JP2010090395A - Scrub soap - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for producing a solid or semi-solid scrub soap which has good foam durability and hardly irritates the skin while having high cleaning effect, and a scrub soap. <P>SOLUTION: Hollow shirasu balloons obtained by subjecting particulate volcanic ash to an expanding treatment are dipped in an alkali solution to permeate the alkali solution into the interior of hollows. A fatty acid is then added to the alkali solution to thereby form soap on the outside of the shirasu balloons, and at the same time, to form soap even in the inside of the hollows. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

The present invention relates to a method for producing a solid or semi-solid scrub soap and a scrub soap, and more specifically, production of a solid or semi-solid scrub soap containing expanded fine volcanic ash subjected to expansion treatment. Method and scrub soap.

Conventionally, solid or semi-solid (paste-like) soap is known as a cleaning agent used for cleaning the skin such as the face.

Solid and semi-solid soaps are highly retained and do not precipitate the contents of liquid soaps, so they are often used as so-called scrub soaps because they contain water-insoluble particles. .

Scrub soap has a higher cleaning effect because the mixed particles scrape off sebum and pores on the skin surface.

Particles mixed in such scrub soap are, for example, rice bran and red bean paste, kinako, konjac, seaweed, corn flour, oatmeal, apricot seeds,
Examples include walnut grains and volcanic ash, and examples of synthetic-derived particles include nylon powder.

Among them, scrub soap using volcanic ash is attracting attention as a local special product where volcanic ash falls, and its usefulness is being recognized because of its high cleaning effect (for example, see Patent Document 1). .

JP-A-01-215892

However, in the scrub soap mixed with the above conventional volcanic ash, because of its high detergency, sebum and dirt are quickly scraped from the skin and dissolved in the foam, so the foaming properties are easily attenuated, There was a problem of poor foam retention during cleaning.

Further, when the volcanic ash is observed with a microscope or the like, it has a relatively sharp shape, and therefore, there is a possibility that the skin surface may be finely damaged if foaming during washing is poor.

The present invention has been made in view of such circumstances, while having a high cleaning effect,
Provided are a method for producing a solid or semi-solid scrub soap having good foaming and less irritation to the skin, and a scrub soap.

In order to solve the above problems, in the method for producing scrub soap according to the present invention, a hollow shirasu balloon that has been subjected to expansion treatment on fine volcanic ash is immersed in an alkaline solution, and then the alkaline solution is infiltrated into the hollow interior. By adding a fatty acid to the alkaline solution, soap was formed outside the shirasu balloon, and soap was also formed inside the hollow.

In addition, 1/9 to 1/11 part by weight of glycerin was added to the alkaline solution with respect to the weight of the shirasu balloon.

The scrub soap according to the present invention is a solid or semi-solid scrub soap containing hollow fine volcanic ash subjected to expansion treatment, and the solid or semi-solid state inside the hollow of the fine volcanic ash Of soap.

Further, in the method for producing scrub soap according to claim 1, a hollow shirasu balloon obtained by performing expansion treatment on fine volcanic ash is immersed in an alkali solution, and the alkali solution is infiltrated into the hollow interior. By adding a fatty acid, soap is formed outside the Shirasu balloon, and soap is also formed inside the hollow, so that the soap enclosed in the hollow interior of the fine volcanic ash can be formed, and the volcanic ash can be formed. While containing
It is possible to produce a scrub soap having a good lather while having little irritation to the skin and having a sustained release property and a high cleaning effect.

In the method for producing scrub soap according to claim 2, since 1/9 to 1/11 part by weight of glycerin is added to the alkaline solution relative to the weight of the shirasu balloon, shirasu in the alkaline solution is added. The dispersibility of the balloon can be improved, and soap can be efficiently formed in the hollow interior of the shirasu balloon.

