KR100835845B1 - Method for manufacturing natural perfume and natural perfume manufactured by using the same - Google Patents

Abstract

A method for manufacturing natural perfume and a natural perfume manufactured by using the same are provided to obtain a natural aroma that does not require a separate chemical after-treatment process. A method for manufacturing natural perform includes the steps of: (S1) preparing law materials containing an aromatic material; (S2) extracting the aromatic material from the law material by stirring the law material with a solvent in an indirect supersonic extracting device that is separated from an oscillator in a predetermined distance; and obtaining a solution containing the aromatic material through a filtering process of letting the extracted resulting material pass through a filter.

Description

Method for manufacturing natural perfume and natural perfume produced by the method {Method for manufacturing natural perfume and natural perfume manufactured by using the same}

1 is a flow chart showing a method for producing a natural perfume using ultrasonic waves according to the present invention.

2 and 3 are a cross-sectional view and a plan view showing an apparatus for extracting aromatic substances using ultrasonic waves according to an embodiment of the present invention.

4 and 5 are a cross-sectional view and a plan view showing a fragrance material extraction apparatus using ultrasonic waves according to another embodiment of the present invention.

The present invention relates to a method for producing a natural perfume and a natural perfume produced by the method, and more particularly to a method for producing a natural perfume using ultrasonic waves and a natural perfume produced by the method.

Fragrances have aromas and are beneficial substances that contribute to human daily life. Perfumes are widely used in fragrances of household goods such as perfumes, soaps, cosmetics, foodstuffs, chewing gum, toothpaste, tobacco, sweets, and medicines. Food flavorings are called spices, and broilers and ginger are examples. In soft drinks, esters, vanillin, coumarin and the like are used and are called essences.

Substances used as fragrances have excellent volatility at room temperature and range from 400 to 500 species. Fragrances are roughly classified into natural fragrances obtained from roses and lemons, isolated fragrances separated from refined raw materials such as inexpensive natural fragrances and coal tar, and synthetic fragrances synthesized through chemical reactions. It is also called artificial fragrance by combining single and synthetic fragrances. In addition, cosmetic fragrances and food flavorings are largely classified by use. Cosmetic fragrances are mainly aimed at scenting, but food flavors are mainly flavored with flavor.

Natural flavors include animal and vegetable flavors, the former being civet, civet, ambergris and castor. Vegetable flavors are obtained from aromatic plants, flowers, buds, fruits, leaves, branches, stems, roots, and natural resins. Various methods for extracting natural substances of animals and plants containing fragrance and using them as raw materials for cosmetics such as perfumes are known.

First, there is usually a method of extracting hot water under high temperature and high pressure, purifying it, and then diluting it with necessary additives such as distilled water or ethanol. However, the method of extracting hot water causes the destruction or modification of protein molecules constituting the fragrance in the process, making it impossible to extract the fragrance which is a fresh natural fragrance.

Second, there is a method of pulverizing natural substances of plants and animals and dissolving them in distilled water or an organic solvent and then purifying them. However, after dissolving and stirring in distilled water or organic solvent, the method of post-treatment takes a long time of extraction time of at least 18 to 36 hours, and the same raw material is repeated to obtain a fragrance which is a desired natural fragrance. There is a problem to extract or use a large amount of raw materials.

Third, there is a method of directly irradiating the ultrasonic wave with the raw material along with the solvent and using it. This method is very efficient and easy to extract natural substances, but there is a need for a method for post-treatment such that nano-sized fine metal particles are present in the fragrance, which is extracted fragrance, so that there is no danger to the human body. In other words, a huge economic cost is required to separate the microscopic harmful substances and fragrances which are fragrances.

In order to solve the problems of the prior art as described above, an object of the present invention is to provide a method for producing a natural flavor and a natural flavor produced by the method does not have a modification of the protein at room temperature and does not require a separate chemical post-treatment process do.

In order to achieve the above object, the production method of the natural perfume of the present invention prepares a raw material including fragrance material and stirs the raw material together with a solvent in an indirect ultrasonic extraction apparatus spaced a predetermined distance from the vibrator to the raw material at room temperature. After extracting the fragrance substance, a solution containing the fragrance substance is obtained through a filtration process through which the resultant substance is extracted through a filter device.

In the present invention, the solvent is preferably any one selected from distilled water or ethanol.

In the present invention, the method may further include diluting the solution containing the perfume.

In the present invention, the indirect ultrasonic extraction apparatus is an extraction tank for receiving the extraction object and the extraction solvent, a vibrating portion disposed to extend up and down in the central portion of the extraction tank, a predetermined distance from the vibration portion and separated from the extraction object and the vibration portion Impregnated in the extraction tank, it may be composed of a transmission plate for transmitting the ultrasonic wave generated in the vibrating portion to the extraction object, and the ultrasonic transmission material filled in the space in the transmission plate including the vibrating portion.

In the present invention, the indirect ultrasonic extraction apparatus is an extraction tank for receiving the extraction object and the extraction solvent, a vibration unit disposed to surround the outside of the extraction tank, the vibration unit is spaced apart from the predetermined distance and arranged to separate the extraction object and the vibration unit, Ultrasonic waves generated from the vibrating portion may be composed of a transmission tube for transmitting the extracted object and the ultrasonic wave transmission material filled in the space in the transmission plate including the vibrating portion.

