KR101798419B1

KR101798419B1 - Development system for cosmetic and Development method for cosmetic therefor

Info

Publication number: KR101798419B1
Application number: KR1020160041722A
Authority: KR
Inventors: 홍근혜; 현광수; 김은지; 김이영; 이동수; 유장영; 김선영
Original assignee: (주)메가코스
Priority date: 2016-04-05
Filing date: 2016-04-05
Publication date: 2017-11-21
Also published as: KR20170114186A

Abstract

The present invention can be applied to the development of cosmetics as well as the development of a new prescription of cosmetics, so that the raw material can be immediately applied to instantly confirm the feeling and properties in the formulation, As the efficiency of work and related tasks increases, the result is the development of a variety of makeup products and the use of data through colorimetry to create accurate color schemes, multicolor color molding, multisampling, multilayer, multiple core-shells, The present invention relates to a system and a method for developing a styling cosmetic material that enables a design molding of an orthopedic cosmetic material to be performed in a predetermined shape, Information for the formation of cosmetics based on the data A 3D printer for producing a styling cosmetic product in accordance with data output from the electronic device, and a color printer for converting the coloring information inputted from the electronic device and corresponding data output from the electronic device into each other And a database unit that is stored in a mapped form.

Description

Technical Field [0001] The present invention relates to a cosmetic composition for cosmetics,

The present invention can be applied to the development of cosmetics as well as the development of a new prescription of cosmetics, so that the raw material can be immediately applied to instantly confirm the feeling and properties in the formulation, As the efficiency of work and related tasks increases, the result is the development of a variety of makeup products and the use of data through colorimetry to create accurate color schemes, multicolor color molding, multisampling, multilayer, multiple core-shells, The present invention also relates to a system and a method for developing a styling cosmetic material that enables a design molding of an obtuse-like shape.

In the process of researching and developing a stylized cosmetic composition (hereinafter, referred to as "orthopedic cosmetic composition") like a stick type cosmetic composition, that is, a process of developing a new cosmetic composition, Weighing, manufacturing, filling and molding, and feeling of use and color confirmation process. In this process, various experimental tools such as a mixer, a scale, and a water bath are used.

In addition, the usual process for developing a stick type cosmetic material such as lipstick is to dissolve the color after heating and dissolving in accordance with the basis weight of the raw material, fill the molding material with the material formed through such processes, When coloring is necessary, the coloring is further performed by repeating the process of dissolving again, adding and dispersing the color, filling the mold, and then performing the cooling process. Water balance is used for weighing work, water bath is used for heat dissolving work, and a mixer is used for color input work.

In addition, the base development process of the stick type cosmetic material is similar to the above-described process of developing the stick type cosmetic material, that is, the base development process of the stick type cosmetic material is performed after the weighing process in which 100% After the molten raw material is melted and dispersed, the material that has undergone this series of processes is molded through filling of the molding die to make a prototype. Then, after designing the prescription according to the result of the evaluation of the prototype, After making a prototype by heating, dissolving, dispersing and molding, we will make the product again. We will make a review after the pre-planned or satisfactory result. I had to keep repeating them.

Experiments such as a mixer, a scale, and a water bath are required for this purpose. That is, the development of the conventional stick type cosmetic material or the base type of the stick type cosmetic material requires experiments such as a mixer, Tools were essential.

In summary, the development and base development methods of orthopedic cosmetics such as conventional stick type cosmetics require a long time and at the same time, the consumption of raw materials is also increased in proportion to the required time, which leads to development of orthopedic cosmetics such as stick type cosmetics The reason for the delay in the development of the base was caused by the increase of the cost, and the experimental tools such as the mixer, the balance, and the water bath were necessary.

In addition, molds of certain molds are required for shaping orthopedic cosmetics such as stick type cosmetics, and it is difficult to produce various models, and time consuming and molding costs are incurred in the cooling process. In addition, there are limitations in producing various models and various colors.

Korean Patent Laid-Open No. 10-2006-0109797 (published on October 23, 2006), " Customer-customized cosmetics dispensing system and method in a store " Korean Patent Publication No. 10-2016-0018096 (published on Feb. 17, 2016), " Composite 3D Printing Apparatus and Method "

In the embodiment of the present invention, the color can be confirmed immediately upon development of the orthopedic cosmetic composition and the corresponding orthopedic cosmetic composition, and when the color composition is required, the easy operation of changing the data value using the electronic device and the 3D printer The user can refer to the data stored in the database unit in advance to perform the coloring operation more quickly and accurately. In addition to this quick and accurate coloring operation, the data stored in the database unit and the smart printer The present invention provides a system and method for developing a styling cosmetic that enables molding to be applied with color matching, multicolor color molding, multisample, and design printing.

