side of the inner bag in the vertical direction and secures the passage of the first liquid in the operation mode. , 11c is a gap that is generated at the rising portion along the convex portion formed on the outer surface of the inner surface side groove, and a passage for the second liquid is secured, and 11d is formed on the outer surface side of the inner bag in the vertical direction. The outer surface side groove portion for securing the second liquid passage in the mode, 11e is a gap that is generated at the rising portion along the convex portion formed on the inner surface of the outer surface side groove portion, and the first liquid passage is secured, 11f is an annular flange for attaching to the housing 21 described later,
12 is an outer bag for storing a second liquid provided outside the inner bag 11, 12a is an inner space of the outer bag,
13 is an outer container provided outside the outer bag 12 and filled with a gas for releasing the first and second liquids, 13a is an inner space of the outer container, and 13b is a bottom portion of the outer container. ,
21 is a housing for separately storing the first liquid and the second liquid, 21a is a first storage chamber into which the first liquid flows, and 21b is a first communication between the first storage chamber and the internal space 11a of the inner bag 11. 21c is a second storage chamber into which the second liquid flows, 21d is a second inflow port connecting the second storage chamber and the internal space 12a of the outer bag 12, and 21e is a first stem rubber 23 described later. An annular stepped portion for supporting, 21f is an annular receiving portion that engages with the annular flange portion 11f of the inner bag 11,
22 is a stem in which passages for discharging the first liquid and the second liquid are separately formed, 22a is a first hole for discharging the first liquid, 22b is a first vertical path communicating with the first hole, and 22c is In the operation mode, a first taper surface for pressing a first stem rubber 23 (described later) to open the first hole 22a, 22d is a second hole for discharging the second liquid, and 22e is in communication with the second hole. The second vertical passage 22f is a second tapered surface for opening a second hole 22d by pressing a later-described second stem rubber 24 in the operation mode,
23 is a first stem rubber that opens and closes the first hole 22a and separates the housing 21 into a first storage chamber 21a and a second storage chamber 21c.
24 is a second stem rubber for opening and closing the second hole 22d;
Reference numeral 25 denotes a stem rubber mounting member that fits on the inner peripheral surface of the housing 21 and supports the first stem rubber 23 and the second stem rubber 24, and 25a is provided intermittently on the lower surface of the stem rubber mounting member. 23 c is a claw portion that supports 23, 25 b is a space portion that is formed between the claw portions and constitutes the second storage chamber 21 c, and 25 c is an upper surface portion that supports the second stem rubber 24,
26 is a stem rubber mounting member provided with a second liquid discharge valve, 26a is intermittently provided on the lower surface of the stem rubber mounting member and supports the first stem rubber 23, and 26b is between the claw portions. 26c is a space part that always forms a passage for the second liquid, 26c is an upper surface part for supporting the second stem rubber 24, and 26d is provided over the lower surface of the stem rubber mounting member for a second liquid discharge. An annular convex portion 26e that operates as a valve, and a content discharge passage formed between the annular convex portion and the first stem rubber 23 in the operation mode,
27 is a spring for urging the stem 22 upward,
28 is a mounting cup for caulking the housing 21 and winding the outer container 13 and the outer bag 12 together to integrate them, 28a is an upper end of the mounting cup,
31 is an operation member, 31a is a first horizontal passage communicating with the first vertical passage 22b of the stem 22, 31b is a second horizontal passage communicating with the second vertical passage 22e of the stem 22, and 31c is a first liquid and a second liquid. Common passage section,
32 is a mixing member that is detachably provided in the common passage portion and mixes the first liquid and the second liquid,
33 is a discharge port member detachably attached to the operation member 31, 33a is a discharge port,
H is the height from the bottom portion 13b of the outer container 13 to the upper end portion 28a of the mounting cup 28;
W indicates the outer diameter of the outer container 13.

here,
-The material of the inner bag 11 is plastic such as polyethylene, polypropylene, nylon,
-The material of the outer bag 12 is a laminated laminate structure of various plastics such as aluminum or polyethylene, polypropylene, nylon and aluminum, etc.
-The material of the outer container 13 is a metal such as aluminum or tin, a plastic such as polyethylene terephthalate, polybutylene terephthalate, polyacetal or nylon, glass,
It is.

  The outer container 13 has an outer diameter W of 30 to 50 mm and a height H from the bottom 13b to the upper end 28a of the mounting cup of 12 to 15 cm. It is approximately the same size as a normal single layer aerosol container (contained).

As shown in FIG. 1, the aerosol container 1 of the present invention is
An inner bag 11 containing the first liquid in the inner space 11a,
An outer bag 12 provided outside the inner bag and containing the second liquid in the inner space 12a;
An outer container 13 provided on the outside of the outer bag and containing a release gas in the inner space 13a;
It has a three-layer structure.

