KR102274598B1 - Nanofiber Mask sheet composed of soluble and insoluble polymers - Google Patents

Abstract

The present invention relates to a mask sheet manufactured using a water-soluble polymer and a water-insoluble composite fiber formed by a simultaneous electrospinning method. More specifically, as a mask sheet made of a single layer, a composite fiber formed of a water-soluble polymer and a water-insoluble polymer forms a single layer, a nanofiber mask sheet. and to a method for manufacturing the same.
According to the present invention, it is possible to provide a mask sheet made of only nanofibers that are not bonded to a support such as a nonwoven fabric and a mesh. Therefore, a separate process for including the support (eg, a composite process between the nanofiber and the support) is not required. In addition, all the disadvantages caused by such a support (eg, thickening of the mask sheet, peeling between the support and the nanofiber, non-uniformity of the nanofiber, use of an adhesive, etc.) are eliminated. In addition, the mask sheet made of water-soluble and water-insoluble composite fibers has an excellent ability to suppress evaporation of moisture in the skin, has excellent skin permeability of active ingredients, and has a remarkable effect in covering skin defects.

Description

Nanofiber Mask sheet composed of soluble and insoluble polymers

The present invention relates to a nanofiber mask sheet and a method for manufacturing the same.

Recently, the mask sheet has made rapid growth in the cosmetic industry. Mask sheets are growing every year not only in Korea but also in overseas markets, especially in China, and mask sheets are one of the most popular items in the cosmetic field.

The initially developed mask sheet was a cotton mask sheet using non-woven fibers such as rayon and polypropylene and natural fibers. When such a material is used, the cosmetic liquid impregnated in the mask sheet flows down from the face, making it inconvenient to use.

The hydrogel mask pack prevents the liquid from flowing down and improves skin adhesion compared to the existing mask sheet, but it has the disadvantage of causing skin irritation due to the synthetic cross-linking agent, and it has the inconvenience of giving a heavy feeling on the skin due to its thick thickness. .

Bio-cellulose is a material made using a microbial culture process, and by utilizing the high specific surface area of the microstructure with a diameter of 10 mm, it absorbs a larger amount of active ingredients compared to the existing mask sheet, thereby improving the absorption rate into the skin. . However, there were disadvantages in that the conditions of the microbial culture environment were difficult and the manufacturing period was long.

Accordingly, in order to solve the above-mentioned disadvantages and to differentiate the user's emotional quality and the efficacy of the cosmetic mask, there is a need to develop a new type of various mask sheets.

Korean Patent Registration No. 10-1164947 discloses a nanofiber manufactured by electrospinning. The nanofibers manufactured in this patent are composited with a base material such as a nonwoven fabric. However, the nanofibers have difficulties in handling due to disadvantages such as strength and physical properties, and are sometimes spun on a base material that serves as a support. In this case, additional processes such as calendering are used to prevent delamination between the nonwoven fabric and the fibers. try to overcome the shortcomings. However, the use of such a support has a disadvantage in that the nanofibers are not uniformly produced due to the influence on the electrostatic field, and when the support is not used, there is a problem in that the thickness of the entire fiber is thickened by manufacturing a high basis weight fiber.

In addition, Korean Patent Registration No. 10-2011-080066 also composites the nonwoven fabric and the nanofiber layer. For this complexation, a chemical adhesive or the like or a process such as lamination, thermal bonding, or ultrasonic bonding is required. Therefore, there is a disadvantage that a significant amount of harmful substances may be generated during this process. In addition, when an adhesive or the like is not used, peeling between the nonwoven fabric and the nanofiber layer occurs easily at room temperature. In addition, in the case of a generally used nonwoven fabric or metal thin film, it is difficult to obtain nanofibers having a uniform structure due to the repulsive force with the fibers, and aggregation of the fibers occurs.

In addition, Korean Patent Registration No. 10-1454421 discloses a self-melting mask sheet. The range of the mask sheet basis weight is 10 - 50 gsm, and it is disclosed that there is a problem in handling due to the thin film at 10 gsm or less.

The problem to be solved by the present invention is to provide a mask sheet made of only nanofibers that are not bonded to a support such as a nonwoven fabric and a mesh.

More specifically, as a mask sheet made of a single layer, a composite fiber formed of a water-soluble polymer and a water-insoluble polymer forms a single layer, to provide a nanofiber mask sheet.

In addition, using a composite fiber formed by simultaneous spinning of a water-soluble polymer and a water-insoluble polymer by a simultaneous electrospinning method, a mask sheet consisting of a single layer, wherein the composite fiber formed of a water-soluble polymer and a water-insoluble polymer forms a single layer To provide a method for manufacturing a fiber mask sheet.

