JP4568530B2 - Aerosol device - Google Patents

Description

  The present invention relates to an aerosol apparatus that injects an fragrance, a deodorant, a pest repellent or the like to the outside, and enables visual inspection of the sprayed state of the aerosol contents and an improvement in taste. Is.

  Conventionally, when injecting a fragrance, a deodorant or a pest repellent into a room or the like, a user can eject an aerosol content of any amount into the air by pressing a push button, or As shown in FIG. 7, there is a device in which a means capable of suppressing the spray amount of the aerosol content is provided in the aerosol container and the aerosol content is released to the outside in small amounts. In patent document 1, the storage chamber of the aerosol content is formed in the main body provided with the nozzle. And at the time of the injection of the aerosol contents, a part thereof is stored in the storage chamber, and the aerosol contents in the storage chamber are discharged to the outside by a minute amount from the minute flow holes provided in the wall surface of the storage chamber. .

Moreover, in patent documents 2-7, the aerosol content is impregnated in the porous body arrange | positioned in the flow path etc. of the aerosol content simultaneously with ejecting the aerosol content outside from an injection nozzle. The aerosol content impregnated in the porous body is released to the outside in a minute amount so that the aroma, deodorizing effect, pest repellent effect and the like can be maintained.
Japanese Utility Model Publication No. 56-106859 Japanese Utility Model Publication No.57-98275 Japanese Utility Model Publication No. 60-58273 JP-A-7-132980 JP 2001-286253 A JP 2002-224594 A JP 2003-160158 A

However, in the above-described conventional aerosol products, the user cannot confirm the release state of the aerosol contents, and it is difficult to determine whether it is excessively discharged or insufficient. In addition, traditional products are taken into account only the functionality, poor in the design, there is a sense of incongruity to be used for long-term and placed on the furniture or the like, the functions of as ornaments and function as aerosol products I didn't have it.

  The present invention is intended to solve the problems as described above, and has a function as a fragrance, a deodorant or a pest repellent, etc., and can visually check the injection of the aerosol contents. To obtain aerosol products that can satisfy the taste of taste.

  According to the present invention, an ejection port that communicates with a stem of an aerosol container and is capable of ejecting an aerosol content is connected to a lower part of a transparent or translucent storage container filled with a liquid, and a jet is formed at the upper end of the storage container. The discharge port is formed by opening a discharge port through which the aerosol content discharged from the outlet and passing through the liquid rises.

  In addition, a flow rate suppressing mechanism that can suppress the flow of the aerosol contents may be provided in the interval between the jet port and the stem.

  Further, a chamber capable of storing a certain amount of aerosol contents ejected from the stem may be provided in the interval between the stem and the flow rate suppressing mechanism.

  Further, the flow rate suppression mechanism is provided with a flow passage communicating with the stem, the flow rate suppression piece is accommodated in the flow passage, and an outer peripheral surface of the flow rate suppression piece and an inner peripheral wall surface of the flow passage contacting the flow rate reduction piece. It may be formed by forming a flow interval that can suppress the flow of the aerosol contents.

  Further, the flow rate suppression mechanism has a flow passage communicating with the stem, and a nozzle casing is inserted and disposed in the flow passage, and a ball is disposed at the tip of the nozzle casing. The tip fixing part of the nozzle casing is extended to the tip side, and the tip fixing part is wound and fixed to the outer peripheral surface on the tip side of the ball hemisphere, thereby fixing the ball to the nozzle casing in a passive manner. In addition, a flow interval may be formed between the inner peripheral wall surface of the nozzle casing and the outer peripheral surface of the ball so that the flow rate of the aerosol contents can be suppressed.

  In addition, the jet outlet is formed in an injection main body to which the storage container is fixed. The injection main body can be pressed in the direction of the aerosol container, and the injection main body is moved up and down on an outer cylinder connected to the outer periphery of the aerosol container. It may be connected so that the position can be fixed, and the aerosol contents can be continuously jetted by fixing the position.

  Further, the liquid may have a viscosity of 1 to 10,000 mPa · s.

