JP2007320945A - Method for processing fresh flower and processing liquid for rocessing fresh flower - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for processing a fresh flower without particular equipment and coloring without color heterogeneity by a small number of steps, and a processing liquid for processing the fresh flower. <P>SOLUTION: A first processing liquid 1 is prepared in a vessel 11 by storing a mixture of an absolute ethanol and isopropanol. A second processing liquid 2 is prepared in another vessel 12 so as to contain 300-400 cc of the mixture of the absolute ethanol and isopropanol, not greater than 1 g each of an amino acid and citric acid and 5 wt.% of a titanium white (titanium dioxide). In a dehydration step, tissue water is removed from the fresh flower 10 by immersing the fresh flower 10 in the first processing liquid 1. In an absorption step, the titanium dioxide is absorbed in the fresh flower 10 by immersing the dehydrated fresh flower 10 in the second processing liquid 2. In a drying step, the fresh flower 10 taken out of the second processing liquid 2 is dried in the atmosphere at an ambient temperature. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method for processing fresh flowers, and more particularly, to a method for processing fresh flowers including a treatment for allowing a pigment to be absorbed in a dehydrated fresh flower, and a processing solution for processing fresh flowers suitably used in the method.

  Conventionally, dry flowers, preserved flowers, pressed flowers and the like are known as methods for preserving fresh flowers. When a fresh flower is processed into a dried flower or the like, a treatment for dehydrating the tissue water of the fresh flower and a treatment for drying the fresh flower are widely used.

  In addition, a technique of processing a dried flower or the like by immersing fresh flowers in an alcohol preservation solution mixed with a pigment or dye has been proposed (see, for example, Patent Documents 1 and 2).

Japanese Patent Laid-Open No. 7-41401 JP 2004-203815 A

  Patent Document 1 discloses a method for producing a dried flower in which a high-pressure treatment is performed in a state in which a fresh flower is immersed in a solution containing the dye so that the dye penetrates into the fresh flower, and then a drying treatment is performed. In particular, Patent Document 1 discloses a white rose flower in a mixed solution of an aqueous solution containing a pigment (violamine R (red), sunset yellow FCF (yellow), or purified quinoline yellow WS (yellow)) and glycerin. Disclosed is a method for obtaining a dyed rose by performing high-pressure treatment at a pressure of 500 atm in an immersed state, then washing with water and drying at room temperature.

  Patent Document 2 discloses a method for producing a preserved flower in which the tissue water of a cut flower is replaced with a preservation solution containing a polyhydric alcohol such as ethylene glycol and glycerin and a pigment, and in particular, the cut flower in alcohol such as methanol and ethanol. Soaking the cut flowers in a preservative solution obtained by pre-substituting the tissue water in the cut flowers with alcohol, mixing polyhydric alcohols such as ethylene glycol and glycerin, alcohols such as methanol and ethanol, and pigments And a method for preserving cut flowers.

  By the way, it is generally known that when a fresh flower such as a white rose is processed into a preserved flower such as a dried flower or a preserved flower, it is difficult to keep or reproduce the white color originally exhibited by the fresh flower. In this respect, the above-mentioned Patent Document 2 proposes a method for producing a white rose dyeing or a pale-colored preserved flower. That is, in order to eliminate the problems of whiteness and dyeing variation when producing preserved flowers, a bleaching step with a hydrogen peroxide-based bleaching agent is added after the infiltration step, and a vacuum pump or the like is used during the infiltration step. It is disclosed that a vacuuming step using a vacuum cleaner is added, and that the vacuuming step and a vibration step using ultrasonic waves or other vibrators are added during the permeation step.

  The method disclosed in Patent Document 1 is a method in which a pigment is infiltrated into a plant by high pressure, and thus can be treated in a short time and is considered to be a method suitable for mass production. However, since a pressurizing device for performing high-pressure processing such as 500 atmospheric pressure and 1000 atmospheric pressure is required, it is not suitable for introduction of corporations and individual business owners of small stores where it is difficult to secure large capital investment and installation location. it is conceivable that.

