JPH0536518Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field The present invention relates to a resin aerosol container in which the container body is divided into a plurality of chambers by a reinforcing wall, and the lower ends of the plurality of chambers are communicated. It is intended to enable the atomization of fine particles of the contents.

Conventionally, as shown in FIG. 3, a valve mechanism 3 is connected to a housing 2 of a resin container body 1, and the inside of the resin container body 1 is divided into a plurality of chambers 6 by a reinforcing wall (not shown). There is one in which the lower ends of the plurality of chambers 6 are communicated with each other.

When communicating the inside of the housing 2 with the gas phase part 7 formed at the upper end of the resin container body 1 for the purpose of finely spraying the aerosol contents, the vapor hole 8 is opened only in one of the plurality of chambers 6. things are being done.

Problems to be Solved by the Invention In the above-mentioned conventional example, one of the plurality of chambers 6 in which the vapor hole 8 is opened is depressurized in the gas phase section 7 as the spray is generated as the valve mechanism 3 opens. As a result, the aerosol content lowers the liquid level in the other plurality of chambers 6 and rapidly rises, and comes into contact with the vapor hole 8, which has the drawback of making it difficult to vaporize.

A conceivable method for eliminating this drawback is to open vapor holes 8 in all of the plurality of chambers 6 to communicate between the gas phase portion 7 of the resin container body 1 and the inside of the housing 2.

However, if a plurality of vapor holes 8 are opened, the amount of vapor flowing out of the gas phase section 7 will be too large, which may cause a pressure drop within the resin container body 1 or cause the condition of the spray particles to be poor, which is not preferable.

The present invention attempts to solve the above-mentioned problems by connecting a valve mechanism to the housing of the resin container body, dividing the interior of the resin container body into a plurality of chambers with a reinforcing wall, and connecting the lower end of the plurality of chambers to the housing of the resin container body. In those that communicate, through one vapor hole,
The purpose is to eliminate the rise in the liquid level of the aerosol contents and the excessive outflow of vapor, and to always ensure the reliable spraying of fine particles of the aerosol contents mixed with vapor.

Means for solving the problems In order to solve the problems mentioned above, the present invention
A valve mechanism is connected to the housing of the resin container body, and the interior of the resin container body is divided into multiple chambers by a reinforcing wall, and the lower ends of the multiple chambers are communicated, and the multiple chambers are connected to the housing of the container body. A communication port is opened, and one vapor hole is formed to communicate with the inside of the housing and communicate with the communication port.

Function Since the present invention is constructed as described above, the valve mechanism is connected to the housing of the resin container main body, and the container main body is divided into a plurality of chambers by reinforcing walls, and the lower ends of the plurality of chambers are communicated. Upon opening the valve mechanism, the aerosol contents are introduced into the housing and sprayed from the nozzle.

At the same time, vapor is introduced into the housing from the vapor hole through the communication port that communicates with both of the plurality of chambers. This vapor mixes with the aerosol content within the housing to enable atomization of the finely divided aerosol content.

Further, vapor is simultaneously introduced from a plurality of chambers through communication ports provided in the housing. Therefore, the liquid level does not rise or fall in only one of the multiple chambers, and a uniform liquid level is always formed.
The liquid level of the aerosol contents never comes into contact with the vapor holes.

In addition, although vapor is introduced from all of the multiple chambers, only one vapor hole is formed, so the amount of vapor flowing out of the gas phase does not increase, and the pressure drop inside the resin container body is reduced. It never happens.

Embodiment An embodiment of the present invention will be described below. Reference numeral 11 denotes a resin container body, and a lid 14 is caulked and fixed to the upper end of an integrally molded housing 12 via a gasket 13.

A stem 16 urged outward by a pressing spring 15 is inserted into the housing 12 so as to be movable forward and backward. In addition, a valve mechanism 18 is formed by communicating this stem 16 with the outside and keeping the outlet passage 17 provided in the stem 16 out of communication with the inside of the stem 16 through the gasket 13 at all times. Further, a push button 21 having a nozzle 20 is connected to the upper end of the stem 16.

