KR20170019132A - Method for manufacturing cosmetic case and cosmetic case manufactured by the same - Google Patents

Abstract

The present invention relates to a method for manufacturing a cosmetic container, and more specifically, relates to manufacturing a cosmetic container, which is made of ceramic material to emit far-infrared radiation and have sterilization effect while being safe for humans. Its natural cooling effect allows storage of raw material for cosmetics at room temperature. To achieve this purpose, the method for manufacturing a cosmetic container comprises: a step of mulling ceramic powder including at least one of alumina and zirconia with a high polymer material including polyethylene (PE), ethylene-vinyl acetate copolymer (EVA), polypropylene (PP), atactic polypropylene (APP), sulfonic acid (SA), dibutyl phthalate (DBP) and paraffin wax (PW); a mixing and agitating step of mixing the material through the mulling step with at least one additive of clay, illite and white clay and agitating the mixed material; and a container manufacturing step of processing the mixed and agitated material through the mixing and agitating step to produce a container.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for manufacturing a cosmetic container,

The present invention relates to a cosmetic container manufacturing method and a cosmetic container.

A typical cosmetic container is composed of an inner container and an outer container. Materials such as polypropylene (PP) and polyethylene (PE) are used for the inner container. PMMA, SAN and PS And the like are used. In addition, the outer container has various colors through processes such as coating, painting and plating.

In this way, with respect to conventional cosmetic containers, emphasis is given to harmlessness of the human body and polypropylene and polyethylene materials are used. However, polypropylene and polyethylene materials are also plastic materials. Therefore, The same harmful substance may be released.

The present invention relates to a method for producing a cosmetic container which is capable of storing cosmetic raw materials at room temperature due to its cold properties and has far infrared rays emission and sterilization effects as well as harmlessness of a human body by using a ceramic material and a cosmetic container made by the method to provide.

A method of manufacturing a cosmetic container according to an exemplary embodiment of the present invention includes the steps of forming a ceramic material containing at least one of alumina and zirconia as a base material on a polyethylene (PE), an ethylene ethylene vinyl acetate (EVA) Vinyl acetate copolymer, polypropylene (PP), atactic polypropylene (APP), sulfonic acid (SA), dibutyl phthalate (DBP) and paraffin wax (PW) a kneading step of kneading with a polymer material including wax; Mixing and stirring the mixed material through the kneading step with at least one additive selected from clay, illite and clay; And a container manufacturing step of manufacturing a container by processing the mixed and stirred material through the mixing and stirring step.

The method may further include a container combining step of using the container manufactured through the container manufacturing step as an inner container and combining the inner container with a pre-manufactured outer container.

The inner container includes an accommodating inner container for accommodating cosmetic contents and a cover inner container for covering the accommodating inner container, wherein the outer container includes an accommodating outer container coupled with the accommodating inner container, And a cover outer container coupled thereto.

The container manufacturing step may include a foreign matter removing step of selectively removing foreign substances from the mixed and stirred material through the mixing and stirring step; A pulverizing step of pulverizing the mixed and stirred material through the mixing and stirring step; A bubble removing step of removing bubbles from the pulverized material through the pulverizing step through back pressure adjustment; Forming a container structure by injection molding the material from which the bubbles have been removed through the bubble removing step; A degreasing and drying step of degreasing and drying the container structure formed through the container structure forming step; Performing a masonry operation on the dried container structure through the degreasing and drying step; A sintering and drying step of sintering and drying the container structure completed in the finishing operation step; And a pressing step of pressing the container structure dried through the sintering and drying step at a predetermined temperature and weight for a predetermined period of time.

In addition, the clay may include a yellow clay primary clay, a red secondary clay, a quartz and a germanium content quartz powder having a lower relative viscosity than the primary clay.

The light may be pulverized into a powder having a particle diameter within a range of 2 to 14 占 퐉 and then sterilized at 150 to 300 占 폚.

