JP2004189953A - Extraction of chinese gutta percha rubber - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of efficiently extracting Chinese gutta percha rubber from a variety of parts of the plant, namely leaves, leaf stems (thick veins of leaves), stems, rinds, seeds and roots of Chinese gutta percha trees and obtain Chinese gutta percha rubber of high purity in high yield. <P>SOLUTION: In the extraction of Chinese gutta percha rubber, parts of the tree are treated with ethanol, the ethanol extract is removed, the residual solid fraction is extracted with toluene and the Chinese gutta percha rubber solution in toluene is concentrated or evaporated to dryness. Then, resultant crude Chines gutta percha is precipitated from a toluene-methanol mixed solvent and the precipitate is dissolved in hot n-hexane, then they are cooled down to collect the precipitate in the pure form. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention efficiently extracts and separates the Tochu rubber from various parts of the Tochu tree, such as Tochu, leaves, stems, peels, seeds, and roots, and produces high-purity Tochu rubber in a high yield. On how to get.
[0002]
[Prior art]
In modern industrial society, rubber products are used everywhere, and it is no exaggeration to say that society cannot be established without rubber products. Rubber is such an important material, but the actual consumption of rubber materials in Japan in 2000 is about 750,000 tons for natural rubber and about 1,140,000 tons for SBR of typical synthetic rubber. Needless to say, SBR is derived from petroleum, and it is desirable to reduce and save the consumption of SBR from the viewpoints of the use of mineral resources and the preservation of the global environment (discharge of carbon dioxide). Therefore, the consumption of SBR may be replaced with natural rubber, but natural rubber has a resource bias in the southern region, and replacement is not always performed smoothly.
[0003]
Natural rubber is a cis-type isoprene rubber made from sap collected from rubber trees, but other rubber resources are also known to produce natural rubber, which can grow even in warm regions. . Prior to the invention of the petroleum-based synthetic rubber, rubber substances were also collected from Tochu, and were widely used as submarine wire coating materials, golf ball coating materials, and dental materials. However, since synthetic rubber has come to be synthesized at low cost, these have almost been replaced by synthetic rubber. The rubber produced by Tonaka is a trans-type isoprene rubber, which has the characteristics of a trans-type rubber, such as electrical insulation, corrosion resistance, and wear resistance, as well as excellent compatibility with the human body, and is also used as a dental material. It was. Here, it is not only able to provide a rubber material having good characteristics, but also to significantly extract the Tochu rubber and restore it as a natural rubber material, which is extremely significant in terms of protecting the global environment.
[0004]
In the 1930s, Tochu rubber was produced in Russia by planting Tochu trees. At present, in China, rubber is experimentally extracted from Yunaka and new development of rubber products is being attempted. Tochu rubber extraction method in China does not accurately extract rubber material, but involves dissolving and removing other woody components in a solvent and taking out the remaining rubber material. These will be described below.
[0005]
(1) Centrifugal separation method: The raw material is pulverized, and the pulverized product is heated and extracted with alkaline water, and the remaining solid content is recovered as chunaka rubber. In this method, it is difficult to treat the alkaline residual liquid, and the purity of the resulting Tochu rubber is difficult.
[0006]
(2) Solvent method: A raw material is immersed in lime water, and its solid content is treated with a solvent to produce Tonaka rubber. Since this also basically uses alkaline water, the drainage treatment of the alkali containing the woody material becomes a problem, and this method is not appropriate under the severe environmental problem as recently. Further, the purity and recovery rate of the resulting Tochu rubber is not sufficient.
[0007]
(3) Alkaline method: The raw material is immersed in lime water, then treated with alkali, washed in warm water, then rinsed with chlorine rinse, and further treated with acid to obtain a solid rubber. In this case, treatment of waste liquids of alkali, chlorinated water and acid is a problem and is not practical.
[0008]
(4) Solvent extraction method: The raw material is directly subjected to reflux extraction with toluene, the solid content is removed, and the extract is evaporated to dryness to obtain a residue. It is subjected to reflux extraction with toluene again, the solid content is removed, and the extract is evaporated to dryness to obtain a solid. This operation is repeated to obtain a refined rubber. This method is an effective method because it does not generate waste liquid such as alkali and can be used repeatedly by collecting the solvent.
[0009]
However, in the first toluene treatment, the pigment component (chlorophyll, etc.) derived from Tonaka raw materials is dissolved in toluene, so it is necessary to repeat the extraction operation to remove this component, so the overall extraction efficiency is There is a difficulty of being 30% or less.
[0010]
[Problems to be solved by the invention]