On the other hand, the method disclosed in Patent Document 2 adds a bleaching step in order to solve the problems of whiteness and dyeing variation. Since a bleaching agent based on hydrogen peroxide is used in this bleaching step, there is a problem that a step of washing with absolute ethanol is required before and after the bleaching step, and the operation tends to be complicated.
In addition, it is possible to expect the effect of eliminating the color unevenness by increasing the absorption rate of the preservation solution by the decompression step and by moving the pigment particles in the preservation solution back and forth in the petal by the vibration step. In addition, the number of vibration processes increases, so the work tends to be complicated, and there is a problem that additional equipment is required to perform these additional processes.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for processing fresh flowers and a processing solution for processing fresh flowers, which do not require special equipment and can be colored with few steps with no color unevenness.
Another object of the present invention is to provide a method for processing fresh flowers and a processing solution for processing fresh flowers, which can obtain a white processed flower having no color unevenness by simple processing.

  In order to achieve the above object, the method for processing fresh flowers according to claim 1 comprises a dehydration step of dehydrating tissue water from fresh flowers, and a treatment liquid in which a pigment is mixed with a liquid comprising an aliphatic lower alcohol. An absorption step of immersing the dehydrated fresh flowers in the treatment liquid prepared to have a hydrogen ion exponent (pH) buffering action on the pigment, and absorbing the pigment into the fresh flowers; and the treatment liquid And a drying step of drying the fresh flowers taken out from the inside.

  The invention according to claim 2 is the method for processing a fresh flower according to claim 1, wherein the dehydration step immerses the fresh flower in a liquid composed of an aliphatic lower alcohol, and dehydrates the tissue water contained in the fresh flower. It is characterized by including.

  According to a third aspect of the present invention, in the method for processing fresh flowers according to the first or second aspect, the absorption step is carried out by adding citric acid, citrate (monosodium citrate, citric acid) to a liquid composed of an aliphatic lower alcohol. 1 or 2 selected from trisodium acid, monopotassium citrate), acetic acid, acetate salt (sodium acetate), L-tartaric acid, and L-tartaric acid salt (L-sodium tartrate, potassium L-tartrate) The dehydrated fresh flowers are immersed in a treatment liquid in which one or more components selected from amino acids, lactic acid, and sodium lactate, and a pigment are mixed, and the pigment Including the step of absorbing the fresh flowers.

  The method for processing fresh flowers according to claim 4 includes a first treatment step for dehydrating tissue water from fresh flowers, and a solution comprising an aliphatic lower alcohol, citric acid, citrate, acetic acid, acetate, One or more components selected from L-tartaric acid and L-tartaric acid salt, one or more components selected from amino acids, lactic acid, and sodium lactate, and a white pigment A second treatment step in which the dehydrated fresh flowers are immersed in a treatment solution mixed with the white flowers, and the white pigment is absorbed by the fresh flowers, and a drying step in which the fresh flowers taken out of the treatment solution are dried. It is characterized by including.

  According to a fifth aspect of the present invention, in the method for processing fresh flowers according to the fourth aspect, the first treatment step is performed by adding citric acid, citrate, acetic acid, acetate, to a liquid composed of an aliphatic lower alcohol. One or more components selected from L-tartaric acid and L-tartaric acid salt, one or more components selected from amino acids, lactic acid, and sodium lactate, and a white pigment And a pretreatment liquid in which the white pigment is preliminarily absorbed while dehydrating tissue water contained in the fresh flower.

  The invention according to claim 6 is the method for processing fresh flowers according to claim 4 or 5, wherein the white pigment is titanium white, silver white, zinc white, chalk, heavy calcium carbonate, precipitated calcium carbonate, pepper, gypsum. , Barium sulfate, and alumina white, one or more of them.

  The processing solution for processing fresh flowers according to claim 7 is a processing solution for processing fresh flowers for allowing the fresh flowers to be dehydrated to absorb the pigment, which is a hydrogen ion of a liquid composed of an aliphatic lower alcohol mixed with the pigment. The index (pH) is adjusted to have a buffering effect on the pigment.

