JP6220469B2 - Method for producing a dyeing agent made from tsuji stone - Google Patents

Description

  The present invention relates to a method for separating components in aji stone, a method for producing a stain using aji stone as a raw material, and a blue light cut glass containing aji stone as a raw material.

  In textiles and clothes, fibers are dyed into various colors and patterns with a dye to improve their appearance. Such dyes include natural dyes that are natural pigments extracted from animals and plants, and synthetic dyes that are chemically synthesized. At present, synthetic dyes are used as general dyes rather than natural dyes for reasons such as cost and ease of dyeing into predetermined colors.

  On the other hand, natural dyes are excellent in that they can give a unique texture to the dyed material, although there is a problem that it is difficult to dye a predetermined color. Currently, plant-derived materials such as indigo and gardenia are generally used as natural dyes.

  In recent years, in order to take advantage of the advantages of both dyes, a technique for dyeing fiber materials with a combination of natural dyes such as plant dyes and chemical dyes has been developed (see Patent Document 1). Patent Document 1 describes that if this technique is used, dyeing with high fastness can be realized while exhibiting a color tone and various color tones with a natural dyeing agent.

JP 2005-36335 A

  By the way, natural dyes include mineral-derived dyes (mineral dyes) in addition to natural pigments extracted from animals and plants. Such mineral stains are known to be taken from loess, red soil, clay, petal, etc., but there are fewer types of mineral stains than other natural materials, and there are few opportunities for use. .

  When cutting out stones and various stones or processing stones, a large amount of stone powder is generated, but it has little utility value and is currently discarded as industrial waste. However, there are various minerals and substances that can be used effectively other than minerals in such stone powder.

  Therefore, if minerals and substances other than minerals can be separated from stone powder such as meiji stones, minerals can be used as dye materials, and substances other than minerals can also be used in various applications.

  In addition, if the stone powder can be used as it is without separating minerals or non-mineral substances from stone powder such as Jiji stone, the range of utilization will be further expanded.

  In view of the above circumstances, the present invention provides a method for separating components in a stone that can separate active ingredients from stone powder of a stone, a method for producing a dye using a stone that can be dyed in a unique color, And a blue light cut glass containing jiji stone as a raw material.

The method for producing a staining agent using the aji stone of the first invention as a raw material is a method for producing a staining agent from a stone powder of aji stone, which is a fine-grained biotite granite, wherein the stone powder of the aji stone contains tannin. Mixed with the solution, the mixture is held from above, so that a layer of supernatant liquid, a colored liquid layer, a white layer mainly composed of silicon, and a residue layer are formed, The colored liquid layer is separated from the mixed solution in which the plurality of layers are formed, the iron content is the highest, the calcium content is the second highest, and the calcium content is followed by potassium and silicon. A liquid dyeing agent having a high content of is obtained .

According to the first invention, by mixing the stone powder of aji stone and amber astringent solution, a pigment derived from aji stone formed by the reaction of the mineral in the stone powder with the astringent solution can be contained in the liquid layer. And the dyeing | staining containing various pigment | dyes derived from a meiji stone can be manufactured from this liquid. Then, if dyeing | staining a fiber etc. using this dyeing agent, the dyeing | staining of the very outstanding color can be manufactured.

It is a general | schematic flow of the separation method of the component in the meiji stone of this invention. (A) is a photograph of the raw material Aji stone powder, and (B) is a photograph of the persimmon astringent solution. (A) is a photograph of the mixed liquid immediately after the aji stone powder is mixed with the amber astringent solution, and (B) is a photograph of the mixed liquid in a state where the amber stone powder is mixed with the amber astringent solution and left to stand to develop a color. It is the photograph of the liquid mixture which mix | blended Eiji stone powder with the persimmon astringent solution, and left still for a long time. It is the photograph of the thread | dye dye | stained with the dyeing | staining agent which uses the amber stone of this invention as a raw material. It is a component analysis table | surface of the stone powder of the meiji stone used for the isolation | separation method of the component in the meiji stone of this invention. It is an analysis table | surface of the liquid layer component containing the mineral isolate | separated by the separation method of the component in the meiji stone of this invention. It is an analysis table | surface of the layer component of the silicon | silicone (silica) isolate | separated by the isolation | separation method of the component in the meiji stone of this invention. It is a graph of the spectroscopic measurement result of the blue light cut glass which put the stone powder of Jiji stone.