More specifically, (S1) dissolving a water-soluble polymer and a water-insoluble polymer in a solvent to prepare a water-soluble polymer solution and a water-insoluble polymer solution, and

(S2) to provide a method of manufacturing a nanofiber mask sheet, including the step of simultaneously spinning a water-soluble polymer solution and a water-insoluble polymer solution by an electrospinning method.

In order to solve the above problems, the present invention provides a mask sheet made of a single layer, and a composite fiber formed of a water-soluble polymer and a water-insoluble polymer to form a single layer, a nanofiber mask sheet. Preferably, the mask sheet according to the present invention has a basis weight of 10 gsm or less.

The present inventors solve many problems caused by supports such as nonwoven fabrics and meshes used in mask sheets, and at the same time, after making great efforts to manufacture a mask sheet made of only nanofibers, using simultaneous electrospinning, water-insoluble polymers and A composite fiber formed of a water-soluble polymer was prepared, and the non-water-soluble polymer took the role of a support without using a separate support, thereby solving the problem caused by the support and at the same time completing the manufacture of a nanofiber mask sheet exhibiting excellent skin permeability.

In the specification according to the present invention, the term "mask sheet" is a device for impregnating useful ingredients and, in some cases, delivering useful ingredients to the skin surface or inside.

The term “mask” means to be used for the body of a mammal (eg, a human), and the sheet use is not limited to the face, and may be used, for example, on hands and feet.

The shape and size of the sheet can be appropriately adjusted by a person skilled in the art in consideration of the feeling of use, the fit, the application site, and the target. For example, a sheet designed to cover the entire face or a sheet divided into two sheets, under the eyes/ There are various shapes such as a sheet tailored to a specific part such as the eye/mouth area, but is not limited thereto.

The basis weight of the sheet refers to the weight per predetermined area of the sheet, and refers to the weight of the sheet with an area of ^{1 m 2 .} "gsm (grams per square metre)" is used as the unit for indicating the basis weight, and if a 100mm x 100mm mask sheet is 10 gsm, it can be seen that the weight of the mask sheet is about 0.1 x 0.1 x 10 = 0.1 g. The mask sheet according to the present invention preferably has a basis weight of 10 gsm or less, for example, it may have a basis weight of 7 gsm or less, or 5 gsm or less. By having a basis weight of 10 gsm or less, it is possible to provide a refreshing feeling of use.

In the mask sheet according to the present invention, a material commonly used as a support for the mask sheet, for example, coconut sheet (Bio-Cellulose), microfiber, cupra, rayon, nonwoven fabric (Spunlace), Cotton non-woven fabric (Cotton), pulp (Pulp), coated fabric, paper, mesh fiber and metal thin film are not included.

In the mask sheet according to the present invention, a composite fiber formed of a water-soluble polymer and a water-insoluble polymer, which will be described later, forms one layer (single layer), and does not include a separate layer made of other materials. However, as used herein, the term "layer" is a concept that is differentiated according to the material, and a composite fiber formed of a water-soluble polymer and a water-insoluble polymer in multiple layers is also regarded as a single layer (single layer). In the case of forming multiple layers, the type of water-soluble polymer and/or water-insoluble polymer used may be the same or different for each layer.

In the specification according to the present invention, the term "conjugated fiber formed of a water-insoluble polymer and a water-soluble polymer" refers to a fiber of a composite form in which a water-insoluble polymer and a water-soluble polymer are not limited in order, shape, etc., and the specification according to the present invention The terms "water-insoluble and water-soluble composite fiber" or "water-soluble and water-insoluble composite fiber" are also used synonymously in

The water-insoluble and water-soluble composite fibers may be prepared by various methods known in the art, but are preferably prepared by electrospinning.

The electrospinning method is a technology capable of manufacturing fibers having a size of several micrometers to several nanometers by charging a polymer solution using an electric field. Compared to the existing template synthesis, phase separation, and self-assembly methods using an electric field, the manufacturing method and apparatus are simple, and various properties can be exhibited depending on the composition ratio of the polymer material. fibers can be produced. Fibers obtained by electrospinning are very flexible and have a high specific surface area, so they have the advantage of being widely used in various fields such as filters, biomaterials, electronic devices, conductive nanofibers, sensors, catalysts, and mask sheets. In particular, in the case of a mask sheet, skin adhesion is increased by using a large specific surface area of nanofibers, and there is an advantage in that a larger amount of drug can be delivered.