The scrub soap according to claim 3 is a solid or semi-solid scrub soap containing hollow fine volcanic ash that has been subjected to expansion treatment, wherein the solid or semi-solid is contained inside the hollow of the fine volcanic ash. Because it contains volcanic ash, it can be made into a scrub soap that contains less volcanic ash and is less irritating to the skin. Scrub soap with a good lather.

It is explanatory drawing which shows prescription of a scrub soap. It is a flow which shows the manufacturing method of a scrub soap.

The present invention provides a solid or semi-solid (paste-like) scrub soap that has been subjected to expansion treatment and contains hollow fine glass-spherical fine volcanic ash (hereinafter also referred to as “shirasu balloon”). The present invention provides a scrub soap characterized by comprising a solid or semi-solid soap contained inside.

In this specification, the semi-solid form (paste form) means a state where the fluidity is lower than the liquid state and the fluidity is higher than the solid form, and the viscosity is 10,000 cp or more (for example, 100,000 cp). .

Here, the volcanic ash (shirasu) used for the scrub soap is not particularly limited as long as it can be formed into a hollow fine glass sphere by heating and expanding into a hollow fine glass sphere.

The expansion treatment is performed by appropriately heating and cooling the volcanic ash, pressurizing and depressurizing, and adjusting the average particle size to 5-20 μm
It refers to a process for forming a hollow fine glass sphere of about m, and a known method can be used.

Here, as an example of the expansion treatment, as the raw material volcanic ash, for example, a volcanic glassy deposit (secondary sedimentary shirasu) produced in Yoshida-cho, Kagoshima Prefecture and having a relatively small particle size is used. be able to.

Then, 0.2% to 0.5% hydrophilicity reducing agent is added to the volcanic ash by weight. Examples of the hydrophilicity reducing agent include a silane coupling agent mainly composed of methyltrimethoxysilane, a silicone oil having a viscosity of 100 cp (centipoise) mainly composed of dimethylpolysiloxane, and a silicone mainly composed of silicone resin. A coating agent can be used.

Then, the volcanic ash to which the hydrophilic reducing agent is added is finely pulverized with a vibration mill or the like to prepare powder of volcanic ash fine particles having an average particle diameter of 3 to 5 μm.

After drying these volcanic ash fine particles at 200 ° C. for 3 hours, in a fluidized bed heating furnace, 900 ° C. to 1200 ° C.
By performing heat treatment at a temperature of 950 ° C., more preferably 950 to 1050 ° C., the volcanic ash fine particles can be made into a shirasu balloon (fine hollow glass sphere).

The shirasu balloon obtained in this way has an average particle size of 10 to 15 μm, a solid apparent density of about 0.25 to 0.30 g / cm ³ , and a fine hollow glass sphere with very little generation of fused or unfoamed material. It has become.

The hollow interior of the shirasu balloon included in the scrub soap according to the present invention is filled with soap.

The soap inside the shirasu balloon (hereinafter referred to as “inner soap”) may be the same component as the soap used as the base material for the scrub soap (hereinafter referred to as “base soap”), or the components may be different. Although it is good, it is preferably solid or semi-solid. If the inner soap is liquid, it will be easily eluted from the inside of the shirasu balloon, resulting in poor foam retention.

That is, by making the internal soap into a solid or semi-solid state, the internal soap can be gradually eluted from the inside of the shirasu balloon at the time of washing, and the sustained release of the soap component can be imparted to the scrub soap.

The internal soap may be pre-encapsulated in the shirasu balloon as a separate process from the preparation of the base soap, but the internal soap may be formed in the shirasu balloon simultaneously with the preparation of the base soap. .

That is, by immersing a hollow shirasu balloon in which fine volcanic ash has been expanded in an alkaline solution, the alkali solution is infiltrated into the hollow interior, and then adding a fatty acid to the alkaline solution, so that the outside of the shirasu balloon In addition to forming soap, soap is also formed in the hollow interior.

Specifically, in producing a solid or semi-solid scrub soap containing a shirasu balloon with an internal soap, an alkaline volcanic ash solution is prepared by mixing an alkaline solution containing a surfactant and a shirasu balloon. Then, a fatty acid is added to the alkaline volcanic ash solution.