And
The inner bag 11 has an annular flange portion 11f engaged with an annular receiving portion 21f of the housing 21,
The outer bag 12 and the outer container 13 are wound around a mounting cup 28 that holds the housing 21,
The three are united.

  As described above, since the size of the outer container 13 is substantially the same as that of a normal aerosol container, the entire aerosol container 1 is compact, easy to hold even for users with small hands, and easy to use.

  In addition, with this three-layer structure, the second liquid in the outer bag 12 and the first liquid in the inner bag 11 are in a state of being pressurized inward by the action of the discharge gas from the outer container 13, whereby the first liquid The liquid and the second liquid are discharged to the external space.

  As shown in FIG. 2, the inner bag 11 is formed with an inner surface side groove 11b and an outer surface side groove 11d.

This is due to the release of the first liquid and the second liquid,
When the outer bag 12 is deformed so as to come into contact with the outer surface of the inner bag 11, along the convex portion formed on the outer surface side groove portion 11d itself and the back surface side of the inner surface side groove portion 11b (the outer peripheral surface of the inner bag 11). The passage for the second liquid is secured by the gap 11c generated at the rising portion of the
When the inner bag 11 is deformed so that the inner surfaces are in contact with each other, along the convex portion formed on the inner surface side groove portion 11b itself and the rear surface side of the outer surface side 11d groove portion (the inner peripheral surface of the inner bag 11) This is because a passage for the first liquid is secured by the gap 11e generated in the rising portion (see FIG. 4).

  As shown in FIG. 3, the housing 21 is formed with a first inlet 21b for taking in the first liquid, a second inlet 21d for taking in the second liquid, and a stem rubber mounting member 25 is provided. Yes.

  The stem rubber mounting member 25 sandwiches the second stem rubber 24 by its upper surface portion 25 c and the mounting cup 28, and sandwiches the first stem rubber 23 by its claw portion 25 a and the annular step portion 21 e of the housing 21. The internal space of the housing 21 is separated into a first storage chamber 21a and a second storage chamber 21c by the first stem rubber.

  As described above, since the claw portions 25a of the stem rubber mounting member 25 are provided intermittently, the space portion 25b between the claw portions constitutes the second storage chamber 21c.

  The stem 22 has a first hole 22a and a first vertical passage 22b dedicated to the first liquid, and a second hole 22d and a second vertical passage 22e dedicated to the second liquid.

  As a result, the first liquid and the second liquid are not mixed and reacted (solidified) in the internal space of the housing 21 and the stem 22, but flow into the operation member 31 through separate paths and mix in the common passage portion 31c. Mixed by member 32.

  For this reason, the first liquid and the second liquid easily react and solidify in the common passage portion 31c and the discharge port 33a, but these portions can be cleaned by removing the discharge port member 33 and the mixing member 32.

  Hereinafter, the stationary mode and the operation mode of the aerosol container will be described.

  As shown in FIGS. 1 and 3, in the stationary mode, the stem 22 is moved up by the bias of the spring 27, the first stem rubber 23 closes the first hole 22a, and the second stem rubber 24 is in the second state. The hole 22d is closed. Thereby, since the 1st liquid and the 2nd liquid cannot pass through each hole, they are not discharge | released to external space.

  As shown in FIGS. 4 and 5, in the operation mode in which the operation member 31 is pushed, the first tapered surface 22c and the second tapered surface 22f of the stem 22 press the first stem rubber 23 and the second stem rubber 24, respectively. These are deformed downward to open the first hole 22a and the second hole 22d.

And due to the action of the release gas,
The first liquid passes through the first inlet 21b-first storage chamber 21a-first hole 22a-first vertical passage 22b-first horizontal passage 31a,
The second liquid passes through the second inlet 21d-second storage chamber 21c-second hole 22d-second vertical passage 22e-second horizontal passage 31b,
Both flow into the common passage portion 31c and are mixed by the mixing member 32 and discharged from the discharge port 33a.

  Therefore, the first liquid and the second liquid are not mixed in the internal spaces of the housing 21 and the stem 22, and solidification of these internal spaces can be prevented. The common passage portion 31c and the discharge port 33a are easy to solidify because the first liquid and the second liquid are mixed. However, as described above, since the discharge port member 33 and the mixing member 32 can be removed, the common passage portion What is necessary is just to wash | clean 31c, the mixing member 32, the discharge port 33a part, etc. FIG.

  By this discharge, the outer bag 12 and the inner bag 11 are deformed inward by the amount of the first liquid and the second liquid discharged.

  When the amounts of the first liquid and the second liquid are reduced, the inner surface of the outer bag 12 is in contact with the outer surface of the inner bag 11 and the inner surfaces of the inner bag 11 are also in contact with each other (see FIG. 4). In addition, since the inner surface side groove portion 11b itself, the outer surface side groove portion 11d itself, and the gaps 11c and 11e generated on the back surface side of these groove portions, the passage of the first liquid and the passage of the second liquid are secured. 11 can be reliably discharged to the external space.