In addition, the embodiment of the present invention can also promptly confirm the feeling and the property in the formulation by immediately applying the raw material even in the development of a new prescription for the cosmetic, The present invention provides a system and method for developing a cosmetic cosmetic composition that enables an accurate color tone through the development of various makeup products and utilization of data through colorimetry as a result of an increase in efficiency of improvement work and related tasks.

An electronic device for generating and outputting data for forming a cosmetic composition on the basis of one or more colorimetric information measured and inputted according to a certain measurement standard, And a 3D printer for manufacturing a cosmetic composition according to the output data.

In addition to the one or two pieces of colorimetry information to be input, the electronic device may further include an input amount of the corresponding raw material by color, a sequence of inputting the raw material of the color reference and an input amount, a stacking amount or stack height of the raw material by color under the premise that two or more raw materials are not simultaneously input, And solubility of the raw material to generate data for forming a cosmetic composition.

And the data for forming the cosmetic composition and the identification information of the cosmetic composition generated in the electronic device are mapped to each other and stored in a storage unit included in the electronic device or in a separate storage unit connected to the electronic device .

The system for developing a cosmetic composition according to an embodiment of the present invention may further include a database unit in which one or more coloring information input to the electronic device and corresponding data output from the electronic device are mapped to each other .

Also, in the database unit, only the color information output from the electronic device may be mapped with one or more corresponding colorimetry information input to the electronic device and stored.

In addition, the database may store the colorimetric information measured on the raw materials for cosmetic preparation according to the measurement standard.

In addition, the electronic device may include a function of adjusting the usage amount and the stacking height of each raw material to the same ratio so as to reduce the raw material amount used for forming the shaping cosmetic material on the basis of one orthopedic cosmetic material.

The 3D printer includes a plurality of raw hoppers for storing raw materials for cosmetic production, a raw material injection nozzle installed for each raw material hopper for discharging raw materials in the raw material hopper, A moving device for moving the cosmetic container into a position of a raw material injection nozzle of a raw material hopper for receiving a raw material from among the raw material hoppers to be introduced into the raw material hopper discharged through a nozzle; And a control unit for receiving the output data of the electronic device from the communication unit and controlling the operation of the material jetting nozzles and the moving device in accordance with data for forming a makeup of the input electronic device .

The moving device may also be in the form of either a turntable or a conveying rail including a conveyor belt.

Also, in the electronic device, the measurement reference for acquiring the colorimetric information may be a method of recognizing only the colorimetric information measured through the same type of colorimeter as valid data.

The method of developing a styling cosmetic product according to an embodiment of the present invention includes the steps of inputting one or two or more colorimetric information measured according to predetermined predetermined measurement criteria to an electronic device, The method comprising the steps of: preparing a cosmetic material in a 3D printer according to data for forming a cosmetic material output from the electronic device, and inspecting the cosmetic material manufactured through the 3D printer And storing the identification information of the cosmetics passed through the inspection process and the data generated in the electronic device in a form of being mapped to the database unit for formation thereof.

The step of generating and outputting data for forming a cosmetic based on the colorimetric information input from the electronic device may include a step of inputting colorimetric information of the colorimetric raw material in addition to one or more colorimetric information input from the electronic device, A process of generating data for forming a cosmetic product by further including at least one of information on the order and amount of the raw material, the amount of the raw material to be laminated or the height of the laminated raw material, and the solubility of the raw material in each color under the premise that two or more raw materials are not simultaneously supplied May be included.

In addition, the identification information of the cosmetics passed through the inspection process and the data stored in the database unit in a form in which the data generated in the electronic device is mapped for the formation of the cosmetics is stored in the database, And a step of forming color combination data for producing a shaping cosmetic product by storing the information in the database unit in a state where the information is mapped with one or more colorimetry information used for generating the corresponding data.