  The liquid may be colored.

  The present invention is configured as described above, and the aerosol content ejected from the aerosol container passes through the liquid in the storage container and rises as bubbles, and is then discharged from the discharge port. The user can visually check how the bubbles pass through the liquid through a transparent or translucent storage container. Accordingly, the user can roughly grasp the amount of aerosol content to be injected to the outside, which makes it easy to determine whether or not the amount of use is appropriate, and to satisfy the user's taste. In addition, when bubbles rise through the liquid, the design and the like are improved, the user's preference is increased, and a product that can be used favorably by being placed indoors can be obtained.

  Hereinafter, Embodiment 1 of the present invention will be described with reference to FIGS. 1 to 4. (1) is an aerosol container, which is filled with an aerosol content and has a mauten cup (2) fixed to the upper end. The mouten cup (2) has a valve mechanism (not shown) connected to its inner surface via a housing (not shown), and a stem (3) of the valve mechanism protrudes from the mountain cup (2) to the outside. By pressing the stem (3) in the direction of the aerosol container (1), the valve mechanism is opened, and the aerosol contents can be injected. Moreover, the aerosol content with which the aerosol container (1) is filled is, for example, filled with a fragrance and a propellant such as LP gas when used as a fragrance.

  A cylindrical injection body (5) for pressing the stem (3) is connected and fixed to the upper end of the stem (3). The injection main body (5) is formed in the axial direction with a flow passage (6) communicating with the stem (3) and flowing the aerosol content injected from the stem (3). And the jet outlet (7) of the aerosol content is formed in the front-end | tip of this flow path (6). The injection body (5) has a transparent or translucent storage container (8) connected and fixed in a liquid-tight manner to the upper end of the injection port (7). In the storage container (8), a liquid (10) such as water, lower alcohol, polyhydric alcohol, silicon oil, hydrocarbon, ether, ester oil or fats and oils is stored. With such a configuration, the aerosol content ejected from the ejection port (7) passes through and rises in the liquid (10) of the storage container (8) as shown in FIG. 1 as bubbles (11). . The aerosol content that has passed through the liquid (10) is released to the outside through the discharge port (12) opened in the upper wall surface of the storage container (8). The discharge port (12) may be formed by opening a plurality of long grooves, or may be formed by opening a plurality of upper end wall surfaces in a circular shape, or by opening to another hobby shape. Also good.

  The injection body (5) to which the storage container (8) is connected and fixed is connected to the outer cylinder (13) connected and fixed to the outer periphery of the aerosol container (1) so as to be movable in the vertical direction and the circumferential direction. . Also, a pair of engaging protrusions (14) is provided on the outer periphery of the injection body (5), and the engaging protrusions (14) are provided in the circumferential direction on the inner peripheral wall surface of the outer cylinder (13). Is engaged with the engaging step (15). As shown in FIG. 2, the engaging step portion (15) is provided with an ascending portion (16) and a descending portion (17). When the aerosol contents are not jetted, as shown in FIG. By engaging 14) with the ascending portion (16), the stem (3) is not pressed by the injection body (5), and unexpected injection of the aerosol contents can be prevented.

  On the other hand, when injecting the aerosol contents, the user holds the storage container (8) and presses the injection main body (5) in the direction of the aerosol container (1) through the storage container (8). The main body (5) presses the stem (3) and the aerosol content is injected. Simultaneously with the pressing of the storage container (8), the injection main body (5) is rotated in the circumferential direction via the storage container (8), and the engagement protrusion (14) is engaged with the descending portion (17). By this engagement, the injection body (5) is fixed in position, and the pressed state of the stem (3) by the injection body (5) is maintained, so that the aerosol contents can be continuously injected.