Natural flavor of the present invention is prepared using the above-described ultrasonic extraction method.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a flow chart showing a method for producing a natural perfume using ultrasonic waves according to the present invention.

First, the raw material is pretreated (S1). That is, in the case of using a dried raw material, the dried raw material is finely crushed in a washing machine or a ball mill after washing and drying. When using a raw material containing water, finely cut it by impregnation with distilled water or ethanol to prevent oxidation.

Next, after the pretreatment, the raw material is stirred with a solvent such as distilled water or ethanol in an ultrasonic extraction apparatus to extract the aromatic material from the raw material at room temperature (S2). Ultrasonic extraction is carried out at room temperature, the temperature range is 10 to 20 degrees Celsius, it is generally most effective to extract between 20 to 30 degrees Celsius. The weight ratio between solvent and raw materials ranges from 8: 2 to 2: 8, and the optimum conditions vary depending on the raw materials.

Next, a solution in which the aromatic substance is dissolved is taken through a filtration process through which the resultant substance is extracted through a filter device (S3).

Next, a dilution process is finally performed to dilute the solution containing the aromatics as necessary (S4).

2 and 3 are a cross-sectional view and a plan view showing an apparatus for extracting aromatic substances using ultrasonic waves according to an embodiment of the present invention.

Referring to FIGS. 2 and 3, an extraction tank 100 surrounded by a shell 112 and covered with an upper lid 110 is formed. Inlet (108) and the outlet (Outlet, 111) is disposed in the extraction tank 100, the extraction object and the extraction solvent may be introduced or discharged. A vibration part 103 is disposed to be impregnated so as to extend up and down at a central portion in the extraction tank 100 accommodating the extraction object and the extraction solvent, and the extraction tank 100 spaced apart from the vibration part 103 by a predetermined distance. The transmitting part (109) is arranged to be separated from the space of). The vibrator 103 is connected to the upper plate 110 through the transmission plate 109 and the connector 102. The transmission plate 109 transmits the ultrasonic waves generated by the vibrator 103 to the extraction object, and includes an ultrasonic transfer material 107 filled in the space in the transmission plate 109 including the vibrator 103. do. The ultrasonic transfer material 107 may be any liquid material having good conductivity of ultrasonic waves, and preferably, a medium capable of efficiently extracting the extract material most efficiently in terms of ease of use and cost. In addition, the portion containing the extraction target of the extraction tank 100 may be configured to further include one or two or more impellers (Impeller, 105) driven by the stirring device (Agitater, 104) such as a motor. Through this, the material movement in the extraction tank 100 can be made more active, and the extraction of the object to be extracted can be made easier. In addition, a baffle plate 106 may be installed at the lower portion of the extraction tank 100 so that the irradiation of the ultrasonic waves is evenly performed on all the extraction objects. The impeller 105 may be applied to a shape used for a well-known extraction device or agitator, and the arrangement of the impeller 105 located on each axis may be in any form, and preferably, the impeller 105 connected to two shafts. Can be arranged to be parallel to each other. The vibrator 103 may use an ultrasonic generator vibrator applied to a known ultrasonic extraction device, and the vibrator 103 is connected to and driven by an oscillator 101 to generate ultrasonic waves.

The permeable plate 109 impregnated in the extraction vessel 100, which is a feature of the present invention, performs two functions together. First, the extraction tank 100 is separated into two spaces by being spaced apart at regular intervals from the vibration unit 103 in the vibration space. Therefore, the extraction tank 100 is separated into a portion containing the extract object and a portion containing the ultrasonic wave transmission material, each part is separated from the impossible movement of the material, the extract object and the vibrator 103 is substantially in contact with It does not occur. On the other hand, the ultrasonic wave generated from the vibrator 103 is transmitted to the transmission plate 109 through the ultrasonic transfer material 107 and to the extraction object through the transmission plate 109. The transmissive plate 109 is preferably thin enough to sufficiently reduce the output of the ultrasonic wave. That is, it may be an inert thin plate having a thickness of 0.2 to 0.5 mm, and is preferably a thin plate made of an inert material with an ultrasonic transfer material or an extraction solvent.

4 and 5 are a cross-sectional view and a plan view showing a fragrance material extraction apparatus using ultrasonic waves according to another embodiment of the present invention.