In view of the above circumstances, the present invention efficiently extracts and separates the Tochu rubber from various parts of the Tochu tree, such as Tochu leaves, the stem (leaves) of the Tochu leaves, the skin, the seeds, and the roots. It is an object of the present invention to provide a method for obtaining a high yield.
[0011]
[Means for Solving the Problems]
The present invention has been devised to achieve the above-mentioned problem, and the raw material Nakama is extracted with ethanol to remove the ethanol extract, and the remaining solid content is extracted with toluene. Toluene is concentrated or evaporated to dryness, and the resulting crude rubber is precipitated in a toluene / methanol mixed solvent, and the resulting precipitate is dissolved in hot n-hexane and then cooled. This is a characteristic Tonaka rubber extraction method.
[0012]
【Example】
Next, in order to specifically explain the present invention, examples of the present invention and comparative examples for showing comparison with the examples will be given.
[0013]
FIG. 1 is a flow sheet showing a method for extracting Tonaka rubber according to the present invention. First, various parts of the tsuchu tree such as chunakaba, chunaka stalk (vein vein), chuchu stalk, skin, seeds, roots, etc. are pulverized. The solid content was refluxed with toluene. The obtained Tochu rubber dissolved toluene is concentrated or evaporated to dryness to obtain crude Tochu rubber. The crude rubber paste is stirred in a toluene / methanol mixed solvent and then allowed to stand to obtain a precipitate. The operation after extraction with toluene is repeated twice more. Finally, the obtained precipitate is dissolved in hot n-hexane with stirring, and then cooled in a stationary state to obtain a white precipitate, that is, purified purified rubber.
[0014]
Example 1
2 kg of Tochu leaf was pulverized, and the obtained pulverized product was used as a Tochu rubber manufacturing raw material. The content of Tochu rubber in this raw material was 34 g (1.7% by weight). This Tochu leaf was subjected to reflux extraction with 30 liters of ethanol for 24 hours. This eliminates low molecular weight compounds and dye components. The remaining solid was subjected to reflux extraction with 30 liters of toluene for 24 hours. This Tochu rubber-dissolved toluene was concentrated to about 1/10 volume (3 liters), and the resulting concentrated solution was added dropwise to a toluene-methanol (1:20) solution to obtain a Tonaka rubber precipitate. The precipitate was redissolved in 3 liters of toluene, and the concentrated solution was again added dropwise to the previous toluene / methanol solution. This operation was repeated once more to obtain a Tonaka rubber precipitate. Finally, the obtained precipitate was dissolved in 3 liters of hot n-hexane at about 60 ° C., and then the solution temperature was lowered to obtain 26 g of purified white rubber rubber precipitate. This corresponds to 76% of the content of Tochu Nakaba.
[0015]
Example 2
The molecular weight distribution of the Tochu rubber obtained in Example 1 was measured by size exclusion chromatography. The result is shown in FIG. In addition, this Tochu average molecular weight is shown below.
[0016]
Number average molecular weight: 4600
Weight average molecular weight: 7500
Polydispersity: 1.6
As can be seen from FIG. 2, the Tochu rubber obtained in Example 1 has high purity.
[0017]
Comparative Example 1
Except for omitting the step of reflux extraction of ethanol with ethanol, the same operation as in Example 1 was performed to obtain 10 g of a dark green precipitate of rubber. This corresponds to 30% of the Tochu Naka content.
[0018]
Comparative Example 2
The molecular weight distribution of the Tochu rubber obtained in Comparative Example 1 was measured by size exclusion chromatography. The result is shown in FIG. In addition, this Tochu average molecular weight is shown below.
[0019]
Number average molecular weight: 2100
Weight average molecular weight: 3200
Polydispersity: 15.3
As can be seen from FIG. 3, the Tochu rubber obtained in Comparative Example 1 also has a peak in the low molecular region (low molecular compound remains) and has low purity.
[0020]
【The invention's effect】
In the Tochu rubber extraction method according to the present invention, the raw material Tochu is extracted with ethanol before the toluene extraction, so that the toluene extraction can be performed after removing the pigment components (such as chlorophyll) derived from the Tochu raw material in advance. Therefore, it does not cause the environmental pollution problem that was the disadvantage of the conventional alkali method, and it can solve the problems such as residual impurities and low production yield in the conventional solvent extraction method. it can.
[Brief description of the drawings]
FIG. 1 is a flow sheet showing a method for extracting Tochu rubber according to the present invention.
FIG. 2 is a graph showing the molecular weight distribution measured by size exclusion chromatography for the Tochu rubber obtained in Example 1.
FIG. 3 is a graph showing the molecular weight distribution of Tochu rubber obtained in Comparative Example 1 as measured by size exclusion chromatography.

Claims (2)

The raw material Tochu was extracted with ethanol to remove the ethanol extract, the remaining solid was extracted with toluene, and the resulting Tochu rubber-dissolved toluene was concentrated or evaporated to dryness, A process for extracting rubber from rubber, characterized by precipitating rubber in a mixed solvent of toluene and methanol, dissolving the resulting precipitate in hot n-hexane, and then precipitating by cooling. Tochu rubber obtained by the method according to claim 1.

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