The first liquid and the second liquid are
Engaging the annular flange 11f of the inner bag 11 with the annular receiving portion 21f of the housing 21 (attached to the mounting cup 28 containing the stem 22),
In the state where the outer bag 12 and the outer container 13 are temporarily fixed to the mounting cup 28,
The stem 22 is pushed down, and the inner bag 11 and the outer bag 12 are filled from the first longitudinal passage 22b and the second longitudinal passage 22e of the stem through a path opposite to the above-described discharge path.

  Further, the gas for discharge is filled from between the temporarily fastened outer bag 12 and outer container 13 with the stem 22 moved up.

  Then, after filling the first liquid, the second liquid, and the discharge gas, the mounting cup 28 is wound together with the outer bag 12 and the outer container 13 with a jig or the like.

  FIG. 6 is an explanatory view of an aerosol container using a stem rubber mounting member 26 having a second liquid discharge valve function in place of the stem rubber mounting member 25.

  A claw portion 26a is provided intermittently on the lower surface of the stem rubber mounting member 26 so as to always form a passage for the second liquid on the outer side, and acts as a valve member between the inner side and the first stem rubber 23 on the inner side. An annular convex portion 26d is provided.

  Further, a stem rubber locking protrusion of the annular step portion 21e of the housing 21 is provided at a position facing the claw portion 26a, and the inner edge portion of the annular step portion is formed in a tapered surface shape. Other components are the same as those of the aerosol container 1 of FIG.

In still mode (not shown)
The first stem rubber 23 closes the first hole 22a,
The second stem rubber 24 closes the second hole 22d,
The annular convex portion 26d is in close contact with the first stem rubber 23.

  Accordingly, the first liquid and the second liquid cannot pass through the first hole 22a and the second hole 22d, respectively, and are not released to the external space. The second storage chamber 21c is divided by an annular convex portion 26d.

  In the operation mode in which the operation member 31 is pressed, the first stem rubber 23 and the second stem rubber 24 are pressed by the first tapered surface 22c and the second tapered surface 22f, respectively, and the first hole portion 22a and the second hole portion 22d are pressed. open.

  Therefore, the first liquid passes through the above-described path and is discharged to the external space. At this time, the first stem rubber 23 is deformed downward so that the second inflow port 21d and the second hole 22d communicate with each other between the annular convex portion 26d and the first stem rubber 23. Since 26e is formed, the second liquid is also discharged to the external space through this passage.

  In addition, you may make it form either the inner surface side groove part 11b or the outer surface side groove part 11d in the inner bag 11, and the number of the inner surface side groove part 11b and the outer surface side groove part 11d is arbitrary.

For example, when only the inner surface side groove 11b is formed,
-The first liquid passage is secured by the groove itself,
The passage of the second liquid is secured by a gap generated at the rising portion along the convex portion formed on the outer surface side of the inner bag 11 by the groove portion.

When only the outer surface side groove 11d is formed,
-The second liquid passage is secured by the groove itself,
The passage of the first liquid is secured by the gap generated at the rising portion along the convex portion formed on the inner surface side of the inner bag 11 by the groove portion.

  Furthermore, an inner surface side groove may be formed in the outer bag 12. Even when the outer bag 12 is deformed so as to come into contact with the outer surface of the inner bag 11 by the action of the discharge gas, the inner surface side groove portion itself secures the passage of the second liquid.

  Products with the above aerosol container valve mechanisms include hair dyes, hair products, cosmetics, foods, cleaning agents, cleaning agents, deodorants, antiperspirants, repellents (insecticides), pharmaceuticals, and pharmaceutical departments. There are external products, cooling agents, muscle anti-inflammatory agents, laundry glue, etc.

  In the case of hair dyes, the first liquid contains dye intermediates such as paraphenylenediamine, aminophenol, toluene-2,4-diamine, alkali agents such as ammonia and monoethanolamine, and anions such as sodium lauryl sulfate. Viscosity surfactants, nonionic surfactants such as polyoxyethylene oleyl ether, amphoteric surfactants such as lauryldimethylaminoacetic acid betaine, cationic surfactants such as alkyltrimethylammonium chloride, viscosities such as sulfites and methylcellulose An adjusting agent, a stabilizer such as ascorbic acid, and the like are used, and an oxidizing agent such as hydrogen peroxide, a stabilizer such as phenacetin and EDTA, and a pH adjusting agent such as phosphoric acid and citric acid are used as the second liquid.

  As the release gas, a compressed gas such as nitrogen or carbon dioxide can be used.