  Further, the injection body (5) can suppress the flow of the aerosol contents in the flow passage (6) provided between the stem (3) and the injection port (7) as shown in FIGS. A flow rate suppression mechanism (18) is provided. As shown in FIG. 4, the flow rate suppressing mechanism (18) is formed with a large diameter part (20) by forming a part of the flow path (6) in the middle of the large diameter part, and the large diameter part (20) is provided in the large diameter part (20). Houses the flow control piece (21). A fine flow groove (22) is formed on the outer peripheral surface of the flow restricting piece (21), and a part of the top and bottom surfaces of the flow restricting piece (21) is formed on the flow passage (6) and the flow groove, respectively. A notch step (23) communicating with (22) is formed as a notch. By the upper and lower cutout step portions (23) and the flow grooves (22), a flow interval that can suppress the flow of the aerosol contents between the flow rate suppression piece (21) and the inner peripheral wall surface of the large diameter portion (20) ( 24) is formed.

  In addition, only one flow groove (22) is provided on the outer peripheral surface of the flow restricting piece (21). However, a plurality of flow grooves (22) may be provided, and may be provided appropriately according to the amount of aerosol content to be ejected to the outside. Is preferred. Further, the flow groove (22) may be provided on the inner peripheral wall surface of the large diameter portion (20), or the flow groove is formed on both the inner peripheral wall surface of the large diameter portion (20) and the outer peripheral surface of the flow restricting piece (21). (22) may be provided. Further, a protrusion is provided on the inner peripheral wall surface of the large diameter portion (20) and / or the outer peripheral surface of the flow restricting piece (21), and the inner peripheral wall surface of the large diameter portion (20) and the flow restricting piece (21 ) May be formed, for example, by setting the gap formed between the outer peripheral surface and the outer circumferential surface as a flow interval (24). In addition, in order to be able to suppress the flow rate of the aerosol content in this way, forming the flow groove (22) etc. is easier to work than when fine flow holes are provided to control the flow rate, The machine accuracy can be increased.

  The liquid (10) stored in the storage container (8) may store only one of water, lower alcohol, polyhydric alcohol, silicone oil, hydrocarbon, ether, ester oil, fats and the like. Alternatively, a plurality of types of liquids (10) may be stored by combining a plurality of types having different specific gravities. Moreover, you may use the solution which mix | blended a thickener with the said liquid (10) and made high viscosity. Even when only one kind of silicon oil or the like is used, it is possible to use a plurality of layers of liquid (10) using silicon oils having different specific gravities. In addition, coloring of these liquids (10) will further improve the taste of taste, but in the case of multiple layers, the taste of taste will be further enhanced by applying different colors for each layer. It becomes. Furthermore, if a water wheel, a goldfish, and other toys that rotate with the bubbles (11) are stored in the liquid (10), the design and taste can be further enhanced.

  In addition, the liquid (10) has a viscosity of 1 mPa · s at 20 ° C. in the case of water. By adjusting this viscosity appropriately, the rising speed of the aerosol content can be adjusted, and the unit to the outside can be adjusted. It is possible to arbitrarily control the amount of release per hour. The viscosity of the liquid (10) is 1 to 10000 mPa · s. When the viscosity of the liquid (10) is lower than 1 mPa · s, the passage time of the bubbles (11) in the liquid (10) is too fast, and the aerosol content is released to the outside in a short time, thus maintaining the fragrance effect. become unable. On the other hand, if the viscosity of the liquid (10) is higher than 10000 mPa · s, the bubbles (11) are difficult to rise, the amount released to the outside is reduced, and the aroma effect is lowered.

  In the liquid (10), examples of the lower alcohol include ethanol, isopropanol, propanol, and butanol. Polyhydric alcohols include ethylene glycol, propylene glycol, butylene glycol, 1,3-butylene glycol, glycerin, xylitol, sorbitol, diethylene glycol, dipropylene glycol, diglycerin, triethylene glycol, triglycerin, polyethylene glycol, polypropylene. Glycol and the like.

  Examples of the silicone oil include methylpolysiloxane, octamethyltrisiloxane, decamethylcyclopentanesiloxane, decamethyltetrasiloxane, octamethylcyclotetrasiloxane, methylphenylpolysiloxane, various modified silicons, and the like.