  The processing solution for processing fresh flowers according to claim 8 is a processing solution for processing fresh flowers for allowing the dehydrated fresh flowers to absorb the pigment, and the solution made of aliphatic lower alcohols contains citric acid and citric acid. One or more components selected from among salts, acetic acid, acetates, L-tartaric acid, and L-tartrate, and one or two selected from among amino acids, lactic acid, and sodium lactate The above components and a pigment are mixed.

  The method for processing fresh flowers according to claim 9 includes a dehydration step of dehydrating tissue water from fresh flowers, and a liquid composed of an aliphatic lower alcohol, talc, silk powder, pearl powder, sericite powder, mica powder, One or two selected from zinc myristate, anhydrous silicic acid powder, light magnesium carbonate, kaolin, bentonite, corn starch, waxy starch, sago starch, tapioca starch, wheat starch, rice starch, potato starch, and sweet potato starch An absorption step in which the dehydrated fresh flowers are immersed in a treatment liquid in which the above powder is mixed as a white pigment and the white pigment is absorbed by the fresh flowers, and a drying step in which the fresh flowers taken out from the treatment liquid are dried. It is characterized by including.

  The invention according to claim 10 is the method for processing fresh flowers according to claim 9, wherein the dehydration step immerses the fresh flowers in boiled water, vinegar, or a diluted solution of vinegar, and dehydrates the tissue water contained in the fresh flowers. Including the step of:

  The processing solution for processing fresh flowers according to claim 11 is a processing solution for processing fresh flowers for absorbing the pigment in the dehydrated fresh flowers, and a solution made of an aliphatic lower alcohol includes talc, silk powder, Pearl powder, sericite powder, mica powder, zinc myristate, anhydrous silica powder, light magnesium carbonate, kaolin, bentonite, corn starch, waxy starch, sago starch, tapioca starch, wheat starch, rice starch, potato starch, and sweet potato starch One or more powders selected from among them are mixed as a white pigment.

  As a result of diligent experiments on various conditions for uniformly absorbing the pigment in the dehydrated fresh flowers, the inventor has obtained a specific composition in which the pigment is mixed with a liquid composed of an aliphatic lower alcohol. A treatment liquid was prepared, and it was found that processed flowers without color unevenness could be obtained by immersing fresh flowers that had been dehydrated in the treatment liquid, and the first invention was completed. That is, the first invention is a treatment liquid in which a pigment is mixed with a liquid composed of an aliphatic lower alcohol, and a treatment liquid prepared to have a hydrogen ion index (pH) buffering action on the pigment is prepared, The flower is immersed in the dehydrated fresh flower and the pigment is absorbed by the fresh flower.

  In the first invention, the present inventor considers that the mechanism in which the pigment is uniformly absorbed by the dehydrated fresh flowers in the treatment liquid is generally as follows. Here, as an example, the mechanism of using titanium white as a pigment to be absorbed by white fresh flowers will be described.

When titanium white is mixed in a lower alcohol liquid, titanium hydroxide is produced from titanium dioxide (TiO ₂ ), which is a component of titanium white. Titanium hydroxide basically shows a neutrality of hydrogen ion index (pH) of 7, but the pH value changes due to the influence of a small amount of impurities in the liquid (contamination of containers, dust mixed in during operation, etc.). Not stable.

  Titanium hydroxide is positively charged in an acidic liquid and negatively charged in a basic liquid. When the pH of the liquid is neutral (pH = 7), positively charged ions and negatively charged ions are present at the same time, so these are electrically attracted and the titanium dioxide particles are difficult to disperse in the liquid. It is considered to be in a state. Through various experiments, it has been found that there is a problem that when the dispersion state of the pigment in the treatment liquid is insufficient, it is difficult to uniformly absorb the dehydrated fresh flowers.