As a water-soluble polymer that forms water-insoluble and water-soluble composite fibers according to the present invention, various water-soluble polymers that are harmless to the human body and are used for manufacturing mask sheets in the future and will be developed for manufacturing mask sheets in the future can be selectively used, for example, poly Any selected from the group consisting of vinyl alcohol, polyvinyl pyrrolidone, polyethyl oxide, polycaprolactone, polyacrylic acid, collagen, gelatin, hyaluronate, hydroxyethyl cellulose, methyl cellulose, ethyl cellulose, chitosan, chitin One or more may be used, and polyvinyl alcohol (PVA) may be preferably used.

In the present invention, the water-soluble polymer is included in 20-50% by weight relative to the total weight of the mask sheet, and when it is included in less than 20% by weight, the water-soluble drug collection efficiency is low, and there is a problem because the skin adhesion of the sheet is low, 50 When included in more than weight %, there is a problem in that the sheet is easily melted by the external humid environment and it is difficult to maintain the structure of the nanofiber.

In addition, as the water-insoluble polymer forming the water-insoluble and water-soluble composite fiber according to the present invention, various water-insoluble polymers that are harmless to the human body and used for the manufacture of ordinary mask sheets and to be developed for the manufacture of mask sheets in the future can be selectively used. For example, polyamide, polyethylene terephthalate, polytrimethylene terephthalate, polyurethane, polyvinyl chloride, polymethyl methacrylate, polystyrene, polyacrylonitrile, polycarbonate, polyvinylidene fluoride selected from the group consisting of Any one or more may be used, and polyvinylidene fluoride (PVDF) may be preferably used.

In the present invention, the water-insoluble polymer is included in 50 to 80% by weight relative to the total weight of the mask sheet, and when it is included in less than 50% by weight, it is difficult to maintain the structure of the sheet, and when it is included in more than 80% by weight, skin adhesion is reduced. There is a problem that the moisture loss of the sheet proceeds more rapidly.

In the present invention, the weight ratio of the water-soluble polymer to the water-insoluble polymer may be 30:60 to 80, more preferably 30:65 to 75, and most preferably 30:70. In the case of less than 30:60 or more than 30:80, there is a problem in that the water-soluble fiber structure is destroyed or the skin adhesion is deteriorated.

The mask sheet according to the present invention may include various dermatologically or cosmetically effective ingredients known in the art (hereinafter referred to as useful ingredients). The useful component may include, for example, a component for improving or improving skin function, a component for suppressing aggravation of skin condition, or a component for supplementing the disadvantages or highlighting the strength of the skin.

In addition, the mask sheet according to the present invention may include various components included in a conventional mask sheet in addition to the useful components. For example, all dispersants, thickeners, surfactants, preservatives, humectants, stabilizers, solubilizers, pigments and fragrances, etc. may include all materials commonly used in the mask sheet.

Various components including the useful components that may be included in the mask sheet according to the present invention described above may be included in the mask sheet by various methods known in the art, for example, in the step of forming the composite fiber of a water-soluble polymer and a water-insoluble polymer It may be included, and may be included in a method of impregnating the manufactured composite fiber, but is not limited thereto. According to one example, if these components are water-soluble components, they are dissolved together with a water-soluble polymer in a solvent for dissolving the water-soluble polymer, and if they are water-insoluble components, they are dissolved together with a water-insoluble polymer in a solvent for dissolving the water-insoluble polymer, and then the water-soluble polymer When a solution or a water-insoluble polymer is co-electrospinning, it can be electrospun together.

As a single-layer mask sheet according to the present invention, the composite fiber formed of a water-soluble polymer and a water-insoluble polymer forms a single layer, a nanofiber mask sheet can be manufactured including the following steps.

(S1) dissolving a water-soluble polymer and a water-insoluble polymer in a solvent to prepare a water-soluble polymer solution and a water-insoluble polymer solution, and

(S2) simultaneously spinning a water-soluble polymer solution and a non-aqueous polymer solution by an electrospinning method.

Each step will be described in more detail.

(S1) preparing a water-soluble polymer solution and a water-insoluble polymer solution by dissolving a water-soluble polymer and a water-insoluble polymer in a solvent, respectively

The water-soluble polymer is dissolved using a water-soluble solvent. The water-soluble solvent includes, for example, water, a lower carbon alcohol having 1 to 4 carbon atoms, or a mixture thereof, but is not limited thereto. Preferably, a solvent with excellent volatility that is easily volatilized and does not remain on the mask sheet is used during and after the spinning process.

The water-insoluble polymer is dissolved using an organic solvent. The non-aqueous solvent includes, for example, dimethylacetamide and the like, but is not limited thereto. Preferably, a solvent with excellent volatility that is easily volatilized and does not remain on the mask sheet is used during and after the spinning process.