The clay is naturally dried at a moisture content of 3 to 8%, calcined at 1000 to 1600 캜 for a predetermined time, pulverized into powder having a particle diameter within a range of 10 to 70 占 퐉, It may be time-aged.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide an anti-allergy effect, an anti-inflammatory effect, an anti-inflammatory effect, an anti-inflammatory effect, an anti- It promotes differentiation, strengthens skin barrier function, improves skin wrinkles, and heals wounds. It can help skin to maintain elasticity and healthy skin.

1 is a flowchart illustrating a method of manufacturing a cosmetic container according to an embodiment of the present invention.
2A is a flowchart specifically showing a container manufacturing method.
2B is a flow chart specifically showing another method for producing a container.
FIGS. 3A to 3D are views showing the injection molding procedure of the injection molding machine according to the embodiment of the present invention.
FIG. 4A is a view showing a cosmetic container according to the container manufacturing method of FIG. 2A.
FIG. 4B is a view showing a cosmetic container according to the container manufacturing method of FIG. 2B.

The terms used in this specification will be briefly described and the present invention will be described in detail.

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.

When an element is referred to as "including" an element throughout the specification, it is to be understood that the element may include other elements as well, without departing from the spirit or scope of the present invention. Also, the terms "part," " module, "and the like described in the specification mean units for processing at least one function or operation, which may be implemented in hardware or software or a combination of hardware and software .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

1 is a flowchart illustrating a method of manufacturing a cosmetic container according to an embodiment of the present invention.

Referring to FIG. 1, a cosmetic container manufacturing method (S100) according to an embodiment of the present invention includes a ceramic material mixing step (S110), a ceramic material mixing and stirring step (S120), and a ceramic container making step (S130).

In the ceramic material kneading step (S110), the inner container of the cosmetic can be kneaded by adding a polymer material to the ceramic material as a raw material and kneading it through a ceramic exclusive kneader.

The ceramic material may include at least one of alumina and zirconia. The alumina and zirconia preferably have a purity of 99.9%.

Examples of the polymer material include polyethylene (PE), ethylene-vinyl acetate copolymer (EVA), polypropylene (PP), atactic polypropylene (APP) : sulfonic acid, dibutyl phthalate (DBP), and paraffin wax (PW).

In an embodiment of the present invention, 4.360 g of the alumina or zirconia, 260 g of the polyethylene (PE), 25 g of the ethylene-vinylene copolymer (EVA) -Vinyl Acetate Copolymer), 130.2 g of the polypropylene (PP), 78.2 g of the atactic polypropylene (APP), 78.2 g of the sulfonic acid (SA) 78.2 g of butyl phthalate (DBP: dibutyl phthalate) and 102 g of raffin wax (PW: paraffin wax) were kneaded at 180 ° C.

About one hour after the kneading, the ceramic kneader was opened, and the material in the kneader open portion was poured into the kneader and kneaded again for about one hour.

In the ceramic material mixing and stirring step (S120), the material mixed through the kneading step (S110) may be mixed and stirred with at least one functional additive selected from clay (loess), illite and clay.

Hereinafter, examples in which the functional additive is applied in the order of the clay (loess), illite and clay are described.

First, in the case of the functional additive including the clay (loess) (hereafter referred to as the first functional additive), the first functional additive is selected from the group consisting of anorthite clay (loess), rayon clay (loess), elvan, Powder.

In this embodiment, 55 to 65% by weight of the strong acid clay (loess), 25 to 35% by weight of the racemic clay (loess), 4 to 7% by weight of the elvan stone, 7 wt% were mixed to prepare the first functional additive.

The Anhang clay (loess) is produced in Anghang-eup, Gyeongju-ku, Gyeongbuk province, and it can be a yellow loess and a comparatively high loess. The rayon clay (loess) is produced in Gyeongju city, Gyeongbuk province, and it is preferable that it is a loess having a relatively low point of redness.

When the strong acid clay and the racemic clay are mixed and stirred with the ceramic material obtained through the ceramic material kneading step (S110), a ceramic raw material having a certain point of viscosity can be obtained. In this clay raw material itself, the far-infrared ray which is beneficial to the human body is continuously emitted. The germanium-containing gemstones are added in a predetermined amount in order to continuously increase the amount of far-infrared rays emitted from the ceramic raw material.