According to the embodiment of the present invention, the color can be confirmed immediately upon the development of the orthopedic cosmetic composition and the corresponding shaping cosmetic composition, and when the color composition is required, the easiness of changing the data value using the electronic device and the 3D printer The coloring operation can be carried out through one operation, and various data generated in the course of this work can be accumulated and stored in such a manner that it is continuously updated. Thus, various kinds of information for the development of orthopedic cosmetics or new prescription, The database can be constructed so that the coloring operation can be performed more quickly and precisely based on the reference or the like of the database, and this quick and precise coloring operation can be performed very easily.

In addition, since various data generated in the course of the development of orthopedic cosmetics or new prescriptions and the manufacture of orthopedic cosmetics are accumulated and accumulated in a manner that is continuously updated, a database is constructed. Therefore, It is possible to perform operations such as smart color matching, multicolor color molding, multisampling, molding with design printing, etc. in the process of developing a cosmetic or a new prescription, and manufacturing the orthopedic cosmetic product, and at the same time,

In addition, even when developing a new prescription for a cosmetic product, it is possible to immediately confirm the feeling and the property in the formulation by immediately applying the raw material, and the sample can be produced at the time of the stability test, As the efficiency increases, the result is the development of a variety of makeup products and the use of data through colorimetric colorimetry.

Consequently, it becomes possible to systematize toning data on the color of the cosmetic material, and the quality of the cosmetic composition can be improved. In addition, color charts and new types of samples are accumulated through database of development prescriptions, and time saving, convenience, and accuracy are realized by innovating the development process of cosmetics through cartridge mounting.

1 is a block diagram showing a basic configuration of a system for developing a stylized cosmetic composition according to an embodiment of the present invention;
2 is a block diagram showing a detailed configuration of a system for developing a stylized cosmetic composition according to an embodiment of the present invention.
3 is a block diagram conceptually showing an embodiment of a 3D printer in a development system for orthopedic cosmetic according to an embodiment of the present invention
4 is a flow chart illustrating a method of developing a cosmetic composition according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components in each described embodiment may be varied without departing from the spirit and scope of the present invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term, not on the name of a simple term, but on the entire contents of the present invention.

Whenever an element is referred to as " including " an element throughout the description, it is to be understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. In addition, the term " "... Module " or the like means a unit for processing at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

1 to 4, a description will be given of a system and method for developing a shaping cosmetic composition according to an embodiment of the present invention.

First, a description will be given of a system for developing a shaping cosmetic product according to an embodiment of the present invention with reference to FIGS. 1 to 3. FIG.

1 is a block diagram showing a basic configuration of a developing system for shaping cosmetics according to an embodiment of the present invention.

As shown in the figure, the system for developing a shaping cosmetic product according to an embodiment of the present invention mainly comprises an electronic device 10 and a 3D printing unit 20. In addition, the system for developing a stylized cosmetic product according to an embodiment of the present invention may further include a database unit 30 and a color difference meter 40.

The electronic device 10 generates data for forming a cosmetic based on one or two or more colorimetric information measured and inputted according to a certain measurement standard. Here, as the measurement reference for obtaining the colorimetric information, a method of recognizing only the colorimetric information measured through the colorimeter 40 of the same type as valid data may be used.

In addition to the input color information, the electronic device 10 may store the input amount of the corresponding raw material by color, the order and amount of input of the raw material of the color reference, the amount of the corresponding raw material by the color or the stack height , And the solubility of the corresponding raw material by color, so as to generate data for forming a cosmetic product.

(Not shown) or the electronic device 10 included in the electronic device 10 in such a manner that data for forming the cosmetics produced in the electronic device 10 and identification information of the cosmetics are mapped to each other And may be stored in a separate storage unit (not shown). In this embodiment, the information is stored in the database unit 30 corresponding to a separate storage unit.

In addition, the electronic device 10 may have a function of adjusting the usage amount and the stacking height of each raw material to the same ratio in order to reduce the raw material amount used for forming the shaping cosmetic material on the basis of one orthopedic cosmetic material. This function of the electronic device 10 can shorten the manufacturing time of the orthopedic cosmetic material through the 3D printing unit 20 which will be described later and enable more accurate feeling of use and color feeling through the production of the specimen, As a result, the development of orthopedic cosmetic products can be carried out more accurately and quickly. Examples of the specimen include artificial skin, lips, nails, aluminum pan, and the like.