(S2) Simultaneous spinning of a water-soluble polymer solution and a non-aqueous polymer solution by an electrospinning method

Electrospinning is used. After filling the water-soluble polymer solution and the non-aqueous polymer solution prepared in (S1) above, a voltage is applied, and simultaneous spinning is performed.

When the water-soluble polymer solution and the non-aqueous polymer solution are filled, when various components that may be included in the mask sheet are included, they may be filled together with the polymer solution.

According to the present invention, it is possible to provide a mask sheet made of only nanofibers that are not bonded to a support such as a nonwoven fabric and a mesh.

The mask sheet according to the present invention does not include a separate support, and therefore, a separate process for including the support (eg, a composite process of nanofibers and a support) is not required. In addition, all of the disadvantages (eg, thickening of the mask sheet, peeling between the support and the nanofibers, non-uniformity of the nanofibers, the use of an adhesive, etc.) caused by such a support are eliminated.

In addition, the mask sheet made of the composite fiber formed by the water-insoluble polymer and the water-soluble polymer according to the present invention is excellent in the ability to suppress the evaporation of moisture in the skin, the skin penetration of the active ingredient is excellent, and it covers the skin imperfections. It also has a remarkable effect.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the above-described invention, so the present invention is not limited to the matters described in those drawings and should not be construed .
1 shows an embodiment of an electrospinning apparatus.
2 is a graph showing the skin permeation amount of the active ingredient using a Franz diffusion cell, in contrast to the water-soluble fiber formed only with the water-soluble polymer and the composite fiber formed from the water-soluble polymer and the water-insoluble polymer (water-soluble fiber + water-insoluble fiber).
3 is a photograph showing a result of applying a mask sheet prepared according to a specific embodiment of the present invention to a finger.

Hereinafter, examples and the like will be described in detail to help the understanding of the present invention. However, the embodiments according to the present invention may be modified in various other forms, and the scope of the present invention should not be construed as being limited to the following examples. The embodiments of the present invention are provided to more completely explain the present invention to those of ordinary skill in the art.

Example 1. Manufacture of mask sheet by electrospinning

1-1. Preparation of water-soluble fiber mask sheet using water-soluble polymer

Polyvinyl alcohol, a water-soluble polymer, was completely dissolved in an ethanol solution (distilled water:ethanol = 9:1) at 60° C., and the final solid content was 15 wt%. Electrospinning was performed at a voltage of 35 kv, a distance between a nozzle and a collector of 20 cm, a relative humidity of 30%, and a temperature of 25 °C as the conditions of the electrospinning apparatus.

1-2. Manufacture of composite fiber mask sheet formed of water-soluble polymer and water-insoluble polymer

Polyvinyl alcohol, a water-soluble polymer, was completely dissolved in an ethanol solution (distilled water:ethanol = 9:1) at 60°C, and the final solid content was 10 wt%. Polyvinylidene fluoride, a water-insoluble polymer, was completely dissolved using dimethylacetamide, and the final solid content was 5 wt%. The conditions of the electrospinning equipment were 35 kv voltage, 20 cm distance between nozzle and collector, 30% relative humidity, and 25 °C temperature.

1-3. Manufacture of mask sheet with useful ingredients added

According to the properties of the useful components, that is, hydrophilicity or lipophilicity, they were used by dissolving the water-soluble polymer solution or the water-insoluble polymer solution together.

1-4. Electrospinning device operation (FIG. 1)

After filling the water-soluble polymer solution and the non-aqueous polymer solution using each metering pump, a voltage was applied using a power supply. At this time, the range of the voltage used was within the range of 1-100Kv, and the collector was grounded and charged before use. The distance between the nozzle and the collector is 10~30cm, so it can be used with proper manipulation. When operating the device, temperature and humidity were freely adjusted according to the conditions of the volatilized solvent.

Example 2. Skin absorption enhancement test by shielding effect (Fig. 2)

Using a Franz diffusion cell equipped with pig skin, the skin permeation amount of the active ingredient of the water-soluble fiber and the water-soluble and water-insoluble composite fiber prepared according to the above-described method was investigated.

The useful ingredient used in this test was rhodamine-b, a fluorescent substance.

After applying the essence formulation containing 500 ppm of rhodamine-b to pig skin, the sheet prepared above was attached to the skin surface, and after 6 hours, the content of rhodamine by skin area was analyzed through UV. . As described in 1-3. above, rhodamine-B was dissolved together during the preparation of the polymer solution, and then electrospun together with the polymer to prepare fibers.