  Oji Stone (Regional Group Trademark) is a fine-grained biotite granite from the foot of Yaguri Gokenzan across Kashiwa-cho and Kakei-cho in Kagawa Prefecture. It is a waste.

  The method for producing a staining agent using the aji stone of the present invention as a raw material is characterized in that a stone powder of the above aji stone is used as a raw material of the staining agent.

  The use of the dyeing agent produced by the method for producing a dyeing agent made from the mushroom stone of the present invention is not particularly limited. For example, it can be used as a dyeing agent for dyeing fabrics, yarns, paper, leather, and the like. Moreover, it can be used as dyes, such as inks, such as pen, and coating materials.

(Manufacturing method of the dyeing agent using the Jinshi stone of the present invention as a raw material)
In the method for producing a staining agent using the aji stone of the present invention as a raw material, the staining agent is produced by the method for separating components in the aji stone of the present invention. In other words, a dyeing agent is produced from minerals contained in this stone powder by using the stone powder of Aji stone that has been conventionally discarded.

(Separation method of ingredients in 庵 石)
First, a method for separating components in aji stone, which is employed in the method for producing a stain using ajiji stone of the present invention as a raw material, will be described.

As shown in FIG. 1, in the method for separating components in aji stone according to the present invention, first, a persimmon astringent solution in which stone powder of aji stone is mixed is prepared (see FIG. 2B).
This persimmon astringent solution is obtained by diluting a persimmon astringent stock solution such as natural persimmon astringent juice or a commercially available persimmon astringent juice with water. For example, if it is a commercially available persimmon astringent soup (for example, Chubu Sunday Sales Co., Ltd .: persimmon astringent), it is possible to obtain a persimmon astringent solution in which the concentration of tannin is adjusted to a concentration suitable for dyeing when diluted 10 times. .

  In addition, the natural persimmon soup that becomes the persimmon astringent stock solution can be produced by grated the persimmon and filtered through a filter.

  Next, a stone powder (hereinafter simply referred to as a stone powder) of Aji stone is prepared (see FIG. 2A). The particle size and the like of the stone powder are not particularly limited, but are desirably somewhat fine. For example, it is possible to use stone powder generated at the time of cutting out or processing aji stone.

  When the stone powder and the astringent astringent solution are prepared, the stone powder is put into the astringent astringent solution and stirred to some extent to form a mixed solution (see FIG. 3A). And when a liquid mixture is left still in the state which put the stone powder, the coloring agent derived from the mineral in a stone powder will melt | dissolve in a liquid mixture, and the color of a liquid mixture will change from the original state.

When the mixed solution is allowed to stand for a certain period of time, a solid content in the mixed solution is precipitated, and a plurality of layers are formed in the mixed solution. Specifically, as shown in FIG. 4, the liquid layer, the layer mainly composed of silicon (silica) (layer made of white solid), and the layer of other substances (residue layer) are separated from the top. (See FIG. 3B and FIGS. 6 to 8).
Note that a layer made of a white solid corresponds to a white layer referred to in the claims.

Further mixture is allowed to settle, the liquid layer is a layer of supernatant liquid, and the liquid layer The colored, while being separated, the separation of solids proceeds from the liquid layer (see Figure 4). And if solid content is fully isolate | separated from a liquid layer, isolation | separation of the component in an amber stone will be completed. The colored liquid layer in the liquid layer is the staining agent of the present invention. That is, what separated the colored liquid layer is equivalent to the liquid dyeing agent in the claims.

  The liquid mixture may be allowed to stand until the solid content is sufficiently separated from the liquid layer. However, if the liquid layer has a desired color, only the liquid is taken out in that state, or filtration, precipitation separation, etc. The solid content may be removed from the mixed solution using the above method.

