JPH0735178B2 - Content mixing device and content mixing method using the same - Google Patents

Description

TECHNICAL FIELD The present invention relates to a content mixing device and a content mixing method using the same. More specifically, the present invention is capable of foaming or atomizing the reaction product of the first and second contents by the pressure generated by mixing the first and second contents during use. TECHNICAL FIELD The present invention relates to a content mixing device and a content mixing method using the same.

[Prior Art] Conventional products that use reaction products formed by mixing two liquids include polyurethane foam, epoxy resin adhesives, cosmetics such as paint hot shaving foam, hair dies, and permanent agents. There are quasi drugs such as.

These products store two liquids separately and mix them at a predetermined ratio before use. Normal,
There is no special method for mixing these two liquids. For example, the first content is put in a container such as a beaker, the second content is added to the container, and the mixture is mixed with a glass rod or the like. ing.

[Problems to be Solved by the Invention] However, when mixing the first content and the second content, it is necessary to measure each content in advance, and each content should be uniform. Operation such as stirring is necessary to obtain a reaction product having a different composition.

Furthermore, if a solvent harmful to the human body is contained in the above-mentioned contents, it may be inhaled when mixing the contents, and it is highly viscous like polyurethane foam and adheres to fingers. It is extremely difficult to handle easy things and things that must be poured into molds.

Therefore, the present inventors have paid attention to the problems of the conventional techniques as described above, and have conducted diligent research on a mixing method of two or more kinds of contents capable of solving such problems, and as a result, the first contents are Finding a content mixing device that connects a filled pressure-resistant container and a pressure-resistant container filled with the second content, and press-fits the second content into the pressure-resistant container filled with the first content. The invention was completed.

[Means for Solving Problems] That is, the present invention provides a pressure-resistant first container filled with a first content and a pressure-resistant container filled with a second content to be connected to the first container. A content mixing device comprising a second container, wherein the pressure in the second container is such that the second content is pressed into the first container when connecting the first container and the second container. A content mixing device characterized in that the pressure is higher than the pressure in the first container, and the first content and the second content react with each other to generate a pressure, and the first content is filled. The pressure-resistant first container and the second content that generates pressure by reacting with the first content are less than the pressure in the first container so that the second content is pressed into the first container. Consists of a pressure-resistant second container that should be filled to a high pressure and connected to the first container Using a contents mixing device, connecting the first container and the second container, press fit the second contents filled in the second container into the first container,
The present invention relates to a content mixing method using a content mixing device, characterized in that a pressure in a first container is increased by reacting a first content and a second content.

[Example] The content mixing apparatus of the present invention comprises a pressure-resistant first container filled with a first content and a pressure-resistant first container filled with a second content to be connected to the first container. A content mixing device comprising two containers, wherein when the first container and the second container are connected, the pressure in the second container is first so that the second content is pressed into the first container. The pressure is higher than the pressure in the container, and the first content and the second content react with each other to generate pressure.

Using the content mixing device, by connecting the first container and the second container, the second content filled in the second container is pressed into the first container, the first content And the second contents are reacted to increase the pressure in the first container.

As the first container, a conventionally used pressure resistant container, for example, an aerosol can is used. A connection port that can be connected to the second container and an injection port of the reaction product generated in the first container are provided on the upper surface portion, the side surface portion, or the bottom surface portion of the first container. As will be described later, one mouth portion that serves as both the connection port and the injection port may be provided.

Since the pressure in the first container becomes higher than the external pressure when the second content in the second container is injected into the connection port, the reaction product in the first container may leak out, It is preferable to provide a check valve such as a check valve. For this check valve, the one conventionally used can be used as it is, but a material that is not deformed or deteriorated by the solvent contained in the first content or the reaction product in the first container. It is preferable to use those consisting of

As the injection port for ejecting the reaction product generated in the first container, any injection port having the same configuration as the injection port used in the conventionally used aerosol product can be used.

As an example of the aerosol can having the above-mentioned connection port for the second container and the injection port separately, for example, one having the configuration shown in FIG. 1 can be cited.

That is, the button (1) having the injection port (2) is fitted on the upper end of the stem (3), and the stem (3) is fitted on the valve (4). The valve (4) is crimped to the upper end of the first container body (6) by the mounting cap (5). In addition, a check valve (8) is provided on the bottom surface of the first container body (6) to prevent the contents in the first container body (6) from leaking to the outside when connecting to the second container. A connection port (9) having is provided.

In the aerosol can shown in FIG. 1, the connection port (9) is provided on the lower surface of the first container body (6), but as shown in FIG. It may also be used as the injection port (2) provided. In addition, the apparatus of the present invention, including the apparatus shown in FIGS. 1 and 2, is usually used for the one whose contents are used up by one use.

In FIG. 2, the stem (3) having the opening (12) at the lower end is fitted into the mounting cap (5), the lower surface of the stem (3) is pressed by the spring (10), and the spring (10) is It is fixed by a fixed base (11). The content in the second container is usually connected to the stem of the second container and the stem of the first container via a means such as a joint, utilizing the internal pressure of the second container higher than the internal pressure of the first container. In FIG. 2, it is inserted in the direction of arrow (A).