  Examples of the hydrocarbon include liquid paraffin, isoparaffin, normal paraffin, kerosene, squalane, squalene, and aromatic hydrocarbons. Examples of the ether include methyl cellosolve, ethyl cellosolve, butyl cellosolve, ethyl carbitol, butyl carbitol, glycol ether and the like. Examples of ester oils include cetyl octoate, isopropyl myristate, octyldodecyl myristate, and isopropyl palmitate. Examples of oils and fats include camellia oil, corn oil, olive oil, rapeseed oil, sesame oil, castor oil, linseed oil, safflower oil, and perfume oil.

  In order to inject the aerosol contents in the configuration as described above, the storage container (8) is held and rotated in the circumferential direction while being pressed in the direction of the aerosol container (1). The engagement protrusion (14) of (5) is engaged and fixed to the descending portion (17). By this operation, the injection body (5) presses the stem (3), the valve mechanism is opened, and the aerosol content flows out from the stem (3) into the flow path (6). ) Is introduced into a flow rate control mechanism (18) provided in the system. The aerosol content passes through the fine flow interval (24) of the flow rate control mechanism (18), the flow rate is limited by the flow resistance, and the aerosol content is little by little from the jet port (7). Erupted inside. Then, as shown in FIG. 1, the aerosol content becomes bubbles (11), passes through and rises in the liquid (10), and is discharged to the outside through the discharge port (12) at the upper end of the storage container (8). .

  In this way, the aerosol content becomes bubbles (11) and rises through the liquid (10), allowing the user to visually check the sprayed state of the aerosol content and improving the design. In addition, the user's taste can be satisfied. In addition, when liquids (10) with different specific gravities are stored, the rising speed of the liquid (10) changes according to the specific gravities, and the taste is further improved. It is also possible to adjust the flow rate. Moreover, it is also excellent in palatability, and it is preferable to use it by placing it indoors. Furthermore, since the flow rate of the aerosol content is suppressed by the flow rate control mechanism (18), it is released in small amounts into the room, etc., and the aerosol content can be released into the room etc. for a long period of time to maintain the fragrance effect. . Moreover, when the aerosol apparatus of a present Example is used for a deodorant, a deodorizing effect can be maintained, and when it is used for a pest repellent, a pest repellent effect can be maintained.

  In the first embodiment, the aerosol contents can be continuously sprayed by the engagement of the engagement protrusion (14) provided on the injection body (5) and the engagement step (15) provided on the outer cylinder (13). However, in the second embodiment shown in FIG. 5, the aerosol content can be quantitatively injected. The configuration of the aerosol device of the second embodiment is similar to that of the first embodiment. First, the spray body (5) is connected to the stem (3), and the liquid (10) is stored at the upper end of the spray body (5). The container (8) is connected and fixed. Further, a flow rate suppression mechanism (18) is provided in the flow passage (6) of the injection body (5) to control the injection amount of the aerosol contents from the injection port (7). The injection body (5) is inserted and arranged in an outer cylinder (13) connected and fixed to the outer periphery of the aerosol container (1) so as to be movable up and down.

  And in Example 2, in order to enable the fixed quantity injection of the aerosol contents, as shown in FIG. 5, the aerosol ejected from the stem (3) is spaced at the interval between the stem (3) and the flow rate suppressing mechanism (18). A chamber (25) capable of storing a certain amount of contents is provided.

  When injecting the aerosol contents with the aerosol device of Example 2, the user holds the storage container (8), and the injection main body (5) is moved through the storage container (8) to the aerosol container (1). Press in the direction. By this pressing, the injection body (5) pushes down the stem (3), the valve mechanism is opened, and the aerosol contents are ejected from the stem (3).

  The aerosol content ejected from the stem (3) flows into a chamber (25) disposed between the stem (3) and the flow rate suppressing mechanism (18). Then, due to the flow rate suppressing effect by the flow rate suppressing mechanism (18), the aerosol content passes through the circulation interval (24) and is ejected little by little from the jet port (7) into the liquid (10), and the chamber (25). The aerosol contents are stored inside.