  When the yarn or the like is immersed in the staining agent of the present invention, the staining agent in the staining agent of the present invention binds to the yarn or the like, so that the yarn or the like can be dyed (see FIG. 5). If the time for immersing the yarn or the like in the dyeing agent is adjusted, the dyeing state of the yarn or the like can be adjusted. For example, in FIG. 5, the immersion time is increased from the right to the left, but by increasing the immersion time, the color density of the dyed yarn or the like can be changed.

  As described above, if the method for separating components in aji stone according to the present invention is used, it is possible to prepare an astringent astringent solution, mix it with stone powder, and leave it alone. The following dyeing agent can be produced. And since the stone powder discarded as industrial waste can be used effectively as a raw material of a dyeing agent, the amount of industrial waste can be reduced.

  And the quantity of the mineral contained in stone powder changes with the property of the stone which generated stone powder. Oji stone is a granite and contains a plurality of minerals such as biotite and rust stone, but the color of the stain changes depending on the content of each mineral and the content ratio of each mineral. Then, by using the stone powder alone or by mixing and using several kinds of stone powder, it is possible to produce a dye having a characteristic color. Therefore, if a yarn or the like is dyed with the dyeing agent produced by the method for separating components in the stones of the present invention, a dyed product having a unique texture can be produced.

  Moreover, in the method for separating components in the stones of the present invention, white powder having a high silicon ratio can be recovered from the stone powder as well as the staining agent. Although this powder is not so high in purity, it has a high percentage of silicon, so it may be used as a raw material for various materials.

  There is also a possibility that the material of the residual layer can be used as concrete aggregate.

  The liquid layer may be used as a staining agent as it is, but the staining agent may be gelled or solid by removing water from the liquid layer. In this case, since the water | moisture content is removed from the dyeing agent, handling property can be improved and preservability is also improved. If water is added to the stain from which moisture has been removed, the original stain can be obtained.

(Reason for dyeing)
The reason why the liquid obtained by the method for separating components in the stones of the present invention becomes a staining agent is not clear, but is considered as follows.

  Since the persimmon astringent contains tannin, the persimmon astringent solution also contains a large amount of tannin. When stone powder is mixed with such amber astringent solution, minerals in the stone powder react with tannins in the astringent astringent solution. Then, the mineral (metal) starts to dissolve from the stone powder into the persimmon astringent solution, and this mineral and tannin are strongly combined to develop color. Accordingly, it is considered that the mineral that has developed color by combining with tannin becomes a pigment to form a staining agent. For example, as shown in FIG. 7, since a large amount of iron is contained, it is considered that this iron causes color development.

(About mixing ratio of stone powder and tannin solution)
In the method for separating components in the stones of the present invention, the mixing ratio of the stone powder and the tannin solution is not particularly limited. However, when using the liquid obtained by the method for separating components in the stones of the present invention as a dyeing agent, if the tannin liquid and stone powder of the stones are mixed at an appropriate mixing ratio, the fibers are dyed. Sometimes very good shades can be produced.

  For example, if 200 to 1000 ml of tannin solution obtained by diluting a commercial tannin stock solution to 5 to 15% is mixed with 80 to 400 g of stone powder of Jiji stone, the staining agent can be obtained by the method for separating components in Jiji stone of the present invention. Can be manufactured. Moreover, a dyeing agent can also be manufactured even if it mixes 100-300g of a stone powder of Jiji stone with respect to 300-800 ml of tannin solutions which diluted the commercially available tannin stock solution to 8-12%. In particular, when 200 g of stone powder of moji stone is mixed with 500 ml of tannin solution obtained by diluting a commercial tannin stock solution to 10% with water purified by a water purifier, the method for separating components in moji stone of the present invention Can produce a beautiful blue dye.