Secondly, in the case of a functional additive containing an illite (hereinafter referred to as a second functional additive), the illite is pulverized into a powder having a particle diameter within a range of 2 to 14 占 퐉, It is preferable that it is sterilized.

The illite is a kind of clay minerals having a chemical composition formula of K0.75 [Al1.75 (Mg.Fe2 +) 0.25] (Si3.50Al0.50) O10 (OH) 2, FeMg, belongs to monoclinic, hardness 1 ~ 2, specific gravity 2.6 ~ 2.9, color is white, gloss is earthy, junior is white, and cleavage is complete in one direction. Although it is very similar in chemical composition to muscovite, it is believed that the deficiency is supplemented with hydronium ions because of the lack of intercalation (interlayer) alkali ions.

The illite is used as a generic term for fine white mica and is not recognized as an independent mineral name because it contains different crystallographic properties as well as chemical composition. The illite is widely distributed mainly in shale, acidic volcanic rock, Mars clastic rock, metamorphic rocks of origin, and sedimentary rocks of pelitic origin.

Therefore, the illite refers to soft mica in the form of fine clay present in the sedimentary rock layer. The mica is a microbial mineral containing potassium and aluminum, which was first discovered in Illinois, USA, and was named "Ilright" after the province.

In addition, the illite is a translucent plate-like flake outside the multi-layer structure, and therefore has good elasticity on the skin and is not lumpy, so that it is excellent in adherence to the skin. In addition, it can adsorb and decompose various heavy metals and organic substances on the skin, activate the cells, enhance immunity, and enhance natural healing power. In addition, it has excellent antimicrobial antibacterial and antifungal effect and is already used as water quality improvement and treatment agent. It emits 93% far infrared rays at 40 ℃ and emits a large amount of negative ions.

In addition, since the illite is made of pure natural minerals, it has no toxicity and side effects, effectively removes organic substances or toxic substances from the skin, and acts as a pharmacological agent directly to the cells to increase the immunity, Function.

Third, in the case of the functional additive containing the clay (hereinafter referred to as the third functional additive), the third functional additive is naturally dried at a moisture content of 3 to 8%, fired at 1000 to 1600 ° C for a predetermined time, It is preferable that the pulverized powder is aged with charcoal for a predetermined time after it is pulverized into a powder having a particle diameter of 70 mu m.

The white clay provides nutrients such as vitamins, enzymes, lactic acid bacteria, albumin, complex amino acids and immunity components of the herbal active agent and colostrum to the skin by removing waste materials and supplying minerals according to the adsorption power, And anti-allergy, anti-inflammatory effect, promotion of differentiation of keratin, enhancement of skin barrier function, improvement of wrinkles of skin and wound healing effects on skin to help maintain skin elasticity and healthy skin. have.

The white clay is preferably aged clay as described above. The aged clay is naturally dried at a moisture content of 3 to 8%, and the naturally dried clay is calcined at 1000 to 1600 ° C for 10 to 24 hours. Thereafter, the calcined clay is pulverized, And collecting the white clay powder having a size of 70 탆 or less and aging the clay powder and the char in a container for 1 to 3 months.

In the ceramic container manufacturing step (S130), the mixed and stirred material may be processed through the mixing and stirring step (S120) to manufacture a container.

FIG. 2A shows a flow chart of the container manufacturing method.

Referring to FIG. 2A, a container manufacturing method (S130A) according to an embodiment of the present invention includes a foreign substance removing step S131a, a crushing step S132a, a bubble removing step S133a, a container structure forming step S134a, A degreasing and drying step S135a, a finishing operation step S136a, a sintering drying step S137a, and a pressing step S138a.

In the foreign substance removing step (S131a), the ceramic material mixed and stirred through the ceramic material mixing and stirring step (S120) is transferred to a foreign material separator through a conveyor, and foreign materials such as stones and glass fragments contained in the ceramic material are sorted And then removed.

In the pulverizing step (S132a), the ceramic material from which the foreign substance has been removed through the foreign substance removing step (S131a) may be transferred to the pulverizer through the conveyor, and then the ceramic material may be pulverized.