4 and 5, a jacket shell 212 is connected to a connector 213. A connector is formed to accommodate an extraction tank. The extraction tank 200 covered with the upper lid 210 is formed in the space formed by the outer shell 212. Inlet (not shown) and the outlet (Outlet, 211) is disposed in the extraction tank 200 may be the extraction object and the extraction solvent is introduced or discharged. A vibration panel 203 is disposed surrounding the outside of the extraction tank 200 for receiving the extraction object and the extraction solvent, and a vibrator 202 is connected to the vibration unit 203. A transmitting drum 209 is disposed to be separated from the space of the extraction tank 200 at a predetermined distance from the vibrator 203. The transmission cylinder 209 includes an ultrasonic transfer material 207 filled in a space in the transmission cylinder 209 for transmitting the ultrasonic wave generated from the vibrator 203 to the extraction object. Vibration absorbers 208 may be disposed at upper and lower ends of the transmission cylinder 209, respectively. The transmission tube 209 may allow the ultrasonic transfer material 207 to enter or exit in the direction of the arrow. The ultrasonic transfer material 207 may be any liquid material having good conductivity of ultrasonic waves, and preferably, a medium capable of efficiently extracting the extract material most efficiently in terms of ease of use and cost. In addition, the central portion of the portion containing the extraction target of the extraction tank 200 may be configured to further include an impeller (205) driven by the stirring device (Agitater, 204) such as a motor. Through this, the material movement in the extraction tank 200 can be made more active, and the extraction of the object to be extracted can be made easier. In addition, a baffle plate 206 may be installed in the lower portion of the extraction tank 200 so that the irradiation of the ultrasonic waves is evenly performed on all the extraction objects. The vibrator 203 may use an ultrasonic generator vibrator 202 applied to a known ultrasonic extraction device, and the vibrator 203 is connected to and driven by a generator 201 to generate ultrasonic waves.

The transmission cylinder 209 surrounding the extraction vessel 200 which is a feature of the present invention performs two functions together. First, the extraction tank 200 is separated into two spaces by being spaced apart at regular intervals from the vibration unit 203 in the vibration space. Therefore, the extraction tank 200 is separated into a portion containing the extract object and the portion containing the ultrasonic wave transmission material 207, each part is isolated to be impossible to move the material, the extract object and the vibrating portion 203 is Substantial contact does not occur. On the other hand, the ultrasonic wave generated from the vibrator 203 is transmitted to the transmission cylinder 209 through the ultrasonic transfer material 207 and to the extraction object through the transmission cylinder 209. Transmissive cylinder 209 is preferably thin enough to reduce the output of the ultrasonic wave sufficiently. That is, it may be an inert thin plate having a thickness of 0.2 to 0.5 mm, and is preferably a thin plate made of an inert material with an ultrasonic transfer material or an extraction solvent.

As described above, the present invention can produce a fragrance using natural products, and can prepare a raw material of perfume, fragrance oil, or cosmetics that are commonly used. The method for producing natural flavor of the present invention is a simple extraction method using a natural vegetable such as roses, lilies, acacia, lavender green leaves and animal natural raw materials such as herbs or mask rats and proceeds the extraction process at room temperature, Impurities at the time of ultrasonic generation are not included in the extract, so a natural result can be obtained without the need for additional post-treatment after extraction. Thereafter, the resultant simply passes the filtration process through a filter device to separate only the solution in which the extracted molecular material is dissolved, and physically dilute it according to the purpose to obtain a perfume.

The present invention described above is not limited to the above-described drawings and detailed description, and various modifications and changes made by those skilled in the art without departing from the spirit and scope of the present invention described in the claims below. Of course, it is also included within the scope of the present invention.

As described above, the present invention can proceed to the extraction process at room temperature to extract the fragrance which is a fresh natural fragrance without breaking or modifying the protein molecules constituting the fragrance.

In addition, since the vibrator and the extraction object do not directly contact in the ultrasonic extraction process, since nano-sized metal impurities are not included in the ultrasonic wave, an additional chemical post-treatment is not performed, so it is economical.

Claims (6)

delete delete delete Preparing a raw material including fragrance material; Stirring the raw material together with a solvent in an indirect ultrasonic extraction apparatus spaced a predetermined distance from the vibrator to extract the fragrance material from the raw material at room temperature; And And obtaining a solution containing the fragrance substance through a filtration process passing the resultant from which the fragrance substance is extracted through a filter device. The indirect ultrasonic extraction device, An extraction tank accommodating an extraction object and an extraction solvent; Vibration unit disposed to extend up and down in the central portion of the extraction tank; A transmission plate spaced apart from the vibrating unit by a predetermined distance and impregnated in the extraction tank so as to separate the extract object from the vibrating unit, and transmitting ultrasonic waves generated from the vibrating unit to the extract object; And The method of producing a natural fragrance, characterized in that it comprises an ultrasonic transmission material filled in the space in the transmission plate including the vibrating portion. Preparing a raw material including fragrance material; Stirring the raw material together with a solvent in an indirect ultrasonic extraction apparatus spaced a predetermined distance from the vibrator to extract the fragrance material from the raw material at room temperature; And And obtaining a solution containing the fragrance substance through a filtration process passing the resultant from which the fragrance substance is extracted through a filter device. The indirect ultrasonic extraction device, An extraction tank accommodating an extraction object and an extraction solvent; A vibrator arranged to surround the outside of the extraction tank; A transmission tube spaced apart from the vibrating unit by a predetermined distance and separated from the extracting object and the vibrating unit, and transmitting an ultrasonic wave generated from the vibrating unit to the extracting object; And Method of producing a natural perfume, characterized in that it comprises an ultrasonic wave transmission material filled in the space in the transmission cylinder including the vibration. delete

Images