  A state where the algebraic sum of the ampholytes in the solution is 0 is called an isoelectric point, and it is generally known that the isoelectric point is indicated by the hydrogen ion index (pH) of the solution. Here, the ampholyte refers to an electrolyte having both acidic and basic properties, and certain metal hydroxides act as a base in an acidic solution and act as an acid in a basic solution. It is known that there is something to do. Titanium hydroxide produced when titanium dioxide is mixed with aliphatic alcohols is considered to have this amphoteric electrolyte property.

  The isoelectric point in the case of the titanium dioxide / anatase type is pH = 6.1. Therefore, an appropriate amount of a weak acid such as citric acid, citrate, acetic acid, acetate, L-tartaric acid, or L-tartaric acid alone or mixed is added to an aliphatic alcohol mixed with titanium dioxide, and treated. By adjusting the pH value of the liquid to be close to the isoelectric point (pH = 6.1) of titanium dioxide, which is a pigment, and adding an appropriate amount of amino acid, lactic acid, sodium lactate or the like, the pH buffering action on the pigment can be achieved. Prepare to have. Then, the mixed titanium dioxide particles are stably dispersed in the processing liquid (a state in which precipitation and aggregation are difficult).

  According to such a treatment liquid, the pigment can be evenly absorbed in the fresh flowers by simply immersing the dehydrated fresh flowers in the treatment liquid without going through an additional step such as a bleaching step, which greatly improves workability. Can be improved. In addition, such a treatment liquid has an advantage that a stable absorption treatment can be performed because the dispersion stability of titanium dioxide particles hardly deteriorates even when used repeatedly.

The above pigments may be variously known pigments of various colors that are generally known as painting materials, for example, as long as they can be uniformly mixed and dispersed in a liquid composed of aliphatic alcohols adjusted to have a pH buffering action. Inorganic pigments that can be used but generate metal hydroxides when mixed with aliphatic lower alcohols are preferred.
For example, titanium white (TiO ₂ ), silver white (2PbCO ₃ .Pb (OH) ₂ lead white, flake white or Kremnitz white), zinc white (ZnO), chalk (CaCO ₃ ), heavy as white pigments Calcium carbonate (CaCO ₃ ), precipitated calcium carbonate (CaCO ₃ ), flour, gypsum (CaSO ₄ .2H ₂ O), barium sulfate (BaSO ₄ ), and alumina white (Al ₂ O ₃ ) Can be used alone or in admixture of two or more.
Regarding pigments other than white, red pigments include vermilion and cadmium red. Moreover, there is cobalt violet as a purple pigment. Further, black pigments include ivory black, peach black, lamp black, and carbon black. Brown pigments include yellow ocher, low sienna, burnt sienna, light red, low amber, and burnt amber. Yellow pigments include yellow ocher, opiment, cadmium yellow, and aureolin. Green pigments include tail belts, malachite, cadmium green, viridan (hydrated chromium oxide), and oxide of chromium (chromium oxide). In addition, blue pigments include natural or artificial ultramarine, azurite, smalto, Prussian blue, cerulean blue, and cobalt blue.
In addition, when using titanium white (titanium dioxide) as a pigment, there exists an additional advantage of providing photocatalytic activity to a processed flower. In addition, when cobalt chloride is used as a pigment, there is an additional advantage that the color of the processed flower changes according to the ambient humidity and informs the humidity change.

  For example, methanol, ethanol, propanol, isopropanol, butanol, isobutanol, ethylene glycol, propylene glycol, and mixtures thereof are suitably used as the aliphatic lower alcohols used in the treatment liquid of the first invention. Of the lower alcohols, a mixture of absolute ethanol and isopropanol is particularly preferred.