  Therefore, even if the user releases the pressing operation of the storage container (8) and the valve mechanism is closed, the aerosol contents stored in the chamber (25) are not transferred via the flow rate suppression mechanism (18). It is jetted into the liquid (10) little by little from the spout (7), becomes a bubble (11), passes through the liquid (10), rises, and is discharged to the outside through the discharge port (12). Then, when the entire aerosol content in the chamber (25) is injected, the release to the outside ends, and only a certain amount of the aerosol content stored in the chamber (25) can be injected.

  In addition, when a certain amount of aerosol content is filled in the chamber (25), the outflow from the stem (3) stops, so that even if the user pushes the storage container (8) more than necessary. The aerosol content is not excessively jetted.

  In the first embodiment and the second embodiment, as the flow rate restraining mechanism (18), the flow rate restraining piece (21) is housed in the large diameter portion (20) of the flow passage (6), and the large diameter portion (20) The flow rate of the aerosol contents is controlled by the flow interval (24) formed between the flow rate control piece (21). On the other hand, as shown in FIGS. 6 and 7, the flow rate control mechanism (18) of another different embodiment 3 is formed with a large diameter portion (20) by forming the flow passage (6) with a large diameter. The nozzle casing (26) for suppressing the flow rate of the aerosol contents is inserted and arranged in the large diameter portion (20).

  The nozzle casing (26) has a ball (27) disposed at the tip thereof. As shown in FIG. 7, the ball (27) is disposed in the nozzle casing (26) when the ball (27) The tip fixing portion (28) of the nozzle casing (26) is extended to the tip side of the hemisphere. The ball (27) is fixed to the nozzle casing (26) in a passive manner by tightening and fixing the tip fixing portion (28) to the outer peripheral surface on the tip side of the hemisphere of the ball (27). By fixing the tip fixing portion (28) to the outer peripheral surface on the tip side of the hemisphere of the ball (27) in this way, the ball (27) is not detached from the nozzle casing (26). .

  Further, a flow interval (24) is formed between the inner peripheral wall surface of the nozzle casing (26) and the outer peripheral surface of the ball (27) so that the flow rate of the aerosol contents can be suppressed. The flow interval (24) is formed by providing a flow groove (22) on the inner peripheral wall surface of the nozzle casing (26) and / or the outer peripheral surface of the ball (27). Also in this case, the formation of the flow groove (22) is easier to work and higher in work accuracy than the case of forming with a fine through hole or the like.

  In Example 3, the nozzle casing (26) is provided with the flow groove (22) to form the flow interval (24). However, as another example when the ball (27) is used, It may be formed by providing a satin pattern (not shown) on the inner peripheral wall surface of the nozzle casing (26) and / or the outer peripheral surface of the ball (27). By providing the distribution interval (24) with a satin pattern in this manner, the ball (27) and the tip can be fixed even if the tightening force of the tip fixing portion (28) to the ball (27) is not so strict. A fine distribution interval (24) can be formed between the portion (28) and strict machining accuracy can be eliminated.

  In the third embodiment, the tip of the flow rate restraining mechanism (18) faces the top, and a conical column (31) is arranged, and a plurality of jets (7) are provided on the outer periphery of the column (31). Are provided in a circumferential shape. The aerosol contents can flow out to the storage container (8) side through the spout (7) provided on the outer periphery of the column (31). Further, the space between the nozzle casing (26) and the support column (31) is filled with the liquid (10) flowing down from the storage container (8) through the jet port (7). In addition, by providing the conical column (31) facing the ball (27) of the flow restricting mechanism (18), the aerosol content injected from the flow restricting mechanism (18) Then, it is dispersed in all directions and flows in the direction of the jet outlet (7), and the aerosol content can be uniformly jetted into the liquid (10).