The 3D printing unit 20 manufactures a styling cosmetic according to the data output from the electronic device 10. [

The database unit 30 stores one or more colorimetric information input to the electronic device 10 and corresponding data output from the electronic device 10 in a form mapped to each other. Here, only the color information output from the electronic device 10 may be mapped and stored in the database unit 30 with one or two or more corresponding colorimetry information input to the electronic device 10.

The database 30 may store the colorimetric information measured according to a certain measurement standard for acquiring colorimetric information on the raw materials for manufacturing cosmetics mentioned in the description of the electronic device 10. [

The database unit 30 is constructed by accumulating and accumulating the various data generated in the process of developing the orthopedic cosmetic or the new prescription and the orthopedic cosmetic preparation process, It is possible to work such as coloring work, smart color matching, multicolor color molding, multisampling, molding with design printing, etc., since a database having a large amount of information is prepared for manufacturing. At the same time, the tasks can be processed quickly, accurately, and easily.

With the above-described configuration, the color can be confirmed immediately upon development of the orthopedic cosmetic composition and the corresponding shaping cosmetic composition, and at the same time, an easy operation for changing the data value input to the electronic device 10 It is possible to refer to the data stored in the database unit 30 during the coloring operation. In addition to the coloring operation and the coloring operation, the coloring operation such as smart color matching, multicolor coloring, multisampling, The work can be performed more quickly and accurately, and at the same time, such a quick and precise coloring operation can be performed very easily.

In addition, even when developing a new prescription, raw materials can be immediately applied to immediately confirm the feel and feel in the formulation, and the sample can be produced when the stability test is performed in the future, thereby improving the efficiency of the development and improvement of orthopedic cosmetic products and related tasks As a result, development of various make-up products and utilization of data through colorimetry enables accurate color matching, smart color matching, multicolor color molding, multisampling, and molding with design printing.

Next, a more detailed configuration of the electronic device 10 and the 3D printing unit 20 described with reference to FIG. 1 will be described with reference to FIG.

2 is a block diagram showing a detailed configuration of a system for developing a styling cosmetic product according to an embodiment of the present invention.

The electronic device 10 may include an input unit 11, a control unit 12, a communication unit 13, and a storage unit 14.

The input unit 11 receives one or two or more colorimetry information and various other signals and data. For example, the input unit 11 receives the colorimetry information from the colorimeter 40 and transmits the colorimetric information to the controller 12.

The control unit 12 generates data for forming cosmetics based on the colorimetry information input through the input unit 11. The control unit 12 also controls the overall operation of the electronic device 10. [

The communication unit 13 functions to transmit data for forming cosmetics, which are generated and output through the control unit 12, to the 3D printing unit 20. The communication unit 13 may be a wired communication module and a wireless communication module.

The storage unit 14 stores various information to be processed through the controller 12.

The control unit 12 also has a function of detecting and using stored information of the database unit 30 and updating the information generated through the use of the stored information in the database unit 30. In other words, the control unit 12 uses the stored information of the database unit 30 and also stores the newly generated or updated information in the database unit 30, which is also referred to in the description with reference to FIG. 1 have.

The 3D printing unit 20 includes a communication unit 25 and a control unit 26 for communicating with the communication unit 13 of the electronic device 10 and a cosmetic forming unit 27).

The configuration of the 3D printing unit 20 will be described in more detail with reference to FIG.

3 is a block diagram conceptually showing an embodiment of a 3D printer in a system for developing a cosmetic composition according to an embodiment of the present invention.

3, the 3D printing unit 20 may include a plurality of material storage units 21, a material supply unit 22, a 3D printer 23, a communication unit 25, and a control unit 26. The 3D printing unit 20 may further include a raw material supply adjusting unit 24. [

The raw material storage part 21 stores a plurality of raw materials of various colors for the production of the orthopedic cosmetic. The raw material storage part 21 has a plurality of raw material storage parts 21, The raw materials are discharged according to the direct or indirect control of the raw materials.

The raw material supply unit 22 is connected in parallel with the raw material discharge line of the raw material storage units 21 to feed the raw material discharged from the one or more raw material storage units 21 and includes a function of stirring the raw materials . This raw material supply unit supplies the internal raw materials to the 3D printer 23 to be described next, in accordance with the control signal of the control unit.

The 3D printer 23 receives the raw material from the raw material supply part 22 and forms a shaping cosmetic according to the control signal of the control part 26.