It is explanatory drawing which shows the stationary mode of the aerosol container of the three-layer structure of this invention. It is detail drawing of the inner bag of the aerosol container of the three-layer structure of this invention. It is detail drawing which shows the housing inside of the aerosol container of the three-layer structure of this invention. It is explanatory drawing which shows the operation mode of the aerosol container of the three-layer structure of this invention. It is detail drawing which shows the flow of the contents of the aerosol container of the three-layer structure of this invention. It is detail drawing which shows the discharge | release path | route at the time of using the stem rubber attachment member provided with the valve function of this invention.

Explanation of symbols

1: aerosol container,
11: Inner bag 11a: Inner space 11b: Inner surface side groove 11c: Clearance 11d: Outer surface side groove 11e: Clearance 11f: Ring flange 12: Outer bag 12a: Inner space 13: Outer container 13a: Inner space 13b: Bottom portion 21 : Housing 21a: first storage chamber 21b: first inlet 21c: second storage chamber 21d: second inlet 21e: annular stepped portion 21f: annular receiving portion 22: stem 22a: first hole portion 22b: first vertical Passage 22c: First taper surface 22d: Second hole 22e: Second vertical passage 22f: Second taper surface 23: First stem rubber 24: Second stem rubber 25: Stem rubber mounting member 25a: Claw portion 25b: Space Portion 25c: Upper surface portion 26: Stem rubber mounting member 26a: Claw portion 26b: Space portion 26c: Upper surface portion 26d: Annular convex portion 26e: Passage 27: Spring 28: Unting cup 28a: upper end 31: operation member 31a: first lateral passage 31b: second lateral passage 31c: common passage portion 32: mixing member 33: discharge port member 33a: discharge port H: bottom portion 13b of outer container 13 To the upper end 28a of the mounting cup 28 W: outer diameter of the outer container 13

Claims (2)

In an aerosol container that mixes the first liquid and the second liquid stored in separate space areas inside the container and discharges them to the outside of the container,
A deformable inner bag-like storage portion attached to a container to form an inner space area for the first liquid;
A deformable outer bag-shaped storage portion that is attached to a container in a form disposed outside the inner bag-shaped storage portion and forms an outer space area for the second liquid;
A propellant storage area formed inside the outer container of the outer bag-shaped storage unit;
A mixing part of the first liquid output from the inner bag-shaped storage part and the second liquid output from the outer bag-shaped storage part,
The inner bag storage part is
Only in a part of the inner peripheral surface, in the form of a convex portion that protrudes to the outside of the outer peripheral surface, the inner bag-shaped storage is formed continuously in the vertical direction from the lower end side to the upper end side of the inner bag-shaped storage unit. The inner peripheral surface groove-shaped portion that acts as a passage of the first liquid from the lower end side to the upper end side of the inner space region of the inner bag-shaped storage portion even when the inner peripheral surfaces are in contact with each other when the portion is deformed When,
Only in a part of the outer peripheral surface, in the form of a convex portion protruding to the inner side of the inner peripheral surface, the outer bag-shaped storage is formed in the vertical direction continuously from the lower end side to the upper end side of the inner bag storage portion. Even when the portion is deformed and its inner peripheral surface comes into contact with the outer peripheral surface of the inner bag-shaped storage portion, from the lower end side of the external space region between the inner bag-shaped storage portion and the outer bag-shaped storage portion An outer peripheral surface groove-shaped portion that acts as a passage of the second liquid to the upper end side,
The inner circumferential groove-shaped portion is
When the outer bag-shaped storage portion is deformed and its inner peripheral surface comes into contact with the outer peripheral surface of the inner bag-shaped storage portion, a convex rising portion on the outer peripheral surface side of the inner peripheral surface groove-shaped portion, and the outer bag A groove having a shape in which a gap on the outer peripheral surface side that acts as a passage for the second liquid is continuously secured in the vertical direction from the lower end side to the upper end side of the inner bag-like storage portion. Department,
The outer peripheral groove-shaped portion is
When the inner bag-shaped storage portion is deformed and the inner peripheral surfaces come into contact with each other, between the convex rising portion on the inner peripheral surface side of the outer peripheral surface groove-shaped portion and the inner bag-shaped storage portion, The inner peripheral surface side gap that acts as a passage for the first liquid is a groove-shaped portion that is continuously secured in the vertical direction from the lower end side to the upper end side of the inner bag-shaped storage portion .
A multi-component mixed-release aerosol container characterized by the above. A stem rubber mounting member for holding a first stem rubber as a valve action member for the first liquid and a second stem rubber as a valve action member for the second liquid;
In the stem rubber mounting member,
On the outer part of the annular lower surface, an intermittent claw portion for always forming the passage of the second liquid is provided,
And the annular convex part which acts as a valve member between the 1st stem rubber is provided in the inner part of the annular undersurface,
The multi-component mixed-release aerosol container according to claim 1.

Images