In a preferred embodiment of the first invention, citric acid, citrate (for example, monosodium citrate, trisodium citrate, monopotassium citrate), acetic acid, and acetate are added to a liquid comprising an aliphatic lower alcohol. (For example, sodium acetate), L-tartaric acid, and L-tartrate (for example, L-sodium tartrate, L-potassium hydrogen tartrate), one or more components, amino acid, lactic acid, And one or two or more components selected from sodium lactate and a pigment, and a treatment liquid for absorption treatment. Components such as citric acid and amino acids are commercially available as, for example, industrial or food additives, and are easily available.
Here, it is important to adjust the input amounts of components such as citric acid and amino acids, taking into account that the isoelectric point of the pigment in the liquid of the aliphatic lower alcohols varies from pigment to pigment. That is, in preparing a fresh flower processing treatment liquid for uniformly absorbing the pigment into the dehydrated fresh flower, the action of adjusting the pH value of the liquid to the vicinity of the isoelectric point of the pigment and the pH value of the liquid to the isoelectric point of the pigment. An appropriate amount of a component is introduced so as to develop a stabilizing effect near the point.

  In the method for processing fresh flowers of the first invention, the dehydration step performed before the absorption step includes a step of immersing the fresh flowers in a liquid composed of an aliphatic lower alcohol and dehydrating the tissue water contained in the fresh flowers. It is preferable. The aliphatic lower alcohols used in this dehydration step are preferably, for example, methanol, ethanol, propanol, isopropanol, butanol, isobutanol, ethylene glycol, propylene glycol, and mixtures thereof, as in the treatment liquid for absorption treatment. Of the lower alcohols used, a mixture of absolute ethanol and isopropanol is particularly preferred.

  In one embodiment of the first invention, in particular, when a white pigment is absorbed by a fresh flower, a liquid adjusted to the same composition as the treatment liquid used in the absorption process is used as the pretreatment liquid as the treatment liquid in the dehydration process. It is possible to immerse fresh flowers in this pretreatment liquid, dehydrate tissue water contained in the fresh flowers, and pre-absorb white pigment. When the two-stage absorption process of the preliminary absorption and the main absorption is performed as described above, the white tone of the flower can be reproduced more clearly.

  The present inventor has also conducted various experiments especially on white fresh flowers, and as a result, prepared a treatment liquid in which a certain powder in a liquid composed of aliphatic lower alcohols was mixed as a white pigment, and the dehydrated fresh flowers. As a result, it was found that white processed flowers with no color unevenness can be obtained by immersing No. 1, and the second invention was completed. That is, the second invention is a liquid composed of aliphatic lower alcohols, talc (talc), silk powder (powder obtained by pulverizing silk), pearl powder (powder obtained by crushing and purifying the pearl layer of pearl oyster) Sericite powder, mica powder, zinc myristic acid (zinc salt of myristic acid), anhydrous silicic acid (silica) powder, light magnesium carbonate, kaolin (naturally produced hydrous aluminum silicate white. 1 or 2 selected from bentonite (natural colloidal hydrous aluminum silicate), corn starch, waxy starch, sago starch, tapioca starch, wheat starch, rice starch, potato starch, and sweet potato starch Create a treatment liquid that mixes more than seed powder as a white pigment, immerse the dehydrated fresh flowers, and make the pigments fresh flowers It is intended to be absorbed. In addition, the above-mentioned white pigment powder may be used alone or in combination of two or more kinds thereof.

  According to the second invention, in contrast to the first invention, dehydration treatment was performed without adding a component for adjusting the pH value of the treatment liquid and / or a component for stabilizing the pH value of the liquid. A predetermined white pigment can be uniformly absorbed by a fresh flower.

  The aliphatic lower alcohol used in the treatment liquid of the second invention includes, for example, methanol, ethanol, propanol, isopropanol, butanol, isobutanol, ethylene glycol, propylene glycol, and the like, as in the treatment liquid of the first invention. A mixture of these is preferably used. Of the lower alcohols, a mixture of absolute ethanol and isopropanol is particularly preferred.

  In the method for processing fresh flowers according to the second invention, the dehydration step performed before the absorption step is a step of immersing the fresh flowers in boiled water, vinegar, or a diluted solution of vinegar, and dehydrating the tissue water contained in the fresh flowers Can be included.