(Adjusting the color of the stain)
Then, by adjusting the concentration and type of tannin, the amount of stone powder, the type of stone powder, the time during which the persimmon astringent solution and the stone powder are mixed, the color of the stain, the intensity of the color, and the like can be adjusted. For example, if the holding time is changed, a dyeing agent having a slightly different color from light purple to indigo can be produced. In addition, if different types of stone powder are mixed and used, the color of the staining agent can be changed depending on the mixing ratio.

(About the solution mixed with stone powder)
As the solution to be mixed with the stone powder, a solution other than the amber astringent solution described above can also be used. For example, in the method for separating components in the stones according to the present invention, the components in the stones according to the present invention can be separated even if a solution containing a predetermined amount or more of tannin (tannin solution) is used. Agent can be produced. In this case, the type of tannin contained in the tannin solution (condensation type (catechol type) or hydrolysis type (pyrogallol type)) is not particularly limited.

  In particular, in the case of producing a dyeing agent, it is preferable to use a persimmon astringent solution that does not contain additives because the color development state can be improved. Further, if the type of tannin contained in the tannin solution is different, the binding state with minerals and the like are changed. Therefore, if the type of tannin is changed, the color of the staining agent may be changed.

(About mixing of persimmon astringent solution and stone powder)
In the case of separating the components in the aji stone, it is desirable to leave the mixed solution of the astringent astringent solution and the stone powder in a mixed state.

On the other hand, if the purpose is to produce a staining agent, the mixed solution may be stirred continuously or intermittently in a mixed state. In particular, when the persimmon astringent solution and stone powder are mixed, they are stirred so that they are mixed together, and then left standing to improve color development, or the metal components that have dissolved in the persimmon astringent solution may agglomerate, etc. It is desirable to prevent separation from
In addition, it is preferable that the astringent solution and stone powder be used at room temperature in order to improve the color developability and to prevent the metal component dissolved in the astringent solution from aggregating and separating from the astringent solution.

(Blue light cut glass)
In the above example, the case where the components contained in the stone powder of Aji stone are separated and used is described, but the stone powder of Aji stone can be used as a raw material as it is.

  Toshie Sugiyama, the artist from Kagawa Prefecture, was the first in the world to produce glass by mixing stones from Jiuji Stone. Mr. Toshie Sugiyama produced a very beautiful blue glass (Sanuki Eiji Stone Glass) by mixing and processing the stone powder of Eiji stone into the glass material by a unique method, and has created many works now. (Reference Homepage: Eiji Sanuki Glass: http://aji-glass.jp/)

  The present inventor conducted analysis by considering that the above-described Sanuki Kanji stone glass has a function of cutting blue light. Then, as shown in FIG. 9, the Sanuki Eiji stone glass has a higher effect of cutting blue light than general glass. Moreover, it was confirmed that the Sanuki Juji stone glass has a clear appearance with no turbidity, although the effect of cutting blue light is lower than the commercially available blue light cut glass. In other words, the commercially available blue light cut glass looks like a yellowish cloudy landscape when viewed through the glass, but if you view the landscape through Sanuki Eiji stone glass, the landscape becomes cloudy. It can be seen in a clear state.

  Therefore, if glass is produced using the traditionally abandoned stone powder of Aji stone, it has the effect of cutting blue light, and it is possible to obtain glass that can be seen through clear scenery without turbidity. be able to.

The method for separating components in aji stone according to the present invention has been a method for separating and recovering the components in aji stone.
In addition, the method for producing a dyeing agent using the Juji stone of the present invention as a raw material is suitable for a method of producing a dyeing agent for dyeing fabrics, yarns, etc., or a dye for inks and paints such as pens.

Claims (1)

A method for producing a staining agent from fine stone biocite granite stone powder,
Mixing the agate stone powder into an astringent solution containing tannin,
The mixed liquid is retained from above so that a supernatant liquid layer, a colored liquid layer, a white layer mainly composed of silicon, and a residue layer are formed,
The colored liquid layer is separated from the mixed solution in which the plurality of layers are formed, the iron content is the highest, the calcium content is the second highest, and the calcium content is followed by potassium and silicon. Liquid stain with high content of
A method for producing a dyeing material made from aji stone .