  In Example 3, as in Example 1, the injection body (5) is moved up and down and rotated in the circumferential direction on the outer cylinder (13) connected and fixed to the outer periphery of the aerosol container (1). The engaging projection (14) projecting from the outer periphery of the injection main body (5) is engaged with a crank-shaped engaging step (15) provided on the inner peripheral wall surface of the outer cylinder (13). Therefore, a continuous injection mechanism is provided to enable continuous discharge of the aerosol contents. Moreover, in FIG. 6, the sealing member (30) is stuck on the top | upper surface of the storage container (8), and the state which closed the discharge port (12) is shown. This is because liquid (10) flows out from the discharge port (12) or dust enters from the discharge port (12) when the aerosol device is not used, such as when it is impacted or laid down. It is for preventing. Therefore, when releasing the aerosol contents as shown in FIG. 6, the seal member (30) is peeled off and used.

In the flow rate control mechanism (18) configured as described above, when the aerosol content is injected from the stem (3) into the flow passage (6), the aerosol content flows into the nozzle casing (26), and the nozzle A small amount flows out into the large-diameter portion (20) through a flow interval (24) between the inner peripheral wall surface of the casing (26 ) and the outer peripheral surface of the ball (27). Since the liquid (10) is stored in the large-diameter portion (20), the aerosol content becomes bubbles (11) and passes through the large-diameter portion (20), and the bubbles (11) Is discharged to the storage container (8) side through a plurality of jets (7) of the column (31). The bubble (11) passes through the liquid (10) of the storage container (8) and then is released to the outside through the discharge port (12), and the user visually checks the spraying state of the aerosol contents. I can do things.

Moreover, in the said Example 1- Example 3, although the storage container (8) is arrange | positioned in series via the injection main body (5) at the upper end of the aerosol container (1) of an erect state, it shows in FIG. In another different embodiment 4, the aerosol container (1) is used in an inverted state, the aerosol container (1) and the storage container (8) are arranged in parallel, and are connected to each other by a flow nozzle (37) described later. This makes it possible to inject aerosol contents. As shown in FIG. 8, the case body (34) is formed by providing the storage part (32) of the aerosol container (1) and the storage part (33) of the storage container (8) as shown in FIG. The aerosol container (1) filled with the aerosol content is inverted and stored in the storage part (32), the liquid (10) is stored in the other storage part (33), and the injection body (5) is provided at the lower end. housing the connection was retract and container (8).

  Further, the stem (3) of the aerosol container (1) arranged in an inverted manner in one storage part (32) is inserted and connected to a pressing part (35) provided on the bottom surface of the one storage part (32). . Then, when the user presses the aerosol container (1) in the bottom direction, the stem (3) is pressed by the pressing portion (35) and the aerosol content is jetted, and the aerosol content is injected into the pressing portion (35 ) Flows out into the introduction path (36) provided in the inside.

  On the other hand, the injection body (5) is connected to the lower end of the flow passage (6) with a flow nozzle (37) for aerosol contents, and this flow nozzle (37) is connected to the introduction path (36) of the pressing portion (35). The aerosol contents in the aerosol container (1) can be introduced into the flow passage (6) of the injection body (5) through the introduction path (36) and the flow nozzle (37). The injection body (5) is provided with a flow rate suppression mechanism (18) comprising a large diameter portion (20) and a flow rate suppression piece (21), as in the first and second embodiments. A chamber (25) capable of storing a certain amount of aerosol contents is formed below (18).

  In the aerosol device as described above, when the aerosol container (1) is pressed in the direction of the pressing portion (35), the valve mechanism is opened, and the aerosol contents are ejected from the stem (3). It flows into the introduction path (36). The aerosol content flows into the flow passage (6) of the injection body (5) through the flow nozzle (37) and is stored in the chamber (25) provided in the flow passage (6). When the aerosol content is sufficiently filled in the chamber (25), the user releases the pressing of the aerosol container (1).

  As a result of the above operation, the aerosol content in the chamber (25) is gradually transferred to the liquid (10) in the storage container (8) via the spout (7) via the flow interval (24) of the flow rate control mechanism (18). The aerosol contents are bubbled (11) to rise through the liquid (10) and then discharged to the outside from the discharge port (12) of the storage container (8).