  The present invention can be suitably applied to the production of dried flowers, preserved flowers and pressed flowers, but the first invention is particularly effective for the production of dried flowers and preserved flowers, and the second invention is the production of pressed flowers. Is particularly effective.

  According to the present invention, it is possible to perform coloring without color unevenness in a small number of steps without requiring special equipment. Moreover, a white processed flower with no color unevenness can be obtained by a simple process.

  Hereinafter, embodiments of the method for preserving fresh flowers of the present invention will be specifically described with reference to the drawings. Here, the raw flowers to be processed were rose flowers, lily flowers such as Casablanca and Lily of the lantern, orchid flowers such as Denfale and Cattleya, and colors (flowers of taro family). However, the present invention is not limited to these fresh flowers. The pigments used were titanium dioxide, talc and corn starch as white pigments, but the present invention is not limited to these pigments.

  FIG. 1 is an explanatory view showing the processing steps of the method for processing fresh flowers according to the first invention, in which a dehydration step (step S101) for dehydrating tissue water from fresh flowers and a pigment in a liquid composed of aliphatic lower alcohols. An absorption process (step S102) in which the dehydrated fresh flowers are immersed in the mixed predetermined treatment liquid and the pigment is absorbed by the fresh flowers, and a drying process (step S103) in which the fresh flowers taken out from the treatment liquid are dried. Contains. Here, titanium white (titanium dioxide) is used as the white pigment.

Prior to the processing, the container 11 contains a mixture of absolute ethanol and isopropanol, and the first treatment liquid 1 is prepared. Absolute ethanol and isopropanol may be in any mixing ratio of 1: 9 to 9: 1.
Further, in another container 12, a second treatment liquid 2 prepared so as to contain 1 g or less of amino acid and citric acid and 5% by weight of titanium dioxide with respect to 300 cc to 400 cc of a mixture of absolute ethanol and isopropanol. Prepare. In this case, 30 cc to 40 cc of a mixture of absolute ethanol and isopropanol is added to each equivalent of amino acid, citric acid, and titanium dioxide charged in a small container (not shown) and mixed well in a paste form, and the paste mixture is separated. The second treatment liquid 2 can be prepared by charging and mixing in a mixture of absolute ethanol and isopropanol contained in the container 12. The absolute ethanol and isopropanol may be in any mixing ratio of 1: 9 to 9: 1. The pH value of the prepared second treatment liquid 2 is in the vicinity of pH = 6.1, which is the isoelectric point of the titanium dioxide / anatase type, and the titanium dioxide particles are uniformly distributed in the second treatment liquid 2. It was in a dispersed state.

  First, in the dehydration step, tissue water is dehydrated from the fresh flowers 10 by immersing the fresh flowers 10 in the first treatment liquid 1. The immersion time is preferably 6 to 12 hours for rose flowers, 24 to 36 hours for orchid flowers, and 24 to 36 hours for colors.

  In the next absorption step, titanium dioxide is absorbed by the fresh flower 10 by immersing the dehydrated fresh flower 10 in the second treatment liquid 2. The immersion time is 10 to 20 minutes for rose flowers, 20 to 40 minutes for orchid flowers, and 30 to 60 minutes for color flowers.

And in the last drying process, the fresh flower 10 taken out from the 2nd process liquid 2 is dried at normal temperature in air | atmosphere.
By the above processing steps, a dried flower whose flower part is uniformly whitened is obtained.

  FIG. 2 is an explanatory view showing a processing step of another fresh flower processing method according to the first invention, in which a fresh flower is immersed in a predetermined processing liquid in which a white pigment is mixed with a liquid made of an aliphatic lower alcohol. The preliminary absorption step (step S201) of dehydrating the tissue water contained in the fresh flowers and absorbing the white pigment into the fresh flowers, and the dehydration in a predetermined treatment liquid in which the white pigment is mixed with a liquid composed of an aliphatic lower alcohol And a main absorption process (step S202) in which the freshly-absorbed fresh flowers are immersed and the white pigment is absorbed by the fresh flowers, and a drying process (step S203) in which the fresh flowers taken out from the treatment liquid are dried.

