JPH0128835Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention is such that two different types of contents are filled into two different containers and are mixed and injected at the time of injection.
Conventionally, there have been two types of aerosol devices of this type. One is to connect two aerosol containers filled with propellant, and the other is to use one container as an aerosol container and fill it with propellant, while the other container is used with a propellant. A method is used in which the contents of the aerosol container are sucked and injected by utilizing the ejector action accompanying the ejection of the contents of the aerosol container. However, from a safety standpoint, aerosol containers filled with propellant must have sufficient pressure resistance, making them expensive and relatively large, so both containers were filled with propellant. It was uneconomical to use things. Furthermore, if one of the containers has no jetting force at all, there is a drawback that the jetting condition becomes poor when attempting to jet contents with high viscosity such as paint or adhesive.

The present invention eliminates the above-mentioned drawbacks by combining an aerosol container filled with a propellant and one content, and an airtight container filled with only the other content without propellant. One valve mechanism and the other valve mechanism are connected through which the contents can be separated and distributed, and the contents outlet passage of the one valve mechanism is connected to the mixing part of the one and the other contents, and the one valve The vaporized gas outlet path of the mechanism is connected to the inside of the airtight container via the vaporized gas outlet path of the other valve mechanism, and the inside of the airtight container and the mixing part are connected via the content outlet path of the other valve mechanism, One container is used as an aerosol container and is filled with a propellant, while the other container is not filled with a propellant, making it inexpensive, small and economical, and vaporized gas from the aerosol container is transferred to the other container when the contents are injected. This system has also been introduced to enable the injection of highly viscous contents such as paints and adhesives in good conditions. In this specification, vaporized gas refers to LPG, which has been commonly used in the past,
Refers to vaporized liquefied gas propellants such as DME and fluorocarbons.

An embodiment of the present invention will be described below with reference to the drawings. 1 is an aerosol container constituting one container, filled with a liquefied propellant such as fluorocarbon, LPG, GME, etc.; It is connected to an airtight container 4 filled only with contents 3 without being filled. This connection is made via a valve mechanism 5 on one side and a valve mechanism 6 on the other side which allow the vaporized gas and the contents to flow separately. This one-way valve mechanism 5 can use various conventionally known mechanisms, but in one embodiment, as shown in the drawing, a one-way gasket 8 is attached to the inner surface of a mounting cup 7 fixed to the upper end of the aerosol container 1. An introduction chamber 1 to which the housing 10 is fixed via and the dip tube 11 of this housing 10 is connected.
The insertion part 14 at one end of the stem 13 is inserted into the gasket 2, and the communicating tube 15 protruding toward the other end of the stem 13 is inserted through the center of the gasket 8, and is formed in the axial direction from the outer end surface of the communicating tube 15. An outlet hole 17 communicating with the object outlet path 16 is formed in the side surface of the communication pipe 15. This outlet hole 17 is connected to the stem 13.
In the non-pressed state, the other gasket 18 is used to seal the other gasket 18, and the other gasket 18 is connected to the pressing spring 2 interposed between the insertion portion 14 and the lower bottom 20 of the introduction chamber 12.
By pressing the stem 13 against the restoring force of 1, the outlet hole 17 is opened, and the content outlet path 16 is opened.
and the introduction chamber 12 are communicated with each other. Also housing 10
The introduction chamber 12 has an air guide hole 22 located through the other gasket 18, and this air guide hole 22 is connected to the other gasket 1 when the stem 13 is not pressed.
A closing tube 24 that brings the end surface 23 into close contact with the communicating tube 1
5 is formed protrudingly on the inner surface of the housing 10 at the outer peripheral position,
A vaporized gas section 25 of the aerosol container and a vaporized gas outlet path 27 for discharging vaporized gas 26 are communicated via this closing tube 24 . The closing tube 24 and the air guide hole 22 are formed separately from the introduction chamber 12 and the like for convenience of construction, and are incorporated into the housing 10 to constitute a part of the housing 10.