Here, as the alkaline solution, a metal hydroxide that exhibits alkalinity when dissolved in water, such as sodium hydroxide or potassium hydroxide, can be used.

According to this method, when the alkaline volcanic ash solution is prepared, the alkaline solution enters the inside from cracks (cracks) or holes on the surface of the shirasu balloon, and the inside of the shirasu balloon is filled with the alkaline solution.

At this time, since the surfactant is added to the alkaline solution, the surface tension of the alkaline solution is weakened, and the alkaline solution can easily enter the inside of the shirasu balloon from the fine crack on the shirasu balloon surface. Can do.

In addition, by adding polyalcohol that is liquid at normal temperature, for example, about 1/9 to 1/11 part by weight of glycerin to the weight of the added Shirasu balloon to the alkaline solution, the Shirasu balloon can be dispersed in the alkaline solution. Property can be improved, and generation of the spatter can be prevented as much as possible.

That is, by preventing shirasu balloon powdering, the alkaline solution can be permeated into every corner of the shirasu balloon particles, and soap can be reliably formed inside the shirasu balloon.

  In such a state, the alkali volcanic ash solution is heated to 70 to 90 ° C. with stirring.

Subsequently, when the fatty acid melted by heating is added to the alkaline volcanic ash solution, the fatty acid also gradually permeates into the shirasu balloon through the surface crack.

Accordingly, both the alkaline solution and the fatty acid are mixed inside and outside the shirasu balloon, and by performing a saponification reaction, a base soap is formed outside the shirasu balloon and at the same time, an inner soap is formed inside the shirasu balloon. be able to.

In general, when manufacturing soap, it is common to gradually add an alkaline solution to a solution of fatty acid (or oil), but this is not suitable when forming an internal soap in a shirasu balloon. It can be said that there is.

For example, if a fatty acid solution and a shirasu balloon are mixed and then an alkali solution is added, the fatty acid solution in the shirasu balloon and the alkali solution that has entered the shirasu balloon are soaped on the surface of the shirasu balloon. This is undesirable because the fatty acid solution at the center of the shirasu balloon is likely to be unreacted and it is difficult to form an endosodium soap.

On the other hand, as in the present invention, an alkali volcanic ash solution is prepared by mixing an alkali solution and a shirasu balloon, and then when the fatty acid solution is gradually added, even if soap is formed on the surface of the shirasu balloon, Since there is a large amount of high-concentration alkaline solution compared to the fatty acid solution, the soap molecules are quickly dispersed, and the fatty acid solution is not prevented from entering the shirasu balloon.

Accordingly, since the alkali solution and the fatty acid solution can be reacted up to the center of the shirasu balloon, a sufficient amount of the soap can be formed inside the shirasu balloon.

In addition, by simply mixing a shirasu balloon into a solid or semi-solid base soap,
The base soap simply adheres to the surface of the shirasu balloon, and the base soap having a high viscosity does not enter the hollow interior of the shirasu balloon and become an inclusion soap.

In such a scrub soap, it is difficult to say that the foam is poor and the porous characteristic of the shirasu balloon is utilized.

In addition, a method of adding a liquid soap to the inside of the shirasu balloon by adding a shirasu balloon to the liquid soap is also conceivable, but in this method, a highly viscous liquid that already contains a high concentration of soap is used. It is difficult to enter the inside through fine cracks on the balloon surface.

In addition, even if liquid soap enters the shirasu balloon and forms liquid inclusion soap, it will immediately flow out of the shirasu balloon at the time of cleaning, so it does not have sustained release properties, Needless to say, the bubbles are bad.

On the other hand, according to the method for producing a scrub soap according to the present invention, it is possible to form an inclusion soap in which a solid or semi-solid soap is included in a shirasu balloon, so that the soap component is gradually released from the shirasu balloon. Can be reliably improved.

