KR102349795B1 - Pressure package system with duel valve - Google Patents

Abstract

A pressure package system having a dual valve according to an embodiment of the present invention includes: a dual valve provided inside the aerosol container to mix and discharge the contents and the compressed gas to the outside of the aerosol container; includes

Description

PRESSURE PACKAGE SYSTEM WITH DUEL VALVE

The present invention relates to a pressure package system having a dual valve that allows mixing and spraying of contents and compressed gas.

Aerosol sprays generally add a pressurizing agent that vaporizes readily at room temperature with the liquid content. In the aerosol container, the pressurizing agent vaporizes easily, creating a high-pressure state inside the aerosol container. When the spray button with built-in nozzle is pressed, the nozzle mouth is opened and the contents are sprayed. As a pressurizing agent, materials such as Freon and nitrogen dioxide are used as compressed gas. In particular, Freon gas has a problem of environmental pollution, so research is being conducted on a method of using an alternative material or ordinary air. However, since the conventional aerosol spray sprays only the contents, there is a disadvantage in that the spraying form is simple compared to the aerosol spray using liquefied gas.

As an example, Korean Patent Registration No. 10-1107402 discloses a "pressure package system".

In order to solve the above-mentioned problem, an embodiment of the present invention is to provide a pressure package system equipped with a dual valve so that the contents and the compressed gas can be mixed and sprayed.

In order to achieve the above object, a pressure package system having a dual valve according to an embodiment of the present invention includes a dual valve provided inside the aerosol container to mix and discharge the contents and the compressed gas to the outside of the aerosol container; may include

In addition, the dual valve includes a valve body having a first support groove and a second support groove below and above the inner periphery, and an inlet hole through which the compressed gas is introduced is drilled between the first support groove and the second support groove; A first concave groove and a second concave groove are provided in a portion corresponding to the first support groove and the second support groove among the portions coupled to the inside of the valve body, and the first concave groove and the second concave groove are provided with an internal outflow. a valve stem having an orifice communicating with the furnace; an upper gasket having an outer periphery corresponding to the first support groove and an inner periphery correspondingly coupled to the first concave groove; a lower gasket having an outer periphery corresponding to the second support groove and a corresponding inner periphery being coupled to the second concave groove; and a spring positioned at the bottom inside the valve body to support a lower end of the valve stem. may include

In addition, the inside of the aerosol container may be divided into a second pressure chamber and a pressure control chamber up and down.

In addition, a content filling chamber may be provided between the second pressure chamber and the pressure adjustment chamber.

In addition, a partition wall dividing the second pressure chamber may be provided between the second pressure chamber and the content filling chamber.

In addition, a piston may be provided between the content filling chamber and the pressure adjustment chamber.

In addition, a first pressure chamber may be provided inside the pressure adjustment chamber.

In addition, the first pressure chamber may be convex upward.

In addition, the first pressure chamber may be spaced apart from the piston.

In addition, a pressure control device may be provided in the first pressure chamber.

In addition, compressed gas may be filled in the first pressure chamber and the second pressure chamber, and the content may be filled in the content filling chamber.

In addition, the dual valve may be located in the second pressure chamber which is filled with compressed gas while being provided on the upper part of the aerosol container.

In addition, the lower end of the dual valve may pass through a partition wall partitioning the second pressure chamber inside the aerosol container to communicate with the content filling chamber in which the contents under the second pressure chamber are filled.

According to the pressure package system having a dual valve according to an embodiment of the present invention, the contents and the compressed gas can be mixed and sprayed.

In addition, by adjusting the orifice diameter of the dual valve, the mixing ratio of the contents and compressed gas can be adjusted as desired.

In addition, since compressed gas is sprayed at the same time, it is possible to spray more finely than conventional aerosol sprays and foaming types.

1 is an installation state diagram according to a preferred embodiment of the present invention.
2 is an enlarged view of a dual valve according to a preferred embodiment of the present invention.
3 is an enlarged view of an operating state of a dual valve according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, preferred embodiments of the present invention will be described below, but the technical spirit of the present invention is not limited thereto and may be variously implemented by those skilled in the art without being limited thereto.

First, a configuration of a pressure package system having a dual valve according to an embodiment of the present invention will be described.

As shown in FIG. 1 , the pressure package system provided with a dual valve according to an embodiment of the present invention includes an aerosol container 10 and a dual valve 20 provided inside the aerosol container 10 .