The content outlet passage 16 of the one-way valve mechanism 5 is
Mixing section 28 for content 2 on one side and content 3 on the other side
The vaporized gas outlet passage 27 of the valve mechanism 5 is connected to the connecting body 30 via the connecting body 30.
The vaporized gas outlet passage 31 of the other valve mechanism 6 via
The vaporized gas 26 is connected to the airtight container 4 through the vaporized gas outlet path 31 . The configuration of the other valve mechanism 6 in which the vaporized gas outlet passage 31 is formed is substantially the same as the configuration of the one valve mechanism 5, and the vaporized gas outlet passage 27 in the one valve mechanism 5 is connected to the other valve mechanism 6. The only difference is that it is used as the vaporized gas outlet path 31, and the content outlet path 3 of the valve mechanism 6 is used as the vaporized gas outlet path 31.
2, the mixing section 28 and the inside of the airtight container 4 are connected. This airtight container 4 has a lid 35 to which a valve mechanism 6 is fixed removably fixed to a container body 33 via a gasket 34, so that the container body 33 maintains airtightness and vaporized gas introduced from the aerosol container 1 is secured. The structure is strong enough to withstand pressure. Also, the lid 3 of the airtight container 4
5 is a fixing device in which the other valve mechanism 6 is housed inside a cylindrical portion 36 that protrudes outward, a sliding collar 37 is fixedly protruded from the outer periphery of the cylindrical portion 36, and this sliding collar 37 is fixed to the upper end of the aerosol container 1. By slidingly inserting it into the cylinder 38 and pressing one or both of the aerosol container 1 and the airtight container 4 in a direction in which they approach each other, the sliding collar 37 slides inside the fixed cylinder 38,
The one valve mechanism 5 and the other valve mechanism 6 are configured to be able to open the valves. Further, this valve opening may be performed by manually pressing one or both of the aerosol container 1 and the airtight container 4.
In one embodiment, an L-shaped handle 40 with one end fixed to the outer periphery of the fixed cylinder 38 is engaged with the cylinder part 36, and by pressing the handle 40, the other valve mechanism 6 can be connected to one valve mechanism. 5 may be pressed.

In the configuration as described above, when the handle 40 is operated and one valve mechanism 5 is pressed by the other valve mechanism 6, the stems 13 of the one valve mechanism 5 and the other valve mechanism 6 are simultaneously pressed, and the one valve mechanism 5 is pressed. Then, the close relationship between the other gasket 18 of the other valve mechanism 6 and the closing tube 24 is released, and the vaporized gas is introduced into the airtight container 4 from the vaporized gas outlet path 27 via the vaporized gas outlet path 31. The other contents 3 are pressurized. At the same time, the other gasket 18 of one and the other valve mechanism 5,6
Since the close contact between the and the outlet hole 17 is released, the contents 2 of one side and the other side are released through the contents outlet path 16.
3 is introduced into the mixing section 28, mixed, and then ejected from the nozzle 41.

Since the present invention is constructed as described above,
Only one container, the aerosol container, is filled with propellant, the other container, which is an airtight container, is not filled with propellant, and the necessary vaporized gas is introduced from the aerosol container only at the time of injection. Since the gas is only introduced into the airtight container, the pressure resistance of the airtight container can be made low, and the airtight container can be made inexpensive, compact, and economical. In addition, the jetting force of the aerosol container can be introduced into the airtight container filled with the other contents when the contents are jetted, and the other contents with high viscosity such as paints and propellants can be jetted in good conditions. It is.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention, and FIG. 1 is a sectional view, and FIG. 2 is a partially enlarged sectional view showing one valve mechanism and the other valve mechanism in a pressed open state. 1...Aerosol container, 2...Contents on the other hand, 3
. . . Contents on the other side, 4 . . . Airtight container, 5 . ...Vaporized gas introduction path, 32...Contents introduction path.

Claims (1)

[Scope of utility model registration request] A one-way valve mechanism that allows vaporized gas and one content to separate and flow between an aerosol container filled with a propellant and one content, and an airtight container filled with only the other content without propellant. and the other valve mechanism, and the content outlet passage of one valve mechanism is connected to the mixing part of the contents on one side and the other, and the vaporized gas outlet passage of one valve mechanism is connected to the vaporized gas introduction passage of the other valve mechanism. 1. An aerosol device, characterized in that the aerosol device is connected to the inside of the airtight container via a channel, and the inside of the airtight container and the mixing section are connected to each other via a content outlet channel of a valve mechanism.