In addition, a housing 1 is provided inside the resin container body 11.
A dip tube 22 communicating with the inside of the container 2 is formed to protrude close to a lower bottom wall 23. In addition, the outer periphery of this date petite tube 22 and the resin container main body 11
A reinforcing wall 24 is formed between the inner surfaces of the resin container body 1.
1 is divided into a plurality of chambers 26 by reinforcing walls 24. Further, the lower end of this plurality of chambers 26 is connected to the communication interval 2
It communicates via 7.

Moreover, in the housing 12 of the resin container main body 11,
A communication port 28 communicating with the plurality of chambers 26 is opened. A vapor hole 31 is communicated with this communication port 28 via an annular groove 30, and this vapor hole 31 is formed in communication with the inside of the housing 12.

Further, this vapor hole 31 is located in the housing 12.
The insertion piece 32 is formed separately from the housing 12 and is inserted and fixed into the housing 12.

The housing 12 may be formed separately from the resin container body 11 and connected and fixed thereto, or may be integrally molded with the resin container body 11.

In the one formed as described above, push button 21
When the stem 16 is pressed through the valve mechanism 18 to open the valve mechanism 18, the aerosol contents are introduced into the housing 12 by the pressure of the propellant and are passed through the outlet 17 of the stem 16 to the nozzle of the push button 21. It is sprayed from 20.

Further, vapor is introduced into the housing 12 from the vapor hole 31 via the communication port 28 that communicates with both of the plurality of chambers 26 at the same time. Then, this vapor mixes with the aerosol content within the housing 12, making it possible to spray the finely divided aerosol content.

Further, vapor is simultaneously introduced into the housing 12 from the plurality of chambers 26 via a communication port 28 provided in the housing 12. Therefore, the liquid level in only one of the plurality of chambers 26 does not rise or fall, and a uniform liquid level is always formed, so that the liquid level of the aerosol contents does not come into contact with the vapor holes 31.

Further, although vapor is introduced from the plurality of chambers 26, only one vapor hole 31 is formed, so the amount of vapor flowing out of the gas phase section 7 is not large, and the pressure drop inside the resin container body 11 is reduced. There is no possibility that this will occur.

Effects of the invention Since the present invention is constructed as described above, the interior of the resin container body is divided into a plurality of chambers by a reinforcing wall, and the lower ends of the plurality of chambers are communicated with each other through a single vapor hole. Therefore, it is possible to eliminate the rise in the liquid level caused by the spraying of the aerosol contents.

Furthermore, since there is no contact between the liquid surface and the vapor hole, vapor can always be supplied into the housing, and the aerosol contents mixed with vapor can be reliably finely sprayed.

In addition, since only one vapor hole is formed, the amount of vapor flowing out of the gas phase portion will not become undesirably large, and the pressure drop within the resin container body will not occur.

[Brief explanation of the drawing]

Fig. 1 is a sectional view showing one embodiment of the present invention;
The figure is a sectional view taken along the line A-A in FIG. 1, and FIG. 3 is a sectional view showing a conventionally known example. 11...Resin container body, 12...Housing,
18...Valve mechanism, 24...Reinforcement wall, 26...Multiple chambers, 28...Communication port, 31...Vapor hole.

Claims (1)

[Claims for Utility Model Registration] (1) In the case where a valve mechanism is connected to the housing of the resin container body, the container body is divided into a plurality of chambers by a reinforcing wall, and the lower ends of the plurality of chambers are communicated with each other, A resin aerosol container characterized in that a communication port communicating with a plurality of chambers is opened in a housing of a resin container main body, and one vapor hole communicating with the communication port is formed in communication with the inside of the housing. (2) The resin aerosol container according to claim 1, wherein the resin container body and the housing are formed from separate members. (3) The resin aerosol container according to claim 1, wherein the resin container body and the housing are integrally molded.