Specifically, the inside of the aerosol container 10 is divided in the order of the second pressure chamber 12, the contents filling chamber 14, and the pressure adjustment chamber 13 from the top to the bottom. A second pressure chamber 12 is partitioned in the upper part of the aerosol container 10 . The second pressure chamber 12 is filled with compressed gas. The compressed gas may be Freon, nitrogen dioxide, or the like. A partition wall 15 is provided between the second pressure chamber 12 and the content filling chamber 14 for partitioning the second pressure chamber 12 . The contents are filled in the contents filling chamber 14 .

A piston 16 is provided between the content filling chamber 14 and the pressure adjustment chamber 13 . The piston 16 presses the contents while rising inside the aerosol container 10 so that the contents can be smoothly injected. A first pressure chamber 11 is provided inside the pressure adjustment chamber 13 . The first pressure chamber 11 is installed to be spaced apart from the piston 16 . The first pressure chamber 11 is formed in an upwardly convex shape.

The first pressure chamber 11 is provided with a pressure control device 17 for controlling the pressure inside the first pressure chamber 11 . The pressure control device uses a pressure control device (PCD: Pressure Control Device) developed by AiroPack (http://www.airopack.com/en/home). Such a pressure control device is known to operate by a pressure difference when the injection button 30 is pressed. The pressure control device is a well-known technology, and a detailed description of the structure of the pressure control device is omitted. Any other device capable of controlling the pressure may be used as the pressure control device according to the embodiment of the present invention. A compressed gas is filled in the first pressure chamber 11 . The compressed gas may be Freon, nitrogen dioxide, or the like.

As shown in Figure 2, the dual valve 20 is a valve body 21, the valve stem 22 coupled to the inside of the valve body 21, the valve body 21 by the operation of the valve stem 22 inside Including upper and lower gaskets 23 and 24 and a spring 25 supporting the lower end of the valve stem 22 for opening/closing operation.

Specifically, the valve body 21 is located inside the second pressure chamber 12 so that the compressed gas can be introduced therein. The lower end of the valve body 21 communicates with the content filling chamber 14 through the partition wall 15 so that the content can be introduced into the inside. The valve body 21 is provided with a first support groove 211 and a second support groove 212 on and below the inner periphery. Between the first support groove 211 and the second support groove 212 of the valve body 21, an inlet hole 213 through which the inside and the outside communicate is perforated. The compressed gas inside the second pressure chamber 12 may be introduced into the valve body 21 through the inlet hole 213 .

An outlet path 224 through which a mixture of the contents and compressed gas is discharged is provided inside the valve stem 22 . The valve stem 22 is coupled to the inside of the valve body 21 through the upper portion of the valve body 21 . The upper end of the valve stem 22 is connected to the nozzle inside the injection button 30 so that the mixture of the contents and the compressed gas can be injected. The lower end of the valve stem 22 is supported by a spring 25 provided at the lower end inside the valve body 21 .

A first concave groove 221 and a second concave groove 222 in a portion corresponding to the first support groove 211 and the second support groove 212 among the portion of the valve stem 22 coupled to the valve body 21 . this is provided The first concave groove 221 and the second concave groove 222 are provided with an orifice 223 communicating with the outlet passage 224 . The outer periphery of the upper gasket 23 is coupled to the first support groove 211 , and the inner periphery of the upper gasket 23 is coupled to the first concave groove 221 . The outer periphery of the lower gasket 24 is coupled to the second support groove 212 , and the inner periphery of the lower gasket 24 is coupled to the second concave groove 222 .

The lower end of the spring 25 is in close contact with the inner bottom of the valve body 21 , and the upper end of the spring 25 supports the lower end of the valve stem 22 . The spring 25 contracts when the valve stem 22 is lowered. Conversely, when the force pressing the valve stem 22 disappears, the spring 25 is restored to its original state and pushes the valve stem 22 upward.

The following describes the operation of the dual valve according to an embodiment of the present invention with reference to the accompanying drawings.

As shown in FIG. 3, when the injection button 30 is pressed, the nozzle is opened. At the same time, the valve stem 22 is lowered. As the valve stem 22 descends, the inner periphery of the upper gasket 23 and the inner periphery of the lower gasket 24 that are coupled to the first concave groove 221 and the second concave groove 222 are bent downward, and the first yaw It is out of the ip groove 221 and the second concave groove 222 .