The difference from the processing step of the method for processing fresh flowers shown in FIG. 1 is that, instead of the dehydration processing in step S101, the first processing in which the container 21 contains the same composition as the second processing liquid 2 in FIG. By immersing the fresh flower 10 in the liquid 3, the tissue water contained in the fresh flower 10 is dehydrated and the titanium dioxide is preliminarily absorbed (step S <b> 201). The second treatment liquid 4 contained in another container 22 has the same composition as that of the second treatment liquid 2 in FIG. 1, and fresh flowers that have been dehydrated and pre-absorbed with white pigment in the pre-absorption process. So that the white pigment is absorbed by the fresh flowers.
The dried flower in which the flower part is uniformly whitened is also obtained by the treatment step shown in FIG. 2, but the flower part can be whitened more clearly.

  FIG. 3 is an explanatory view showing a processing step of the method for processing fresh flowers according to the second invention, wherein a dehydration step (step S301) for dehydrating tissue water from the fresh flowers, and a predetermined amount of liquid in an aliphatic lower alcohol are used. An absorption step (step S302) in which the dehydrated fresh flowers are immersed in the treatment liquid in which the powder is mixed as a white pigment, and the pigment is absorbed by the fresh flowers, and a drying step (step) in which the fresh flowers taken out from the treatment liquid are dried. S303). Here, talc or corn starch powder is used alone as the white pigment.

  Prior to the processing, water, vinegar, or a solution obtained by diluting vinegar with water is stored in the container 31 and heated to boiling to prepare the first treatment liquid 5. In another container 32, a second treatment liquid 6 is prepared in which 10% by weight of talc or corn starch is added to a mixture of absolute ethanol and isopropanol. Absolute ethanol and isopropanol may be in any mixing ratio of 1: 9 to 9: 1.

  First, in the dehydration step, the fresh flowers 10 are subjected to dehydration and antioxidant treatment by immersing the fresh flowers 10 in the first treatment liquid 5. Although the immersion time depends on the type of flower, it is several seconds to 420 seconds.

  In the next absorption step, talc or corn starch is absorbed by the fresh flower 10 by immersing the dehydrated fresh flower 10 in the second treatment liquid 6. The immersion time is 1 minute to 50 minutes.

Then, in the final drying step, the fresh flowers 10 taken out from the second treatment liquid 6 are taken out at room temperature or dipped in a volatile solution such as ether and taken out at high speed.
The processed flower obtained by the above processing steps has a flower portion that is uniformly whitened, and if this is pressed on a dry mat, a desired pressed flower can be obtained.

  In the above embodiment, a moisturizing component such as glycerin may be mixed in the treatment liquid used in the dehydration step in order to impart flexibility to the processed flower. In addition, the drying process includes a special treatment for suppressing the contraction of the flower caused by drying the processed flower, for example, a fresh flower that has been subjected to a pigment absorption treatment in a granular material such as sand or baked sand. Then, a process of sealing in a container together with a desiccant and drying may be performed.

It is explanatory drawing which shows the process process of the processing method of the fresh flower in 1st invention. It is explanatory drawing which shows the process process of the processing method of another fresh flower in 1st invention. It is explanatory drawing which shows the process process of the processing method of the fresh flower in 2nd invention.

Explanation of symbols

1, 3, 5 First treatment liquid 2, 4, 6 Second treatment liquid 10 Fresh flowers 11, 12, 21, 22, 31, 32 Container

Claims (11)