Polyvinyl alcohol was used for the water-soluble polymer, and polyvinylidine fluoride was used for the water-insoluble polymer, 1-1. and 1-2., a water-soluble fiber mask sheet and a water-soluble and water-insoluble composite fiber mask sheet were prepared, and the basis weight of each was prepared and used based on 5 gsm.

Pig skin tissue was recovered after 24 hours by attaching water-soluble fibers and water-soluble light-insoluble composite fibers to the pig skin, and the epidermis and dermis were separated and extracted with a solvent to measure the absorbance of rhodamine-ratio, rhodamine- The skin permeation amount of the rain was compared.

The results are shown in FIG. 2 . Compared to water-soluble fibers, when water-soluble and water-insoluble composite fibers were used, it was confirmed that the amount of skin permeation of rhodamine-B, an useful component, was significantly higher.

Example 3. on the basis followed feeling Test

1-2. We divided the composite fiber mask sheet prepared in 4 conditions into basis weights (5, 10, 15, and 20 gsm) and conducted a feeling test for stickiness with 20 test subjects.

After applying the essence to the test subject's skin in advance, a composite fiber mask sheet was immediately applied, and then the degree of stickiness was indicated according to a five-point scale method.

basis weight Degree of stickiness (the higher the number, the stronger the stickiness) One 2 3 4 5 5 gsm 16 3 One - - 10 gsm 7 8 4 One - 15 gsm - 6 10 3 One 20 gsm - - One 4 15

Unit: (person)

As a result, as can be seen from Table 1, it was confirmed that the stickiness was significantly reduced in the mask sheet prepared with a basis weight of 10 gsm or less, thereby giving a refreshing feeling of use.

Example 4. Skin blemishes coverage test (Fig. 3)

1-2. After applying the composite fiber mask sheet prepared in .

As a result, as can be seen in FIG. 3 , when the composite fiber mask sheet was applied, a polymer film was formed, while transparency was naturally maintained, and it was confirmed that only the wrinkles of the fingers were hidden.

Example 5. Transparency test

1-2 with the conditions according to Table 2. Using the composite fiber mask sheets prepared in the same manner as in , a degree of transparency test was performed.

After applying the same amount of the essence formulation to the slide glass, a mask sheet was attached. The degree of transparency of the sheet was visually compared by whether the text under the slide glass was visible before, after, and 30 minutes after using the essence. In addition, the reduction rate was compared through the number of pores found before and 30 minutes after using the sheet on the cheek area.

As can be seen from Table 2, when the water-soluble-water-insoluble composite fiber mask sheet was used, it was confirmed that the number of pores was reduced by 60% or more compared to the initial stage. In addition, it was confirmed that the degree of transparency almost similar to immediately after use was confirmed even when 30 minutes had elapsed after use, and thus it was found that the composite fiber mask sheet prevented moisture in the skin from evaporating to the outside.

Claims (9)

A mask sheet made of a single layer, wherein a composite fiber formed of a water-soluble polymer and a water-insoluble polymer forms a single layer,
The water-soluble polymer is polyvinyl alcohol,
The water-insoluble polymer is polyvinylidene fluoride,
The weight ratio of the water-soluble polymer and the water-insoluble polymer is 30:60-80 (water-soluble polymer: water-insoluble polymer),
The water-soluble polymer is 20 to 50% by weight based on the total weight of the mask sheet,
The water-insoluble polymer is 50 to 80% by weight of the total weight of the mask sheet nanofiber mask sheet.
delete delete delete delete delete The nanofiber mask sheet according to claim 1, wherein the mask sheet contains at least one useful component.
The nanofiber mask sheet according to claim 1, wherein the mask sheet has a basis weight of 10 gsm or less.
(S1) dissolving a water-soluble polymer and a water-insoluble polymer in a solvent to prepare a water-soluble polymer solution and a water-insoluble polymer solution, and
(S2) simultaneously spinning a water-soluble polymer solution and a non-aqueous polymer solution by electrospinning
In the manufacturing method of a nanofiber mask sheet comprising, as a single-layer mask sheet, wherein the composite fiber formed of a water-soluble polymer and a water-insoluble polymer forms a single layer,
The water-soluble polymer is polyvinyl alcohol,
The water-insoluble polymer is polyvinylidene fluoride,
The weight ratio of the water-soluble polymer and the water-insoluble polymer is 30:60-80 (water-soluble polymer: water-insoluble polymer),
The water-soluble polymer is 20 to 50% by weight based on the total weight of the mask sheet,
The method for producing a nanofiber mask sheet wherein the water-insoluble polymer is 50 to 80 wt% based on the total weight of the mask sheet.

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