The communication unit 25 receives the output data of the electronic device 10 and inputs the data to the control unit 26. [

The control unit 26 receives the output data of the electronic device 10 from the communication unit 25 and controls the operations of the raw material storage unit 21, the raw material supply unit 22, and the 3D printer 23 according to the input data .

The raw material supply adjusting unit 24 integrally controls the raw material supplying operation of the raw material storing units 21 in accordance with the control signal of the controller 26. The control of the raw material storage units 21 of the raw material supply adjustment unit 24 is controlled by the control signal of the control unit 26, .

Next, referring to FIG. 4, a description will be given of a method of developing a shaping cosmetic composition according to an embodiment of the present invention.

4 is a flow chart showing a method of developing a cosmetic composition according to an embodiment of the present invention.

Prior to the description, the configuration of the electronic device, the 3D printer, the database, and the like in the present embodiment is based on the development system of the shaping cosmetics described with reference to Figs. 1 to 3, and therefore, The same reference numerals are used in place of the development system of the orthopedic cosmetic preparation described with reference to Figs. 1 to 3.

As shown in the figure, in step S110, one or two or more colorimetric information measured according to predetermined predetermined measurement criteria is input to the electronic device 10. [

In step S120, based on the colorimetry information input through step S110, the electronic device generates and outputs data for forming cosmetics.

In step S120, in addition to the one or two or more pieces of colorimetry information to which the electronic device 10 is input, the input amount of the corresponding raw material by color, the order and the amount of input of the color reference, A volume of a layer or a height of the layer, and a solubility of the material in each color, to generate data for forming a cosmetic composition.

In step S130, the cosmetics are manufactured in the 3D printer 20 in accordance with the data for forming the cosmetics output from the electronic device 10.

In step S140, the cosmetics manufactured through the 3D printer 20 are inspected.

In step S150, the identification information of the cosmetics passed through the inspection process of step S140 and the data generated in the electronic device 10 for formation are stored in the database unit 30 in the form of being mapped.

In step S150, the color information among the data for forming the cosmetics produced by the electronic device 10 is stored in the database unit 30 in a state in which the color information is mapped with one or two or more colorimetric information used for generating the corresponding data And a process of forming color combination data for producing orthopedic cosmetics may be included.

As can be seen from the above description of FIGS. 1 to 4, the system and method for developing a shaping cosmetic product according to the present invention is characterized in that the color is confirmed immediately upon development of a shaping cosmetic preparation and accordingly, In addition, when a color tone is required, it is possible to perform a coloring operation through an easy operation of changing data values using an electronic device and a 3D printer, and various data generated in the course of the operation are continuously updated As a result of the development of orthopedic cosmetics or new prescriptions and the construction of a database with a large amount of information for manufacturing orthopedic cosmetics, it is possible to precisely refer to the database thus constructed, Not only can it be done, La allow this rapid and precise color matching operations can be done very easily.

In addition, since various data generated in the course of the development of orthopedic cosmetics or new prescriptions and the manufacture of orthopedic cosmetics are cumulatively stored in a continuously updated manner to construct a database, It enables smart color matching, multicolor color molding, multisampling, molding with design printing, etc. in the process of developing a cosmetic or a new prescription and a manufacturing process of orthopedic cosmetic, and at the same time, the work can be performed quickly, accurately and easily.

As a result, it is possible to systematize toning data for the color of the cosmetic material, to improve the quality of the cosmetic composition, to provide a color chart for each category and accumulation of new type samples through database of cosmetic development prescription, The development of the cosmetics through the installation of the process innovation, time, convenience and accuracy are realized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments or constructions. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all the equivalents or equivalents of the claims, as well as the claims set forth below, fall within the scope of the present invention.