  As described above, since the storage container (8) and the aerosol container (1) are arranged in parallel, the stability is improved as compared with Examples 1 to 3 arranged in series. Therefore, the aerosol container (1) The aerosol content can be jetted for a longer time. Further, it is possible to lengthen the residence time in the liquid (10) by increasing the height of the storage container (8), lengthening the flow path of the bubbles (11), and the like. Further, the aerosol product does not become vertically long, and the mounting stability is improved.

  The aerosol apparatus of each of the above embodiments is suitable for spraying toilet fragrances, indoor fragrances, automobile fragrances and the like as fragrances. Moreover, as a deodorant, it is suitable for injection, such as a room deodorant and a car deodorant. Moreover, as a pest repellent, it is suitable for spraying a fly, a mosquito, a tick repellent, a cockroach repellent, and the like.

Sectional drawing of the aerosol apparatus of Example 1 of this invention. The exploded view of the injection main body which provided the engagement protrusion, and the outer cylinder which provided the engagement step part. Sectional drawing of the injection main body and outer cylinder in the state which engaged the engaging protrusion with the raising part of the engagement step part. The expanded sectional view of the flow volume control piece part of a large diameter part. Sectional drawing of the aerosol apparatus of Example 2 which provided the chamber in the flow path. Sectional drawing of the aerosol apparatus of Example 3 which used the ball | bowl for the flow volume suppression mechanism. The expanded sectional view of the ball | bowl part of a nozzle casing. Sectional drawing of the aerosol apparatus of Example 4 which has arrange | positioned the aerosol container and the storage container in parallel.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Aerosol container 3 Stem 5 Injection body 6 Flow path 7 Spout 8 Storage container 10 Liquid 12 Discharge port 13 Outer cylinder 18 Flow control mechanism 21 Flow control piece 24 Flow interval 25 Chamber 26 Nozzle casing 27 Ball 28 Tip fixed part

Claims (8)

  An ejection port that communicates with the aerosol container stem and is capable of ejecting the aerosol contents is connected to the lower part of a transparent or translucent storage container filled with liquid, and is ejected from the ejection port to the upper end of the storage container. An aerosol device characterized by opening an outlet through which the aerosol content that has passed through the liquid rises.   2. The aerosol apparatus according to claim 1, wherein a flow rate suppressing mechanism capable of suppressing the flow of the aerosol contents is provided in the interval between the jet port and the stem.   The aerosol apparatus according to claim 2, wherein a chamber capable of storing a certain amount of aerosol contents ejected from the stem is provided at a distance between the stem and the flow rate suppressing mechanism.   The flow rate suppression mechanism is provided with a flow path communicating with the stem, the flow rate suppression piece is accommodated in the flow path, and between the outer peripheral surface of the flow rate suppression piece and the inner peripheral wall surface of the flow path contacting the flow rate suppression piece. The aerosol apparatus according to claim 2 or 3, wherein a flow interval that enables the flow of the aerosol contents to be suppressed is formed.   The flow rate suppression mechanism is provided with a flow passage communicating with the stem, and a nozzle casing is inserted and disposed in the flow passage, and a ball is disposed at the tip of the nozzle casing. The tip fixing part of the nozzle casing is extended to the tip side, and the tip fixing part is fixed to the outer peripheral surface on the tip side of the ball hemisphere, thereby fixing the ball to the nozzle casing in a passive manner. 4. The aerosol apparatus according to claim 2, wherein a flow interval is formed between the inner peripheral wall surface of the nozzle casing and the outer peripheral surface of the ball so that the flow rate of the aerosol contents can be suppressed.   The jet outlet is formed in a jet main body to which the storage container is fixed. The jet main body can be pressed in the direction of the aerosol container, and the jet main body is vertically moved and fixed to an outer cylinder connected to the outer periphery of the aerosol container. 4. The aerosol device according to claim 1, wherein the aerosol device is connected so as to enable continuous injection of the aerosol contents by fixing the position.   The aerosol apparatus according to claim 1, wherein the liquid has a viscosity of 1 to 10,000 mPa · s.   The aerosol device according to claim 1 or 7, wherein the liquid is colored.

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