A dehydration process for dehydrating tissue water from fresh flowers;
A treatment liquid in which a pigment is mixed with a liquid composed of an aliphatic lower alcohol, wherein the dehydrated fresh flowers are added to the treatment liquid prepared to have a hydrogen ion index (pH) buffering action on the pigment. Dipping and absorbing the pigment into the fresh flowers;
A drying step of drying the fresh flowers taken out of the treatment liquid.   2. The method for processing fresh flowers according to claim 1, wherein the dehydrating step includes a step of immersing fresh flowers in a liquid composed of an aliphatic lower alcohol to dehydrate tissue water contained in the fresh flowers.   In the absorption step, one or two or more kinds selected from citric acid, citrate, acetic acid, acetate, L-tartaric acid, and L-tartaric acid salt are added to a liquid composed of an aliphatic lower alcohol. The dehydrated fresh flower is immersed in a treatment liquid in which a component, one or more components selected from amino acids, lactic acid, and sodium lactate are mixed with a pigment, and the pigment is used as the fresh flower. The method of processing a fresh flower according to claim 1 or 2, further comprising a step of absorbing it. A first treatment step for dehydrating tissue water from fresh flowers;
A liquid comprising an aliphatic lower alcohol, one or more components selected from citric acid, citrate, acetic acid, acetate, L-tartaric acid, and L-tartaric acid salt, an amino acid, The fresh flower that has been dehydrated is immersed in a treatment liquid in which one or two or more components selected from lactic acid and sodium lactate are mixed with a white pigment, and the white pigment is absorbed by the fresh flower. A second processing step;
A drying step of drying the fresh flowers taken out of the treatment liquid. The first processing step is
A liquid comprising an aliphatic lower alcohol, one or more components selected from citric acid, citrate, acetic acid, acetate, L-tartaric acid, and L-tartaric acid salt, an amino acid, A fresh flower is immersed in a pretreatment liquid in which one or two or more components selected from lactic acid and sodium lactate are mixed with a white pigment to dehydrate tissue water contained in the fresh flower and the white color. The method for processing fresh flowers according to claim 4, further comprising a step of preabsorbing the pigment.   The white pigment is one or two or more of titanium white, silver white, zinc white, chalk, heavy calcium carbonate, precipitated calcium carbonate, pepper, gypsum, barium sulfate, and alumina white. The processing method of the fresh flower of Claim 4 or 5 characterized by these. A treatment solution for processing fresh flowers to absorb dehydrated fresh flowers,
A treatment liquid for processing fresh flowers, characterized in that a hydrogen ion index (pH) of a liquid composed of an aliphatic lower alcohol mixed with a pigment has a buffering action on the pigment. A treatment solution for processing fresh flowers to absorb dehydrated fresh flowers,
A liquid comprising an aliphatic lower alcohol, one or more components selected from citric acid, citrate, acetic acid, acetate, L-tartaric acid, and L-tartaric acid salt, an amino acid, A treatment solution for processing fresh flowers, characterized in that one or more components selected from lactic acid and sodium lactate are mixed with a pigment. A dehydration process for dehydrating tissue water from fresh flowers;
In liquids composed of aliphatic lower alcohols, talc, silk powder, pearl powder, sericite powder, mica powder, zinc myristate, anhydrous silicic acid powder, light magnesium carbonate, kaolin, bentonite, corn starch, waxy starch, sago starch, Immerse the dehydrated fresh flowers in a treatment liquid in which one or more powders selected from tapioca starch, wheat starch, rice starch, potato starch, and sweet potato starch are mixed as a white pigment, An absorption step of absorbing the white pigment into the fresh flowers;
A drying step of drying the fresh flowers taken out of the treatment liquid.   The method for processing fresh flowers according to claim 9, wherein the dehydrating step includes a step of immersing fresh flowers in boiled water, vinegar, or a diluted solution of vinegar to dehydrate tissue water contained in the fresh flowers. A treatment solution for processing fresh flowers to absorb dehydrated fresh flowers,
In liquids composed of aliphatic lower alcohols, talc, silk powder, pearl powder, sericite powder, mica powder, zinc myristate, anhydrous silicic acid powder, light magnesium carbonate, kaolin, bentonite, corn starch, waxy starch, sago starch, A processing solution for processing fresh flowers, characterized in that one or more powders selected from tapioca starch, wheat starch, rice starch, potato starch, and sweet potato starch are mixed as a white pigment.

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