In the bubble removing step (S133a), the crushed ceramic material is transferred to the injection molding machine through the conveyor, and then the bubble is removed from the bubble between the particles of the ceramic material through the back pressure adjustment (1000 rpm) .

In the vessel structure forming step S134a, the ceramic material from which bubbles have been removed through the bubble removing step (S133a) can be passed through a mold of the injection molding machine to produce a ceramic container having a predetermined size and shape.

3A to 3D show the injection molding procedure of the injection molding machine according to the embodiment of the present invention.

Referring to FIG. 3A, an injection molding machine 1 according to an embodiment of the present invention may include a moving plate 10 and a fixing plate 20. The moving plate 10 may include a mold core 11, a motor 12, a power transmission belt 13, a coupling plate 14 and a spring 15. The fixing plate 20 may include a mold cavity 21 and an injection unit 22.

First, as shown in Fig. 3A, the moving plate 10 moves to the holding plate 20. Fig.

Next, as shown in FIG. 3B, a part of the mold core 11 of the moving plate 10 is located in the mold cavity 21 of the fixing plate 20 to form a frame for manufacturing a cosmetic container, A ceramic material (A) is injected into the mold cavity (21) through the injection part (22). At this time, the motor 12 rotates the mold core 11 through the power transmission belt 13, so that the portion located in the mold cavity 21 rotates, and the outer circumference or the inner circumference of the upper or lower end of the cosmetic container Thread or screw groove.

Next, as shown in Fig. 3C, the moving plate 10 is separated from the holding plate 20. Fig.

Next, as shown in Fig. 3D, the container structure A produced by the above injection molding is separated from the moving plate 10. Then, as shown in Fig.

In the degreasing and drying step (S135a), the container structure (A) manufactured through the container structure forming step (S134a) may be put into a degreasing drier and dried for about 4 days at 70 ° C to 950 ° C.

In the finishing operation (S136a), the fusing operation is performed on the four sides of the container structure A, which has been primarily dried, through the degreasing and drying step (S135a) to a predetermined size to remove the unnecessary portion A ' .

In the sintering and drying step (S137a), the container structure on which the finishing operation has been performed can be secondarily dried at 900 ° C to 1580 ° C for about 2 days.

In the pressing step S138a, a pressure of 1000 kg is applied under a temperature of 200 ° C to 1700 ° C for about one day by using a hot pressostatic press (HIP) facility to increase the strength of the container structure.

The inner container of cosmetics manufactured through such a method and process can be assembled with an outer container and completed with a cosmetic container.

The cosmetic container manufactured through the container manufacturing step (S130A) can be assembled with the inner container and a pre-manufactured outer container using the container as an inner container.

Fig. 4A shows a cosmetic container according to the container manufacturing method (injection molding) of Fig. 2A.

4A, the inner container 30 may include an accommodating inner container 31 for accommodating the cream type cosmetic contents and a cover inner container 32 for covering the accommodating inner container 31 . The outer container 40 may include an accommodating outer container 41 coupled with the accommodating inner container 31 and a cover outer container 42 coupled with the inner container 32. The accommodating inner container 31 is assembled to the receptacle outer container 41 and the inner cover container 32 can be assembled to the outer cover container 42 to complete one cosmetic container 50. [

The cosmetic container 50 continuously emits far-infrared rays beneficial to the human body, and can exert an excellent effect on the generation of bioenergy, acceleration of circulation of blood and improvement of skin on the human body of users.

2B is a flow chart specifically showing another method for producing a container.

Referring to FIG. 2B, the container making step S130B includes a foreign substance removing step S131b, a crushing step S132b, a bubble removing step S133b, a coating step S134b, a sintering drying step S135b and a pressing step S136b ).

In the foreign substance removing step (S131b), the ceramic material mixed and stirred through the ceramic material mixing and stirring step (S120) is transferred to a foreign material separator through a conveyor, and foreign substances such as a stone and a glass piece contained in the ceramic material are sorted And then removed.

In the crushing step (S132b), the ceramic material from which the foreign substance has been removed through the foreign substance removing step (S131b) may be transferred to the crusher through the conveyor, and then the ceramic material may be crushed.