At this time, the orifices 223 provided in the first concave groove 221 and the second concave groove 222 that were blocked by the upper gasket 23 and the lower gasket 24 are opened. As the orifice 223 is opened, the compressed gas inside the second pressure chamber 12 passes through the inlet hole 213 as shown by the arrow in FIG. 3 to the inside of the valve body 21 and the orifice ( 223 is introduced into the outlet passage 224 inside the valve stem 22 . At the same time, the contents inside the filling chamber 14 pass through the orifice 223 of the lower end of the valve body 21 and the second concave groove 222 as shown by the arrow in FIG. 224) is introduced. The compressed gas and the contents introduced into the outlet passage 224 move along the outlet passage 224 while being mixed and are sprayed through the final nozzle. On the other hand, by adjusting the diameter of the orifice 223 it is possible to adjust the mixing ratio of the compressed gas and the contents.

As such, by adjusting the diameter of the orifice 223 provided in the dual valve 20, the mixing ratio of the liquid content and the compressed gas can be adjusted as desired. If the contents and compressed gas are sprayed at the same time, a finer spray and foaming type of spray than the existing aerosol spray is possible.

On the other hand, the first pressure chamber 11 provides a constant injection pressure. When the pressure in the pressure control chamber 13 drops below the set pressure, the closed pressure control device 17 opens and the compressed gas in the first pressure chamber 11 flows into the pressure control chamber 13 . The compressed gas introduced into the pressure adjustment chamber 13 pushes the piston 16 upward to pressurize the contents inside the contents filling chamber 14 . By the rise of the piston 16, the contents in the contents filling chamber 14 may be introduced into the dual valve.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains may make various modifications, changes and substitutions within the scope without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are for explaining, not limiting, the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments and the accompanying drawings . The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: aerosol container 11: 1st pressure chamber
12: 2nd pressure chamber 13: pressure adjustment chamber
14: content filling room 15: bulkhead
16: piston 17: pressure control device
20: dual valve 21: valve body
22: valve stem 23: upper gasket
24: lower gasket 25: spring
30: injection button 211: first support groove
212: second support groove 213: inlet hole
221: first concave groove 222: second concave groove
223: Orifice 224: Outflow

Claims (13)

a dual valve provided inside the aerosol container to mix and discharge the contents and the compressed gas to the outside of the aerosol container;
including,
The inside of the aerosol container is divided into a second pressure chamber and a pressure control chamber up and down,
A content filling chamber is provided between the second pressure chamber and the pressure adjustment chamber,
A first pressure chamber is provided inside the pressure control chamber, and a pressure control device is provided in the first pressure chamber,
A pressure package system with a dual valve, characterized in that a piston is provided between the content filling chamber and the pressure adjustment chamber.
The method according to claim 1,
The dual valve,
a valve body having a first support groove and a second support groove above and below the inner periphery, and an inlet hole through which the compressed gas is introduced is drilled between the first support groove and the second support groove;
A first concave groove and a second concave groove are provided in a portion corresponding to the first support groove and the second support groove among the portions coupled to the inside of the valve body, and the first concave groove and the second concave groove are provided with an internal outflow. a valve stem having an orifice communicating with the furnace;
an upper gasket having an outer periphery corresponding to the first support groove and an inner periphery correspondingly coupled to the first concave groove;
a lower gasket having an outer periphery corresponding to the second support groove and a corresponding inner periphery being coupled to the second concave groove; and
a spring positioned on the inner bottom of the valve body to support a lower end of the valve stem;
A pressure package system equipped with a dual valve comprising a. delete delete The method according to claim 1,
Between the second pressure chamber and the content filling chamber,
A pressure package system having a dual valve, characterized in that a partition wall dividing the second pressure chamber is provided.
delete delete The method according to claim 1,
The first pressure chamber,
A pressure package system with a dual valve, characterized in that it is convex upwards.
The method according to claim 1,
The first pressure chamber,
A pressure package system with a dual valve, characterized in that it is spaced apart from the piston.
delete The method according to claim 1,
A pressure package system with a dual valve, characterized in that the first pressure chamber and the second pressure chamber are filled with compressed gas, and the content filling chamber is filled with the contents.
The method according to claim 1,
The dual valve,
A pressure package system with a dual valve, characterized in that it is located in the second pressure chamber filled with compressed gas while being provided on the upper part of the aerosol container.
13. The method of claim 12,
The lower end of the dual valve,
A pressure package system with a dual valve, characterized in that it communicates with the content filling chamber in which the content under the second pressure chamber is filled through the partition wall dividing the second pressure chamber inside the aerosol container.

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