As the second container, a container that has been conventionally used,
For example, an aerosol can or the like is used, and a connection port that can be connected to the first container is provided on the upper surface portion, side surface portion, or bottom surface portion of this container.

When connecting the connection port to the connection port of the first container with a joint or the like and inserting the second content in the second container into the first container, the first content in the first container in the first container The substance reacts with the second content in the second container, the volume under a constant pressure increases, the internal pressure in the first container increases, and the second content in the second container is completely It may not fit into the container. In that case, it is preferable to use a second container having a structure as shown in FIG. 3, for example.

The second container shown in FIG. 3 has almost the same structure as the conventional double aerosol product except for the contents and a part of the structure.

That is, (1) is a button, the button (1) is provided with a relatively long nozzle (1a), and the nozzle (1a) is provided with an injection hole (2). Is opened as an injection port (2a) at the tip of the nozzle (1a). The button (1) is fitted on the upper end of the stem (3), and the stem (3) is fitted on the valve (4). The valve (4) is attached to the upper end opening of the second container body (7) by the mounting cap (5). Inside the second container body (7), a flexible inner bag (16) forming a partition wall is housed, and the upper end of the inner bag (16) together with the mounting cap (5) is contained in the second container body (7). ) Is crimped to the upper end. As a result, the second container body (7) is divided by the inner bag (16) into a chamber (17) for contents and a chamber (18) for propellant.

The chamber (17) for the contents is filled with the second contents described later, and the chamber (18) for the propellant is filled with the propellant. A filling port having a check valve (8) for filling the propellant is provided at the bottom of the second container body (7). In the second container shown in FIG. 3, since the propellant does not flow out, the internal pressure in the second container does not drop. Therefore, even if the pressure in the first container rises, it can be maintained at a pressure sufficiently higher than that.

Further, even when the contents of the first container and the second container cause a problem by reacting with the propellant or the like, there is an advantage that the propellant can be separated from those contents. If further isolation of the propellant is required, for example,
As shown in FIG. 4, the chamber (P) of the contents is filled with the second contents, and the chamber (Q) of the propellant is filled with the propellant, and the propellant is formed by the piston-shaped partition wall (13). It is preferable to employ a structure that does not mix with the second content.

As a method of connecting the first container and the second container, for example, when the first container and the second container each having a connection port on the upper surface of the container body are connected to each other, as shown in FIG. It is preferred to use a joint (15). Also, when the first container having a connection port on the bottom surface of the container body and the second container having a connection port on the top surface of the container body are connected to each other, a joint (15) as shown in FIG. 6 is used. It is preferable to connect via.

When the stem on the upper surface of the first container body and the stem on the upper surface of the second container body are connected to each other to send the second contents in the second container into the first container, they are separated from each other. After that, it is preferable to attach a button (1) having an injection port (2) as shown in FIG. 1 to the stem on the upper surface of the first container body to inject the reaction product.

The combination of the first contents and the second contents must be such that they react when the first contents and the second contents are mixed.

Furthermore, the first content and the second content must be a combination that reacts with each other to generate new pressure, thereby strongly injecting the reaction product.

Mechanisms for generating pressure include those that generate gas by the reaction and thereby increase the internal pressure, and those that generate heat by the reaction and vaporize the low boiling point compound to obtain pressure.

Examples of the former include a combination of a bicarbonate and an acid, which produces carbon dioxide gas by a reaction.

Further, as an example of the latter, there is a combination of reacting a hydrogen peroxide solution with a thiosulfate to generate heat of reaction and vaporizing a low boiling point compound as described later.

In addition to the above, hydrogen peroxide water and thioglycols, water and fine powder metal such as active iron oxide, water and acid or base, isocyanate and polyol, epoxy compound and acid anhydride, etc. However, in the present invention, the present invention is not limited to these, and other ones can be preferably used. Note that, of the above combinations, which is the first content and which is the second content is arbitrary, but the one having the lower viscosity and the one having the smaller amount are set as the second content. It is preferable because the contents can be easily moved.

The low boiling point compound to be vaporized by the exothermic reaction varies depending on the kind of the content, but is a compound that is usually used as a solvent, that is, dichlorotetrafluoroethane, trichloromonofluoromethane, methylene chloride, butane, pentane. A low boiling point solvent such as hexane, heptane, methanol or ethanol can be used. Further, it may be produced by the reaction between the first content and the second content.

Examples of propellants that can be used in the second container and the like in the present invention include CFC gas, LPG, dimethyl ether, carbon dioxide gas, and nitrogen gas.

The first content and the second content containing the components and the propellant, etc. of the above combination are respectively filled in the first container and the second container by a usual method, and the second content is secondly placed in the first container. The internal pressure in the container is used for press-fitting, but it is preferable to shake sufficiently for more uniform mixing and reaction.

As a result of the reaction between the first content and the second content in the first container, the reaction product tries to be ejected toward the outside of the first container when the internal pressure in the first container becomes high. An opening (12) is provided at the base, that is, the base of the stem as shown in FIG. 2, and the reaction product is injected through the opening (12) and the stem (3) by pushing down the stem (3) during use. With a configuration that
It is preferable to adopt a valve or the like used in a usual aerosol.