In the bubble removing step (S133b), the crushed ceramic material is transferred to the injection molding machine through the conveyor through the crushing step (S132b). Thereafter, the bubble is removed from the bubble between the particles of the ceramic material .

In the coating step S134b, the ceramic material from which air bubbles have been removed through the bubble removing step S133b is coated on the inner surface of the outer container 41 of cosmetics with a constant thickness by using the coater 2 as shown in FIG. 4B can do.

In the sintering and drying step (S135b), the inner surface of the cosmetic container 41 coated through the coating step (S134b) may be secondarily dried at 900 ° C to 1580 ° C for about 2 days.

In the pressing step (S136b), the strength may be increased by applying pressure to the coated portion under a predetermined temperature.

The cosmetic container manufactured according to the embodiment of the present invention exhibits an excellent effect on moisturizing power and skin improvement after use of cosmetics by continuously emitting far infrared rays beneficial to the human body and supplying nutrition such as sterilizing effect and immunity to the skin, Anti-allergic action, anti-inflammatory effect, promotion of differentiation of keratin, enhancement of skin barrier function, improvement of wrinkles of skin, and wound healing can be given to skin to help maintain skin elastic and healthy.

The present invention is not limited to the above-described embodiment, but may be embodied in various forms without departing from the spirit or scope of the following claims. For example, It will be understood by those of ordinary skill 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 in the appended claims.

1: Injection molding machine 2: Coater
10: moving plate 11: mold core
12: motor 13: power transmission belt
14: engaging plate 15: spring
20: Fixing plate 21: Mold cavity
22:

Claims (8)

The ceramic material containing at least one of alumina and zirconia is selected from the group consisting of polyethylene (PE), ethylene-vinyl acetate copolymer (EVA), polypropylene (PP) A kneading step of kneading with a polymer material comprising atropic polypropylene (APP), sulfonic acid (SA), dibutyl phthalate (DBP) and paraffin wax (PW);
Mixing and stirring the mixed material through the kneading step with at least one additive selected from clay, illite and clay; And
And a container manufacturing step of manufacturing a container by processing the mixed and stirred material through the mixing and stirring step. The method according to claim 1,
The method of manufacturing a cosmetic container according to claim 1, further comprising a container combining step of combining the container manufactured through the container manufacturing step with the inner container and a pre-manufactured outer container. 3. The method of claim 2,
Wherein the inner container comprises an accommodating inner container for accommodating the cosmetic contents and a cover inner container for covering the accommodating inner container,
Wherein the outer container includes a receiving outer container coupled with the receiving inner container and a cover outer container coupled with the inner container. The method according to claim 1,
In the container manufacturing step,
A foreign matter removing step for selectively removing foreign matters from the mixed and stirred material through the mixing and stirring step;
A pulverizing step of pulverizing the mixed and stirred material through the mixing and stirring step;
A bubble removing step of removing bubbles from the pulverized material through the pulverizing step through back pressure adjustment;
Forming a container structure by injection molding the material from which the bubbles have been removed through the bubble removing step;
A degreasing and drying step of degreasing and drying the container structure formed through the container structure forming step;
Performing a masonry operation on the dried container structure through the degreasing and drying step;
A sintering and drying step of sintering and drying the container structure completed in the finishing operation step; And
And pressing the container structure dried at the sintering and drying step at a predetermined temperature and weight for a certain period of time. The method according to claim 1,
Preferably,
A yellow clay first clay, a second clay having a red color and a lower viscosity than the first clay, a quartz stone, and a germanium content gemstone powder. The method according to claim 1,
The above-
Characterized in that it is pulverized into a powder having a particle diameter in the range of 2 to 14 占 퐉 and then sterilized in the range of 150 to 300 占 폚. The method according to claim 1,
The clay,
Dried at a moisture content of 3 to 8%, calcined at a temperature of 1000 to 1600 DEG C for a predetermined time, pulverized into powder having a particle diameter of 10 to 70 mu m, and then pulverized powder is aged with charcoal for a predetermined time ≪ / RTI > A cosmetic container made by the method of any one of claims 1 to 7.

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