Hereinafter, the scrub soap and the method for producing the scrub soap according to the present embodiment will be described in detail with reference to the drawings.

FIG. 1 is a view showing a prescription of scrub soap according to this embodiment, and FIG. 2 is a flow showing a method for manufacturing scrub soap according to this embodiment.

Scrub soap according to this embodiment (100 parts by weight) with reference to FIG. 1 and FIG.
The manufacturing method will be described in order. The scrub soap described in this embodiment is
Paste scrub soap.

First, an alkali solution preparation step for dissolving the raw material of A-1 shown in FIG. 1 is performed in a preparation tank or the like that can be heated and reduced in pressure (step S1).

In this alkaline solution preparation step, 5.55 parts by weight of potassium hydroxide is gradually added to 27.3 parts by weight of water to sufficiently dissolve potassium hydroxide to prepare an aqueous alkaline solution.

At this time, the temperature of the alkaline solution is increased by adding potassium hydroxide to water, but it is desirable to keep the liquid temperature as close to room temperature as possible, for example, about 15 to 35 ° C.

Next, the raw material of A-2 shown in FIG. 1 is dissolved in the room temperature alkaline solution prepared in step S1, and a surfactant addition step is performed (step S2).

In the surfactant addition step, 3 parts by weight of glycerin, 5 parts by weight of a humectant, 3 parts by weight of a foaming agent, and 3 parts by weight of a surfactant are added to the alkaline solution and stirred until uniform. Do. The glycerin added here functions as a dispersant for the shirasu balloon added in the next step.

Also in this surfactant addition step, it is desirable to keep the liquid temperature as close to room temperature as possible, for example, about 15 to 35 ° C.

Next, a shirasu balloon addition step of adding the raw material of A-3 shown in FIG. 1 to the alkaline solution containing the surfactant prepared in the surfactant addition step is performed (step S3).

In the shirasu balloon addition process, 22.74 parts by weight of shirasu balloon, 4 parts by weight of white pigment, 0 parts
Add .01 parts by weight of saccharide to the alkaline solution containing the surfactant.

As described above, the shirasu balloon added in the shirasu balloon adding step is volcanic ash (shirasu) that has been previously expanded and formed into a fine hollow sphere.

Note that the shirasu balloon and white pigment added in the shirasu balloon addition step are very fine powders, and therefore easily fly in the air as dust when stirring in the preparation tank.

Therefore, in order to stir in the mixing tank, first, gently stir the liquid and the liquid surface with a planetary mixer (for example, about 20 to 40 rpm), and then generate a powerful vortex by a disper, etc. The permeation process is performed by stirring and mixing (for example, about 800 to 1200 rpm) so as to be involved in the liquid (step S4).

By performing such agitation in the infiltration process, it is possible to prevent the shirasu balloon and the white pigment from flying in the air as dust.

In addition, at the time of adding the Shirasu balloon to the alkaline solution containing the surfactant,
Stirring can be performed without entraining air as much as possible, so that an alkaline solution containing a surfactant can be efficiently permeated into the hollow interior of the shirasu balloon.

If the shirasu balloon is added to the alkaline solution containing the surfactant from the beginning, the shirasu balloon will be suspended in the solution by embracing the air. It is difficult to efficiently infiltrate the solution.

In addition, at the time of stirring, the liquid temperature is gradually raised until it reaches 80 ° C. This temperature increase may be performed by an electric heater or the like, or may be heated by steam.

Next, the fatty acid addition process which adds B-1 (fatty acid) shown in FIG. 1 to the liquid mixture (alkaline volcanic ash solution) of the alkaline solution containing the surfactant and the shirasu balloon prepared in the permeation process is performed ( Step S5).

In addition, in the manufacture of general soap, there is a case where it is manufactured using a lipid (a fatty acid and an alcohol having an ester bond), but here, fatty acid is added instead of lipid.