Next, the content mixing apparatus of the present invention will be described in more detail based on examples, but the present invention is not limited to these examples.

Example 1 200 g of the first contents shown below was placed in a steel first container having an inner volume of 300 ml as shown in FIG. 1 (meaning the so-called inner volume in a normal aerosol can. The full volume is 420 ml). Filled. Also, the chamber (P) of the contents of the second steel container as shown in FIG. 4 having two divided chambers (internal volume: 60 ml,
A double aerosol can was filled with 50 g of the second content shown below in a so-called inner volume). The propellant chamber (Q) of the second container was filled with a mixture of 5 g of dichlorodifluoromethane and 5 g of dichlorotetrafluoroethane.

Next, the stem of the second container was connected to the connection port of the first container via a joint, and the second content was fed into the first container.

Sodium bicarbonate and citric acid reacted in the first container to generate carbon dioxide gas.

Next, the reaction product in the first container was jetted toward the glass plate, and the performance (adhesiveness, detergency) of the obtained glass cleaner was examined.

First content (% by weight) Isopropyl alcohol 35.0 Sodium bicarbonate 2.0 Water 63.0 (total) 100.0 Second content (% by weight) Citric acid 10.0 Polyoxyethylene nonyl phenyl ether (50 EO) 5.0 Water 85.0 (total) 100.0 Implementation Example 2 150 g of the first content shown below was filled in a first steel container having an inner volume of 300 ml (full-filled amount of 420 ml) as shown in FIG. Also shown below is the chamber (P) of the contents of the second steel container as shown in FIG. 4 which has two divided chambers (internal volume 150 ml: double aerosol can means so-called internal volume). The second content, 150 g, was filled. Further, carbon dioxide gas was filled in the filler chamber (Q) of the second container so that the internal pressure was 7.0 kg / cm ² G.

Next, the stem of the second container was connected to the connection port of the first container via a joint, and the second content was fed into the first container.

In the first container, the polyol and isocyanate reacted to generate heat. In addition, this heat vaporized trichloromonofluoromethane, increasing the pressure in the first container.

Next, inject the reaction generation part in the first container toward the pipe,
When the performance (foamability, elasticity) of the obtained urethane foam was examined, it was good.

First content (% by weight) Trimethylolpropane 70.0 Trichloromonofluoro methane 29.7 Tetramethyl 1,3-butane diamine 0.3 (total) 100.0 Second content (% by weight) 4,4-diphenylmethane isocyanate 80.0 Trichloromonofluoro methane 20.0 (Total) 100.0 [Effect of the invention] Since the content mixing device of the present invention is composed of the first container filled with the first content and the second container filled with the second content, The contents and the second contents are pre-weighed. Therefore, at the time of use, it is sufficient to simply connect and mix. In addition, since it is contained in a pressure resistant container, liquid does not spill.

Since the content mixing method of the present invention uses the content mixing device, the time required for mixing is short, and the user does not inhale the solvent vapor or the like during mixing. Further, since the pressure is generated in the first container, the reaction product can be easily sprayed, and no special container or equipment for holding it on the hand or pouring it into the mold is required.

Furthermore, when the viscosity of the obtained reaction product is low, by using an injection port having an appropriate structure,
It can also be sprayed in a mist.

[Brief description of drawings]

1 and 2 are schematic cross-sectional views showing examples of the first container used in the content mixing apparatus of the present invention, and FIGS. 3 to 4 are of the second container used in the content mixing apparatus of the present invention. FIG. 5 is a schematic sectional view showing an embodiment of the present invention, in which the first container filled with the first contents and the second container filled with the second contents are combined with each other. It is a schematic sectional drawing which shows the Example of. (Main symbols in the drawings) (1): Button (2): Injection port (6): First container body (7): Second container body (8): Check valve

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Claims (4)

[Claims] 1. A content mixture comprising a pressure-resistant first container filled with a first content and a pressure-resistant second container filled with a second content to be connected to the first container. In the device, the pressure in the second container is higher than the pressure in the first container so that the second content is pressed into the first container when connecting the first container and the second container, A content mixing device, wherein the first content and the second content generate pressure by reacting with each other. 2. The first container filled with the first content, the pressure generated by the reaction between the first content and the second content,
The content mixing apparatus according to claim 1, which has a valve structure capable of ejecting a reaction product of the first content and the second content. 3. A second container filled with the second contents is divided into a contents chamber and a propellant chamber by a partition wall which is movable inside the second container, and the second chamber is filled with the second contents. The contents mixing apparatus according to claim 1, wherein the propellant is filled with the substance and the propellant chamber is filled with the propellant. 4. A pressure-resistant first container filled with the first content, a second content that generates pressure by reacting with the first content, and a second content in the first container. The first container is filled with a pressure-resistant second container that is filled so that the pressure is higher than the pressure in the first container so that the first container can be press-fitted. And a second container are connected, the second content filled in the second container is press-fitted into the first container, and the first content and the second content are reacted to cause the pressure in the first container. A method for mixing contents using a contents mixing device, characterized in that