10: Electronic device 11: Input section
12: control unit 13:
14: storage unit 20: 3D printing unit
21: raw material storage part 22: raw material supply part
23: 3D printer 24: raw material supply adjustment section
25: communication unit 26:
27: Cosmetics forming unit 30: Database unit
40: Color difference meter

Claims

In addition to the one or two or more colorimetric information measured according to a certain measurement standard, the amount of the raw material, the order and the amount of the raw material to be color-referenced, the amount of laminated material or the height of laminate An input unit 11 for inputting at least two pieces of information of four kinds of information on the solubility of the raw material, data for forming a cosmetic composition based on the colorimetric information inputted through the input unit 11 and two or more pieces of information, An electronic device (10) comprising a control unit (12); And
And a 3D printing unit (20) for manufacturing a cosmetic composition in accordance with data output from the electronic device (10)
(14) or the electronic device (10) included in the electronic device (10) in such a manner that data for forming the cosmetics produced in the electronic device (10) Is stored in a separate database unit 30,
One or more colorimetric information input to the electronic device 10 and corresponding data output from the electronic device 10 are stored in the database unit 30 in a form mapped to each other, The colorimetric information measured on the raw materials for the preparation of the orthopedic cosmetic preparation or the new prescription and the manufacturing process of the orthodontic cosmetic preparation are accumulated and stored in a continuously updated manner,
The 3D printing unit 20
A plurality of raw material storage parts (21) for storing raw materials of a plurality of colors for producing the orthopedic cosmetic material and discharging raw materials stored in accordance with a control signal;
And a stirring device for stirring the raw materials to be introduced, which are connected in parallel with the raw material discharging line of the raw material storing parts (21) and discharged from one or two or more of the raw material storing parts (21) A raw material supply unit 22 for discharging raw materials;
A 3D printer 23 that receives a raw material from the raw material supply unit 22 and forms a shaping cosmetic material according to a control signal;
A communication unit (25) for receiving output data of the electronic device (10);
A control unit for receiving the output data of the electronic device 10 from the communication unit 25 and controlling the operation of the raw material storage unit 21, the raw material supply unit 22, and the 3D printer 23 according to input data 26);
And a raw material supply adjusting unit (24) for integrally adjusting the raw material discharging operation of the raw material storing units (21) according to a control signal of the controller (26).

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The method according to claim 1,
Characterized in that only the color information output from the electronic device (10) is mapped and stored in the database unit (30) with one or more corresponding colorimetric information input to the electronic device (10) .

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The method according to claim 1,
Wherein the electronic device (10) includes a function of adjusting the usage amount and the stacking height of each raw material to the same ratio in order to reduce the amount of raw materials used for forming the shaping cosmetic composition on the basis of one orthopedic cosmetic composition. Cosmetic development system.

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The method according to claim 1,
Wherein the measurement reference for obtaining the colorimetric information is a method of recognizing only the colorimetric information measured through the colorimeter (40) of the same kind as valid data.

In addition to the one or two or more colorimetric information measured according to a certain measurement standard, the amount of the raw material, the order and the amount of the raw material to be color-referenced, the amount of laminated material or the height of laminate Inputting at least two pieces of information out of the four pieces of information of the solubility of the raw material through the input unit (11) of the electronic device (10);
Generating data for creating cosmetics based on the colorimetric information and two or more pieces of information input through the input unit 11 by the control unit 12 of the electronic device 10 and outputting the data to the 3D printing unit 20 ;
A plurality of raw material storing parts 21 for storing raw materials of plural colors for the production of the shaping cosmetics respectively and discharging raw materials stored in accordance with a control signal, A raw material supply unit 22 including a function of stirring the raw materials discharged from the two or more raw material storage units 21 and discharging the internal raw materials according to a control signal from the raw material supply unit 22, A 3D printer 23 for receiving a raw material and forming a shaping cosmetics according to a control signal, a communication unit 25 for receiving output data of the electronic device 10, A controller 26 for receiving data and controlling operations of the raw material storage 21, the raw material supply 22 and the 3D printer 23 according to input data, and a controller 26 for controlling the operation of the control unit 26, The 3D printing unit 20 including the raw material supply adjusting unit 24 that integrally adjusts the raw material discharging operation of the raw material storing units 21 in accordance with the amount of the raw material, Producing cosmetics according to the data;
A step of inspecting the cosmetics manufactured through the 3D printing unit 20;
And storing the identification information of the cosmetics passed through the inspection process and the data generated in the electronic device (10) in a form mapped to the database unit (30) for formation thereof,
The identification information of the cosmetics passed through the inspection process and the data generated in the electronic device 10 for the formation thereof are mapped to the database unit 30,
The color information is stored in the database unit 30 in a state in which the color information is mapped with one or more colorimetric information used for generating the corresponding data in the data for forming the cosmetics produced in the electronic device 10, And forming a color combination data for forming the color combination data.

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