If lipid is added as an alternative to fatty acid, the polyhydric alcohol (glycerol) contained in the lipid will be liberated in large quantities, requiring a polyhydric alcohol removal step, which produces scrub soap. Since efficiency is lowered, it is not preferable.

As the fatty acid, a linear saturated or unsaturated fatty acid having C12 to C18 carbon atoms can be suitably used, and one or more kinds of fatty acids may be mixed and used.

That is, the composition of the fatty acid can be appropriately determined according to the desired properties of the soap.

Moreover, since the fatty acid (or fatty acid salt) used by this embodiment is solid, when adding a fatty acid to an alkaline volcanic ash solution, it heats and melts at 70-90 degreeC, and is added.

Next, the soap preparation process which forms soap with the mixed liquid of an alkaline volcanic ash solution and a fatty acid is performed (step S6).

In this soap preparation process, immediately after the fatty acid is mixed with the alkaline volcanic ash solution, the pressure in the preparation tank is reduced, and the air contained in the mixed solution is stirred and mixed while degassing (defoaming).

  In the soap preparation step, stirring is performed for 20 minutes while maintaining the temperature at 75 to 85 ° C.

When the temperature of the mixed solution is lower than 75 ° C., the fluidity is lowered and the mixed solution becomes hard and the stirring efficiency is lowered, which is not preferable.

On the other hand, when the temperature of the mixed solution exceeds 85 ° C., the mixed solution is likely to be discolored, causing so-called soap burning, and the appearance of the product is deteriorated.

By setting the temperature of the mixed solution to 75 to 85 ° C., more preferably 77 to 83 ° C., scrub soap that is uniform and smooth and has a distinctive white color can be obtained.

Next, a cosmetic ingredient addition process is performed in which the cosmetic ingredient composition is added to the paste-like mixture that has undergone the soap preparation process (step S7).

In this cosmetic ingredient addition step, 0.4 parts by weight of natural product extract is added to the paste-like mixture.

Here, the natural product extract is not particularly limited as long as it has an improvement effect on the skin and a beauty effect. For example, a protein-derived humectant, a cosmetic liquid, or the like may be added.

After these natural product extracts are added to the paste-like mixture, a cooling step of cooling to about 30 to 45 ° C. is performed (step S8) to prepare paste-like scrub soap.

As described above, the scrub soap obtained in this way also contains paste-like soap inside the shirasu balloon.

Therefore, this scrub soap should be a scrub soap that contains volcanic ash, has little irritation to the skin, has a sustained release property, has a high cleaning effect, and has good foam retention. Can do.

Finally, the description of each embodiment described above is an example of the present invention, and the present invention is not limited to the above-described embodiment. For this reason, it is a matter of course that various modifications other than the above-described embodiments can be made according to the design and the like as long as they do not depart from the technical idea according to the present invention.

For example, in the formulation shown in FIG. 1, in the surfactant addition step shown in FIG. 2, a protective agent, a moisturizing agent and a thickening foaming agent are added simultaneously with the surfactant, but this is limited to this. Instead, the shape of the scrub soap may be changed by further adding a shape-retaining agent, or components other than the surfactant may not be added.

In the present embodiment, the scrub soap is in the form of a paste. However, the composition of water and fatty acids may be changed to obtain a solid scrub soap.

Claims (3)

A hollow shirasu balloon that has been subjected to expansion treatment on fine volcanic ash is immersed in an alkali solution, the alkali solution is infiltrated into the hollow interior, and then fatty acid is added to the alkali solution, so that soap is added outside the shirasu balloon. A method of manufacturing scrub soap that forms soap in the hollow interior. The method for producing a scrub soap according to claim 1, wherein 1/9 to 1/11 part by weight of glycerin is added to the alkaline solution with respect to the weight of the shirasu balloon. A solid or semi-solid scrub soap containing a hollow fine volcanic ash that has undergone expansion treatment,
A scrub soap characterized by containing solid or semi-solid soap in the hollow interior of the fine volcanic ash.

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